CN205128847U - Thin wall frame type steel -casting cracking strip structure - Google Patents
Thin wall frame type steel -casting cracking strip structure Download PDFInfo
- Publication number
- CN205128847U CN205128847U CN201520830250.8U CN201520830250U CN205128847U CN 205128847 U CN205128847 U CN 205128847U CN 201520830250 U CN201520830250 U CN 201520830250U CN 205128847 U CN205128847 U CN 205128847U
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- CN
- China
- Prior art keywords
- side frame
- arc section
- frame sidewall
- casting
- sidewall
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- Withdrawn - After Issue
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Abstract
The utility model discloses a thin wall frame type steel -casting cracking strip structure, its sets up first side bearer lateral wall and second side bearer lateral wall corner adjacent on this frame type steel -casting, it include at least one through casting mould and first side bearer lateral wall and second side bearer lateral wall an organic whole fashioned crack control gusset of casting, the crack control gusset includes the two adjacent sharp limits and the third limit of deformation, and its two adjacent sharp limits link to each other with first side bearer lateral wall and second side bearer lateral wall respectively, and the third limit of its deformation connects gradually the combination by first circular arc section, second circular arc section and third circular arc section and forms, the utility model discloses can change shrink stress direction for the shrinkage stress passes through the foundry goods, and to transmit the cracking strip structural, and the drawing breakage position takes place structurally at the cracking strip, avoids the crackle to appear on the foundry goods body, effectively solves the multiaxial complex construction's of shrinkage stress crack control problem.
Description
Technical field
The utility model relates to steel-casting crack prevention technique field, specifically refers to a kind of thin-walled frame-type steel-casting cracking strip structure.
Background technology
Steel-casting structure is changeable, in casting process, due to the impact by casting section thickness inequality, complex structure degree, external drag, technological measure, thermo parameters method etc., there will be and shrinks uneven phenomenon, is the basic reason causing foundry goods local to occur crackle.At the crack structtire place easily occurred, one or several cracking strip is set, can local contraction be affected, prevent crackle from producing.
Usually common steel-casting cracking strip structure as shown in Figure 1, vertically connect between first side frame sidewall 2 and the second side frame sidewall 3, corner is provided with anticracking gusset 1, the hypotenuse linearly type of anticracking gusset 1, therefore anticracking gusset 1 can only solve the drawing crack along stress shrinkage direction, but for some complex structures, in contraction process, by the steel-casting of multiaxial stress, common cracking strip structure may be subject to the impact of shrinkage stress, occurs following problem:
One, the effect of anticracking is not had.Common cracking strip structure can only solve the drawing crack along stress shrinkage direction, is directed to labyrinth, and molten steel is in process of setting, and shrinkage stress is multidirectional, and common cracking strip structure does not often have the effect of anticracking.
Two, there is crackle in cracking strip structural perimeter foundry goods.Common cracking strip structure can only play anti-crack function in one direction, because shrinkage stress is multidirectional, particularly for the structure of two side wall unevenness, often occur crackle at cracking strip structure root, or cracking strip structural crack gos deep in foundry goods.
Three, Castingother defect is caused to occur.Common cracking strip structure function is limited, solve labyrinth crack problem, need to increase cracking strip physical dimension or thickness, or multi-direction cracking strip structure is set, virtually strengthen foundry goods thermal center, increase the tendency that the casting flaws such as shrinkage cavity and porosity appear in thermal center place.
Summary of the invention
The purpose of this utility model is to overcome above-mentioned deficiency, provides a kind of thin-walled frame-type steel-casting cracking strip structure, strengthens the effect of cracking strip structure, solves the anticracking problem of the multidirectional labyrinth of shrinkage stress.
