CN205008528U - Meshing cover hollow tube mold processing - Google Patents

Abstract

The utility model discloses a meshing cover hollow tube mold processing, including pre forging die and finish forge mould, pre forging die includes mould and dummying reaming lower mould in the dummying reaming, and the circular recess unanimous with the blank diameter is seted up including being used for underreamed radius platform to the mould in the dummying reaming on the dummying reaming lower mould, the finish forge mould includes mould on the finish forge tooth, finish forge tooth lower mould and precision forging die fore -set, and mould and finish forge tooth lower mould closure state form down on the finish forge tooth, and to forge the chamber the same with the profile of tooth of meshing cover hollow tube, and the precision forging die fore -set is used for supporting the blank after the reaming. Use the utility model provides a meshing cover hollow tube mold processing, castellated bending strength, contact fatigue strength and anti -impact are high, the superior performance, castellated wearability is good, and the meshing stationarity is high. It is few to forge the follow -up hole allowance of back blank, practices thrift the hole material, has improved production efficiency and material utilization rate.

Description

Engaging sleeve hollow pipe processing mold

Technical field

The utility model relates to Machining Technology field, more particularly, relates to a kind of engaging sleeve hollow pipe processing mold.

Background technology

All kinds of component of machine is in life and the important composition element of industrial circle.Growing along with the field such as machine-building and machining, more and more higher to the required precision of each type component, the requirement of its processing technology is also got more and more, the factors such as machining accuracy, working (machining) efficiency, expense need be considered, to reaching best processing effect.

Engaging sleeve hollow pipe is the parts that mechanical industry field is commonly used.Its structure refers to Fig. 1, and Fig. 1 is the structural representation of engaging sleeve hollow pipe.In tubular construction, end is provided with profile of tooth to its entirety visible.The processing technology of engaging sleeve hollow pipe common in prior art mainly comprises the following steps: blanking, heating, jumping-up, forging and milling.Wherein, through jumping-up, forging, the profile basic forming of blank, then through follow-up profile of tooth machining, process the profile of tooth of engaging sleeve hollow pipe, make it meet technical requirement, then engaging sleeve hollow pipe basic forming.But follow-uply still need the processing carrying out endoporus, and allowance is large.Thus stack up is said, this processing technology long processing time, costly.

In sum, how effectively solving the problems such as engaging sleeve hollow pipe long processing time, endoporus allowance is large, expense is high, is current those skilled in the art's urgent problem.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of engaging sleeve hollow pipe processing mold, and the structural design of this engaging sleeve hollow pipe processing mold can solve that engagement trepanning hollow pipe manufacturing process endoporus allowance is large effectively, long processing time, problem costly.

In order to achieve the above object, the utility model provides following technical scheme:

A kind of engaging sleeve hollow pipe processing mold, comprises Preform Die and finish forge mould;

Described Preform Die comprises blocking reaming patrix and blocking reaming counterdie, and described blocking reaming patrix comprises the inverted round stage for reaming, and described blocking reaming counterdie offers the circular groove consistent with blank diameter;

Described finish forge mould comprises finish forge tooth patrix, finish forge tooth counterdie and precision forging die fore-set, described finish forge tooth patrix is identical with the profile of tooth of the forging chamber formed under described finish forge tooth counterdie closure state and engaging sleeve hollow pipe, and described precision forging die fore-set is for supporting the blank after reaming.

Preferably, in above-mentioned engaging sleeve hollow pipe processing mold, the pattern draft of described finish forge tooth patrix is 3 degree of-6 degree, the pattern draft of described blocking reaming patrix is 20 degree of-26 degree, the pattern draft of the one-level sidewall of described finish forge tooth counterdie is 2 degree of-3 degree, the described secondary sidewall of finish forge tooth counterdie and the pattern draft of three grades of sidewalls are 1 degree of-2 degree, and the pattern draft of described blocking reaming counterdie is 1 degree of-2 degree.

Preferably, in above-mentioned engaging sleeve hollow pipe processing mold, the pattern draft of described finish forge tooth patrix is 6 degree, the pattern draft of described blocking reaming patrix is 26 degree, the pattern draft of the one-level sidewall of described finish forge tooth counterdie is 3 degree, the described secondary sidewall of finish forge tooth counterdie and the pattern draft of three grades of sidewalls are 2 degree, and the pattern draft of described blocking reaming counterdie is 2 degree.

Preferably, in above-mentioned engaging sleeve hollow pipe processing mold, bottom surface and the described inverted round stage of described blocking reaming patrix pass through arc transition.

