CN100462165C - Manufacture method and die for powder metallurgy inside spin ratchet wheel - Google Patents

Manufacture method and die for powder metallurgy inside spin ratchet wheel Download PDF

Info

Publication number
CN100462165C
CN100462165C CNB2006100411451A CN200610041145A CN100462165C CN 100462165 C CN100462165 C CN 100462165C CN B2006100411451 A CNB2006100411451 A CN B2006100411451A CN 200610041145 A CN200610041145 A CN 200610041145A CN 100462165 C CN100462165 C CN 100462165C
Authority
CN
China
Prior art keywords
compacting
plug
powder
spin
mould
Prior art date
Application number
CNB2006100411451A
Other languages
Chinese (zh)
Other versions
CN1907603A (en
Inventor
宋永盛
高瑞华
汤春华
宋永刚
Original Assignee
海门市常乐粉末冶金厂
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 海门市常乐粉末冶金厂 filed Critical 海门市常乐粉末冶金厂
Priority to CNB2006100411451A priority Critical patent/CN100462165C/en
Publication of CN1907603A publication Critical patent/CN1907603A/en
Application granted granted Critical
Publication of CN100462165C publication Critical patent/CN100462165C/en

Links

Abstract

The invention relates to a method for producing powder smelt screw ratchet, which comprises: mixing the materials, compressing molding, sintering, compressing and shaping, to obtain the ratchet. The invention also discloses a relative mould, which is formed by a compressing upper punch, compressing middle mould, compressing lower punch; the upper part of lower punch has the inner screw tooth matched with the outer screw tooth; the upper punch is sliding matched with the middle mould; the middle mould is sliding matched with the lower mould; the compressing core rod has compressing core rod, friction plate, and rotation element; the upper part of compressing core rod has outer screw tooth; the lower end of core rod and the upper end of rotating element have friction plate between them, while their contact surface has lubricant. The invention, via the rotation of core rod, realizes the one-time molding and demoulding of inner screw ratchet, to improve the yield and reduce the cost.

