CN205147275U - Lower mould of big stabilizer blade mould - Google Patents

Abstract

The utility model belongs to the technical field of foundry goods die casting technique and specifically relates to a lower mould of big stabilizer blade mould. This lower mould of big stabilizer blade mould includes cover half, cover half fixed plate, reserves hole control assembly and stabilizer blade size control assembly, lie in on the upper surface of cover half fixed plate second mounting groove one side is equipped with the third mounting groove, reserve hole control assembly imbed in in the third mounting groove, lie in on the upper surface of cover half fixed plate second mounting groove opposite side is equipped with the fourth mounting groove, stabilizer blade size control subassembly imbed in in the fourth mounting groove, stabilizer blade size control subassembly includes that the second impels piece, two second track pieces, stabilizer blade size control piece and the oblique guide pillars of second, the second advances the piece to lie in between two second track pieces, and freely slides, be equipped with fillet trapezoid depression on the another side of second propulsion piece, the embedding of stabilizer blade size control piece in the fillet trapezoid depression.

Description

A kind of counterdie of large leg mould

Technical field

The utility model relates to Die-Casting technical field, specifically a kind of counterdie of large leg mould.

Background technology

So-called die casting, full name is compression casting, refers to and metal liquid is filled die cavity under high pressure, high-speed condition, and under high pressure cooling forming, the casting method of the product needed for formation.Along with improving constantly of die casting equipment and technology level, existing common die cannot meet the requirement of technology, cannot accomplish the size converting die casting foundry goods at any time as requested, therefore present stage needs a kind of die casting that can convert die casting casting dimension more.But among reality, along with the development of society, the demand for mould also increases day by day.

Utility model content

A kind of structure is simple, shaping efficiency is higher, wastage of material is less in order to provide for the utility model, easy to install and the counterdie of large leg mould of casting dimension can be changed at any time.

The utility model is achieved through the following technical solutions:

A kind of counterdie of large leg mould, be positioned at below dynamic mould fixing plate, for die casting foundry goods, comprise cover half, cover half fixed head, reserving hole Control Component and leg size Control assembly, the upper surface of described cover half fixed head is provided with the second mounting groove, described cover half is embedded in described second mounting groove, the upper surface of described cover half fixed head is positioned at described second mounting groove side and is provided with the 3rd mounting groove, described reserving hole Control Component is embedded in described 3rd mounting groove, the upper surface of described cover half fixed head is positioned at described second mounting groove opposite side and is provided with the 4th mounting groove, described leg size Control assembly is embedded in described 4th mounting groove, described leg size Control assembly comprises the second forward block, two the second rail blocks, leg size Control block and the second Angle Pin, described second forward block is between two the second rail blocks, and be free to slide, the another side of described second forward block is provided with fillet trapezoid depression, described leg size Control block embeds in described fillet trapezoid depression, two the 6th mounting grooves are provided with in described 4th mounting groove, two the second rail blocks embed in two the 6th mounting grooves respectively, described second forward block is provided with the tenth through hole, described dynamic mould fixing plate is provided with the 11 through hole, described cover half fixed head is provided with the second fluting, described second Angle Pin is successively through described 11 through hole, tenth through hole and the second fluting.

Described tenth through hole, the 11 through hole and the second fluting are that 30 ° of angles are arranged with vertical direction.

The bottom of two sides of described second forward block is respectively provided with second card article, and the bottom of the side of described second rail block is provided with the second draw-in groove, and described second card article snaps in described second draw-in groove.

The lower surface of described second forward block, the second card article and the second draw-in groove horizontal direction are arranged.

The lower mold assemblies of described large leg die casting is also provided with spreader, described cover half fixed head is positioned at described second mounting groove side and is provided with the 7th mounting groove, described spreader embeds in described 7th mounting groove, the upper surface of described cover half is provided with die cavity, described spreader is provided with guiding gutter, sprue by entering described die cavity for metal liquid between described guiding gutter with described die cavity is connected, described sprue is to the die sinking direction of the water conservancy diversion direction of metal liquid perpendicular to patrix, described sprue is positioned at described die cavity top, described cover half upper surface is provided with runner and diffluence pass, described runner is communicated with described sprue and diffluence pass, described diffluence pass is between described runner and described die cavity.

