CN207952593U - Disc-shaped housing body die casting - Google Patents

Abstract

The utility model discloses a kind of disc-shaped housing body die casting, for being molded disc-shaped housing body, disc-shaped housing body includes the coaxially arranged outer shroud of inner ring and inner ring, the hollow out piece being connected between inner ring and outer shroud and the ear block to extend radially outwardly out by outer shroud along the outer shroud, and ear block is in be evenly arranged along the circumferential direction of outer shroud.And disc-shaped housing body die casting includes pouring nozzle, spreader and mutually matched fixed half and moving half, pouring nozzle is installed on cover half, spreader is installed on dynamic model and offers the first diversion channel and the second diversion channel, cover half offers outer groove respectively, ear block slot and inner groove, ear block slot is interconnected with outer groove, dynamic model offers the first tipper respectively, second tipper, coordinate annular groove, first connectivity slot and the second connectivity slot, first tipper and the second tipper are tilted towards far from respective direction, the groove depth of first connectivity slot and the second connectivity slot is towards close to the arrangement for coordinating the direction of annular groove to taper off, reach accurate and rapid shaping, so that it is guaranteed that quality and yield.

Description

Disc-shaped housing body die casting

Technical field

The utility model is related to a kind of die casting of metal more particularly to a kind of disc-shaped housing body die castings.

Background technology

With economic continuous development, science and technology be constantly progressive and the continuous improvement of people's life water so that people Be either all from the demand of type or quantity to material consumption product it is very huge, to for material consumption product production Enterprise creates good development platform, to accelerate the developing steps of material consumption product manufacturing enterprise.

Wherein, in our daily lifes, the disc-shaped housing body of metal class is often seen；Since disc-shaped housing body is by metal It is made, therefore, disc-shaped housing body is molded by die casting.

Currently, during the disc-shaped housing body that existing die casting is molded, since the runner of die casting is set Count it is unreasonable, therefore there are melting material flowing is uneven during the die cast, to cause the matter of the disc-shaped housing body to form out Measure poor, the defect of high rejection rate.

Therefore, it is necessary to provide a kind of accurate and rapid shaping to ensure the disk of the Forming Quality and yields of disc-shaped housing body Shape shell overcomes above-mentioned defect with die casting.

Utility model content

The purpose of this utility model is to provide a kind of accurate and rapid shaping with ensure disc-shaped housing body Forming Quality and The disc-shaped housing body die casting of yields.

To achieve the above object, the technical solution of the utility model is：A kind of disc-shaped housing body die casting is provided, is used for It is molded disc-shaped housing body.The disc-shaped housing body include inner ring, with the coaxially arranged outer shroud of the inner ring, be connected to the inner ring with it is outer Hollow out piece between ring and by the outer shroud along the ear block of the outer shroud to extend radially outwardly out, the ear block is along the outer shroud Circumferential is in be evenly arranged.And the disc-shaped housing body die casting of the utility model includes pouring nozzle, spreader and mutually matched Fixed half and moving half；The pouring nozzle is installed on the cover half, and the spreader is installed on the dynamic model, and the spreader is in conjunction It is stretched after mould and is placed in the sprue of the pouring nozzle and offers the first diversion channel docked with the sprue and the second shunting Slot；The cover half offers the outer groove for being molded the outer shroud, the ear block slot for being molded the ear block and is used for respectively Be molded the inner groove of the inner ring, the ear block slot is interconnected with the outer groove, the dynamic model offer respectively with it is described First tipper of the first diversion channel docking, is used for the outer groove one at the second tipper docked with second diversion channel It plays cooperation annular groove, connection first tipper and first connectivity slot coordinated between annular groove of cooperation and is connected to described the The second connectivity slot between two tippers and the cooperation annular groove, first tipper is with second tipper towards far from each It is tilted from direction, the groove depth of first connectivity slot and the second connectivity slot is towards close to the cloth for coordinating the direction of annular groove to taper off It sets.

Preferably, the groove width of first connectivity slot and the second connectivity slot coordinates the direction of annular groove in incremental along close to described Arrangement.

Preferably, first connectivity slot is staggered arrangement along being parallel to molding direction and the ear block slot.

Preferably, second connectivity slot is staggered arrangement along being parallel to molding direction and the ear block slot.

Preferably, first diversion channel, the second diversion channel, the first tipper and the second tipper are perpendicular to conjunction Projection in the plane in mould direction crosses V-shaped jointly.

Preferably, the groove depth of the ear block slot along the outer groove radially outward be in incremental arrangement.