Description

The manufacture method of powder metallurgy inside spin ratchet wheel and mould
Technical field
The present invention relates to a kind of manufacturing process and mould of inside spin ratchet wheel, relate in particular to a kind of manufacture method and mould of powder metallurgy inside spin ratchet wheel.
Background technology
The mechanical performance of metallic sintered products and precision at first depend on density size and uniformity thereof, and technology of the raw material that adopts with it, compacting, sintering, processing, mould, equipment etc. are closely related.General helical gear forming technique adopts the plane ball bearing to be placed on upper and lower mould and dashes and be connected between cushion block on the machine in order to the rotation compacting, and develops on this basis and inside spin tooth pressure system technology.But dash must be along with compacting be rotated upper and lower mould, so the non-circular special-shaped internal helical gear of the external diameter that can't be shaped in the pressing process.In addition, in the pressing process, the rotary speed of tumbler is wayward, thereby causes the damage of mould and batching easily, and yield rate is low.
Summary of the invention
The invention provides a kind of one-shot forming outward for ratchet, endoporus are the manufacture method and the mould of the powder metallurgy inside spin ratchet wheel of helical tooth, this method and mould have improved the effective press power to blank, and the yield rate height has reduced cost.
The present invention adopts following technical scheme:
A kind of manufacture method of powder metallurgy inside spin ratchet wheel may further comprise the steps:
The first step, batch mixes: following powder is even, by percentage to the quality, wherein, copper accounts for 1.5-2%, nickel accounts for 1.7-2%, and molybdenum accounts for 0.5%, and carbon accounts for 0.5%, and manganese sulfide accounts for 0.3%, little wax powder accounts for 0.3%, and all the other are the powder of the prealloy powder of iron, mix
Second step, press forming: above-mentioned powder is placed a kind of compacting tool set press forming that has the small-sized plug rotary system of friction plate structure, be pressed into the pressed compact with inside spin ratchet wheel profile, pressure is 1095-1105KN, and pressed density is more than or equal to 6.85g/cm 3,
Wherein, the structure of compacting tool set that has the small-sized plug rotary system of friction plate structure is: by compacting upper punch 1, mould 2 in the compacting, compacting dashes 3 down, compacting plug member 4 is formed, be provided with the spacing hole 11 that matches with the limited block 40 of suppressing plug member 4 upper ends in the bottom of compacting upper punch 1, the shape of the inside cavity 21 of mould 2 is identical with the inside spin ratchet wheel gabarit in the compacting, the inside spin tooth 31 that the external spiral tooth 41 that is provided with and suppresses plug member 4 in 3 the top matches is dashed down in compacting, wherein the axial length of external spiral tooth 41 is longer than inside spin tooth 31, mould 2 is slidingly matched in compacting upper punch 1 and the compacting, mould 2 is slidingly matched towards 3 down with compacting in the compacting, compacting plug member 4 comprises: compacting plug 42, friction plate 43 and tumbler 44, the top of wherein suppressing plug 42 is provided with limited block 40, compacting plug 42 tops are provided with external spiral tooth 41, between the upper surface of lower surface of suppressing plug 42 and tumbler 44, be provided with friction plate 43, and between contact-making surface, be added with lubricant
The 3rd step, sintering: with the pressed compact of above-mentioned press forming at the inert gas reducing atmosphere (as nitrogen, argon gas) in the sintering furnace, the presintering heat temperature raising is to 420-600 ℃ gradually, positive thermal sintering 1075-1175 ℃, be cooled to 1100 ℃ of insulations, cooling is cooled to room temperature gradually, obtain the inside spin ratchet wheel alloy sintered compact
The 4th step, shaping: the pressed compact behind the above-mentioned sintering with suppressing shaping in the inside spin ratchet wheel pressing mold, is obtained powder metallurgy inside spin ratchet wheel.
The mfg. moulding die of used powder metallurgy inside spin ratchet wheel in a kind of said method, by compacting upper punch 1, mould 2 in the compacting, compacting dashes 3 down, compacting plug member 4 is formed, be provided with the spacing hole 11 that matches with the limited block 40 of suppressing plug member 4 upper ends in the bottom of compacting upper punch 1, the shape of the inside cavity 21 of mould 2 is identical with the inside spin ratchet wheel gabarit in the compacting, the inside spin tooth 31 that the external spiral tooth 41 that is provided with and suppresses plug member 4 in 3 the top matches is dashed down in compacting, wherein the axial length of external spiral tooth 41 is longer than inside spin tooth 31, mould 2 is slidingly matched in compacting upper punch 1 and the compacting, mould 2 is slidingly matched towards 3 down with compacting in the compacting, compacting plug member 4 comprises: compacting plug 42, friction plate 43 and tumbler 44, the top of wherein suppressing plug 42 is provided with limited block 40, compacting plug 42 tops are provided with external spiral tooth 41, between the upper surface of lower surface of suppressing plug 42 and tumbler 44, be provided with friction plate 43, and between contact-making surface, be added with lubricant.
Among the present invention, also available at least 3 friction plates 43 stack.
Among the present invention, can on two end faces of the friction plate 43 parallel, be equipped with spiral grooves, in groove, be added with lubricant with compacting plug 42 end faces.
Among the present invention, can on friction plate 43, be provided with centre bore.
The present invention obtains following technique effect:
1. the present invention is the ratchet of helical tooth for making endoporus with powder metallurgic method, and its cost is lower.The present invention has adopted spiral friction compacting to adopt the small-sized plug rotary system of friction plate structure in powder metallurgic method, rotation by plug, inside spin ratchet wheel one-shot forming, the demoulding have been realized, and be difficult for big impact is taken place for batching and mould, thereby prolonged the service life of mould, improve the yield rate of product, reduced production cost greatly.
Prior art often rotary speed can not get control, make that easily the mould rotary speed is too fast, and mould rotation is too fast, thereby easily causes in the compacting upper punch that cooperatively interacts and the compacting generation off-centre mold damage between the mould.Friction plate makes that the rotating speed of plug is controlled: when the tumbler velocity of rotation was excessive, friction plate structure can make the velocity of rotation of compacting plug be unlikely to too fast, thereby avoided mould or batching are produced unnecessary impact and mold damage.Compare with the rotation system of original ball bearing structure, the transmission that makes rotation pressure load is pressed by original point and has been become the face pressure, thus indirect raising effective press power, green density is improved.
3. the friction plate that has helical groove can reduce frictional contact surface, reduces friction greatly, and being filled with lubricant in helical groove can replenish as the effective of lubricant between contact-making surface, thereby strengthens lubricant effect.
4. at least 3 friction plates stack, and have increased slidably rubbing surface, can make that frictional force further reduces, and the speed that makes further is easy to control.
5. friction plate is provided with centre bore, can make that frictional contact surface further reduces, and is easy to can make that peripheral force increases greatly, thereby increase the press power to powder the circumferentially control of rotation of mould.
6. the helical gear one-shot forming demoulding is guaranteed in plug rotation in the pressing process, has avoided upper punch and former to damage because of rotating the unstable mould that causes that cooperates simultaneously.Thereby yield rate height of the present invention has reduced cost greatly, and can guarantee high accuracy, high density, high-intensity characteristics.
The high accuracy inside spin ratchet wheel of above-mentioned technology manufacturing can satisfy the requirement of high-power percussion drill to ratchet according to the present invention.It has high strength and high-precision characteristics, can satisfy and surpass the part performance requirement of machinery.
Following table has been listed the contrast situation of the performance indications of the performance indications of this product and home and abroad product:
Project The project product Home products External similar level
Density (g/cm 3) 6.92—6.95 6.80 6.90
Hardness (HRB) 86—89 75 85
Ballistic work (J) 19—20 14 16
Tensile strength (MPa) 280—311 210 290
Percentage elongation (%) 3.2—2.8 2 2.5
Profile accuracy 6 grades 9 grades 6 grades
Price 1 1.7 1.4
Annotate: price serves as the basis contrast with the selling price of project product
Inventive principle:
The present invention is to be that ratchet, endoporus are the metallic sintered products of helical tooth outside one, the small-sized plug rotary system of friction plate structure is adopted in spiral friction compacting of the present invention, control is up and down towards the circumferential free degree, and the helical gear one-shot forming demoulding is guaranteed in the plug rotation in the pressing process.
Powder metallurgy is to adopt operations such as shaping and sintering with metal dust, or the mixture of metal and non-metal powder, makes the technology of metallic article.Because the production technology of powder metallurgy is similar in form with the production technology of pottery, this process solarmic process that is otherwise known as.
The basic working procedure of powder metallurgical technique is:
(1) material powder producing and preparing.Powder can be simple metal or its alloy, nonmetal, metal and nonmetallic compound and other all cpds etc.;
(2) briquet of required form will be made after metal dust and the even mixing of various additive;
(3) temperature of briquet below material major components fusing point carried out sintering, make goods have final physics, chemistry and mechanical property.
During with a large amount of manufacturing machine part of powder metallurgic method, the production efficiency height, energy consumption is low, material is economized, cheap.
(1) powder preparation
Produce powder: depend primarily on the performance of this material and the cost of preparation method.The formation of powder is to transfer energy to material, thereby makes the process of fresh surface.For example, 1m 3Metal can be made into about 2 * 10 18Individual diameter is the spheric granules of 1 μ m, and its surface area is approximately 6 * 10 6m 2Form so big surface, need very big energy.
Preparation method: Mechanical Method and physical-chemical process two big classes.It is that raw material are mechanically pulverized that Mechanical Method is produced powder, and the technical process that chemical composition does not change substantially; The physical chemistry rule is the effect by chemistry or physics, changes raw-material chemical composition or coherent condition, and obtains the technical process of powder.
But, in the powder metallurgy production practices, do not have obvious limit between Mechanical Method and the physical-chemical process, but replenish mutually.For example, can use Mechanical Method to remove to grind reducing process gained powder, with eliminate stress, decarburization and reduce oxide.