The outside that described cover half is positioned at described die cavity is provided with overflow lip, overflow launder and communicating passage, and described communicating passage one end is communicated in air, and the other end is communicated in described overflow launder, and described overflow lip is for being communicated with described die cavity and overflow launder.

The beneficial effect that the utility model brings is:

In the utility model, the counterdie of described large leg mould comprises cover half, cover half fixed head, reserving hole Control Component and leg size Control assembly, being provided with of described cover half and cover half fixed head is beneficial to mould and not easily produces distortion when completing die casting work, described leg size Control assembly comprises the second forward block, two the second rail blocks, leg size Control block and the second Angle Pin, described second forward block is between two the second rail blocks, and be free to slide, the another side of described second forward block is provided with fillet trapezoid depression, described leg size Control block embeds in described fillet trapezoid depression, two the 6th mounting grooves are provided with in described 4th mounting groove, two the second rail blocks embed in two the 6th mounting grooves respectively, described second forward block is provided with the tenth through hole, described dynamic mould fixing plate is provided with the 11 through hole, described cover half fixed head is provided with the second fluting, described second Angle Pin is successively through described 11 through hole, tenth through hole and the second fluting, described cover half, reserving hole Control Component and leg size Control assembly embed in mounting groove respectively, make mould fixing more stable, not easily produce and slide and cause casting deformation.The counterdie of this kind of large leg mould has been accomplished that structure is simple, can have been reused, easy to use, economize on resources.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described in further detail.

Fig. 1 is the explosive view of large leg die casting described in the utility model.

Fig. 2 is the structural representation of large leg die casting described in the utility model.

Fig. 3 is the structural representation of reserving hole Control Component described in the utility model.

Fig. 4 is the structural representation of the first forward block described in the utility model.

Fig. 5 is the structural representation of hole locating piece described in the utility model.

Fig. 6 is the structural representation of the first rail block described in the utility model.

Fig. 7 is the structural representation of leg size Control assembly described in the utility model.

Fig. 8 is the structural representation of the second forward block described in the utility model.

Fig. 9 is the structural representation of the second rail block described in the utility model.

Figure 10 is the structural representation of leg size Control block described in the utility model.

Figure 11 is the structural representation of the first push rod described in the utility model.

Figure 12 is the structural representation of the second push rod described in the utility model.

Figure 13 is the structural representation of the 3rd push rod described in the utility model.

The label that in figure, component names is corresponding is as follows:

1, die casting foundry goods; 2, dynamic model; 3, cover half; 4, dynamic mould fixing plate; 5, cover half fixed head; 6, reserving hole Control Component; 7, leg size Control assembly; 9, the second mounting groove; 10, the 3rd mounting groove; 11, the 4th mounting groove; 12, die cavity; 13, the first through hole; 14, the second through hole; 16, third through-hole; 17, fourth hole; 19, the first forward block; 20, the first rail block; 21, hole locating piece; 22, the first Angle Pin; 23, the first push rod; 24, the second push rod; 25, the 3rd push rod; 26, the 5th mounting groove; 28, round rectangle depression; 29, fifth hole; 30, the 6th through hole; 31, the 7th through hole; 32, the 8th through hole; 33, the 9th through hole; 34, the first fluting; 35, the first card article; 36, the first draw-in groove; 37, the second forward block; 38, the second rail block; 39, leg size Control block; 40, the second Angle Pin; 42, the 6th mounting groove; 43, the tenth through hole; 44, the 11 through hole; 45, the second fluting; 46, the second card article; 47, the second draw-in groove; 48, spreader; 49, the 7th mounting groove; 50, guiding gutter; 51, sprue; 52, runner; 53, diffluence pass; 54, overflow lip; 55, overflow launder; 56, communicating passage; 57, sprue bush; 58, gate; 59, mold base; 60, base; 61, waste liquid take-up reel.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is described in further detail:

