CN211254189U - Follow-up signal generating device for transferring and conveying zinc electrolysis cathode plate - Google Patents

Abstract

The utility model relates to a zinc electrolysis negative plate is transported and is carried follow-up signal generator, technical problem are that the zinc machine is shelled in the automation that exists, moves the in-process that carries the dolly to transport the negative plate from the temporary storage area to the transport area, and conveying efficiency is low excessively, and the practicality is not high, and technical scheme is: including the installation base that is T shape, be fixed with a riser on the installation base, seted up the arc spout on the riser, installed a sensor in the arc spout, arc spout below is equipped with a pivot of fixing on the riser, is fixed with a probe rod in the pivot, and outside the pivot was stretched out at the probe rod both ends, the lower extreme free swing of probe rod, the probe rod upper end is fixed with the baffle.

Description

Follow-up signal generating device for transferring and conveying zinc electrolysis cathode plate

Technical Field

The utility model relates to a zinc hydrometallurgy equipment especially relates to a zinc electrolysis negative plate is transported and is carried follow-up signal generator.

Background

In the automatic zinc stripping process, the cathode plate after the electrolysis is finished is required to be continuously placed to the automatic zinc stripping unit, in the prior art, the cathode plate receiving and conveying device is generally used for transferring the cathode plate discharged from the tank to a subsequent processing mechanism piece by piece, the conveying device is provided with a temporary storage area and a conveying area, the temporary storage area is used for receiving the cathode plate, and the conveying area runs in a stepping mode, so that the cathode plate is continuously conveyed to the subsequent processing mechanism. In order to improve the efficiency, a sensor is arranged on each of the conveying area and the temporary storage area, the sensor of the temporary storage area senses whether a negative plate exists in the temporary storage area, and if the negative plate exists, the negative plate transfer trolley returns to the temporary storage area to wait for a sensor instruction of the conveying area; when the sensor of conveying district sensed the vacancy quantity of conveying district and reached rated quantity, the sensor of conveying district sent the instruction, the dolly that moves of working in storage began to carry the negative plate, but when conveying district vacancy quantity can't reach rated quantity, move and carry the dolly and will not transfer the negative plate to conveying district, move again when waiting for the vacancy to vacate completely, can lead to the complete machine to suspend, thereby increased the efficiency loss, if dolly the place ahead installation sensor again, because conveying district negative plate is the marching type operation, negative plate upper portion is the frequent swing state, directly set up the sensor on negative plate upper portion (for about 16 mm), the unstable phenomenon of easy emergence signal, thereby cause to move and carry the dolly and frequently stop in shorter time, fragile electrical components.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is that the zinc machine is shelled in existing automation, moves the in-process that carries the dolly and transport the negative plate from the working area to the transport area, and conveying efficiency is low excessively, and the practicality is not high, for solving above-mentioned problem, the utility model provides a follow-up signal generating device is carried in transportation of zinc electrolysis negative plate.

The purpose of the utility model is realized with the following mode: including the installation base that is T shape, be fixed with a riser on the installation base, seted up the arc spout on the riser, installed a sensor in the arc spout, arc spout below is equipped with a pivot of fixing on the riser, is fixed with a probe rod in the pivot, and outside the pivot was stretched out at the probe rod both ends, the lower extreme free swing of probe rod, the probe rod upper end is fixed with the baffle.

Compared with the prior art, the utility model discloses can make to move and carry the dolly to follow transport region negative plate synchronous operation through the device, when the vacancy is vacated completely, will wholly hang the negative plate automatically and put down to avoid the pause of a whole set of unit, effectively guaranteed efficiency.

Drawings

Fig. 1 is a structural schematic diagram of a cathode plate conveying device.

Fig. 2 is a front view of the follow-up signal generating device.

Fig. 3 is a front view of the servo signal generator mounted on the transfer carriage.

Fig. 4 is a front sectional view of the cylinder.

Wherein, 1 is a mounting base; 2 is a vertical plate; 3 is an arc chute; 4 is a sensor; 5 is a rotating shaft; 6 is a transfer trolley; 7 is a probe rod; 8 is a buffer zone; 9 is the transport zone; 10 is a cylinder; 11 is a metal ball; 12 are compression springs.

Detailed Description

As shown in the drawing, the utility model discloses an installation base 1 that is T shape, be fixed with a riser 2 on the installation base 1, arc spout 3 has been seted up on the riser 2, install a sensor 4 in the arc spout 3, arc spout 3 below is equipped with one and fixes pivot 5 on riser 2, be fixed with a probe rod 7 in the pivot 5, probe rod 7 both ends are stretched out outside pivot 5, the lower extreme free swing of probe rod 7, probe rod 7 upper end is fixed with the baffle, sensor 4 links to each other with moving 6 switches of year dolly, when the 7 lower extremes of probe rod is blocked by the negative plate, 7 lower extremes of probe rod backward swinging promptly, probe rod 7 drives the baffle and moves forward, when the baffle blocks sensor 4, it has the negative plate to move 6 the place ahead of dolly promptly to sense, sensor 4 will control the chain synchronous motion on dolly and the conveying area 9.

