The present invention is directed to a molten metal pump comprising an elongated pumping chamber tube with a base end and an open top end. A shaft extends into the tube and rotates an impeller therein, the impeller rotates proximate the base end. The tube has a diameter at least 1.1 times the diameter of the impeller. The pumping chamber tube preferably has a length at least three times the height of the impeller. The base end includes an inlet and the top end includes a tangential outlet. Rotation of the impeller draws molten metal into the pumping chamber and creates a rotating equilibrium vortex that rises up the walls of the pumping chamber. The rotating vortex adjacent the top end exists the device cia the tangential outlet.

A casting device for operating stably while suppressing leakage from a gap between a tip and a sleeve is disclosed. The casting device includes: a sliding member in the center of which a rod slides, and in which a gap is formed between the rod and the sleeve; a seal member arranged at an outer periphery of the sliding member; and a suction device for suctioning air inside the sleeve. When the seal member is positioned in a center section closer to a cavity than a pouring hole, and the air in a space between the sliding member and the tip is suctioned, the seal member assumes a first state in which the seal member adheres to the center section, and in the first state, the tip advances toward the cavity.

A motor plate type coil forming apparatus forms a plate type coil wound on a stator of a motor by a squeeze casting method. In particular, the apparatus includes: i) a main frame including a lower frame and an upper frame; ii) a mold unit including a lower mold elastically connected to the lower frame to be movably installed in a vertical direction, and an upper mold movably installed in the upper frame in the vertical direction corresponding to the lower mold; and iii) a molten metal pressurizing unit including a plunger that is movably installed in the lower frame in a vertical direction corresponding to the lower mold. In particular, the lower mold may include a sleeve provided to be vertically coupled to the plunger, and a plurality of coil forming parts provided to form a cavity connected to the sleeve.

A vacuum valve includes first and second blocks. The first block includes a base portion and a frustoconical guiding portion connected to the base portion and tapering away from the base portion to form a shoulder, and defines a discharging channel extending in the base portion and through the guiding portion, in spatial communication with ambient surroundings, and adapted to permit air to flow therethrough and into the ambient surroundings. The second block has an end surface cooperating with the shoulder to define an opening communicated spatially with the ambient surroundings, and an inner surface connected to the end surface and cooperating with the frustoconical guiding portion to define a spiral fluid channel therebetween. The spiral fluid channel is in spatial communication with the discharging channel and the opening, and is for introducing air into the discharging channel via the opening.

A vacuum valve includes first and second blocks. The first block includes a base portion and a frustoconical guiding portion connected to the base portion and tapering away from the base portion to form a shoulder, and defines a discharging channel extending in the base portion and through the guiding portion, in spatial communication with ambient surroundings, and adapted to permit air to flow therethrough and into the ambient surroundings. The second block has an end surface cooperating with the shoulder to define an opening communicated spatially with the ambient surroundings, and an inner surface connected to the end surface and cooperating with the frustoconical guiding portion to define a spiral fluid channel therebetween. The spiral fluid channel is in spatial communication with the discharging channel and the opening, and is for introducing air into the discharging channel via the opening.

Disclosed is an aluminum alloy for a new energy vehicle integral die-cast part, a preparation method therefor and an application thereof. The alloy includes 7-9 wt % of Si, 0.05-0.25 wt % of Mg, Cu<0.5 wt %, Zn<0.5 wt %, 0.001-0.20 wt % of B, 0.05-0.2 wt % of Ti, 0.1-0.9 wt % of Mn, 0.05-0.3 wt % of Fe, 0.005-0.5 wt % of Sr, Ce<0.5 wt %, 0.01-0.1 wt % of Zr, 0.001-0.3 wt % of Mo, a sum of weight percentages of remaining impurities being controlled to be 1.0 wt % or less, and the balance being Al. Compared with the prior art, the alloy significantly improves an elongation of a material and effectively improves a strength of the material, such that the material has a tensile strength of 260-300 MPa, a yield strength of 110-130 MPa and an elongation of 10-14%.

Disclosed is an aluminum alloy for a new energy vehicle integral die-cast part, a preparation method therefor and an application thereof. The alloy includes 7-9 wt % of Si, 0.05-0.25 wt % of Mg, Cu<0.5 wt %, Zn<0.5 wt %, 0.001-0.20 wt % of B, 0.05-0.2 wt % of Ti, 0.1-0.9 wt % of Mn, 0.05-0.3 wt % of Fe, 0.005-0.5 wt % of Sr, Ce<0.5 wt %, 0.01-0.1 wt % of Zr, 0.001-0.3 wt % of Mo, a sum of weight percentages of remaining impurities being controlled to be 1.0 wt % or less, and the balance being Al. Compared with the prior art, the alloy significantly improves an elongation of a material and effectively improves a strength of the material, such that the material has a tensile strength of 260-300 MPa, a yield strength of 110-130 MPa and an elongation of 10-14%.

The invention relates to a diecasting method and a diecasting nozzle system (10) for use in a hot-chamber system (1) for the diecasting of metal melt (4), comprising a hot-chamber diecasting machine (2) with a casting vessel (3) and a melt distributor (20), which distributes the melt (4) from a machine nozzle (7) among uniformly heated diecasting nozzles (40). Arranged between a sprue region (42) of the diecasting nozzles (40) and the casting vessel (3) is at least one nonreturn valve (48), which prevents the melt (4) from flowing back from the sprue region (42) in the direction of the casting vessel (3). According to the invention, the nonreturn valve (48) is respectively arranged between the sprue region (42) of at least the upper diecasting nozzles (40) and a final branch of melt runners (22) in the melt distributor (20) to each of the diecasting nozzles (40).

In a spray nozzle with a nozzle housing including a dosing chamber for accommodating a release agent to be sprayed into a mold via a discharge line including a check valve and a nozzle body and a venting unit integrated into the nozzle housing for venting air from the spray nozzle, the volume of the dosing chamber is adjustable and the venting unit is activatable by an activation signal by which the venting unit is moved from a dysfunctional position to a venting and opening position in which the check valve is held open by the venting unit for venting the dosing chamber and the discharge line, via the nozzle body.

A three-plate pressure die casting mold for producing at least one metallic die casting part by die casting a metal melt, includes first, second and third mold parts and at least one mold cavity as well as a sprue system. In the third mold part there is at least one spring-loaded pressure element which, when opening the die casting mold, presses the sprue produced in the sprue system against the first mold part, whereby the sprue is retained and tears off from the die casting part in a defined manner. A method for pressure die casting using the three-plate pressure die casting mold is disclosed.