CN219591799U - Aluminum foil annealing furnace skip power supply device - Google Patents

Abstract

The utility model relates to a skip power supply device of an aluminum foil annealing furnace, which comprises a skip and a power supply, wherein the skip comprises a driving motor and a frame, a power supply mechanism is arranged between the power supply and the driving motor, the power supply mechanism comprises a guide groove, a seamless sliding wire and a power receiver, the guide groove is of a strip-shaped groove body structure, a concave side plate of the guide groove is fixedly provided with the seamless sliding wire, the upper end of the guide groove is equidistantly hinged with a plurality of sealing covers, and the seamless sliding wire is electrically connected with the power supply; the current collector is electrically connected with the seamless sliding wire, a connecting mechanism is arranged in front of the current collector and the skip car, and the current collector is electrically connected with the driving motor through a lead; the connecting mechanism is fixedly connected with a turning plate mechanism; the guide slot is provided with a flanging, the guide slot is arranged underground, and the flanging is fixed with the ground. The utility model is provided with the guide groove, the seamless sliding wire is arranged in the guide groove, the current collector electrically connected with the seamless sliding wire is arranged, the current collector is fixed with the skip car, and the current collector moves along the guide groove along with the skip car without cable wiring, thereby avoiding potential safety hazards and being convenient to use.

Description

Aluminum foil annealing furnace skip power supply device

Technical Field

The utility model relates to the field of aluminum foil production, in particular to a power supply device for an aluminum foil annealing skip car.

Background

In the aluminum foil production process, the finished product cut by the splitting machine is required to be put into an annealing furnace for heating to a certain temperature to change the performance of the aluminum foil and remove the rolling oil remained on the surface, so that the process use requirement of downstream customers is met. After slitting, the coil is placed on a special annealing material rack, the annealing material rack is lifted to a special charging and discharging material car by a crown block, the coil is fed into a furnace for heating and annealing, the coil is pulled out by the material car after annealing, the cart of the material car can move left and right, the cart can move back and forth, the accurate alignment of a track in the furnace is realized, and charging and discharging are carried out. The cart and trolley of the skip car are driven by the motor, so that the feeding car is required to supply power.

The traditional power supply mode is that a cable drum is adopted for supplying power, one end of a cable is fixed on the ground during power supply, the cable drum at the other end is installed on a skip car, and the cable drum is wound and unwound along with the skip car to realize power supply.

In actual production, a plurality of skip cars work simultaneously, so that cables are easy to intertwine, the cables are easy to stretch and age after long-term use, and power supply faults are caused by internal breakage of the cables. In addition, the cables are paved on the ground to influence the passing staff, and when the field workers push the handcart to pass, the cables are carelessly and easily crushed, so that potential safety hazards exist.

Therefore, a new skip power supply device is needed to solve the problem that a plurality of skip reels wind cables during operation, and the cables are pulled for a long time to supply power in a broken mode.

Disclosure of Invention

The utility model provides a power supply device for an aluminum foil annealing furnace skip car, which solves the problems of potential safety hazard and inconvenient use of the existing power supply device, is provided with a guide groove, is internally provided with a seamless sliding wire, is provided with a power receiver electrically connected with the seamless sliding wire, is fixed with the skip car, moves along the guide groove along with the skip car, does not need cable wiring, avoids potential safety hazard and is convenient to use.

In order to achieve the above object, the technical scheme of the present utility model is as follows:

the utility model provides an aluminium foil annealing furnace charge car power supply unit, includes skip and power, the skip includes driving motor and frame, be provided with power supply mechanism between power and the driving motor, power supply mechanism includes guide slot, seamless slide wire and current collector, the guide slot is rectangular cell body structure, the curb plate of guide slot indent is fixed to be set up seamless slide wire, the upper end equidistance of guide slot articulates has a plurality of closing caps, seamless slide wire and power electric connection;

the power receiver is electrically connected with the seamless sliding wire, a connecting mechanism is arranged in front of the power receiver and the skip car, and the power receiver is electrically connected with the driving motor through a lead;

the connecting mechanism is fixedly connected with a turning plate mechanism;

the guide slot is provided with a flanging, the guide slot is arranged underground, and the flanging is fixed with the ground.