As the embodiment of the counterdie of large leg mould described in the utility model, as Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, shown in Figure 12 and Figure 13, for die casting foundry goods 1, comprise dynamic model 2, cover half 3, dynamic mould fixing plate 4, cover half fixed head 5, reserving hole Control Component 6 and leg size Control assembly 7, the upper surface of described dynamic mould fixing plate 4 is provided with the first mounting groove (not shown), described dynamic model 2 is embedded in described first mounting groove (not shown), the upper surface of described cover half fixed head 5 is provided with the second mounting groove 9, described cover half 3 is embedded in described second mounting groove 9, the upper surface of described cover half fixed head 5 is positioned at described second mounting groove 9 side and is provided with the 3rd mounting groove 10, described reserving hole Control Component 6 is embedded in described 3rd mounting groove 10, the upper surface of described cover half fixed head 5 is positioned at described second mounting groove 9 opposite side and is provided with the 4th mounting groove 11, described leg size Control assembly 7 to be embedded in described 4th mounting groove 11, described dynamic model 2 and cover half 3 cooperatively interact, middle in hollow type, form die cavity 12, described dynamic model 2, cover half 3, reserving hole Control Component 6 and leg size Control assembly 7 embed in mounting groove respectively, make mould fixing more stable, not easily produce and slide and cause casting deformation, four angles of described dynamic mould fixing plate 3 are provided with four the first through holes 13, four angles of described cover half fixed head 5 are provided with four the second through holes 14, described first through hole 13 and the second through hole 14 is coordinated to be provided with the first latch (not shown), described first latch (not shown) is successively through described first through hole 13 and the second through hole 14, four angles of described dynamic model 2 are provided with four third through-holes 16, four angles of described cover half 3 are provided with four fourth holes 17, described third through-hole 16 and fourth hole 17 is coordinated to be provided with the second latch (not shown), described second latch (not shown) is successively through described third through-hole 16 and fourth hole 17, the design of described latch makes mold integral more firm, relative displacement can not be there is between each assembly, ensure that the integrality of foundry goods.

In the present embodiment, described reserving hole Control Component 6 comprises the first forward block 19, two the first rail blocks 20, hole locating piece 21, first Angle Pin 22, first push rod 23, second push rod 24 and two the 3rd push rods 25, two the 5th mounting grooves 26 are provided with in described 3rd mounting groove 10, two the first rail blocks 20 embed in two the 5th mounting grooves 26 respectively, design herein, what make that reserving hole Control Component 6 can be more firm is installed in cover half fixed head 5, described first forward block 19 is between two the first rail blocks 20, and be free to slide, the another side of described first forward block 19 is provided with the protruding (not shown) of round rectangle, the side of described hole locating piece 21 is provided with round rectangle depression 28, the protruding (not shown) of described round rectangle embeds in described round rectangle depression 28, described hole locating piece 21 side is positioned at outside described round rectangle depression 28 and is provided with fifth hole 29 and the 6th through hole 30, two the 7th through holes 31 are provided with in described round rectangle depression 28, described first push rod 23, second push rod 24 and the 3rd push rod 25 embed described fifth hole 29 respectively, in 6th through hole 30 and the 7th through hole 31, described first forward block 19 is provided with the 8th through hole 32, described dynamic mould fixing plate 4 is provided with the 9th through hole 33, described cover half fixed head 5 is provided with the first fluting 34, described first Angle Pin 22 is successively through described 9th through hole 33, 8th through hole 32 and the first fluting 34, the design of described first Angle Pin 22, what make that reserving hole Control Component 6 can be firm is installed on mould inside, ensure that the integrality of foundry goods, more ensure that the slickness of cast(ing) surface.