In sum, the method for producing powder is diversified, and all metal materials of using in engineering nearly all can be processed into powder morphology.When selecting to produce the method for powder, should consider performance requirement that powder is proposed and the economic principle of following.When needs adopted cheap powder to make raw material, economic problems were prerequisites.But when needing powder to have strict performance requirement, then can select expensive milling method for use.
(2) powder preparation
Powder metallurgy will carry out preliminary treatment and preparation to powder before being shaped.Preliminary treatment comprises: annealing, screening, granulation etc.
1. the pre-annealing of annealing powder can make residual oxide further reduce, reduce the content of carbon and other impurity, and the purity of raising powder is eliminated the work hardening of powder etc.All will be with reducing process, mechanical milling method, electrolysis, atomization and the prepared powder of carbonyl dissociating method through annealing in process.In addition, for preventing the spontaneous combustion of some submicron metal, its surface passivation also to need be made annealing in process.Powder after annealed, briquettability improves, and the elastic after effect of pressed compact is corresponding to be reduced.
2. screening is carried out classification to the irregular starting powder of granular size, makes powder be divided into the narrower some grades of magnitude range according to granularity.Usually sieve or the vibratory sieve made from the standard screen cloth carries out the screening of powder.
3. granulate and short grained powder is made the operation of bulky grain or granule, be commonly used to improve the flowability of powder.In CEMENTED CARBIDE PRODUCTION,, powder can just must be granulated by smooth filling die cavity earlier for the ease of automatic forming.The equipment that can bear the granulation task has cylinder granulator, disk pelletizing machine and vibratory sieve etc.
4. mix the mixed uniformly process of the powder of two or more heterogeneity.Sometimes need composition is identical and the powder that granularity is different mixes, be called and close batch.Mixing quality not only influences forming process and pressed compact quality, and can have a strong impact on the carrying out of sintering process and the quality of end article.
(3) powder forming
Major function is:
(1) be desired shape with powder forming;
(2) give base substrate with accurate geometry and size, the change in size in the time of at this moment sintering should being considered;
(3) give the porosity and the porosity type of base substrate requirement;
(4) give base substrate with suitable intensity, so that carrying.
Whether exert pressure during according to shaping, can be divided into press forming and shaping without pressure two big classes from the outside.
Press forming mainly contains: sealing punching block cold-press moulding, fluid isostatic pressing shaping, powder Plastic Forming, three axial press formings, high energy rate forming, extrusion molding, roll forming, vibration press forming etc.;
Shaping without pressure mainly contains: slip-casting, loose sintering etc.
(4) post processing
Further processing behind the metal dust pressed compact sintering is called post processing.The kind of post processing is a lot, and generally the requirement by product decides.Several post-processing approach commonly used are as follows.
1. dipping utilizes the porous capillarity of sintered part to immerse various liquid.As for lubricated purpose, can soak into lubricating oil, polytetrafluoroethylsolution solution, lead solution etc.; In order to improve intensity and antiseptic power, can soak copper solution; For surface protection, but resin pickup or varnish etc.What be impregnated with can carry out under normal pressure, and what have then need carry out under vacuum.
2. surperficial cold extrusion is for the dimensional accuracy that improves part and reduce surface roughness, can adopt shaping; In order to improve the density of part, can adopt multiple pressure; In order to change the shape of part, can adopt pressure-sizing.Part after multiple the pressure often needs resintering or annealing.
3. machining translot, cross-drilled hole, and the high face of axial dimension precision etc.
4. heat treatment can improve the intensity and the hardness of iron-based goods.Because the existence of hole, greater than 10% goods, must not adopt the heating of liquid carburizing or salt bath furnace for porosity, in case saline solution immerses in the hole, cause internal corrosion.In addition, during low-density part gas carburizing, be penetrated into the center easily.Less than 10% goods, the available and general the same heat treatment method of steel is as integral quenching, carburizing and quenching, carbo-nitriding quenching etc. for porosity.In order to prevent to stop up the adverse effect that hole may cause, can adopt the vulcanizing treatment dead-end pore.Quench and preferably to adopt oil as medium, the high density goods, if the needs of cooling velocity, also available water is as hardening media.
5. surface protection is handled being used for instrument, military project and having the sintered metal product of requirement for anticorrosion very important.Sintered metal product is owing to exist hole, and this brings difficulty to surfacecti proteon.At present, adoptable surface protection is handled has barffing to handle, and immersion oil soaks sulphur and annealing, soaks varnish, and zincizing is electroplated (copper, nickel, chromium, zinc etc.), phosphatization, anodization etc. after soaking high softening-point paraffin or zinc stearate.
Description of drawings
Fig. 1 is a compacting tool set schematic diagram of the present invention
Fig. 2 is a friction plate floor map of the present invention
The specific embodiment
Embodiment 1
A kind of manufacture method of powder metallurgy inside spin ratchet wheel, this method may further comprise the steps:
