CN106984753A - Forging hammer - Google Patents

Abstract

The present invention relates to forging hammer（1）, it includes anvil block（2）, head sections（3）And tup（4）, wherein, the head sections（3）With the anvil block（2）By means of at least one interface unit（2401）With being connected to each other.Here, the head sections（3）With the anvil block（2）It can adjust relative to each other.

Description

Forging hammer

Technical field

The present invention relates to the forging of preamble according to claim 1 hammer.

Background technology

It is used to use in the industry for example in free forming forging or in mould forging by prior art is sufficiently known Forging hammer.On the professional domain it is detailed introduce can as the file " handbook remodeling technology " referenced by with this, Eckhart Doege, Bernd-Arno Behrens, Springer publishing houses, second edition, page 2010,719 and continued page （Literatur "Handbuch Umformtechnik", Eckhart Doege, Bernd-Arno Behrens, Springer-Verlag, 2.Auflage, 2010, Seiten 719 ff.）Learn.

Generally known as problem, in the forging hammer run using Linear actuator, in Linear actuator Wrong spacing between stator and mover or primary components and secondary component in terms of the power of the Linear actuator not Suitably influence the Linear actuator.There are the following problems in the forging hammer without Linear actuator, i.e., draw in anvil block The tup led is as the progress of forging hammer is during use because abrasion can leave the initial within anvil block of the tup Position.Thus destruction forging hammer can also be caused.

The content of the invention

The task of the present invention is to reduce the abrasion in terms of the tup of forging hammer.In addition task of the invention is so that band The forging hammer of linear driver can be run in the case of not significant power attenuation or with preferable power.

The task is solved by starting point of the feature of the preamble of claim 1 by the feature of characteristic. Favourable and suitable improvement project is provided in the dependent claims.

Forging hammer is proposed, the forging hammer includes anvil block, head sections and tup, wherein, the head sections and the anvil block By means of at least one interface unit with being connected as follows each other, that is, the head sections and the anvil block relative to each other can Regulation.This is rendered as following feasibility, i.e., the connection between head sections and anvil block, which is such as got off, to be used, that is, to realize head sections Position adjustment.Thus the spacing between stator and mover can be adjusted extremely accurate, and this suitably influences linear motor The operation linearly hammered into shape of power and therefore influenceing.Matching head sections and anvil block realize the tup for also having and being guided in anvil block in this wise Location feasibility.Position thus, it is possible to be adjusted tup in addition.Such adjustment can resist the mobile side in tup Abrasion or scrambling in terms of.

Conclusive to be, head sections and anvil block are connected with each other by interface unit.Thus, it is possible to cause head sections Regulation with the position of anvil block relative to each other is carried out in the state of connection.This can mean that huge time advantage, because Possible dismounting head sections and anvil block in the case of high time loss can be saved.

Single adjusting means need not for this.For example can by head sections and anvil block relative to each other be located through can The connection perforate being arranged between head sections and anvil block is carried out, the guidance connector part in the connection perforate.For example it is feasible It is that interface unit has the diameter smaller than connection perforate and thus can transported in the orientation of the inner radial of connection perforate It is dynamic.

The present invention particularly preferred design regulation, at least one described interface unit be designed as immobilising device with In gland section and anvil block.Additional being fixed on of head sections and anvil block can be adjusted head relative to each other in addition to connection Carried out after section and anvil block.

Being advantageously improved in scheme and can be arranged in the present invention, immobilising device and interface unit are designed to one piece.By This needs only one structure member, and the tune of the position of head sections and anvil block relative to each other can be carried out using the structure member The fixation of section and head sections and anvil block.

The preferred design regulation of the present invention, head sections and anvil block are by least one interface unit with being connected to each other And head sections can be regulated so that in first position or at least one second place different from first position relative to each other In can be fixed on anvil block sentence for run forging hammer.Such regulation by means of head sections relative to anvil block can be realized In the accuracy of forging hammer and the active influence in terms of the life-span of forging hammer.Such adjustment can resist the shifting in tup Abrasion or scrambling in terms of dynamic direction.

It can be arranged in particularly advantageous refinement of the invention scheme, interface unit includes at least one adjuster Part.The positioning of head sections and anvil block relative to each other can be subtly adjusted by means of adjusting means.This being capable of actively impact Forge accuracy or the life-span of hammer.

The present invention it is then preferred that design in be arranged to, interface unit and/or adjusting means and/or fixator Part is designed to one piece.Corresponding function can be achieved in by means of structure member, the function is to need or make every effort to.This It can mean that the advantage in terms of the such structure member of manufacture.Safeguard and maintenance consumption can be in the feelings using structure member Reduce under condition.