Compared with prior art, since cover half offers outer groove for being molded outer shroud, for being molded ear block respectively Ear block slot and inner groove for being molded inner ring, ear block slot are interconnected with outer groove, and dynamic model offers respectively and the first shunting Slot docking the first tipper, with the second diversion channel docking the second tipper, the cooperation annular groove for coordinating together with outer groove, The first connectivity slot being connected between the first tipper and cooperation annular groove and be connected between the second tipper and cooperation annular groove second Connectivity slot, therefore tilted towards far from respective direction by the first tipper and the second tipper so that from melting material toward different directions stream It is dynamic, then by the groove depth of the first connectivity slot and the second connectivity slot towards close to the arrangement for coordinating the direction of annular groove to taper off so that melt Material is flow to pressurizedly at cooperation annular groove, then annular groove is equably flowed in outer groove, inner groove and ear block slot on cover half with, So that it is guaranteed that outer groove, inner groove and ear block slot melting material fill uniformity, reaches accurate and rapid shaping, on the one hand improve disk On the other hand the Forming Quality of shape shell improves the yields of disc-shaped housing body.Just since outer groove, inner groove and ear block slot open up In cover half, and the first tipper, the second tipper, the first connectivity slot and the second connectivity slot are opened in dynamic model, convenient for cover half and move The manufacture of mould, to the manufacturing process of the disc-shaped housing body die casting of simplified the utility model.

Description of the drawings

Fig. 1 is dimensional decomposition structure diagram of the disc-shaped housing body die casting of the utility model in cover half upward.

Fig. 2 be the utility model disc-shaped housing body die casting cover half downward when dimensional decomposition structure diagram.

Fig. 3 is vertical view of the disc-shaped housing body die casting shown in FIG. 1 after hiding cover half and pouring nozzle.

Fig. 4 is the dimensional structure diagram of the cover half in the disc-shaped housing body of the utility model.

Fig. 5 is the dimensional structure diagram of disc-shaped housing body.

Specific implementation mode

The embodiments of the present invention are described referring now to the drawings, similar element numbers represent similar member in attached drawing Part.

Referring to Fig. 5, disc-shaped housing body 200 include inner ring 210, with the coaxially arranged outer shroud 220 of inner ring 210, be connected in Hollow out piece 230 between ring 210 and outer shroud 220 and by outer shroud 220 along the ear block 240 of the outer shroud 220 to extend radially outwardly out, Ear block 240 is in be evenly arranged along the circumferential direction of outer shroud 220；Preferably it is that ear block 240 is three and adjacent central angle between the two It is 120 degree, but not limited to this.

Wherein, in conjunction with Fig. 1 to Fig. 4, the disc-shaped housing body of the utility model includes pouring nozzle 30, shunting with die casting 100 Cone 40 and mutually matched cover half 10 and dynamic model 20.Pouring nozzle 30 is installed on cover half 10, and spreader 40 is installed on dynamic model 20, point Flow cone 40 is stretched after molding to be placed in the sprue 31 of pouring nozzle 30, and spreader 40 offers first docked with sprue 31 Diversion channel 41 and the second diversion channel 42, the melting material in sprue 31 is shunted, to meet from different position entrance It needs.Cover half 10 offers the outer groove 11 for being molded outer shroud 220, the ear block slot 12 for being molded ear block 240 and uses respectively In the inner groove 13 of molding inner ring 210, ear block slot 12 is interconnected with outer groove 11, is preferably, as shown in figure 4, ear block slot 12 groove depth is in radially outward incremental arrangement along outer groove 11, and for example, the groove depth of ear block slot 12 is along outer groove 11 Radially outward in gradually incremental arrangement so that ear block slot 12 is more reliably molded ear along the radially-inwardly inclination of outer groove 11 Block 240, but not limited to this.

As shown in Figures 1 and 3, dynamic model 20 offers the first tipper 21 docked with the first diversion channel 41, with the respectively Second tipper 22 of two diversion channels 42 docking, cooperation annular groove 23, the first tipper of connection coordinated together for outer groove 11 The first connectivity slot 24 between 21 and cooperation annular groove 23 and be connected to second being connected between the second tipper 22 and cooperation annular groove 23 Slot 25；First tipper 21 and the second tipper 22 are tilted towards far from respective direction, to expand the spacing of the two, to make melting material Outer groove 11, ear block slot 12 and inner groove 13 are flowed into more dispersedly；The groove depth of first connectivity slot 24 and the second connectivity slot 25 court leans on The arrangement that the direction of nearly cooperation annular groove 23 tapers off preferably is that the groove depth court of the first connectivity slot 24 and the second connectivity slot 25 leans on The direction of nearly cooperation annular groove 23 is in the arrangement gradually successively decreased so that the slot bottom of the first connectivity slot 24 and the second connectivity slot 25 is towards close The arc-shaped arcuate configuration in direction for coordinating annular groove 23 so that the flowing of melting material is more smooth under conditions of pressurized, but is not limited to This.Specifically, as shown in figure 3, in this present embodiment, the groove width of the first connectivity slot 24 and the second connectivity slot 25 is along close to cyclization The direction of slot 23 is in incremental arrangement, is preferably to coordinate the direction of annular groove 23 in gradually incremental arrangement along close, to ensure Melting material also has the advantages that the smoothness of flowing while pressurized, but not limited to this.More specifically, as follows：

As shown in Figures 1 and 3, the first connectivity slot 24 is along being parallel to molding direction (i.e. arrow A meaning) and 12 phase of ear block slot It is staggeredly arranged；Second connectivity slot 25 is staggered arrangement along being parallel to molding direction and ear block slot 12, and melting material is prevented to be connected to by first Slot 24 and the second connectivity slot 25 flow directly into ear block slot 12 and cause the inhomogeneities of outer groove 11 and the charging of inner groove 13.