The first step, batch mixes: following powder is even, by percentage to the quality, wherein, copper accounts for 1.5-2%, nickel accounts for 1.7-2%, and molybdenum accounts for 0.5%, and carbon accounts for 0.5%, and manganese sulfide accounts for 0.3%, little wax powder accounts for 0.3%, and all the other are the powder of the prealloy powder of iron, mix
In second step, press forming: above-mentioned powder is placed a kind of compacting tool set press forming that has the small-sized plug rotary system of friction plate structure, be pressed into the pressed compact with inside spin ratchet wheel profile, pressure is 1100 ± 5KN, and pressed density is 〉=6.85g/cm 3, such as pressed density can be 7.2g/cm 3, 7.3g/cm 3,
Wherein, by compacting upper punch 1, mould 2 in the compacting, compacting dashes 3 down, compacting plug member 4 is formed, material powder is placed in the compacting in the mould 2, and be in compacting dash down 3 and compacting upper punch 1 between, be provided with the spacing hole 11 that matches with the limited block 40 of plug 4 upper ends in the bottom of compacting upper punch 1, the shape of limited block 40 is generally cylindrical, match with it, the shape of spacing hole 11 also is cylindrical, the shape of the inside cavity 21 of mould 2 is identical with the inside spin ratchet wheel gabarit in the compacting, the inside spin tooth 31 that the external spiral tooth 41 that is provided with and suppresses plug member 4 in 3 the top matches is dashed down in compacting, wherein the axial length of external spiral tooth 41 is longer than inside spin tooth 31, exceed the inside spin tooth that length partly is used for the moulding inside spin ratchet wheel, when work, external spiral tooth 41 has just begun to match with inside spin tooth 31, thereby the length that exceeds will enter the inside pressed powder moulding of material powder, mould 2 is slidingly matched in compacting upper punch 1 and the compacting, mould 2 is slidingly matched towards 3 down with compacting in the compacting, compacting plug member 4 comprises: compacting plug 42, friction plate 43 and tumbler 44, the top of wherein suppressing plug 42 is provided with limited block 40, compacting plug 42 tops are provided with external spiral tooth 41, between the upper surface of lower surface of suppressing plug 42 and tumbler 44, be provided with friction plate 43, and between contact-making surface, be added with lubricant, lubricant can be used machine oil commonly used, perhaps kollag.
External spiral tooth 41 risings (axial length of external spiral tooth 41 is longer than inside spin tooth 31) when compacting plug 42, after limited block 40 embeds spacing hole 11, external spiral tooth 41 can not move on again, and this moment, the compression moulding of inside spin ratchet wheel was finished, by rotation plug, the demoulding easily.
In the 3rd step, sintering: in inert gas reducing atmosphere sintering furnace, the presintering heat temperature raising is to 420-600 ℃ gradually with the pressed compact of above-mentioned press forming, positive thermal sintering 1075-1175 ℃, be cooled to 1100 ℃ of insulations, cooling is cooled to room temperature gradually, obtain the inside spin ratchet wheel alloy sintered compact
The 4th step, shaping: the pressed compact behind the above-mentioned sintering with suppressing shaping in the inside spin ratchet wheel pressing mold, is obtained powder metallurgy inside spin ratchet wheel.
Embodiment 2
A kind of mfg. moulding die of powder metallurgy inside spin ratchet wheel, by compacting upper punch 1, mould 2 in the compacting, compacting dashes 3 down, compacting plug member 4 is formed, material powder is placed in the compacting in the mould 2, and be in compacting dash down 3 and compacting upper punch 1 between, be provided with the spacing hole 11 that matches with the limited block 40 of plug 4 upper ends in the bottom of compacting upper punch 1, the shape of limited block 40 is generally cylindrical, match with it, the shape of spacing hole 11 also is cylindrical, the shape of the inside cavity 21 of mould 2 is identical with the inside spin ratchet wheel gabarit in the compacting, the inside spin tooth 31 that the external spiral tooth 41 that is provided with and suppresses plug member 4 in 3 the top matches is dashed down in compacting, wherein the axial length of external spiral tooth 41 is longer than inside spin tooth 31, exceed the inside spin tooth that length partly is used for the moulding inside spin ratchet wheel, when work, external spiral tooth 41 has just begun to match with inside spin tooth 31, thereby the length that exceeds will enter the inside pressed powder moulding of material powder, mould 2 is slidingly matched in compacting upper punch 1 and the compacting, mould 2 is slidingly matched towards 3 down with compacting in the compacting, compacting plug member 4 comprises: compacting plug 42, friction plate 43 and tumbler 44, the top of wherein suppressing plug 42 is provided with limited block 40, compacting plug 42 tops are provided with external spiral tooth 41, between the upper surface of lower surface of suppressing plug 42 and tumbler 44, be provided with friction plate 43, and between contact-making surface, be added with lubricant.
External spiral tooth 41 risings (axial length of external spiral tooth 41 is longer than inside spin tooth 31) when compacting plug 42, after limited block 40 embeds spacing hole 11, external spiral tooth 41 can not move on again, and this moment, the compression moulding of inside spin ratchet wheel was finished, by rotation plug, the demoulding easily.
In the present embodiment, friction plate 43 stacks mutually, has 3 at least, for example 3,4,5,6,7, according to the quantity that friction plate is regulated in the space of reality, focuses on increasing the quantity of frictional contact surface.
In the present embodiment, be equipped with spiral grooves on two end faces of the friction plate 43 parallel with compacting plug 42 end faces, be added with lubricant in groove, lubricant can be used machine oil commonly used, perhaps kollag.
In the present embodiment, friction plate 43 is provided with centre bore, and the diameter of centre bore is usually less than the minimum diameter of inside spin groove.

