CN212551708U - Pouring hopper for pouring molten iron - Google Patents

Abstract

The utility model provides a pouring hopper for molten iron dumping, which comprises a containing cavity body and an upper cover, wherein connecting seats are respectively arranged on the containing cavity body and the upper cover, and the connecting seats are hinged and connected with each other; the bottom of the upper cover is provided with a flow guide inclined plane, the upper cover is provided with a gland, and the cavity body is provided with a flow guide nozzle; the end part of the flow guide nozzle is spaced from the end part of the gland, and the end part of the flow guide nozzle is far away from the outer wall of the cavity body compared with the end part of the gland; a diversion gap is formed between the end part of the diversion nozzle and the end part of the gland, and the height dimension of the diversion inclined plane in the vertical direction from one end close to the cavity body to one end of the diversion nozzle is gradually reduced. Therefore, the molten iron is poured outwards through the diversion gap formed by the diversion nozzle and the gland which are matched with each other, the molten iron is prevented from splashing outwards, the diversion inclined plane can ensure that liquid flow is conveyed along the direction of the liquid flow inside the containing cavity, and the molten iron contained inside is prevented from shaking greatly when the containing body is turned over at a large angle.

Description

Pouring hopper for pouring molten iron

Technical Field

The utility model relates to a molten iron holds equipment technical field, especially relates to a watering fill is emptyd to molten iron.

Background

The handling and casting of the molten iron are generally performed by using a ladle, but the operation of the ladle by an operator is affected if the molten iron is sprayed outwards during the overturning and dumping process due to the high temperature of the molten iron. Therefore, in view of the above-mentioned shortcomings, a technical problem to be solved by those skilled in the art is to provide a ladle pouring hopper to stably discharge molten iron during the rotation pouring of the ladle so as to improve the safe use of the ladle.

SUMMERY OF THE UTILITY MODEL

In view of this, the technical problem to be solved by the present invention is: how to provide a molten iron pouring hopper to realize that the molten iron can stably output when the ladle rotates to topple over and then improve the safe use of the ladle.

In order to achieve the above object, the utility model provides a pouring hopper is emptyd to molten iron, including holding chamber body and upper cover, wherein:

the cavity body and the upper cover are respectively provided with a connecting seat, and the connecting seats are hinged with each other;

the bottom of the upper cover is provided with a flow guide inclined plane, the upper cover is provided with a gland, and the gland is arc-shaped;

a flow guide nozzle is arranged on the cavity body;

the end part of the flow guide nozzle is spaced from the end part of the gland, and the end part of the flow guide nozzle is far away from the outer wall of the cavity body compared with the end part of the gland;

a flow guide gap is formed between the end part of the flow guide nozzle and the end part of the gland, liquid flows outwards through the flow guide gap,

the height dimension of the flow guide inclined plane from one end close to the cavity body to one end of the flow guide nozzle along the vertical direction is gradually reduced.

Further, the gland extends towards the lower part.

Further, the surface of the flow guide inclined plane facing the cavity body is a plane.

Further, the gland corresponds to the diversion nozzle, and when the gland is buckled on the containing body, the gland is buckled above the diversion nozzle.

Compared with the prior art, the utility model provides a molten iron pouring and irrigating bucket, which comprises a containing cavity body and an upper cover, wherein the containing cavity body and the upper cover are respectively provided with a connecting seat, and the connecting seats are hinged and connected; the bottom of the upper cover is provided with a flow guide inclined plane, the upper cover is provided with a gland, and the gland is arc-shaped; a flow guide nozzle is arranged on the cavity body; the end part of the flow guide nozzle is spaced from the end part of the gland, and the end part of the flow guide nozzle is far away from the outer wall of the cavity body compared with the end part of the gland; a diversion gap is formed between the end part of the diversion nozzle and the end part of the gland, liquid flows outwards through the diversion gap, and the height dimension of the diversion inclined plane, which is close to one end of the cavity body and points to one end of the diversion nozzle, in the vertical direction is gradually reduced. Therefore, the molten iron is enabled to be poured outwards through the diversion gap formed by the diversion nozzle and the gland which are matched with each other, the molten iron is prevented from being splashed outwards, the diversion inclined plane can ensure that liquid flow is conveyed along the direction of the liquid flow inside the containing cavity, and the molten iron contained inside is prevented from shaking greatly when the containing body is turned over at a large angle, so that the molten iron can be stably output, and the safe use of the ladle is further improved.

