CN208513604U - A kind of container angle casting technique mold - Google Patents

Abstract

The utility model discloses a kind of container angle casting technique molds, including upper arenaceous shell, lower arenaceous shell and running gate system, the running gate system is set among upper arenaceous shell and is through to lower arenaceous shell, the upper arenaceous shell and lower arenaceous shell surround the multiple corner fittings type cavities to be formed using running gate system as center axis, the running gate system includes sprue, the sprue is successively arranged the first sprue gate being connected respectively with each corner fittings type cavity in lower arenaceous shell shell by bottom upwards, the second sprue gate being connected respectively with each corner fittings type cavity in upper arenaceous shell shell, and the dead head for molten steel injection.It by the first sprue gate of setting and the second sprue gate, increases molten steel by the distance and range of the first sprue gate and the second sprue gate feeding, while assisting increasing non-porous big face processing capacity, effectively feeding is carried out to isolated thermal center, eliminates shrinkage cavity defect.

Description

A kind of container angle casting technique mold

Technical field

The utility model belongs to container angle arenaceous shell field more particularly to a kind of container angle casting technique mould Tool.

Background technique

Container angle is also known as case angle, hangs angle, is used primarily in each corner of container, the lifting of container, carrying, It fixed, pile and fastens in solid operation and all plays key effect.Container is used for marine shipping inlet and outlet and domestic overland transport, angle Part is the key fitment on container, for container lifting and tie up, since the temperature difference of ocean all over the world is big and sea On jolt big etc., corner fittings military service operating condition is severe, and the performance requirement of diagonal is very strict.

And existing corner fittings (such as Fig. 1) has the following problems: at the inner cavity angle of corner fittings, rectangle macropore wall thickness and hole , all there is casting thermal center, the chance that can all there is shrinkage cavity to occur at thermal center in side muscle and the big face junction of welding.Casting thermal center is Refer to molten metal in process of setting, casting internal ratio surrounding metal solidifies slow node or regional area, can also say it is last cold But the place solidified.

Utility model content

To solve the above-mentioned problems, the utility model provides a kind of container angle casting technique mold, can have Effect solves the above problem of the existing technology.

To achieve the goals above, the utility model provides following technical scheme: a kind of container angle casting technique With mold, including upper arenaceous shell, lower arenaceous shell and running gate system, the running gate system is set among upper arenaceous shell and is through to lower arenaceous shell, The upper arenaceous shell and lower arenaceous shell surround the multiple corner fittings type cavities to be formed using running gate system as center axis, and the running gate system includes Sprue, the sprue are successively arranged first to be connected respectively with each corner fittings type cavity in lower arenaceous shell shell by bottom upwards Sprue gate, the second sprue gate being connected respectively with each corner fittings type cavity in upper arenaceous shell shell and pouring for molten steel injection Riser.

Further, first sprue gate is connected with the corner fittings type cavity lower end in lower arenaceous shell, second casting The corner fittings type cavity upper end that mouth is same as above arenaceous shell is connected.

Further, second sprue gate is set to the surface at the first sprue gate.

Further, the mold further includes profile-followed chill, and bottom is equipped with profile-followed cold for placing in the lower arenaceous shell shell The chill cavity of iron.

Further, the profile-followed chill is the right angle trigonometry of arcwall face by bar shaped frozen iron blocks, hook-shaped frozen iron blocks and inclined-plane Columnar projections are constituted, and the hook-shaped frozen iron blocks are identical as the height of bar shaped frozen iron blocks, and the hook-shaped frozen iron blocks and bar shaped chill One end of block, which coincide, to be connected, and the right angle trigonometry column protrusion is set on the long arm of angle of bar shaped frozen iron blocks, and right angle trigonometry column is convex The adjacent surface of the right-angle surface and strip frozen iron blocks that rise is in the same plane.

Further, the bar shaped frozen iron blocks, hook-shaped frozen iron blocks and right angle trigonometry column protrusion are integrally formed.

Further, the upper arenaceous shell and lower arenaceous shell surround to be formed and hold by four corner fittings types of center axis of running gate system Chamber, and offered on sprue and be respectively connected with logical four the first sprue gates and four second casting with four corner fittings type cavities Mouthful.

Compared with prior art, the utility model has the beneficial effects that

(1) by the first sprue gate of setting and the second sprue gate, mend molten steel by the first sprue gate and the second sprue gate The distance and range of contracting increase, while assisting increasing non-porous big face processing capacity, carry out effectively feeding to isolated thermal center, eliminate Shrinkage cavity defect.

(2) molten steel flows into the corner fittings type plenum section of lower arenaceous shell by the first sprue gate, when the height of molten steel reaches second When the position of sprue gate, molten steel is flowed into corner fittings type cavity by the second sprue gate, can effectively avoid corner fittings inner cavity angle in this way There is shrinkage cavity.