In the present embodiment, the bottom of two sides of described first forward block 19 is respectively provided with first card article 35, the bottom of the side of described first rail block 20 is provided with the first draw-in groove 36, described first card article 35 snaps in described first draw-in groove 36, the design of described first draw-in groove 36, first forward block 19 can be free to slide between two the first rail blocks 20, make form removal more convenient.

In the present embodiment, the lower surface of described first forward block 19, the first card article 35 and the first draw-in groove 36 are that 15 ° of angles are arranged with horizontal direction

In the present embodiment, described 8th through hole 32, the 9th through hole 33 and the first fluting 34 are that 30 ° of angles are arranged with vertical direction.

In the present embodiment, described tenth through hole the 43, the 11 through hole 44 and the second fluting 45 are that 30 ° of angles are arranged with vertical direction

In the present embodiment, described leg size Control assembly 7 comprises the second forward block 37, two the second rail blocks 38, leg size Control block 39 and the second Angle Pin 40, described second forward block 37 is between two the second rail blocks 38, and be free to slide, the another side of described second forward block 37 is provided with fillet trapezoid depression (not shown), described leg size Control block 39 embeds in described fillet trapezoid depression (not shown), two the 6th mounting grooves 42 are provided with in described 4th mounting groove 11, two the second rail blocks 38 embed in two the 6th mounting grooves 42 respectively, design herein, what make that leg size Control assembly 7 can be more firm is installed in cover half fixed head 5, described second forward block 37 is provided with the tenth through hole 43, described dynamic mould fixing plate 4 is provided with the 11 through hole 44, described cover half fixed head 5 is provided with the second fluting 45, described tenth through hole 43, 11 through hole 44 and the second fluting 45 are that 30 ° of angles are arranged with vertical direction, described second Angle Pin 40 is successively through described 11 through hole 44, tenth through hole 43 and the second fluting 45, the design of described second Angle Pin 40, what make that leg size Control assembly 7 can be firm is installed on mould inside, ensure that the integrality of foundry goods, more ensure that the slickness of cast(ing) surface.

In the present embodiment, the bottom of two sides of described second forward block 37 is respectively provided with second card article 46, the bottom of the side of described second rail block 38 is provided with the second draw-in groove 47, described second card article 46 snaps in described second draw-in groove 47, the design of described second draw-in groove 47, second forward block 37 can be free to slide between two the second rail blocks 38, make form removal more convenient.

In the present embodiment, the lower surface of described second forward block 37, the second card article 46 and the second draw-in groove 47 horizontal direction are arranged.

In the present embodiment, described large leg die casting is also provided with spreader 48, described cover half fixed head 5 is positioned at described second mounting groove 9 side and is provided with the 7th mounting groove 49, described spreader 48 embeds in described 7th mounting groove 49, described spreader 48 is provided with guiding gutter 50, sprue 51 by entering described die cavity for metal liquid between described guiding gutter 50 with described die cavity 12 is connected, the water conservancy diversion direction of described sprue 51 pairs of metal liquids is perpendicular to the die sinking direction moving 2 moulds, described sprue 51 is positioned at described die cavity 12 top, described cover half 3 upper surface is provided with runner 52 and diffluence pass 53, described runner 52 is communicated with described sprue 51 and diffluence pass 53, described diffluence pass 53 is between described runner 52 and described die cavity 12.

In the present embodiment, overflow lip 54, overflow launder 55 and communicating passage 56 is provided with between described dynamic model 2 and cover half 3, described communicating passage 56 one end is communicated in air, the other end is communicated in described overflow launder 55, described overflow lip 54 is for being communicated with described die cavity 12 and overflow launder 55, and the design of described overflow lip 54, after having filled metal liquid in die cavity 12, unnecessary metal liquid can discharge die cavity 12, and makes foundry goods can be more full.

