CN206426247U - A kind of high life Alloy-steel mold - Google Patents
A kind of high life Alloy-steel mold Download PDFInfo
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- CN206426247U CN206426247U CN201621146134.5U CN201621146134U CN206426247U CN 206426247 U CN206426247 U CN 206426247U CN 201621146134 U CN201621146134 U CN 201621146134U CN 206426247 U CN206426247 U CN 206426247U
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- die ontology
- clamping device
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- steel mold
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Abstract
The utility model discloses a kind of high life Alloy-steel mold, it includes die ontology, clamping device;Die ontology is split-type structural, and clamping device is fastened on the surrounding of die ontology.Wherein, clamping device includes some pieces of grip blocks, clamping device body, several housing screws;Grip block is close to surrounding outside die ontology, clamping device body and is pressed on by housing screw on grip block.Alloy-steel mold of the present utility model is split-type structural, easy to process.Meanwhile, it when the inner chamber abrasion of mould, can easily recover interior chamber size, therefore the utility model mold use long lifespan, 8 10 times of life-span, cost reduction by more than 50% are increased relative to existing mold.
Description
Technical field
The utility model is related to the mould of refractory material, more particularly to refractory brick machine suppresses the mould of product.
Background technology
The enterprise of processing and manufacturing at present processing cost is huge, especially the larger ratio of mould accounting in cost, mould
Service life and its product amounts produced are particularly important.The machine pressing mold of sizing refractory brick in current refractories industry
Tool uses mild steel Q235 or 20Cr carburizing or carbonitriding Quenching Treatment, although surface has certain degree of hardness, rigidity layer
It is very thin, only 0.5mm or so, therefore it after using the shorter time, rigidity layer will be worn, therefore the life-span of mould
It is universal relatively low and rough after being worn due to rigidity layer, die products poor appearance can be caused and product size is larger, pole
The earth causes cost waste.In addition, the mild steel carburizing or carbonitriding process time is longer, bring mould supply cycle inclined
It is long, influence production.
Utility model content
Problem to be solved in the utility model is to provide a kind of Alloy-steel mold.Alloy-steel mold of the present utility model is
Split-type structural, it is easy to process.Meanwhile, when the inner chamber abrasion of mould, it can easily recover interior chamber size, therefore this practicality
The service life of novel die is long, and 8-10 times of life-span, cost reduction by more than 50% are increased relative to existing mold.
A kind of high life Alloy-steel mold of the utility model, it includes die ontology, clamping device;Die ontology is split
Formula structure, clamping device is fastened on the surrounding of die ontology.
Further, clamping device includes some pieces of grip blocks, clamping device body, several housing screws;Grip block
The surrounding outside die ontology, clamping device body is close to be pressed on grip block by housing screw.
Further, the shape of the shape of grip block and die ontology profile is adapted, and some pieces of grip blocks are arranged symmetrically.
Further, be provided with several housing screws on each face of clamping device body, housing screw relative to
Die ontology is arranged symmetrically.
Further, die ontology is square, is each provided with a fabrication hole on its four angles, die ontology is divided into
Two pieces or four pieces.
The processing method of the utility model high life Alloy-steel mold, it is comprised the concrete steps that:
1. by the blank roughing of die ontology to appearance and size shown in Fig. 3 (A+2) * (B+2), inner chamber dimension D -2;(A、B
For the length and width size that die ontology is final, D is the final interior chamber size of die ontology)
2. die ontology is divided into symmetrical two pieces or four pieces of splits as shown in Figure 4, this process can be according to mould
The technique such as size selection wire cutting or sawing machine processing;
3. the split of be divided into two pieces or four pieces die ontologies is placed as shown in Figure 5, and connected with mould connecting plate
After connecing, four, the outside straight flange shown in manuscript 6, it is ensured that long A, the sizes of wide B two;
4. connecting plate is removed, the position that the split of two pieces or four pieces die ontologies is returned to after segmenting, such as Fig. 6 institutes
Show, then clamping clamping device, by the inner chamber dimensioned of die ontology to final size D, mould finishing is completed;
5. suitable Technology for Heating Processing is selected to improve mould wearability and hardness according to the material of die ontology, then mould
It can come into operation.
From the above, it can be seen that in structure, the utility model mould uses Split type structure, it can divide depending on mold shape difference
It is easy to process for two parts or four parts.Meanwhile, can be repeatedly by the cavity of working face after abrasion after the inner chamber abrasion of mould
(cavity can be revolving body or abnormal shape) is contracted to standard size, so that mould circulation reparation is used, extends mold use
In the life-span, reduce production cost.The mould clamping tooling and boring cutter bar assembly and mould used in process in addition connect
The structures such as fishplate bar, are greatly improved processing efficiency and machining precision, reduction processing cost, shortening process-cycle.
Brief description of the drawings
Fig. 1 is the schematic diagram of the utility model mould;
Fig. 2 is the sectional view of the line A-A along along Fig. 1.
Fig. 3 is the schematic diagram after mould roughing;
Fig. 4 is cut schematic diagram after mould roughing;
Fig. 5 is that mould is cut post-processing station schematic diagram;
Fig. 6 is the finished product schematic diagram that mould is machined.
Embodiment
The utility model is described in more detail with reference to the accompanying drawings and detailed description.
Embodiment 1
A kind of high life Alloy-steel mold of the utility model, it includes die ontology 1, clamping device;Die ontology 1 is to divide
Body formula structure, clamping device is fastened on the surrounding of die ontology 1.
The effect of clamping device is in process to be clamped the die ontology 1 of split-type structural, so that convenient
Processing.