Preferably, in above-mentioned engaging sleeve hollow pipe processing mold, the radius of curvature of described circular arc is 10mm.

Preferably, in above-mentioned engaging sleeve hollow pipe processing mold, the roughness in described forging chamber is 0.8 micron.

The engaging sleeve hollow pipe processing mold that the utility model provides comprises Preform Die and finish forge mould.Wherein, Preform Die comprises blocking reaming patrix and blocking reaming counterdie, blocking reaming patrix comprises the inverted round stage for reaming, blocking reaming counterdie offers the circular groove consistent with blank diameter, blank is positioned in circular groove, and the less one end of the inverted round stage diameter of blocking reaming patrix is towards blocking reaming counterdie.Finish forge mould comprises finish forge tooth patrix, finish forge tooth counterdie and precision forging die fore-set.Under finish forge tooth patrix and finish forge tooth counterdie closure state, the forging chamber formed in the middle of the two is identical with the profile of tooth of engaging sleeve hollow pipe, and precision forging die fore-set is for supporting the blank after reaming.

The engaging sleeve hollow pipe processing mold that application the utility model provides, jumping-up is carried out by Preform Die, blank is positioned in the circular groove of blocking reaming counterdie, under the effect of press device, the inverted round stage structure of blocking reaming patrix moves to blocking reaming counterdie gradually, act on blank, reach the effect of reaming jumping-up.Through blocking reaming, the oxide skin that blank produces through heating rear surface is removed, and then obtains blocking blank, ensures to there will not be profile of tooth to lack the phenomenon of material in subsequent fine forging process.In precision forging process, under the effect that pressure is arranged, due under finish forge tooth patrix and finish forge tooth counterdie closure state, the forging chamber formed in the middle of the two is identical with the profile of tooth of engaging sleeve hollow pipe, thus blocking blank directly can be forged and pressed out the shape of engaging sleeve hollow pipe, profile accuracy can reach tolerance standard, does not need subsequent fine to process, namely can heat-treat, productivity ratio and stock utilization high.Meanwhile, the blank internal via shape basic forming after hollow pipe forging, directly reduce bore process, following process surplus is few, and the material of conserve bore is about 0.1Kg, unit price 0.3 yuan/part during saving drillman.To sum up, adopt above-mentioned engaging sleeve hollow pipe processing mold effectively can shorten process time, reduce processing charges.

Simultaneously, blank directly obtains complete profile of tooth through above-mentioned mould forging and stamping, because finish forge makes the fibr tissue of metal material distribute along profile of tooth uniformly continous, crystal grain and organize fine and closely woven, microdefect is few, therefore, the superior performance of finish forge profile of tooth, beam strength of tooth, contact fatigue strength and resistance to impact are apparently higher than cutting teeth.In general, finish forge can make gear teeth impact strength improve about 15%, and counter-bending fatigue life improves about 20%.Effectively improve the tissue of profile of tooth, improve its mechanical property.In addition, finish forge profile of tooth decreases flank profil distortion during heat treatment, improves stationarity during wearability and the engagement of tooth, improves the service life of tooth.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the main TV structure schematic diagram of engaging sleeve hollow pipe;

Fig. 2 is the side-looking structural representation of Fig. 1;

The structural representation of finish forge mould in a kind of detailed description of the invention of engaging sleeve hollow pipe processing mold that Fig. 3 provides for the utility model;

The structural representation of Preform Die in a kind of detailed description of the invention of engaging sleeve hollow pipe processing mold that Fig. 4 provides for the utility model;

Fig. 5 is the structural representation of the blocking blank after blocking reaming;

Fig. 6 is the main TV structure schematic diagram of finish forge tooth patrix in Fig. 4;

Fig. 7 is the side-looking structural representation of Fig. 6;

Fig. 8 is the structural representation of finish forge tooth counterdie in Fig. 4.

In accompanying drawing, mark is as follows:

Finish forge tooth patrix 1, blocking blank 2, finish forge tooth counterdie 3, precision forging die fore-set 4, blocking reaming patrix 5, blank 6, blocking reaming counterdie 7, engaging sleeve hollow pipe 8, one-level sidewall 31, secondary sidewall 32, three grades of sidewalls 33.

Detailed description of the invention

The utility model embodiment discloses a kind of engaging sleeve hollow pipe processing mold, to reduce engaging sleeve hollow pipe process time, endoporus allowance and processing charges.