For achieving the above object, thin-walled frame-type steel-casting cracking strip structure designed by the utility model, a kind of thin-walled frame-type steel-casting cracking strip structure, be arranged on the first side frame sidewall adjacent on this frame-type steel-casting and the second side frame sidewall corner, its special character is:
It comprises at least one piece of anticracking gusset through casting mould and the first side frame sidewall and the cast molding of the second side frame sidewall one, described anticracking gusset is similar triangle, its two adjacent straight lines are connected with the second side frame sidewall with the first side frame sidewall respectively, and the 3rd limit of its distortion to be connected successively with three-arc section by the first arc section, the second arc section and to combine;
The circular arc bending direction of described first arc section and three-arc section is all towards the first side frame sidewall and the second side frame sidewall, and the circular arc bending direction of described second arc section deviates from the first side frame sidewall and the second side frame sidewall;
One end and the first side frame sidewall of described first arc section are tangent, the other end of described first arc section and one end of the second arc section tangent, the other end of described second arc section and one end of three-arc section tangent, the other end and the second side frame sidewall of described three-arc section are tangent;
The relevant parameter of described anticracking gusset is as follows:
If D
1>=D
2time, the scope of t value is t=D
2/ 4 ~ D
2/ 3; If D
1< D
2time, the scope of t value is t=D
1/ 4 ~ D
1/ 3;
L
1the scope of value is L
1=7t ~ 11t, L
3the scope of value is L
3=7t ~ 11t, L
2=(L
1+ L
3) × 0.4;
R
1the scope of value is R
1=10 ~ 20mm, R
3the scope of value is R
3=10 ~ 20mm;
R
2the scope of value is R
2=R
1~ 1.5R
1or R
2=R
3~ 1.5R
3;
Wherein, D
1be the wall thickness of the first side frame sidewall, D
2be the wall thickness of the second side frame sidewall, t is the thickness of slab of anticracking gusset, L
1be the distance between point of contact to the first side frame sidewall of the first arc section and the first side frame sidewall and the second side frame sidewall tie point, L
3be the distance between point of contact to the first side frame sidewall of three-arc section and the second side frame sidewall and the second side frame sidewall tie point, L
2be the distance between mid point to the first side frame sidewall of the second arc section and the second side frame sidewall tie point, R
1be the radius of the first arc section, R
2be the radius of the second arc section, R
3it is the radius of three-arc section.
Further, described first side frame sidewall and the second side frame sidewall are 70 ~ 120 ° and arrange.
Further, described first side frame sidewall and the second side frame sidewall are 80 ~ 100 ° and arrange.
Preferably, described first side frame sidewall and the second side frame sidewall are 90 ° and arrange.
Preferably, the radius R of described first arc section
1with the radius R of described three-arc section
3equal.
Preferably, the arc length of described first arc section, the second arc section and three-arc section is 1/4th of its circumference corresponding separately.
Utility model works principle: cracking strip structure of the present utility model can change shrinkage stress direction, shrinkage stress is made to be delivered in cracking strip structure by foundry goods, the stress that both direction that cracking strip structure is cancelled out each other produces, therefore after foundry goods shrinks, effect of stress is in cracking strip structure, that is: drawing crack position occurs in cracking strip structure, and Crack prevention appears on foundry goods body.By common cracking strip structure and the utility model cracking strip structure for railway freight-car steel-casting side frame, Non-Destructive Testing (magnetic powder inspection) is carried out to the cracking strip periphery foundry goods body part of two kinds of structures, find that hair cracks appear in common cracking strip structure root foundry goods body, particularly the crackle of two side wall unevenness structure root is more, and the utility model cracking strip shaping structures is good, cracking strip structural perimeter foundry goods body flawless, the utility model cracking strip structure is for other railway freight-car steel-castings of multiclass, in the structure of particularly sidewall wall unevenness, all on cracking strip structural perimeter foundry goods body, do not find crackle.
The beneficial effects of the utility model:
1, efficiently solve common cracking strip structure and can only solve drawing crack along stress shrinkage direction, be applicable to the labyrinth that all shrinkage stresses are multidirectional, drawing crack position occurs in cracking strip structure, Crack prevention appears on foundry goods body, effectively solves the anticracking problem of the multidirectional labyrinth of shrinkage stress.
2, efficiently solve the crack problem of cracking strip structure own, structure of the present utility model is simple, enhances anti-crack function.