(3) profile-followed chill is set at rectangle macropore wall thickness, and profile-followed chill leads to setting is close at rectangle macropore wall thickness The capacity of heat transmission of profile-followed chill is crossed, the setting rate at thermal center can be accelerated.Profile-followed chill setting right angle trigonometry column protrusion, and it is straight The arcwall face of angle triangle columnar projections can make profile-followed chill more be bonded and contact with the arm of angle at corner fittings rectangle macropore wall thickness Face increases, and accelerates its setting rate, shrinkage cavity is avoided to generate.

Detailed description of the invention

Fig. 1 is corner element structures schematic diagram；

Fig. 2 is a kind of schematic perspective view of container angle casting technique mold；

Fig. 3 is a kind of side structure schematic diagram of container angle casting technique mold；

Fig. 4 is lower arenaceous shell structural schematic diagram；

Fig. 5 is upper arenaceous shell structural schematic diagram；

Fig. 6 is structural schematic diagram after knockout；

Fig. 7 is profile-followed chill structural schematic diagram；

Description of symbols:

Upper arenaceous shell 1, lower arenaceous shell 2, running gate system 3, sprue 4, the first sprue gate 5, the second sprue gate 6, dead head 7, with Shape chill 8, bar shaped frozen iron blocks 9, hook-shaped frozen iron blocks 10, right angle trigonometry column protrusion 11, corner fittings 12, at rectangle macropore wall thickness 13, corner fittings type cavity 14, chill cavity 15.

Specific embodiment

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention and embodiment can To be combined with each other.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", "upper", "lower", The orientation or positional relationship of the instructions such as "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" is It is based on the orientation or positional relationship shown in the drawings, is merely for convenience of describing the present invention and simplifying the description, rather than indicate Or imply that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot understand For limitations of the present invention.In addition, term " first ", " second " etc. are used for description purposes only, and should not be understood as indicating Or it implies relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " second " etc. are defined as a result, Feature can explicitly or implicitly include one or more of the features.It is in the description of the present invention, unless another It is described, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, on being understood by concrete condition State the concrete meaning of term in the present invention.

A kind of container angle casting technique mold, including upper arenaceous shell 1, lower arenaceous shell 2 and running gate system 3, the casting System 3 is set among upper arenaceous shell 1 and is through to lower arenaceous shell 2, and the upper arenaceous shell 1 surrounds to be formed with lower arenaceous shell 2 is with running gate system 3 Multiple corner fittings type cavities 14 of central axis, the running gate system 3 include sprue 4, and the sprue 4 is successively set upwards by bottom Have the first sprue gate 5 being connected respectively with each corner fittings type cavity in lower 2 shell of arenaceous shell, respectively with each angle in upper 1 shell of arenaceous shell The second sprue gate 6 that part type cavity is connected and the dead head 7 for molten steel injection.Pass through the first sprue gate of setting and the Two sprue gates increase molten steel by the distance and range of the first sprue gate and the second sprue gate feeding, while assisting increasing and add Work amount carries out effectively feeding to isolated thermal center, eliminates shrinkage cavity defect.

In conjunction with Fig. 3 and Fig. 6, first sprue gate 5 is connected with the corner fittings type cavity lower end in lower arenaceous shell 2, and described The corner fittings type cavity upper end that two sprue gates 6 are same as above arenaceous shell 1 is connected.Molten steel flows into the corner fittings type of lower arenaceous shell by the first sprue gate Plenum section, when the height of molten steel reaches the second sprue gate position, molten steel is flowed into corner fittings type cavity by the second sprue gate, It can effectively avoid corner fittings inner cavity angle in this way and shrinkage cavity occur.

As a preferred embodiment of the above technical solution, in conjunction with Fig. 3 and Fig. 6, second sprue gate 6 is set to the first sprue gate 5 Surface, and same first sprue gate in the second sprue gate is in same vertical direction.

In conjunction with Fig. 2-Fig. 7, the mold further includes profile-followed chill 8, in lower 2 shell of arenaceous shell bottom be equipped with for place with The chill cavity 15 of shape chill 8.Fig. 6 be knockout after corner fittings with running gate system attachment structure schematic diagram, in conjunction with Fig. 6 it is found that with Shape chill is set to 13 at rectangle macropore wall thickness, and profile-followed chill is close to setting at rectangle macropore wall thickness 13, by profile-followed cold The capacity of heat transmission of iron can accelerate the setting rate at thermal center.