Below in conjunction with the accompanying drawing in the utility model embodiment, be clearly and completely described the technical scheme in the utility model embodiment, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Refer to Fig. 3-Fig. 8, the structural representation of finish forge mould in a kind of detailed description of the invention of engaging sleeve hollow pipe processing mold that Fig. 3 provides for the utility model; The structural representation of Preform Die in a kind of detailed description of the invention of engaging sleeve hollow pipe processing mold that Fig. 4 provides for the utility model; Fig. 5 is the structural representation of the blocking blank after blocking reaming; Fig. 6 is the main TV structure schematic diagram of finish forge tooth patrix in Fig. 4; Fig. 7 is the side-looking structural representation of Fig. 6; Fig. 8 is the structural representation of finish forge tooth counterdie in Fig. 4.

In a kind of detailed description of the invention, the engaging sleeve hollow pipe processing mold that the utility model provides comprises Preform Die and finish forge mould.

Wherein, Preform Die comprises blocking reaming patrix 5 and blocking reaming counterdie 7, blocking reaming patrix 5 comprises the inverted round stage for reaming, blocking reaming counterdie 7 offers the circular groove consistent with blank 6 diameter, blank 6 is positioned in circular groove, and the less one end of the inverted round stage diameter of blocking reaming patrix 5 is towards blocking reaming counterdie 7.Add man-hour, carry out jumping-up by Preform Die, blank 6 is positioned in the circular groove of blocking reaming counterdie 7, under the effect of press device, the inverted round stage structure of blocking reaming patrix 5 moves to blocking reaming counterdie 7 gradually, acts on blank 6, reaches the effect of reaming jumping-up.Through blocking reaming, the oxide skin that blank 6 produces through heating rear surface is removed, and then obtains blocking blank 2, ensures to there will not be profile of tooth to lack the phenomenon of material in subsequent fine forging process.

Finish forge mould comprises finish forge tooth patrix 1, finish forge tooth counterdie 3 and precision forging die tooth top post 4.Formed under finish forge tooth patrix 1 and finish forge tooth counterdie 3 closure state, the forging chamber formed in the middle of the two is identical with the profile of tooth of engaging sleeve hollow pipe 8, and precision forging die fore-set 4 is for supporting the blocking blank 2 after reaming.The height of concrete precision forging die fore-set 4 should meet end face on it and support blank, and bottom surface is concordant with the bottom surface of finish forge tooth counterdie.

Add man-hour, blank 6, after the reaming of blocking jumping-up, forms blocking blank 2.What its structure was concrete refers to Fig. 5.In precision forging process, under the effect of press device, because finish forge tooth patrix 1 is with under finish forge tooth counterdie 3 closure state, the forging chamber formed in the middle of the two is identical with the profile of tooth of engaging sleeve hollow pipe 8, thus blocking blank 2 directly can be forged and pressed out the shape of engaging sleeve hollow pipe 8, its profile of tooth can meet technical requirement, without the need to follow-up Milling Process.Meanwhile, internal via shape basic forming, following process surplus is few.To sum up, adopt above-mentioned engaging sleeve hollow pipe 8 processing mold effectively can shorten process time, reduce processing charges.

Further, after having forged, forging is taken out, the pattern draft of finish forge tooth patrix 1 can be set to 3 degree of-6 degree, the pattern draft of blocking reaming patrix 5 is set to 20 degree of-26 degree, the pattern draft of the one-level sidewall 31 of finish forge tooth counterdie 3 is set to 2 degree of-3 degree, the secondary sidewall 32 of finish forge tooth counterdie 3 and the pattern draft of three grades of sidewalls 33 are set to 1 degree of-2 degree, and the pattern draft of blocking reaming counterdie 7 is set to 1 degree of-2 degree.One-level sidewall 31 herein, secondary sidewall 32 and three grades of sidewalls 33 refer to the inwall of the blocking reaming counterdie 7 corresponding to engaging sleeve hollow pipe 8 outer wall different-diameter place respectively, and the diameter of one-level sidewall 31, secondary sidewall 32 and three grades of sidewall 33 correspondences is for reduce successively.It should be noted that, pattern draft is herein set to a number range, is intended to difference as the case may be, pattern draft can be any one numerical value within the scope of this, namely for concrete condition, pattern draft is the value determined, and this value is in above-mentioned scope.