3, avoid causing Castingother defect to occur, increase the effect of cracking strip structure, avoid common cracking strip structure function limited, need to increase cracking strip physical dimension or thickness, or the multi-direction problem arranging cracking strip structure and could solve, avoids and to strengthen foundry goods thermal center because of cracking strip structure and increase the problem that the casting flaw tendencies such as shrinkage cavity and porosity appear in thermal center place.
Accompanying drawing explanation
Fig. 1 is common steel-casting cracking strip structural representation in background technology;
Fig. 2 is a kind of thin-walled frame-type steel-casting cracking strip structural representation;
Fig. 3 is the mark schematic diagram of design parameter in Fig. 2;
Fig. 4 is the right TV structure schematic diagram of anticracking gusset in Fig. 2;
In figure, anticracking gusset 1, first arc section 1a, the second arc section 1b, three-arc section 1c, the first side frame sidewall 2, second side frame sidewall 3.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:
Embodiment 1:
Thin-walled frame-type steel-casting cracking strip structure as shown in Figure 2, Figure 3, Figure 4, is arranged on the first side frame sidewall 2 and the second side frame sidewall 3 corner adjacent on this frame-type steel-casting, and described first side frame sidewall 2 and the second side frame sidewall 3 are arranged in 90 °;
It comprises at least one anticracking gusset 1 through casting mould and the first side frame sidewall 2 and the cast molding of the second side frame sidewall 3 one, described anticracking gusset 1 is similar right triangular shape, its two adjacent right-angle sides are connected with the second side frame sidewall (3) with the first side frame sidewall (2) respectively, and hypotenuse of its distortion to be connected successively with three-arc section (1c) by the first arc section (1a), the second arc section (1b) and to combine;
The circular arc bending direction of described first arc section 1a and three-arc section 1c is all towards the first side frame sidewall 2 and the second side frame sidewall 3, and the circular arc bending direction of described second arc section 1b deviates from the first side frame sidewall 2 and the second side frame sidewall 3;
One end and the first side frame sidewall 2 of described first arc section 1a are tangent, the other end of described first arc section 1a and one end of the second arc section 1b tangent, the other end of described second arc section 1b and one end of three-arc section 1c tangent, the other end and the second side frame sidewall 3 of described three-arc section 1c are tangent;
The relevant parameter of anticracking gusset 1 is as follows:
Get D
1=30mm, D
2during=20mm, the scope of t value is at D
2/ 4 ~ D
2/3, namely between 5mm ~ 6.67mm, the present embodiment 1 gets t=5mm;
L
1the scope of value is 7t ~ 11t, i.e. 35mm ~ 55mm, L
3the scope of value is the L of 7t ~ 11t, i.e. 35mm ~ 55mm, the present embodiment 1
1and L
3value all get 55mm, L
2=(L
1+ L
3) × 0.4=44mm;
R
1the scope of value is 10 ~ 20mm, R
3the scope of value is 10 ~ 20mm, and the present embodiment 1 gets R
1=R
3=17.5mm;
R
2the scope of value is R
1~ 1.5R
1, i.e. 17.5mm ~ 26.25mm, the present embodiment 1 gets R
2=1.2R
1=20mm;
The radius R of the first arc section 1a of the anticracking gusset 1 of the present embodiment 1
1with the radius R of three-arc section 1c
3equal;
Wherein, D
1be the wall thickness of the first side frame sidewall 2, D
2be the wall thickness of the second side frame sidewall 3, t is the thickness of slab of anticracking gusset 1, L
1be the distance between point of contact to the first side frame sidewall 2 of the first arc section 1a and the first side frame sidewall 2 and the second side frame sidewall 3 tie point, L
3be the distance between point of contact to the first side frame sidewall 2 of three-arc section 1c and the second side frame sidewall 3 and the second side frame sidewall 3 tie point, L
2be the distance between mid point to the first side frame sidewall 2 of the second arc section 1b and the second side frame sidewall 3 tie point, R
1be the radius of the first arc section 1a, R
2be the radius of the second arc section 1b, R
3it is the radius of three-arc section 1c.
