CN107020332B - The manufacturing device of aluminum fin - Google Patents

Abstract

A kind of manufacturing device of aluminum fin is provided, the breakage of the control mechanism controlled the processing of aluminum fin by simple structure, can be prevented and is acted bad.The manufacturing device of aluminum fin has：A pair of of axis (201,202), they are parallel to each other and configure at spaced intervals；Machining control component (211,212,213) is connect with axis (201,202)；Driving portion (221,222,231,232), it along the axially driving machining control component (211,212,213) of axis (201,202), is made machining control component (211,212,213) be moved to permission stamping position or does not allow stamping position by axis (201,202)；And pressing part, by the way that mold compresses are processed on thin metallic plate positioned at the machining control component (211,212,213) allowed at stamping position.

Description

The manufacturing device of aluminum fin

Technical field

The present invention relates to the manufacturing devices of aluminum fin.

Background technology

In the past, there is following technology as the manufacturing device of aluminum fin：It is moved in the fin component for making plate While, multiple processing are carried out in order to make aluminum fin (for example, with reference to Japanese Unexamined Patent Application 59-13527 public affairs It reports (patent document 1)).

In the manufacturing device of this aluminum fin have control mechanism, the control mechanism not only according to every time between The processing of fin component is carried out away from feeding, and carries out desired processing in the spacing feeding for carrying out arbitrary number of times, therefore Machining control component is set to be moved to permission stamping position or not allow at stamping position by axis driven in the axial direction, to being No processing aluminum fin is controlled.

Existing technical literature

Patent document

Patent document 1：Japanese Unexamined Patent Application 59-13527 bulletins

Invention content

Invent the project to be solved

In the manufacturing device of the aluminum fin with above-mentioned control mechanism, due to only in the processing of elongate in shape The unilateral side of control unit is connected with axis, thus rotation and machining control component meeting when punching press centered on machining control component is by axis Hooking is lived, and there is a problem of that control mechanism is damaged or acts bad.

Then, problem of the present invention is that, providing one kind can be prevented by simple structure to aluminum fin The control mechanism that is controlled of processing breakage and act the manufacturing device of undesirable aluminum fin.

Means for solving the problems

In order to solve the above problems, the manufacturing device of aluminum fin of the invention is characterized in that, the heat exchange The manufacturing device of device fin has：Multiple axis, they are parallel to each other and configure at spaced intervals；Machining control component, quilt Above-mentioned multiple axis perforation, and at least one of above-mentioned multiple axis axis connection；Driving portion, by being connected with above-mentioned processing The above-mentioned axis of control unit along above-mentioned axis axially driving above-mentioned machining control component, to make above-mentioned machining control component move Stamping position is not allowed to permission stamping position or；And pressing part, by above-mentioned at above-mentioned permission stamping position Mold compresses are processed by machining control component on fin component.

It, will be for the processing of multiple axis perforation that is parallel to each other and configuring at spaced intervals by driving portion according to above structure Control unit is axially driving along the axis connected, and moving it to allows stamping position or do not allow at stamping position, therefore Will not as in the past cut-out etc. processing when machining control component by axis centered on rotate and make machining control component hook It tangles.Therefore, it is possible to pass through simple structure so that the control mechanism that the processing of aluminum fin is controlled it is strong Degree improves, and can prevent the breakage of control mechanism and act bad.

In addition, in the manufacturing device of the aluminum fin of an embodiment, above-mentioned machining control component is in length Spend at least one of the one end in direction and above-mentioned multiple axis axis connection.

It is connected in multiple axis extremely in the one end of the length direction of machining control component according to the above embodiment A few axis can be such that machining control component moves to axially drive the axis being connect with machining control component by driving portion It moves to permission stamping position and does not allow stamping position.

In addition, in the manufacturing device of the aluminum fin of an embodiment, above-mentioned multiple axis include：Main shaft, It is connected with above-mentioned machining control component；And countershaft, it is parallel relative to above-mentioned main shaft and configure at spaced intervals, and pass through It wears in the hole for being inserted in and being arranged on above-mentioned machining control component.

According to the above embodiment, since countershaft that is parallel with main shaft and configuring at spaced intervals is controlled through processing is inserted in In the hole being arranged on component processed, therefore in the axially driving machining control component by driving portion along main shaft, make machining control portion Part is moved to when allowing stamping position or not allowing stamping position, guides machining control component in the axial direction by countershaft, and The rotation of machining control component can be limited by main shaft and countershaft.

In addition, in the manufacturing device of the aluminum fin of an embodiment, above-mentioned multiple axis and above-mentioned processing Control unit is separately connected.

According to the above embodiment, since multiple axis and machining control component are separately connected, machining control component with Multiple axis are integrally constituted and are driven in an axial direction.Therefore, it is possible to realize machining control component to permission stamping position and do not permit Perhaps stablizing for stamping position is moved.

In addition, in the manufacturing device of the aluminum fin of an embodiment, above-mentioned driving portion is distinguished in an axial direction Drive above-mentioned multiple axis.

According to the above embodiment, due to respectively driving multiple axis, machining control component in an axial direction by driving portion The movement of stamping position is not allowed to permission stamping position and to become more stable.

In addition, in the manufacturing device of the aluminum fin of an embodiment, above-mentioned multiple axis are in above-below direction Upper separated from each other compartment of terrain configuration, one end of the above-mentioned machining control component in length direction and at least one in above-mentioned multiple axis A axis connection.

According to the above embodiment, by machining control component the length direction of machining control component one end with The structure of at least one of multiple axis of separated from each other compartment of terrain configuration axis connection, enables to machining control in upper and lower directions The length direction of component shortens, and copes with the confined situation in space of the length direction of machining control component.