Drawings

FIG. 1 is a schematic view of an embodiment of a molten iron pouring bucket;

fig. 2 is a schematic view of a partial structure of a molten iron pouring bucket according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 and 2, the present invention provides a molten iron pouring bucket, which comprises a cavity body 10 and an upper cover 20.

The cavity body 10 and the upper cover 20 are respectively provided with a connecting seat 30, and the connecting seats 30 are hinged with each other.

The bottom of the upper cover 20 is provided with a diversion inclined plane 21, the upper cover 20 is provided with a gland 22, the gland 22 is arc-shaped, the gland 22 extends downwards, and the gland 22 realizes diversion of liquid flow.

The cavity body 10 is provided with a diversion nozzle 11, the gland 22 corresponds to the diversion nozzle 11, and when the gland 22 is buckled on the cavity body, the gland 22 is buckled above the diversion nozzle 11.

The end of the flow guide nozzle 11 is spaced from the end of the gland 22, and the end of the flow guide nozzle 11 is far away from the outer wall of the cavity body 10 compared with the end of the gland 22; a diversion gap is formed between the end part of the diversion nozzle 11 and the end part of the gland 22, liquid flow flows outwards through the diversion gap, and molten iron is enabled to be poured outwards through the diversion gap formed by the diversion nozzle 11 and the gland 22 which are matched with each other, so that the molten iron is prevented from being splashed outwards.

The height dimension along the vertical direction of water conservancy diversion inclined plane 21 from being close to the one end that points to water conservancy diversion mouth 11 in appearance chamber body 10 reduces gradually, and water conservancy diversion inclined plane 21 is the plane towards the surface that holds chamber body 10, and the water conservancy diversion inclined plane 21 that sets up can guarantee that the liquid stream is being held the cavity inside and is being carried along its direction, prevents when holding the great angle of body upset, and the inside molten iron that holds takes place great rocking, can stabilize output and then improve the safe handling of ladle from this.

To sum up, the utility model provides a molten iron pouring and irrigating bucket, which comprises a containing cavity body and an upper cover, wherein the containing cavity body and the upper cover are respectively provided with a connecting seat, and the connecting seats are hinged and connected; the bottom of the upper cover is provided with a flow guide inclined plane, the upper cover is provided with a gland, and the gland is arc-shaped; a flow guide nozzle is arranged on the cavity body; the end part of the flow guide nozzle is spaced from the end part of the gland, and the end part of the flow guide nozzle is far away from the outer wall of the cavity body compared with the end part of the gland; a diversion gap is formed between the end part of the diversion nozzle and the end part of the gland, liquid flows outwards through the diversion gap, and the height dimension of the diversion inclined plane, which is close to one end of the cavity body and points to one end of the diversion nozzle, in the vertical direction is gradually reduced. Therefore, the molten iron is enabled to be poured outwards through the diversion gap formed by the diversion nozzle and the gland which are matched with each other, the molten iron is prevented from being splashed outwards, the diversion inclined plane can ensure that liquid flow is conveyed along the direction of the liquid flow inside the containing cavity, and the molten iron contained inside is prevented from shaking greatly when the containing body is turned over at a large angle, so that the molten iron can be stably output, and the safe use of the ladle is further improved.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (4)

1. The utility model provides a watering fill is emptyd to molten iron which characterized in that, includes and holds chamber body and upper cover, wherein:

the cavity body and the upper cover are respectively provided with a connecting seat, and the connecting seats are hinged with each other;

the bottom of the upper cover is provided with a flow guide inclined plane, the upper cover is provided with a gland, and the gland is arc-shaped;

a flow guide nozzle is arranged on the cavity body;

the end part of the flow guide nozzle is spaced from the end part of the gland, and the end part of the flow guide nozzle is far away from the outer wall of the cavity body compared with the end part of the gland;

a flow guide gap is formed between the end part of the flow guide nozzle and the end part of the gland, liquid flows outwards through the flow guide gap,

the height dimension of the flow guide inclined plane from one end close to the cavity body to one end of the flow guide nozzle along the vertical direction is gradually reduced.

2. The molten iron pouring ladle according to claim 1, wherein said cover is extended in a downward direction.

3. The molten iron pouring ladle according to claim 1, wherein the surface of the diversion inclined plane facing the cavity body is a plane.

4. The molten iron pouring hopper according to claim 1, wherein the pressing cover corresponds to the diversion nozzle, and when the pressing cover is fastened to the cavity body, the pressing cover is fastened above the diversion nozzle.

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