Claims (1)

1. the manufacture method of a powder metallurgy inside spin ratchet wheel is characterized in that may further comprise the steps:
The first step, batch mixes: following powder is even, by percentage to the quality, wherein, copper accounts for 1.5-2%, nickel accounts for 1.7-2%, and molybdenum accounts for 0.5%, and carbon accounts for 0.5%, and manganese sulfide accounts for 0.3%, little wax powder accounts for 0.3%, and all the other are the powder of the prealloy powder of iron, mix
Second step, press forming: above-mentioned powder is placed a kind of compacting tool set press forming that has the small-sized plug rotary system of friction plate structure, be pressed into the pressed compact with inside spin ratchet wheel profile, pressure is 1095-1105KN, and pressed density is more than or equal to 6.85g/cm 3,
Wherein, the structure of compacting tool set that has the small-sized plug rotary system of friction plate structure is: by compacting upper punch (1), mould in the compacting (2), (3) are dashed in compacting down, compacting plug member (4) is formed, be provided with the spacing hole (11) that matches with the limited block of suppressing plug member (4) (40) in the bottom of compacting upper punch (1), the shape of the inside cavity (21) of mould in the compacting (2) is identical with the inside spin ratchet wheel gabarit, the inside spin tooth (31) that the external spiral tooth (41) that is provided with and suppresses plug member (4) in the top of (3) matches is dashed down in compacting, wherein the axial length of external spiral tooth (41) is longer than inside spin tooth (31), mould (2) is slidingly matched in compacting upper punch (1) and the compacting, mould in the compacting (2) dashes (3) down with compacting and is slidingly matched, compacting plug member (4) comprising: compacting plug (42), friction plate (43) and tumbler (44), the top of wherein suppressing plug (42) is provided with limited block (40), compacting plug (42) top is provided with external spiral tooth (41), between the upper surface of lower surface of suppressing plug (42) and tumbler (44), be provided with friction plate (43), and between contact-making surface, be added with lubricant
In the 3rd step, sintering: in inert gas reducing atmosphere sintering furnace, the presintering heat temperature raising is to 420-600 ℃ gradually with the pressed compact of above-mentioned press forming, positive thermal sintering 1075-1175 ℃, be cooled to 1100 ℃ of insulations, cooling is cooled to room temperature gradually, obtain the inside spin ratchet wheel alloy sintered compact
The 4th step, shaping: the pressed compact behind the above-mentioned sintering is suppressed shaping with the inside spin ratchet wheel pressing mold, obtain powder metallurgy inside spin ratchet wheel.
CNB2006100411451A 2006-08-08 2006-08-08 Manufacture method and die for powder metallurgy inside spin ratchet wheel CN100462165C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNB2006100411451A CN100462165C (en) 2006-08-08 2006-08-08 Manufacture method and die for powder metallurgy inside spin ratchet wheel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNB2006100411451A CN100462165C (en) 2006-08-08 2006-08-08 Manufacture method and die for powder metallurgy inside spin ratchet wheel