It can be arranged in the improvement project of the present invention, head sections are in putting down for being extended perpendicularly through by the mobile axis of tup Anvil block is releasably fastened in face can be adjusted in which can be orientated at the anvil block.It is achieved in, performs head sections and anvil block The very accurate orientation of position relative to each other or regulation.This working method for being capable of actively impact forging hammer or life-span.This Can in addition actively impact manufacture workpiece accuracy.

The improvement project of the present invention can provide that head sections can be at least local by means of at least one described interface unit Adjusted parallel to the mobile axis of tup.This is rendered as another regulation feasibility.Example can be thus performed in an advantageous manner Such as structure member tup, head sections, the orientation of anvil block.Such regulation can be for example in the precision that still can more accurately adjust Property aspect actively impact forging machine function.Loss within forging machine, for example at tup can be by so Regulation feasibility resist so that if possible can realize it is longer during use.

The present invention can provide that at least one described adjusting means is especially configured to regulation threaded fastener and/or construction For eccentric part.This is rendered as the feasibility of the cost-effective for adjusting means.

The present invention's is advantageously improved scheme and can provide, at least one described interface unit includes at least one ailevator Part, wherein, it is described at least one slow down device be especially configured to machinery spring and/or pneumatic mat and/or the pad of hydraulic pressure Son and/or the body being made up of the material of elasticity.Can thus it be resisted in the vibration of forging hammer emerged in operation.If thus should There is vibration strongly, then the regulation carried out relative to each other between head sections and anvil block is also able to maintain that in its position In.

The present invention additionally relates to forging hammer, including the upper member of forging mold, the lower member of forging mold, stator and Mover, wherein, head sections are arranged on anvil block, wherein, tup is guided in anvil block, wherein, the upper member of forging mold with The downside connection of tup, wherein, the lower member of forging mold is connected with being opposite to the upper member of forging mold with anvil block, its In, stator arrangement in head sections, wherein, the side face of mover and tup connection and wherein, stator and mover form linear horse Reach.

In addition it is arranged to, head sections are equipped with guide sleeve, tup is especially with head piece in the guide sleeve To guide, wherein, guide sleeve can be adjusted especially with respect to head sections and wherein, guide sleeve is that this is outstanding in head sections It is accommodated by eccentric supporting member or by double eccentric supporting members.Thus in the case of having tolerance in frame Ensure in head sections without the tup for offsettingly guiding the orientation at anvil block.

The present invention can provide that forging hammer is configured to linear hammer and including Linear actuator, the Linear actuator bag Stator and mover are included, wherein, the spacing between stator and mover is arranged between head sections and anvil block by means of at least one Interface unit can adjust.

Linear hammer has extra high energy efficiency.The adjustment of spacing between stator and mover can be improved further Efficiency.It is furthermore possible to improve the accuracy linearly hammered into shape.Advantage thus, it is possible to cause economy in the linear hammer of operation.

The linear hammer in meaning of the present invention into following it will be appreciated that hammer into shape, the direct drive that the motion of tup passes through electricity wherein Move or carried out by linear motor.Linear hammer is following forging hammer in meaning of the present invention, and the forging hammer passes through linear horse Up to driving.

The stator of linear motor can also be referred to as the primary components of linear motor in meaning of the present invention.Linear motor Stator or primary components are fixed herein.Correspondingly, the mover of linear motor can be referred to as secondary component.Mover or secondary section Part is movable.The mover in meaning of the present invention is it will be appreciated that be tup.

Brief description of the drawings

The other details of the present invention is expanded on further according to the embodiment being shown in the drawings below.Herein：

Fig. 1 shows the view of the perspective of forging hammer；

Fig. 2 show figure 1 illustrates forging hammer front view；

Fig. 3 is showing along hatching III-III shown in figure 2 and passes through the cross section view that hammer is forged as known to Fig. 1 and 2；

Fig. 4 shows the side view of the forging hammer shown in Fig. 1 to 3；

Fig. 5 shows the partial view of the perspective of the forging hammer shown in Fig. 1 to 4, and the partial view part is embodied as decomposing View；

Fig. 6 shows the partial view of the perspective of the implementation flexible program of the forging hammer shown in Fig. 1 to 5, wherein, the part is regarded Figure is partly implemented as decomposition view；

Fig. 7 shows the part of the schematical section diagram of the forging hammer with good grounds head sections adjustment of the invention；

Fig. 8 shows the embodiment of the head sections adjustment according to the present invention, and

Fig. 9 shows the function sketch of the embodiment of the head sections adjustment according to the present invention.