When the skip car moves, the current collector moves on the seamless sliding wire, and the current collector is electrically connected with the seamless sliding wire all the time to supply power for the driving motor. When the skip car moves, the flap mechanism turns over the sealing cover, the skip car continuously moves forward, and when the skip car leaves the current position, the sealing cover is closed and reset by gravity. Need not the cable connection, avoid the potential safety hazard and use convenient.

Further, the connecting mechanism comprises a connecting section and a mounting section, the connecting section is of a combined structure of II shape and I shape, and the upper end of the connecting section is fixed with the frame.

The II-shaped structure of the connecting section is provided with two fixed contact points with the frame, and the frame is welded and fixed with the connecting section.

Further, the installation section is of an I-shaped structure, the installation section extends into the inner side of the guide groove, the lower end of the installation section is fixed with the current collector, and the contact point of the current collector is contacted with the seamless sliding wire; the installation section and the connection section are of an integrated structure.

The I-shaped connecting section is convenient to extend into the guide groove.

Further, the sealing cover is a square plate body, and the length of the sealing cover is larger than the width of the guide groove.

When the skip passes the rear sealing cover, the sealing cover automatically resets and completely covers the guide groove.

Further, the panel turnover mechanism comprises a top plate, wherein the top plate is of a fan-shaped structure, and two ends of the top plate extend outwards horizontally; the top end of the inner side surface of the top plate is fixed with the straight-line-shaped part of the connecting section through bolts.

When the top plate is contacted with the sealing cover, the extending end passes through the bottom end of the sealing cover, and then the top plate is gradually jacked up, so that the connecting section can conveniently pass through the guide groove.

Through the technical scheme, the utility model has the beneficial effects that:

(1) The utility model does not need to adopt a cable when supplying power for the skip car, and the power supply device main body is arranged underground, so that the operation is convenient and the use is safe. The guide groove is arranged underground, the seamless sliding wire and the power receiver are arranged in the guide groove, the power receiver is fixed with the frame through the connecting mechanism, when the skip moves, the power receiver moves along with the skip, and the power receiver is always in contact with the seamless sliding wire, so that a power supply loop of the driving motor is always in an electrified state, and power is supplied to the operation of the skip. No cable is needed for this ground.

(2) The guide groove provided by the utility model is hinged with a plurality of sealing covers, and the upper end opening position of the guide groove is sealed by the sealing covers in an initial state, so that the seamless sliding wire is protected. Meanwhile, a plate turnover mechanism is arranged to move along with the skip car, the plate turnover mechanism jacks up the sealing cover at the position of the skip car to meet the requirement of power supply operation, and the sealing cover is reset by gravity after the skip car passes, so that the seamless sliding wire is continuously protected.

Drawings

FIG. 1 is a schematic diagram of a power supply device for an aluminum foil annealing furnace skip in accordance with the present utility model;

FIG. 2 is a second schematic diagram of a power supply device for an aluminum foil annealing furnace skip in accordance with the present utility model;

FIG. 3 is a third schematic diagram of a power supply device for an aluminum foil annealing furnace skip in accordance with the present utility model;

FIG. 4 is a schematic diagram of a power supply device for an aluminum foil annealing furnace skip according to the present utility model.

The reference numerals in the drawings are: 1 is a frame, 2 is a guide groove, 3 is a seamless slide wire, 4 is a current collector, 5 is a sealing cover, 6 is a connecting section, 7 is a mounting section, and 8 is a top plate.

Detailed Description

The utility model is further described with reference to the drawings and detailed description which follow:

example 1

As shown in fig. 1-4, the power supply device of the aluminum foil annealing furnace skip comprises a skip and a power supply, wherein the skip comprises a driving motor and a frame 1, a power supply mechanism is arranged between the power supply and the driving motor and comprises a guide groove 2, a seamless sliding wire 3 and a power receiver 4, the guide groove 2 is of a strip-shaped groove body structure, the concave side plate of the guide groove 2 is fixedly provided with the seamless sliding wire 3, a plurality of sealing covers 5 are hinged at the upper end of the guide groove 2 at equal intervals, and the seamless sliding wire 3 is electrically connected with the power supply;

the current collector 4 is electrically connected with the seamless sliding wire 3, a connecting mechanism is arranged in front of the current collector 4 and the skip car, and the current collector 4 is electrically connected with the driving motor through a lead;

the connecting mechanism is fixedly connected with a turning plate mechanism;

the guide groove 2 is provided with a flanging, the guide groove 2 is arranged underground, and the flanging is fixed with the ground.

