JPS583464B2 - Lead ingot casting equipment - Google Patents

Description

[Detailed Description of the Invention] Lead powder, which is the active material raw material for lead-acid batteries, is produced by colliding and rubbing a large number of small lead ingots against each other in a rotating drum. This relates to a device for casting.

Conventionally, a drawback of continuously casting lead ingots using a mold is that when molten lead is supplied to the mold, air in the mold cannot be sufficiently replaced with molten lead.

To this end, methods of dripping molten lead from the top of the mold and injecting molten lead into the mold have been used, but both methods are insufficient, and even if a predetermined amount of molten lead is poured into the mold, a cavity remains. There was a problem that the amount overflowed from the mold and caused burrs.

SUMMARY OF THE INVENTION An object of the present invention is to solve the above-mentioned problems and provide an apparatus capable of continuously casting lead ingots without cavities or burrs.

That is, a large number of cylindrical molds are bored in the surface of a horizontally rotating annular disk, and each of the cylindrical molds is provided with a knockout pin, with the upper end surface serving as the bottom surface of the cylindrical mold.

The vertical movement of the knockout pin is controlled by a cam located below the ring disc, and the position where the knockout pin descends is a lead ingot casting machine with a molten lead supply port opened and the supply port in contact with the ring disc surface. be.

An embodiment of the present invention will be described with reference to the drawings.

Reference numeral 1 denotes a horizontally rotating ring disk, and a large number of cylindrical molds 2 are bored in the disk surface.

A knockout pin 3 is provided inside the cylindrical mold 2, and its upper end surface forms the bottom surface of the cylindrical mold 2.

A cam follower 4 attached to the lower end of the non-kout pin 3 contacts a flat plate cam 5 located below the annular disc 1 along the annular disc 1, and moves inside the cylindrical mold 2 as the annular disc 1 rotates. Slides up and down.

A molten lead supply port 6 opens at the position where the knockout pin 3 is lowered by the action of the flat cam 5, and a contact plate 7 is interposed to prevent molten lead from leaking between the supply port 6 and the surface of the ring disc 1. and is in close contact with the surface of the ring disk 1.

When the annular disc 1 rotates and the contact plate 7 closes the cylindrical mold 2, the knockout pin 3 is lowered by the action of the flat cam 5, thereby reducing the pressure inside the cylindrical mold 2.

Therefore, when the positions of the cylindrical mold 2 and the supply port 6 match,
The molten lead is sucked into the cylindrical mold 2 and is filled in the cylindrical mold 2 without creating a cavity.

Since the contact plate 7 is in close contact with the surface of the ring disk 1,
The supplied molten lead does not overflow from the cylindrical mold 2, only the necessary amount is supplied, and no burrs are generated.

After the molten lead is solidified, the knockout pin 3 is raised as the annular disk 1 rotates due to the action of the flat cam 5, pushing up the cast lead ingot and discharging it.

As described above, according to the present invention, a uniform lead ingot free of cavities and burrs can be continuously cast.

In addition, the supply of molten lead to the cylindrical mold and stopping is done by matching or mismatching the positions of the molten lead supply port and the cylindrical mold without using any special equipment, so the structure is simple. Molten lead can be kept in constant supply.

Therefore, unlike in the case where surplus molten lead is returned to the melting pot and circulated, lead scum is not generated due to air oxidation, and this method is extremely valuable for industrial purposes.

[Brief explanation of drawings]

Figure 1 is a plan explanatory diagram of the present invention, and Figure 2 is A-A in Figure 1.
FIG. 1 is an annular disc, 2 is a cylindrical mold, 3 is a knockout pin, 4 is a cam follower, 5 is a flat cam, 6 is a molten lead supply port,
7 is a contact plate.

Claims (1)

[Claims] 1. A cylindrical mold bored into a horizontally rotating annular disk surface is equipped with a knockout pin whose upper end surface forms the bottom surface of the cylindrical mold, and the vertical movement of the knockout pin is controlled by a cam located below the annular disk. A lead ingot casting device that slides up and down in a cylindrical mold as the knockout pin rotates, and has a molten lead supply port opened at a position where the knockout pin descends, and the supply port is brought into contact with the ring disc surface. .