Reference numerals list

1 forging hammer

2 anvil blocks

3 head sections

4 tups

5 （Forging mold 6）Lower member

6 forging molds

7 （Forging mold 6）Upper member

8 stators

9 movers

10 linear motors

11 are not used

12 are not used

13 frames

14 anvil block inserts

15th, 15' immobilising devices

16 coverings

17 brake apparatus

18 vertical directions

19 travel limit portions

20 （Tup 4）Side face

21 （Tup 4）Downside

22 （Tup 4）Upside

The head sections of 23 bottoms

The head sections on 24 tops

25 wedges

26 locking units

27 overload safety pieces

28 guide sleeves

29 supporting devices

30 supports

31 ring outer rims

32 head pieces

33 （It is arranged at anvil block）Guide device

34a terminal boards

34b ring outer rims

2401st, 2401' interface units

2401'' interface units

2401''' interface units

2402 mobile axis

2403rd, 2403' adjusting means

2403'' adjusting means

2403''' adjusting means

2404 planes

2405 directions of motion

2406 directions of motion

2407th, 2407' adjusts direction

2407'' adjusts direction

2407''' adjusts direction

2410th, 2410' slows down device

2411st, 2411' spacing.

Embodiment

Fig. 1 shows the diagram of the perspective of forging hammer 1.It includes anvil block 2, and the anvil block has substantially U-shaped profile. Head sections 3 are disposed with anvil block 2.Head sections 3 are in the illustrated embodiment by the head sections 23 and the head sections 24 on top of bottom Composition.

One piece can also be designed to the type and mode head sections 3 that do not show further.

Covering 16 is disposed with head sections 3 or on the head sections 24 on top.Tup 4 is configured with anvil block 2.Forging Hammer 1 is made to process workpiece（It is not shown）The lower member 5 of upper member 7 and forging mold 6 including forging mold 6.

In fig. 2 with schematical side view show again figure 1 illustrates forging hammer 1.Forging hammer 1 is designed as short Stroke mould is hammered into shape（Kurzhub-Gesenkhammer）.Forging hammer 1 includes anvil block 2, the anvil block insert referred to （Schabotteneinsatz）14th, head sections 3 and tup 4.

Head sections 3 and anvil block 2 are by means of immobilising device 15（One in immobilising device is represented merely illustratively）Can Releasably with being connected to each other.The head sections 23 of bottom are connected and fixed with anvil block 2 herein in the illustrated embodiment.Head sections 3（It is made up of the head sections 24 on top and the head sections 23 of bottom）And the formation frame 13 of anvil block 2.In addition set at head sections 3 It is equipped with covering 16.Tup 4 is guided in anvil block 2.

Wedge 25 is disposed with the region of anvil block insert 14 in anvil block 2.Guide device is disposed with addition in anvil block 2 33, the guide device is arranged in anvil block 2 guiding tup 4.In addition travel limit portion 19 is provided with anvil block 2. Forging hammer includes optional brake apparatus 17 in addition, such as being braked in emergency.

Guide device 33 realizes the guiding tup 4 in anvil block 2.In addition realize tup 4 and do not show further herein Primary components（Corresponding to stator 8（Referring to Fig. 6））Interval.Such primary components and secondary component（It is not shown）Form line Property motor 10.Secondary component is also understood that as mover.Secondary component can include tup 4.

Figure 3 illustrates cross section view（It corresponds to the hatching III-III being drawn into fig. 2 and stretched）Show, forge Hammer 1 is made to be driven by linear motor 10.With the type and mode not shown further herein, linear motor 10 is by stator and mover Formed.Stator arrangement is in head sections 3 and mover is formed by Magnet and tup 4, wherein, the Magnet being not shown On the side face for being arranged in tup 4.In order to run so that tup 4 is driven as follows by means of linear motor 10, that is, causes the edge of tup 4 The mobile axis 12 on vertical direction 18 are moved.In addition show, tup 4 has downside 21 and upside 22.

Forging hammer 1 includes overload safety piece 27, and the overload safety piece is made up of disk like groups of springs.Overload the energy of safety piece 27 It is real enough in the case of mover or tup 4 too high speed or functional fault or adjustment after the procedure of processing of forging Trample in upward motion, reducing speed and reduce or prevent damage at forging hammer 1.

Shown in Fig. 4 in another side view, forging hammer 1 includes locking unit 26.The locking unit can be realized Forging 1 fixation for example in pending maintenance work of hammer.