Embodiment 2:
The technical scheme of embodiment 2 is substantially the same manner as Example 1, and difference is that the relevant parameter of anticracking gusset 1 is as follows:
Get D
1=30mm, D
2during=20mm, the scope of t value is at D
2/ 4 ~ D
2/3, namely between 5mm ~ 6.67mm, the present embodiment 2 gets t=5mm;
L
1the scope of value is 7t ~ 11t, i.e. 35mm ~ 55mm, L
3the scope of value is the L of 7t ~ 11t, i.e. 35mm ~ 55mm, the present embodiment 2
1and L
3value all get 35mm, L
2=(L
1+ L
3) × 0.4=28mm;
R
1the scope of value is 10 ~ 20mm, R
3the scope of value is 10 ~ 20mm, and the present embodiment 2 gets R
1=R
3=10mm;
R
2the scope of value is R
1~ 1.5R
1, i.e. 10mm ~ 15mm, the present embodiment 2 gets R
2=1.5R
1=15mm;
The radius R of the first arc section 1a of the anticracking gusset 1 of the present embodiment 2
1with the radius R of three-arc section 1c
3equal.
Embodiment 3:
Embodiment: the technical scheme of 3 is substantially the same manner as Example 1, difference is that the relevant parameter of anticracking gusset 1 is as follows:
Get D
1=30mm, D
2during=20mm, the scope of t value is at D
2/ 4 ~ D
2/3, namely between 5mm ~ 6.67mm, the present embodiment 3 gets t=6mm;
L
1the scope of value is 7t ~ 11t, i.e. 42mm ~ 66mm, L
3the scope of value is the L of 7t ~ 11t, i.e. 42mm ~ 66mm, the present embodiment 3
1and L
3value all get 60mm, L
2=(L
1+ L
3) × 0.4=48mm;
R
1the scope of value is 10 ~ 20mm, R
3the scope of value is 10 ~ 20mm, and the present embodiment 3 gets R
1=R
3=20mm;
R
2the scope of value is R
1~ 1.5R
1, i.e. 20mm ~ 30mm, the present embodiment 3 gets R
2=R
1=20mm;
The radius R of the first arc section 1a of the present embodiment 3
1, the second arc section 1b radius R
2with the radius R of three-arc section 1c
3equal.
The anticracking gusset 1 of the utility model embodiment 1,2 and 3 is well shaping, anticracking gusset 1 periphery foundry goods body flawless, for other railway freight-car steel-castings of multiclass, in the structure of particularly sidewall wall unevenness, all on anticracking gusset 1 periphery foundry goods body, do not find crackle, prove that thin-walled frame-type steel-casting cracking strip structure of the present utility model has good anti-crack function, effectively ensure that product quality.
Claims (6)
1. a thin-walled frame-type steel-casting cracking strip structure, is arranged on the first side frame sidewall (2) adjacent on this frame-type steel-casting and the second side frame sidewall (3) corner, it is characterized in that:
It comprises at least one piece of anticracking gusset (1) through casting mould and the first side frame sidewall (2) and the cast molding of the second side frame sidewall (3) one, described anticracking gusset (1) comprises the 3rd limit of two adjacent straight lines and distortion, its two adjacent straight lines are connected with the second side frame sidewall (3) with the first side frame sidewall (2) respectively, and the 3rd limit of its distortion to be connected successively with three-arc section (1c) by the first arc section (1a), the second arc section (1b) and to combine;
The circular arc bending direction of described first arc section (1a) and three-arc section (1c) is all towards the first side frame sidewall (2) and the second side frame sidewall (3), and the circular arc bending direction of described second arc section (1b) deviates from the first side frame sidewall (2) and the second side frame sidewall (3);
One end and the first side frame sidewall (2) of described first arc section (1a) are tangent, the other end of described first arc section (1a) and one end of the second arc section (1b) tangent, the other end of described second arc section (1b) and one end of three-arc section (1c) tangent, the other end and the second side frame sidewall (3) of described three-arc section (1c) are tangent;
The relevant parameter of described anticracking gusset (1) is as follows:
If D
1>=D
2time, the scope of t value is t=D
2/ 4 ~ D
2/ 3; If D
1< D
2time, the scope of t value is t=D
1/ 4 ~ D