Publications (2)

Publication Number Publication Date
CN1907603A CN1907603A (en) 2007-02-07
CN100462165C true CN100462165C (en) 2009-02-18

Family

ID=37698927

Family Applications (1)

Application Number Title Priority Date Filing Date
CNB2006100411451A CN100462165C (en) 2006-08-08 2006-08-08 Manufacture method and die for powder metallurgy inside spin ratchet wheel

Country Status (1)

Country Link
CN (1) CN100462165C (en)

Families Citing this family (21)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN101961786A (en) * 2010-09-21 2011-02-02 重庆文理学院 Round sample high temperature vacuum protective atmosphere sintering mold and process
CN102000819A (en) * 2010-10-15 2011-04-06 苏州莱特复合材料有限公司 Combined upper punch for control panel powder metallurgy forming die
CN102152491A (en) * 2010-11-26 2011-08-17 昆明理工大学 Equipment and method for continuously producing indefinitely long bar with multiple internal spiral cooling holes
CN102398031B (en) * 2011-10-22 2013-10-30 四川科力特硬质合金股份有限公司 Hard alloy product pressing die with major spiral on inner circle and shaping method
CN102615285A (en) * 2012-03-23 2012-08-01 兴城市粉末冶金有限公司 Automotive powder metallurgic ABS (acrylonitrile-butadiene-styrene) gear ring treating method
CN103372648B (en) * 2012-04-17 2015-12-02 重庆聚能粉末冶金有限公司 A kind of manufacture method of motorcycle alignment pin
CN103372649B (en) * 2012-04-17 2015-12-16 重庆聚能粉末冶金有限公司 A kind of manufacture method of motorcycle shift fork
CN103056373B (en) * 2013-01-24 2015-11-25 重庆聚能粉末冶金有限公司 A kind of manufacture method of motorcycle starting ratchet
CN103658639B (en) * 2013-12-20 2015-05-27 龙工(上海)精工液压有限公司 Copper powder surface activity activating technology in copper steel bimetal powder sintering
CN104162663A (en) * 2014-08-26 2014-11-26 无锡柯马机械有限公司 Powder pre-processing method adopted in powder metallurgy technology
CN104162670A (en) * 2014-08-26 2014-11-26 无锡柯马机械有限公司 Powder metallurgy technology
CN104162671A (en) * 2014-08-26 2014-11-26 无锡柯马机械有限公司 Powder post-processing method adopted in powder metallurgy technology
CN105537592A (en) * 2015-12-30 2016-05-04 安徽悦众车身装备有限公司 Powder metallurgy preparation method of shifting fork for automobile gearbox
CN105537584B (en) * 2015-12-31 2018-09-11 株洲金鼎硬质合金有限公司 Alloy tup, the mold and method for preparing alloy tup
CN105665716A (en) * 2016-01-25 2016-06-15 金华市宇辰粉末冶金有限公司 Powder metallurgy spiral bevel gear and preparation method and application thereof
CN105695847A (en) * 2016-04-06 2016-06-22 郑邦宪 Power grid composite conduit
KR101684858B1 (en) * 2016-04-12 2016-12-12 (주)하나테크 A method for manufacturing a lock sleeve
CN107419186A (en) * 2017-04-28 2017-12-01 张家港振江粉末冶金制品有限公司 A kind of manufacture method of helical gear
CN107695337B (en) * 2017-09-20 2020-03-31 建德市易通金属粉材有限公司 Iron-copper alloy powder for parts with small sintered size change rate and preparation method thereof
CN109128190A (en) * 2018-10-15 2019-01-04 常熟市迅达粉末冶金有限公司 A kind of helical gear processing technology of thin-walled
CN109465460A (en) * 2018-12-29 2019-03-15 重庆聚能粉末冶金股份有限公司 A kind of manufacturing method of bias ratchet