Embodiment 2
Wherein, clamping device includes some pieces of grip blocks 2, clamping device body 3, several housing screws 4;Grip block 2
The surrounding outside die ontology 1, clamping device body 3 is close to be pressed on grip block 2 by housing screw 4.
Grip block 2 plays a part of increase pressurization area and marks whole Split mold profile, even if Split type die is same
The right-angle side of side is not in dislocation on same straight line.Screw is machined with clamping device body 3, housing screw 4 is in folder
Four part moulds can be clamped with the help of plate 2 by holding, i.e., grip block 2 is close to the four of die ontology 1 by housing screw 4
Week, and make Split type die the same side right-angle side on same straight line, be not in dislocation.
Embodiment 3
The shape of grip block 2 is adapted with the shape of the profile of die ontology 1, and some pieces of grip blocks 2 are arranged symmetrically.
So, it is easy to grip block 2 to be brought into close contact with die ontology 1, better ensures that the relative position between die ontology split
Put, it is ensured that the size of processing.
Embodiment 4
Several housing screws 4 are provided with each face of clamping device body 3, housing screw 4 is relative to mould sheet
Body 1 is arranged symmetrically.
Housing screw 4 is arranged symmetrically, it is ensured that fastening force on the same line, will not make before the generation of Split type die body
The dislocation of left and right afterwards.
Embodiment 5
Die ontology 1 is each provided with a fabrication hole 7 to be square on its four angles, die ontology 1 be divided into two pieces or
Four pieces.
Fabrication hole 7 is connected when predominantly processing with mould connecting plate 8.
The processing method of the utility model high life Alloy-steel mold, it is comprised the concrete steps that:
1. by the blank roughing of die ontology to appearance and size shown in Fig. 3 (A+2) * (B+2), inner chamber dimension D -2;(A、B
For the length and width size that die ontology is final, D is the final interior chamber size of die ontology)
2. die ontology is divided into symmetrical two pieces or four pieces of splits as shown in Figure 4, this process can be according to mould
The technique such as size selection wire cutting or sawing machine processing;
3. the split of be divided into two pieces or four pieces die ontologies is placed as shown in Figure 5, and connected with mould connecting plate
After connecing, four, the outside straight flange shown in manuscript 6, it is ensured that long A, the sizes of wide B two;
4. connecting plate is removed, the position that the split of two pieces or four pieces die ontologies is returned to after segmenting, such as Fig. 6 institutes
Show, then clamping clamping device, by the inner chamber dimensioned of die ontology to final size D, mould finishing is completed;
5. suitable Technology for Heating Processing is selected to improve mould wearability and hardness according to the material of die ontology, then mould
It can come into operation.
After the utility model mould uses a period of time, working cavity can wear and tear change greatly, if former monoblock type
Mould will be abandoned directly, cause cost to waste;And the step in the present embodiment is used, can be by the cavity (cavity of working face
Can be revolving body or abnormal shape) narrow down to and meet the requirements.Therefore this mould can be used with circulating reparation, greatly reduced and be produced into
This.
The mould clamping tooling and the structure such as boring cutter bar assembly and mould connecting plate used in process in addition, can
Greatly improve processing efficiency and machining precision, reduction processing cost, shortening process-cycle.In addition, mould of the present utility model
Tool can also take following technology further to extend its service life:First, on mold material selection, using the conjunction of wear resistant and impact resistant
Golden material;Second, heat treatment mode is using quenching plus lonneal processing, and the time is shorter.
Claims (5)
1. a kind of high life Alloy-steel mold, it is characterized in that:It includes die ontology (1), clamping device;Die ontology (1) is
Split-type structural, clamping device is fastened on the surrounding of die ontology (1).
2. high life Alloy-steel mold according to claim 1, it is characterized in that:Clamping device includes some pieces of grip blocks
(2), clamping device body (3), several housing screws (4);Grip block (2) is close to the outside surrounding of die ontology (1), folder
Device body (3) is held to be pressed on grip block (2) by housing screw (4).
3. high life Alloy-steel mold according to claim 2, it is characterized in that:The shape and die ontology of grip block (2)
(1) shape of profile is adapted, and some pieces of grip blocks (2) are arranged symmetrically.
4. high life Alloy-steel mold according to claim 2, it is characterized in that:On each face of clamping device body (3)
Several housing screws (4) are provided with, housing screw (4) is arranged symmetrically relative to die ontology (1).
5. high life Alloy-steel mold according to claim 1, it is characterized in that:Die ontology (1) is square, at its four
A fabrication hole (7) is each provided with angle, die ontology (1) is divided into two pieces or four pieces.
Priority Applications (1)
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CN201621146134.5U CN206426247U (en) | 2016-10-19 | 2016-10-19 | A kind of high life Alloy-steel mold |
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CN201621146134.5U CN206426247U (en) | 2016-10-19 | 2016-10-19 | A kind of high life Alloy-steel mold |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106393398A (en) * | 2016-10-19 | 2017-02-15 | 马鞍山利尔开元新材料有限公司 | Long-service-life alloy steel die and machining method thereof |
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2016
- 2016-10-19 CN CN201621146134.5U patent/CN206426247U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106393398A (en) * | 2016-10-19 | 2017-02-15 | 马鞍山利尔开元新材料有限公司 | Long-service-life alloy steel die and machining method thereof |
CN106393398B (en) * | 2016-10-19 | 2019-05-31 | 马鞍山利尔开元新材料有限公司 | A kind of high life Alloy-steel mold and its processing method |
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