As shown in figure 3, the first diversion channel 41, the second diversion channel 42, the first tipper 21 and the second tipper 22 4 exist Projection in the plane in molding direction crosses V-shaped jointly, state as shown in Figure 3 so that melting in sprue 31 Expect under the cooperation of the first diversion channel 41, the second diversion channel 42, the first tipper 21 and the second tipper 22 more dispersedly outward It is flowed away at annular groove 11, ear block slot 12 and inner groove 13, but not limited to this.

Compared with prior art, since cover half 10 offers outer groove 11 for being molded outer shroud 220, for being molded respectively The ear block slot 12 of ear block 240 and the inner groove 13 for being molded inner ring 210, ear block slot 12 are interconnected with outer groove 11, dynamic model 20 offer the first tipper 21 docked with the first diversion channel 41, the second tipper docked with the second diversion channel 42 respectively 22, first between cooperation annular groove 23, the first tipper 21 of connection and the cooperation annular groove 23 coordinated together for outer groove 11 connects Straight slot 24 and the second tipper 22 of connection and coordinate the second connectivity slot 25 between annular groove 23, therefore by the first tipper 21 and the Two tippers 22 are tilted towards far from respective direction so that are flowed from melting material toward different directions, then by the first connectivity slot 24 and the The groove depth of two connectivity slots 25 is towards close to the arrangement for coordinating the direction of annular groove 23 to taper off so that melting material is flow to pressurizedly with cyclization At slot 23, then annular groove 23 is equably flowed in outer groove 11, inner groove 13 and ear block slot 12 on cover half 10 with, so that it is guaranteed that Outer groove 11, inner groove 13 and 12 melting material of ear block slot fill uniformity, reach accurate and rapid shaping, on the one hand improve dish type On the other hand the Forming Quality of shell 200 improves the yields of disc-shaped housing body 200.Just due to outer groove 11, inner groove 13 and ear Block slot 12 is opened in cover half 10, and the first tipper 21, the second tipper 22, the first connectivity slot 24 and the second connectivity slot 25 open up In dynamic model 20, convenient for the manufacture of cover half 10 and dynamic model 20, to the system of the disc-shaped housing body die casting 100 of simplified the utility model Make process.

Upper disclosed is only the preferred embodiment of the utility model, cannot limit the utility model with this certainly Interest field, therefore equivalent variations made according to the patent scope of the utility model still belong to what the utility model was covered Range.

Claims (6)

1. a kind of disc-shaped housing body die casting, for being molded disc-shaped housing body, the disc-shaped housing body includes inner ring and the inner ring Coaxially arranged outer shroud, the hollow out piece being connected between the inner ring and outer shroud and by the outer shroud along the outer shroud radially outward The ear block extended, the ear block are in be evenly arranged along the circumferential direction of the outer shroud, and the disc-shaped housing body die casting includes pouring Nozzle, spreader and mutually matched fixed half and moving half, the pouring nozzle are installed on the cover half, and the spreader is installed on The dynamic model, the spreader is stretched to be placed in the sprue of the pouring nozzle and offer after molding to be docked with the sprue The first diversion channel and the second diversion channel, which is characterized in that the cover half offers the outer shroud for being molded the outer shroud respectively Slot, the ear block slot for being molded the ear block and the inner groove for being molded the inner ring, the ear block slot and the outer groove It is interconnected, the dynamic model offers the first tipper docked with first diversion channel and second diversion channel respectively Second tipper of docking, the cooperation annular groove, connection first tipper that coordinate together for the outer groove are matched with described The second connectivity slot between the first connectivity slot and connection second tipper and the cooperation annular groove between cyclization slot, it is described First tipper is tilted with second tipper towards far from respective direction, the groove depth of first connectivity slot and the second connectivity slot Towards the arrangement to taper off close to the direction of the cooperation annular groove.

2. disc-shaped housing body die casting according to claim 1, which is characterized in that first connectivity slot and the second company The groove width of straight slot coordinates the direction of annular groove to be in incremental arrangement along close to described.

3. disc-shaped housing body die casting according to claim 1, which is characterized in that the first connectivity slot edge is parallel to Molding direction and the ear block slot are staggered arrangement.

4. disc-shaped housing body die casting according to claim 1, which is characterized in that the second connectivity slot edge is parallel to Molding direction and the ear block slot are staggered arrangement.

5. disc-shaped housing body die casting according to claim 1, which is characterized in that first diversion channel, second point The projection of chute, the first tipper and the second tipper in the plane perpendicular to molding direction crosses V-shaped jointly.

6. disc-shaped housing body die casting according to claim 1, which is characterized in that the groove depth of the ear block slot is described in Outer groove is in radially outward incremental arrangement.