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5259744A (en) * 1990-09-25 1993-11-09 Sumitomo Electric Industries, Ltd. Devices for forming two-tier helical gears
JPH07188709A (en) * 1993-12-27 1995-07-25 Toyota Motor Corp Production of powder molding having irregular shape on inside and outside surface
CN2299678Y (en) * 1997-04-01 1998-12-09 林清文 Rotary die structure
JP2003113402A (en) * 2001-10-02 2003-04-18 Porite Taiwan Co Ltd Method for manufacturing bevel gear, method for manufacturing gear blank of bevel gear, gear blank of bevel gear and die for manufacturing gear blank of bevel gear
CN1528547A (en) * 2003-09-28 2004-09-15 海安县鹰球集团有限公司 Powder metallurgy internal hilical gear, and its manufacturing method and die using same method
CN1631581A (en) * 2004-12-24 2005-06-29 上海汽车股份有限公司 Method for improving cleanliness of powder metallurgy sintered blank

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5259744A (en) * 1990-09-25 1993-11-09 Sumitomo Electric Industries, Ltd. Devices for forming two-tier helical gears
JPH07188709A (en) * 1993-12-27 1995-07-25 Toyota Motor Corp Production of powder molding having irregular shape on inside and outside surface
CN2299678Y (en) * 1997-04-01 1998-12-09 林清文 Rotary die structure
JP2003113402A (en) * 2001-10-02 2003-04-18 Porite Taiwan Co Ltd Method for manufacturing bevel gear, method for manufacturing gear blank of bevel gear, gear blank of bevel gear and die for manufacturing gear blank of bevel gear
CN1528547A (en) * 2003-09-28 2004-09-15 海安县鹰球集团有限公司 Powder metallurgy internal hilical gear, and its manufacturing method and die using same method
CN1631581A (en) * 2004-12-24 2005-06-29 上海汽车股份有限公司 Method for improving cleanliness of powder metallurgy sintered blank

Also Published As

Publication number Publication date
CN1907603A (en) 2007-02-07

Similar Documents

Publication Publication Date Title
JP4737107B2 (en) Iron-based powder mixture, iron-based powder molded body, and method for producing iron-based powder sintered body
CA2488364C (en) Method for producing highly porous metallic moulded bodies close to the desired final contours
CN1068263C (en) Lubricant for metal-powder compositions, metal-powder composition containing lubricant, method for making sintered products by using the lubricant
EP1184476B1 (en) Use of an iron-based sintered powder metal body and manufacturing method of iron-based sintered component with high strength and high density
KR100187616B1 (en) Sintered friction material composite copper alloy powder used therefor and manufacturing method thereof
KR820002180B1 (en) Powder-metallurgy steel article with high vanadium-carbide content
JP4252625B2 (en) High density forming process using ferroalloy and prealloy
CN105014077B (en) The preparation method of powder metallurgical gear, sprocket wheel
TWI261005B (en) Method of flow forming a metal part
EP1740332B1 (en) Sintered metal parts and method for the manufacturing thereof
CN100391659C (en) Method of production of surface densified powder metal components
JP3741654B2 (en) Manufacturing method of high density iron-based forged parts
CN102049519B (en) Manufacturing method of powder metallurgy chain wheel
CN103981436B (en) The manufacture method of metal powder injection molded high strength martensitic aging steel
US5613180A (en) High density ferrous power metal alloy
CA2420531C (en) Method for producing powder metal materials
JP2007537359A (en) Sintered metal parts and manufacturing method
CN103249510B (en) The manufacture method of high-strength sintered formed body and manufacturing installation thereof
US6013225A (en) Surface densification of machine components made by powder metallurgy
JP2005530037A (en) Prealloy iron-based powder and method for producing one or more sintered parts
CN101638819B (en) Powder metallurgy bolster and production technology thereof
JP2016188432A (en) Production method of powder metallurgy workpiece and workpiece
EP3045241A1 (en) Sliding member and method for producing same
CN1647874A (en) Method to make sinter-hardened powder metal parts with complex shapes
CN101069927B (en) Sinter-hardening powder and their sintered compacts

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20090218

Termination date: 20100808