Preferably, as shown in fig. 2, the connecting mechanism comprises a connecting section 6 and a mounting section 7, the connecting section 6 is of a combined structure of a shape like a Chinese character 'ii' and a shape like a Chinese character 'yi', and the upper end of the connecting section 6 is fixed with the frame 1.

Preferably, as shown in fig. 2 and 3, the installation section 7 has an i-shaped structure, the installation section 7 extends into the inner side of the guide groove 2, the lower end of the installation section 7 is fixed with the current collector 4, and the contact point of the current collector 4 is contacted with the seamless sliding wire 3;

the mounting section 7 and the connecting section 6 are of an integrated structure.

Preferably, as shown in fig. 4, the cover 5 is a square plate body, and the length of the cover 5 is greater than the width of the guide groove 2.

Preferably, as shown in fig. 1 and 3, the panel turnover mechanism comprises a top plate 8, wherein the top plate 8 is in a fan-shaped structure, and two ends of the top plate 8 extend outwards horizontally;

the top end of the inner side surface of the top plate 8 and the linear part of the connecting section 6 are fixed through bolts.

During operation, the current collector 4 is electrically connected with the seamless sliding wire 3, the driving motor is powered on to drive the skip car to move, and the current collector 4 is fixed with the connecting mechanism in the moving process so as to move along with the skip car. Therefore, the current collector 4 still contacts the seamless sliding wire 3 during the moving process, and the power supply loop of the driving motor is always electrified. Simultaneously, the top plate 8 also moves along with the skip, the top plate 8 is a sector plate and stretches into the guide groove, the top end of the top plate 8 jacks up the sealing cover 5, the connecting mechanism is convenient to move, and when the top plate 8 leaves the current position, the sealing cover 5 is automatically closed by gravity.

The above-described embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, so that all equivalent changes or modifications of the structure, characteristics and principles described in the claims should be included in the scope of the present utility model.

Claims (5)

1. The utility model provides an aluminium foil annealing charge car power supply unit, includes skip and power, the skip includes driving motor and frame (1), its characterized in that, be provided with power supply mechanism between power and the driving motor, power supply mechanism includes guide slot (2), seamless slide wire (3) and current collector (4), guide slot (2) are rectangular cell body structure, and the curb plate of guide slot (2) indent is fixed to be set up seamless slide wire (3), and the upper end equidistance of guide slot (2) articulates there are a plurality of closing caps (5), seamless slide wire (3) and power electric connection;

the power receiver (4) is electrically connected with the seamless sliding wire (3), a connecting mechanism is arranged in front of the power receiver (4) and the skip car, and the power receiver (4) is electrically connected with the driving motor through a lead;

the connecting mechanism is fixedly connected with a turning plate mechanism;

the guide groove (2) is provided with a flanging, the guide groove (2) is arranged underground, and the flanging is fixed with the ground.

2. The aluminum foil annealing furnace skip power supply device according to claim 1, wherein the connecting mechanism comprises a connecting section (6) and a mounting section (7), the connecting section (6) is of a combined structure of a shape II and a shape I, and the upper end of the connecting section (6) is fixed with the frame (1).

3. The aluminum foil annealing furnace skip power supply device according to claim 2, wherein the installation section (7) is of an I-shaped structure, the installation section (7) stretches into the inner side of the guide groove (2), the lower end of the installation section (7) is fixed with the current collector (4), and a contact point of the current collector (4) is in contact with the seamless sliding wire (3);

the installation section (7) and the connecting section (6) are of an integrated structure.

4. The aluminum foil annealing furnace skip power supply device according to claim 1, wherein the sealing cover (5) is a square plate body, and the length of the sealing cover (5) is larger than the width of the guide groove (2).

5. The aluminum foil annealing furnace skip power supply device according to claim 2, wherein the plate turnover mechanism comprises a top plate (8), the top plate (8) is of a fan-shaped structure, and two ends of the top plate (8) extend outwards horizontally;

the top end of the inner side surface of the top plate (8) and the linear part of the connecting section (6) are fixed through bolts.