Operationally, that is to say, that in processing workpiece（It is not shown）When, tup or mover are by linear motor 10（Referring to figure 3）Drive and moved towards workpiece or away from the workpiece.Towards the motion of workpiece（The workpiece is last by forging mold 6 Lower member 5 and the upper member 7 of forging mold 6 process）Carried out downwards on vertical direction 18 herein（Referring to Fig. 2）. Accordingly in turn be motion of the tup after it is run on workpiece.In order to limit the stroke of tup, forging 1 this outsourcing of hammer Include the travel limit portion 19 being already mentioned above（Referring further to Fig. 2）.

Fig. 5 shows the diagram of the perspective of the forging hammer 1 shown in Fig. 1 to 4 with the decomposition view of part.It can see herein Go out, guide sleeve 28 is installed in the head sections 24 on top in the state of assembling.Guide sleeve 28 realizes the head on top Tup 4 is guided in section 24.Guide sleeve 28 is designed substantially to column and with ring outer rim 31 in embodiment.Implementing Guide sleeve 28 and ring outer rim 31 are configured to one piece in example.

In addition the body of the head piece 32 of tup 4 and tup 4 is shown with departing from.Head piece 32 realizes tup 4 in guiding Sliding guidance in sleeve 28.The hot charging of head piece 32 in the illustrated embodiment（aufgeschrumpft）To the body of tup 4 Go up or be stained with the body or screwed with the body.

Due to guide sleeve 28（It is arranged in head sections 3）And guide device 33（It is arranged in anvil block 2）Cloth Put so that tup 4 is not only guided in head sections 3 but also in anvil block 2.

Implementation flexible program according to being not shown is also configured to, and guide sleeve prejudicially can be adjustably in head sections To support, so that the guide sleeve can be adjusted corresponding to actual conditions on tup or on the head piece of the tup It is whole.Especially double eccentric supporting members of guide sleeve are arranged in head sections.So that guide sleeve is by the guiding Can freely it be adjusted on two spaces direction in the plane passed through to the longitudinal axis of sleeve.

Fig. 6 shows the implementation flexible program of forging hammer 1 using the diagram of local perspective with the decomposition view of part.Herein It can be seen that, forging hammer 1 includes supporting device 29, and stator 8 is seated in the state of loading on the supporting device.This external stator 8 include terminal board（Klemmenkasten）34a and ring outer rim 34b.Ring outer rim 34b is seated on support 30 after assembly, The support is arranged at the head sections 23 of bottom.Thus stator 8 is mounted in and substantially in the head sections 23 of bottom.Top Head sections 24 are placed on stator 8 in assembling stator 8 or after assembling stator 8.Thus the head sections 24 on top can be managed Solve as covering.Head sections 3 are designed to one piece and being regarded as with the head sections 23 of bottom in such a case.

Figure 7 illustrates the office of the schematical section diagram of the forging hammer 1 with good grounds head sections adjustment of the invention Portion.It is arranged in this interface unit 2411,2411' between head sections 3 and anvil block 2.Head sections 3 and anvil block 2 are by means of connector Part 2411,2411' are with being connected to each other.Tup 4 is guided in anvil block.Tup 4 operationally moves along axis 2402 in anvil block 2 Middle motion.Figure 7 illustrates forging hammer 1 be designed as linear hammer, the linear hammer includes stator 8 and mover 9.Mobile axis 2402 it is also understood that be the moving direction of tup 4.

Head sections 3 and anvil block 2 as follows with being connected to each other, that is, cause head sections 3 by means of at least one interface unit 2401 It can be adjusted relative to each other with anvil block 2.Indicate herein, regulation can be carried out in the direction of motion 2405.The direction of motion 2405 is horizontal It is orientated in mobile axis 2402.Thus, it is possible to make head sections 3 relative to anvil block 2 for example in motion side using interface unit 2401 Moved on to 2405.Thus cause, change the spacing 2411 or 2411' of mover 9 and stator 8.Because structure member stator 8 and dynamic Son 9 is important for running linear hammer, thus thus, it is possible to by the operation linearly hammered into shape by adjusting head relative to anvil block 2 Section 3 optimizes.When stator 8 or mover 9 are connected with head sections 3, then just realize and optimize linear hammer in this wise.It is preferably Ground, mover 9 is connected with tup 4.More appropriately, stator 8 is connected with head sections 3.Can be not only by head in meaning of the present invention Section 3 is relative to anvil block 2 and can adjust in turn.

At least one can be disposed with addition slow down device 2410,2410' between head sections 3 and anvil block 2.Not show The type and mode gone out, can be configured to by slowing down device 1410,1410' and interface unit 2401,2401' by one piece.