1/ 3;
L
1the scope of value is L
1=7t ~ 11t, L
3the scope of value is L
3=7t ~ 11t, L
2=(L
1+ L
3) × 0.4;
R
1the scope of value is R
1=10 ~ 20mm, R
3the scope of value is R
3=10 ~ 20mm;
R
2the scope of value is R
2=R
1~ 1.5R
1or R
2=R
3~ 1.5R
3;
Wherein, D
1be the wall thickness of the first side frame sidewall (2), D
2be the wall thickness of the second side frame sidewall (3), t is the thickness of slab of anticracking gusset (1), L
1be the distance between the point of contact to the first side frame sidewall (2) of the first arc section (1a) and the first side frame sidewall (2) and the second side frame sidewall (3) tie point, L
3be the distance between the point of contact to the first side frame sidewall (2) of three-arc section (1c) and the second side frame sidewall (3) and the second side frame sidewall (3) tie point, L
2be the distance between mid point to the first side frame sidewall (2) of the second arc section (1b) and the second side frame sidewall (3) tie point, R
1be the radius of the first arc section (1a), R
2be the radius of the second arc section (1b), R
3it is the radius of three-arc section (1c).
2. thin-walled frame-type steel-casting cracking strip structure according to claim 1, is characterized in that: described first side frame sidewall (2) and the second side frame sidewall (3) are arranged in 70 ~ 120 °.
3. thin-walled frame-type steel-casting cracking strip structure according to claim 1, is characterized in that: described first side frame sidewall (2) and the second side frame sidewall (3) are arranged in 80 ~ 100 °.
4. thin-walled frame-type steel-casting cracking strip structure according to claim 1, is characterized in that: described first side frame sidewall (2) and the second side frame sidewall (3) are arranged in 90 °.
5. the thin-walled frame-type steel-casting cracking strip structure according to any one of Claims 1 to 4, is characterized in that: the radius R of described first arc section (1a)
1with the radius R of described three-arc section (1c)
3equal.
6. thin-walled frame-type steel-casting cracking strip structure according to claim 5, is characterized in that: the arc length of described first arc section (1a), the second arc section (1b) and three-arc section (1c) is 1/4th of its circumference corresponding separately.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520830250.8U CN205128847U (en) | 2015-10-21 | 2015-10-21 | Thin wall frame type steel -casting cracking strip structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520830250.8U CN205128847U (en) | 2015-10-21 | 2015-10-21 | Thin wall frame type steel -casting cracking strip structure |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205128847U true CN205128847U (en) | 2016-04-06 |
Family
ID=55614672
Family Applications (1)
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---|---|---|---|
CN201520830250.8U Withdrawn - After Issue CN205128847U (en) | 2015-10-21 | 2015-10-21 | Thin wall frame type steel -casting cracking strip structure |
Country Status (1)
Country | Link |
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CN (1) | CN205128847U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105215270A (en) * | 2015-10-21 | 2016-01-06 | 南车长江车辆有限公司 | Thin-walled frame-type steel-casting cracking strip structure |
US11293468B2 (en) | 2019-04-04 | 2022-04-05 | Deere & Company | Universal castings for rectangular tube corner stress relief |
-
2015
- 2015-10-21 CN CN201520830250.8U patent/CN205128847U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105215270A (en) * | 2015-10-21 | 2016-01-06 | 南车长江车辆有限公司 | Thin-walled frame-type steel-casting cracking strip structure |
CN105215270B (en) * | 2015-10-21 | 2017-08-08 | 中车长江车辆有限公司 | Thin-walled frame-type steel-casting cracking strip structure |
US11293468B2 (en) | 2019-04-04 | 2022-04-05 | Deere & Company | Universal castings for rectangular tube corner stress relief |
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GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20160406 Effective date of abandoning: 20170808 |