Scheme as a preferred embodiment of the above technical solution, in conjunction with Fig. 1, Fig. 6 and Fig. 7, the profile-followed chill 8 is by bar shaped frozen iron blocks 9, hook-shaped frozen iron blocks 10 and inclined-plane are that the right angle trigonometry column protrusion 11 of arcwall face is constituted, and the hook-shaped frozen iron blocks 10 and bar shaped are cold The height of iron block 9 is identical, and the hook-shaped frozen iron blocks 10 and 9 one end of bar shaped frozen iron blocks coincide and connect, the right angle wedge Shape protrusion 11 is set on the long arm of angle of bar shaped frozen iron blocks 9, and a right-angle surface of right angle trigonometry column protrusion 11 and strip frozen iron blocks 9 In the same plane, another right-angle surface of right angle trigonometry column protrusion is close to connection, such as Fig. 7 with strip frozen iron blocks to adjacent surface.With Right angle trigonometry column protrusion is arranged in shape chill, and the arcwall face of right angle trigonometry column protrusion can make profile-followed chill with corner fittings rectangle 13 arm of angle is more bonded at macropore wall thickness, accelerates its setting rate, shrinkage cavity is avoided to generate.

As a preferred embodiment of the above technical solution, the bar shaped frozen iron blocks 9, hook-shaped frozen iron blocks 10 and right angle trigonometry column protrusion 11 are integrally formed, convenient for the use of profile-followed chill.

As a preferred embodiment of the above technical solution, the upper arenaceous shell 1 surrounds to be formed centered on running gate system 3 with lower arenaceous shell 2 Four corner fittings type cavities of axis, and offered on sprue 4 and be respectively connected with four first logical casting with four corner fittings type cavities Mouth 5 and four the second sprue gates 6.

Steps are as follows for container angle casting technique:

(1) profile-followed chill is put into chill cavity, and makes right angle trigonometry column protrusion side towards upper placement；

(2) shell core is put into lower arenaceous shell；

(3) upper arenaceous shell is placed on above lower arenaceous shell and is connected；

(4) molten steel is injected in arenaceous shell by dead head, and molten steel first passes through the first sprue gate and flows into arenaceous shell, works as molten steel later Height when reaching the height at the second sprue gate, molten steel injects molten steel into arenaceous shell by the second sprue gate；

(5) by arenaceous shell natural cooling, knockout, and running gate system is cut down by cutter device, and then completes corner fittings Preparation.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this Within the spirit and principle of utility model, any modification, equivalent replacement, improvement and so on should be included in the utility model Protection scope within.

Claims (7)

1. a kind of container angle casting technique mold, including upper arenaceous shell, lower arenaceous shell and running gate system, it is characterised in that: institute It states running gate system to be set among upper arenaceous shell and be through to lower arenaceous shell, the upper arenaceous shell surrounds to be formed with lower arenaceous shell is with running gate system Multiple corner fittings type cavities of central axis, the running gate system includes sprue, and the sprue is successively arranged point upwards by bottom The first sprue gate for not being connected with each corner fittings type cavity in lower arenaceous shell shell, respectively with each corner fittings type cavity in upper arenaceous shell shell The second sprue gate being connected and the dead head for molten steel injection.

2. a kind of container angle casting technique mold according to claim 1, it is characterised in that: first casting Mouth is connected with the corner fittings type cavity lower end in lower arenaceous shell, and the corner fittings type cavity upper end that second sprue gate is same as above arenaceous shell is connected It is logical.

3. a kind of container angle casting technique mold according to claim 1, it is characterised in that: second casting Mouth is set to the surface at the first sprue gate.

4. a kind of container angle casting technique mold according to claim 1, it is characterised in that: the mold also wraps Profile-followed chill is included, bottom is equipped with the chill cavity for placing profile-followed chill in the lower arenaceous shell shell.

5. a kind of container angle casting technique mold according to claim 4, it is characterised in that: the profile-followed chill Including the right angle trigonometry column protrusion that bar shaped frozen iron blocks, hook-shaped frozen iron blocks and inclined-plane are arcwall face, the hook-shaped frozen iron blocks and item The height of shape frozen iron blocks is identical, and the hook-shaped frozen iron blocks and one end of bar shaped frozen iron blocks coincide and connect, the right angle wedge Shape protrusion is set on the long arm of angle of bar shaped frozen iron blocks, and the adjacent surface of a right-angle surface of right angle trigonometry column protrusion and strip frozen iron blocks In the same plane.

6. a kind of container angle casting technique mold according to claim 5, it is characterised in that: the bar shaped chill Block, hook-shaped frozen iron blocks and right angle trigonometry column protrusion are integrally formed.

7. existing according to claim 1 to a kind of container angle casting technique mold, feature described in one of them in 6 In: the upper arenaceous shell and lower arenaceous shell surround the four corner fittings type cavities to be formed using running gate system as center axis, and open on sprue Logical four the first sprue gates and four the second sprue gates are respectively connected with equipped with same four corner fittings type cavities.