Concrete, the pattern draft of finish forge tooth patrix 1 can be 6 degree, the pattern draft of blocking reaming patrix 5 can be 26 degree, the pattern draft of the one-level sidewall 31 of finish forge tooth counterdie 3 can be 3 degree, the secondary sidewall 32 of finish forge tooth counterdie 3 and the pattern draft of three grades of sidewalls 33 can be 2 degree, and the pattern draft of blocking reaming counterdie 7 can be 2 degree.

Further, the bottom surface of blocking reaming patrix 5 and inverted round stage pass through arc transition.The radius of curvature of concrete circular arc is 10mm.Certainly according to specific needs, also other sizes can be set to, or other intermediate shapes.

For ensureing the surface flatness of forging, what the roughness in forging chamber was concrete can be set to 0.8, to make disposablely to forge engaging sleeve hollow pipe 8 forging meeting technical requirement.

The engaging sleeve hollow pipe processing mold that application the utility model provides carries out adding man-hour, and its processing technology comprises the following steps:

Blanking, prepares the blank that internal diameter is the tubulose of 62-64mm.

Therefore blank is the pipe fitting with endoporus, is conducive to reducing allowance in following process process, shortens process time.Concrete, the height of blank can be set to 52mm, and external diameter is generally 93mm, and internal diameter can be set to 63mm.Certainly, also can carry out other according to specific needs to arrange.

Described blank is heated;

By heating so that follow-up blocking and finish forge carry out smoothly.

Described blank is carried out blocking reaming by the Preform Die that such as the various embodiments described above provide;

The oxide skin produced through heating blank surface is removed by blocking reaming, obtains blocking blank 2, and then profile of tooth intact material during guarantee finish forge.Concrete, blocking blank 2 external diameter after blocking reaming mouth is about 106mm, and be highly about 46mm, its structure refers to Fig. 6.

Blank after reaming is carried out the finish forge of profile of tooth by the finish forge mould that such as the various embodiments described above provide.

Precision forging process is under the cooperation of finish forge tooth patrix 1, finish forge tooth counterdie 3 and precision forging die fore-set, and direct for the blocking blank 2 after reaming forging molding is gone out engaging sleeve hollow pipe profile of tooth.

Mould is all placed on die holder by above-mentioned pre-forging process and precision forging process, and die holder arranges with forging and is connected, and then pressurizes.

In this description, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from spirit or scope of the present utility model, can realize in other embodiments.Therefore, the utility model can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. an engaging sleeve hollow pipe processing mold, is characterized in that, comprises Preform Die and finish forge mould;

Described Preform Die comprises blocking reaming patrix and blocking reaming counterdie, and described blocking reaming patrix comprises the inverted round stage for reaming, and described blocking reaming counterdie offers the circular groove consistent with blank diameter;

Described finish forge mould comprises finish forge tooth patrix, finish forge tooth counterdie and precision forging die fore-set, described finish forge tooth patrix is identical with the profile of tooth of the forging chamber formed under described finish forge tooth counterdie closure state and engaging sleeve hollow pipe, and described precision forging die fore-set is for supporting the blank after reaming.

2. engaging sleeve hollow pipe processing mold according to claim 1, it is characterized in that, the pattern draft of described finish forge tooth patrix is 3 degree of-6 degree, the pattern draft of described blocking reaming patrix is 20 degree of-26 degree, the pattern draft of the one-level sidewall of described finish forge tooth counterdie is 2 degree of-3 degree, the described secondary sidewall of finish forge tooth counterdie and the pattern draft of three grades of sidewalls are 1 degree of-2 degree, and the pattern draft of described blocking reaming counterdie is 1 degree of-2 degree.

3. engaging sleeve hollow pipe processing mold according to claim 2, it is characterized in that, the pattern draft of described finish forge tooth patrix is 6 degree, the pattern draft of described blocking reaming patrix is 26 degree, the pattern draft of the one-level sidewall of described finish forge tooth counterdie is 3 degree, the described secondary sidewall of finish forge tooth counterdie and the pattern draft of three grades of sidewalls are 2 degree, and the pattern draft of described blocking reaming counterdie is 2 degree.

4. the engaging sleeve hollow pipe processing mold according to any one of claim 1-3, is characterized in that, bottom surface and the described inverted round stage of described blocking reaming patrix pass through arc transition.

5. engaging sleeve hollow pipe processing mold according to claim 4, is characterized in that, the radius of curvature of described circular arc is 10mm.

6. engaging sleeve hollow pipe processing mold according to claim 5, is characterized in that, the roughness in described forging chamber is 0.8 micron.