Figure 8 illustrates the part of the embodiment of the head sections adjustment according to the present invention.It can be seen that herein, head sections 3 It is connected using interface unit 2401 with anvil block 2.Head sections 3 have upper member 24 and lower member in the illustrated embodiment 23.One piece of head sections 3 are it is also conceivable to use, it is connected with anvil block 2.

The function sketch of the embodiment of the head sections adjustment according to the present invention is illustrated with vertical view in fig .9.It can be seen that, deposit There is plane 2404.The plane 2404 is vertically passed through by the mobile axis 2402 of tup.Herein can in plane 2404 Adjust the spacing 2411 between stator 8 and mover 9.

Plane 2404 can be arranged transverse to mobile axis 2402 and for example through head sections and/or through tup and/ Or stretched through anvil block（It is not shown）.

Such adjustment can be carried out in the case where using adjusting means 2403,2403', 2403'', 2403'''. Four adjusting means 2403,2403', 2403'', 2403''' are shown in the embodiment shown.Adjusting means 2403,2403', 2403'', 2403''' are preferably arranged on head sections（It is not shown）.Adjusting means 2403,2403', 2403'', 2403''' has regulation direction 2407,2407', 2407'', 2407''' respectively.Manipulate adjusting means 2403,2403', 2403'', 2403''' are realized or are changed spacing along the direction of motion 2405 and/or along the direction of motion 2406 2411。

Claims (11)

1. forging hammer（1）, including anvil block（2）, head sections（3）And tup（4）, it is characterised in that the head sections（3）With it is described Anvil block（2）By means of at least one interface unit（2401）With being connected to each other to so that the head sections（3）With the anvil block（2） It can adjust relative to each other.

2. forging hammer according to claim 1（1）, it is characterised in that at least one described interface unit（2401）Design It is used for gland section for immobilising device（3）And anvil block（2）.

3. forging hammer according to claim 1 or 2（1）, it is characterised in that the head sections（3）With the anvil block（2）It is logical Cross at least one interface unit（2401）With being connected to each other and can be regulated so that relative to each other the head sections（3） The anvil block can be fixed in one position or at least one second place different from the first position（2）Sentence for transporting The row forging hammer（1）.

4. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that the interface unit（2401） Including at least one adjusting means（2403）.

5. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that the head sections（3）By The tup（4）Mobile axis（2402）The plane extended perpendicularly through（2404）In be releasably fastened to the anvil block（2）Energy Enough orientation ground can be adjusted at the anvil block.

6. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that the head sections（3）Can By means of at least one described interface unit（2401）It is at least partially parallel to the tup（4）Mobile axis（2402）To adjust Section.

7. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that at least one described adjuster Part（2403）It is especially configured to regulation threaded fastener and/or is configured to eccentric part.

8. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that at least one described connector Part（2401）Slow down device including at least one（2410）, wherein, it is described at least one slow down device（2410）It is especially configured to The spring and/or pneumatic mat and/or the mat of hydraulic pressure of machinery and/or the body being made up of the material of elasticity.

9. forging hammer according to claim 1, it is characterised in that the forging hammer（1）Including forging mold（6）Top Part（7）, forging mold（6）Lower member（5）, stator（8）And mover（9）, wherein, the head sections（3）It is arranged in institute State anvil block（2）On, wherein, the tup（4）In the anvil block（2）Middle guiding, wherein, the forging mold（6）Top portion Part（7）With the tup（4）Downside（21）Connection, wherein, the forging mold（6）Lower member（5）It is opposite to described Forging mold（6）Upper member（5）Ground and the anvil block（2）Connection, wherein, the stator（8）It is arranged in the head sections （3）In, wherein, the mover（9）With the tup（4）Side face（20）Connect and wherein, the stator（8）Moved with described Son（9）Form linear motor（10）.

10. forging hammer according to claim 1（1）, it is characterised in that the head sections（3）Including guide sleeve（28）, The tup described in the guide sleeve（4）Especially with head piece（32）Guiding, wherein, the guide sleeve（28）Especially Relative to the head sections（3）It can adjust and wherein, the guide sleeve（28）It is this in the head sections（3）In especially Accommodated by eccentric supporting member or by double eccentric supporting members.

11. the forging according at least one in preceding claims is hammered into shape（1）, it is characterised in that the forging hammer（1）Construction For linear hammer, including stator（8）And mover（9）, wherein, in the stator（8）With the mover（9）Between spacing（2411、 2411'）Head sections are arranged in by means of at least one（3）With anvil block（2）Between interface unit（2401）It can adjust.