In the present embodiment, described dynamic mould fixing plate 4 is provided with sprue bush 57, described sprue bush 57 inside is provided with gate 58, described gate 58 is connected with described spreader 48, the central axis of described sprue bush 57 and the central axes of described spreader 48, the design of described sprue bush 57, makes pouring nozzle can perfectly stretch among dynamic mould fixing plate 4, make metal liquid can all enter die cavity 12, do not waste material.

In the present embodiment, described large leg die casting also comprises mold base 59, described mold base 59 is positioned at described cover half fixed head 5 bottom, the design of described mold base 59, what make that large leg die casting can be more firm stands on ground, not easily rock and collapse, described mold base 59 comprises base 60 and waste liquid take-up reel 61, described waste liquid take-up reel 61 frame is on described base 60 and be positioned at below described cover half fixed head 5, the design of described waste liquid take-up reel 61, the unnecessary metal liquid flowed out by communicating passage 56 can be collected among described waste liquid take-up reel 61, do not waste material.

Claims (6)

1. the counterdie of a large leg mould, be positioned at below dynamic mould fixing plate, for die casting foundry goods, it is characterized in that comprising cover half, cover half fixed head, reserving hole Control Component and leg size Control assembly, the upper surface of described cover half fixed head is provided with the second mounting groove, described cover half is embedded in described second mounting groove, the upper surface of described cover half fixed head is positioned at described second mounting groove side and is provided with the 3rd mounting groove, described reserving hole Control Component is embedded in described 3rd mounting groove, the upper surface of described cover half fixed head is positioned at described second mounting groove opposite side and is provided with the 4th mounting groove, described leg size Control assembly is embedded in described 4th mounting groove, described leg size Control assembly comprises the second forward block, two the second rail blocks, leg size Control block and the second Angle Pin, described second forward block is between two the second rail blocks, and be free to slide, the another side of described second forward block is provided with fillet trapezoid depression, described leg size Control block embeds in described fillet trapezoid depression, two the 6th mounting grooves are provided with in described 4th mounting groove, two the second rail blocks embed in two the 6th mounting grooves respectively, described second forward block is provided with the tenth through hole, described dynamic mould fixing plate is provided with the 11 through hole, described cover half fixed head is provided with the second fluting, described second Angle Pin is successively through described 11 through hole, tenth through hole and the second fluting.

2. the counterdie of large leg mould as claimed in claim 1, is characterized in that described tenth through hole, the 11 through hole and the second fluting are that 30 ° of angles are arranged with vertical direction.

3. the counterdie of large leg mould as claimed in claim 2, it is characterized in that the bottom of two sides of described second forward block is respectively provided with second card article, the bottom of the side of described second rail block is provided with the second draw-in groove, and described second card article snaps in described second draw-in groove.

4. the counterdie of large leg mould as claimed in claim 3, is characterized in that the lower surface of described second forward block, the second card article and the second draw-in groove horizontal direction are arranged.

5. the counterdie of large leg mould as claimed in claim 4, it is characterized in that the lower mold assemblies of described large leg die casting is also provided with spreader, described cover half fixed head is positioned at described second mounting groove side and is provided with the 7th mounting groove, described spreader embeds in described 7th mounting groove, the upper surface of described cover half is provided with die cavity, described spreader is provided with guiding gutter, sprue by entering described die cavity for metal liquid between described guiding gutter with described die cavity is connected, described sprue is to the die sinking direction of the water conservancy diversion direction of metal liquid perpendicular to patrix, described sprue is positioned at described die cavity top, described cover half upper surface is provided with runner and diffluence pass, described runner is communicated with described sprue and diffluence pass, described diffluence pass is between described runner and described die cavity.

6. the counterdie of large leg mould as claimed in claim 5, it is characterized in that the outside that described cover half is positioned at described die cavity is provided with overflow lip, overflow launder and communicating passage, described communicating passage one end is communicated in air, the other end is communicated in described overflow launder, and described overflow lip is for being communicated with described die cavity and overflow launder.