The rotating shaft 5 is provided with a cylinder 10 fixed on the vertical plate 2 below, a metal ball 11 is installed in the cylinder 10, a pressure spring 12 is arranged between the metal ball 11 and the bottom of the cylinder 10, the pressure spring 12 can enable the metal ball 11 to extend out of the cylinder 10, the metal ball 11 can reduce the swing amplitude of the probe rod 7, the rotation amplitude of the probe rod 7 can be prevented from being too large, and therefore conveying of the transfer trolley 6 is affected.

The sensor 4 is fixed on a bolt, and the bolt is fixed in the arc-shaped sliding groove 3 through a nut, so that the sensor 4 is fixed in the arc-shaped sliding groove 3.

The working process of the utility model is as follows: negative plate conveyor includes: the device comprises a pause area, a transfer trolley 6 and a conveying area 9, wherein a follow-up signal generating device is arranged in front of the transfer trolley 6 through an installation base 1, then the position of a sensor 4 is adjusted according to actual needs, a nut is unscrewed, so that the sensor 4 can be driven by a bolt to slide in an arc-shaped sliding groove 3, and when the sensor 4 slides to a proper position, the nut is screwed, so that the bolt and the sensor 4 are fixed in the arc-shaped sliding groove 3; the transfer trolley 6 firstly conveys the cathode plate in the pause area to the conveying area 9 at a higher speed, when the front part of the transfer trolley 6 is provided with the cathode plate, the cathode plate blocks the probe rod 7 to move forwards, the lower end of the probe rod 7 is blocked by the cathode plate, the lower end of the probe rod 7 moves backwards, so that the upper end of the probe rod 7 drives the baffle plate to move forwards, when the baffle plate blocks in front of the sensor 4, the sensor 4 controls the trolley to decelerate to ensure that the speed of the trolley and the chain are synchronous, when the cathode plate of the transfer trolley 6 is completely transferred to the subsequent treatment, the transfer trolley 6 also moves to the forefront of the conveying area 9, and the front part of the probe rod 7 is not blocked by the cathode plate, so that the probe rod 7 swings to the original position under the action of self weight, because the cylinder 10 is fixed on the vertical plate 2, when the probe rod 7 swings to the position of the cylinder 10, because the protruding, therefore, the probe rod 7 cannot influence the conveying of the transfer trolley 6, the transfer trolley 6 places the cathode plate on the conveying area 9, if the cathode plate exists in the temporary storage area 8, the sensor 4 of the temporary storage area 8 sends out an instruction, the transfer trolley 6 returns to the temporary storage area 8 and conveys the cathode plate to the conveying area at a faster speed, and when the transfer trolley 6 reaches the conveying area 9 and the cathode plate exists in front of the conveying area 9, the sensor 4 on the follow-up signal generating device sends out an instruction due to the existence of the follow-up signal generating device, so that the speed of the trolley is reduced and the chain of the conveying area 9 runs synchronously; when the belt temporary storage area 8 has no cathode plate, the sensor 4 of the temporary storage area 8 sends out an instruction, so that the transfer trolley 6 stops conveying.

While the preferred embodiments of the present invention have been described, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the general inventive concept, and it is intended to cover all such changes and modifications as fall within the true spirit and scope of the invention.

Claims (3)

1. The utility model provides a zinc electrolysis negative plate is transported and is carried follow-up signal generating device which characterized in that: including installation base (1) that is T shape, be fixed with a riser (2) on installation base (1), arc spout (3) have been seted up on riser (2), install one sensor (4) in arc spout (3), arc spout (3) below is equipped with one and fixes pivot (5) on riser (2), be fixed with one probe rod (7) on pivot (5), outside pivot (5) were stretched out at probe rod (7) both ends, the lower extreme free swing of probe rod (7), probe rod (7) upper end is fixed with the baffle.

2. The zinc electrolysis cathode plate transfer conveying follow-up signal generating device as claimed in claim 1, wherein: the rotating shaft (5) is provided with a cylinder (10) fixed on the vertical plate (2) below, a metal ball (11) is installed in the cylinder (10), a pressure spring (12) is arranged between the metal ball (11) and the bottom of the cylinder (10), and the pressure spring (12) can enable the metal ball (11) to extend out of the cylinder (10).

3. The zinc electrolysis cathode plate transfer conveying follow-up signal generating device as claimed in claim 1, wherein: the sensor (4) is fixed on a bolt, and the bolt is fixed in the arc-shaped sliding groove (3) through a nut.

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