In addition, in the manufacturing device of the aluminum fin of an embodiment, in above-mentioned machining control component The one end of length direction is connected at least one of above-mentioned multiple axis axis, in the length direction of above-mentioned machining control component Another side is connected at least another axis in above-mentioned multiple axis, or in the above-mentioned length for being set to above-mentioned machining control component It spends in the hole of the another side in direction, through inserted at least another axis in above-mentioned multiple axis.

According to the above embodiment, it is connected in multiple axis at least in the one end of the length direction of machining control component One axis is connected at least another in (or through inserted with) multiple axis in the another side of the length direction of machining control component One axis configures multiple axis in two end sides of machining control component, thus cope in lateral space there are ampleness and on The confined setting condition in space in lower direction.

Invention effect

As can be seen above, according to the present invention, it will supply parallel to each other using driving portion and configure at spaced intervals multiple Along the axially driving of axis, move it to allows stamping position or does not permit axis of the machining control component of axis perforation by being connected Xu Chongyaweizhichu, therefore can realize that one kind can prevent the processing to aluminum fin from carrying out by simple structure The breakage of the control mechanism of control and the manufacturing device for acting undesirable aluminum fin.

Description of the drawings

Fig. 1 is the whole skeleton diagram of the manufacturing device of the aluminum fin of the 1st embodiment of the present invention.

Fig. 2 is the plan view of the aluminum fin manufactured by the manufacturing device of above-mentioned aluminum fin.

Fig. 3 is that the edge of the mian part of the manufacturing device of above-mentioned aluminum fin is orthogonal with the direction of feed of thin metallic plate Plane longitudinal section schematic diagram.

Fig. 4 is the schematic diagram of the longitudinal section from the IV-IV lines of Fig. 3.

Fig. 5 is the upward view of the lower die mould bases of the manufacturing device of above-mentioned aluminum fin.

Fig. 6 is the vertical view of the axis and machining control component and upper mold mould bases of the manufacturing device of above-mentioned aluminum fin Figure.

Fig. 7 is the vertical view of above-mentioned axis, machining control component and upper mold mould bases.

Fig. 8 is the schematic diagram of the idling conditions of the manufacturing device of above-mentioned aluminum fin.

Fig. 9 is when so that decompressor is acted under the idling conditions of the manufacturing device of above-mentioned aluminum fin Schematic diagram.

Figure 10 is the schematic diagram of the dissengaged positions of the manufacturing device of above-mentioned aluminum fin.

Figure 11 is when so that decompressor is acted under the dissengaged positions of the manufacturing device of above-mentioned aluminum fin Schematic diagram.

Figure 12 is showing for the longitudinal section of the mian part of the manufacturing device of the aluminum fin of the 2nd embodiment of the present invention It is intended to.

Figure 13 is the schematic diagram of the longitudinal section from the XIII-XIII lines of Figure 12.

Label declaration

10：Payoff reel, 20：Loop control unit, 30：Decompressor, 30a：Pressing part, 30A：Lower die mould bases, 30B：Upper mold Mould bases, 30C：Hanging component, 40：Mold, 40A：Lower die, 40B：Upper mold, 50：Spacing dispenser, 60：Shear, 70：Windrow Machine, 81,82：Pillar, 100：Aluminum fin, 110：It is with well through be inserted into hole, 120：Blinds fin, 130：Slot Gap, 140：Hollow portion, 150,160：Notch, 201,202：Axis, 211,212,213：Machining control component, 214,215：It is fixed Component, 221,222,231,232：Cylinder body, 241,242,251,252：Supporting part, 261,262,263：Block, 301：Main shaft, 302：Countershaft, 311,312,313：Machining control component, 321,322：Cylinder body, 361,362,363：Block, 381,382：Pillar, 330a：Pressing part, 330A：Lower die mould bases, 330B：Upper mold mould bases, 340A：Lower die, 340B：Upper mold, P：Thin metallic plate.

Specific implementation mode

Hereinafter, according to the manufacturing device of the embodiment illustrated aluminum fin that the present invention will be described in detail.In addition, Identical reference number is indicated with a part or considerable part in the figure.In addition, attached as length, width, thickness, depth etc. Size on figure is based on actual ratio and is suitably changed, do not represent reality to make attached drawing clear and simplifying Relative size.

【1st embodiment】

Fig. 1 shows the whole skeleton diagrams of the manufacturing device of the aluminum fin of the 1st embodiment of the present invention.

As shown in Figure 1, the manufacturing device of aluminum fin has：Payoff reel 10 is wound in coiled type thereon The thin metallic plates such as aluminium of an example as fin component P；Loop control unit 20 send thin metallic plate P from payoff reel 10 Go out；Decompressor 30 is processed the thin metallic plate P being supplied to by loop control unit 20；Mold 40, is installed on On decompressor 30；Spacing dispenser 50 feeds thin metallic plate P into line space；Shear 60 carries out shearing and adds Work；And stacker 70.

Thin metallic plate P is transported to decompressor 30 from payoff reel 10 by loop control unit 20.

In the manufacturing device of above-mentioned aluminum fin, the manufacturing process of aluminum fin is related to multiple portions Point.Accordingly, it is difficult to store the mould of each process in the length range of the direction of feed of the thin metallic plate P of 1 decompressor 30 Tool.

Then, in the decompressor 30 of the manufacturing device of the aluminum fin of the 1st embodiment, make under bearing The lower die mould bases 30A of mould 40A (shown in Fig. 4) extends to the downstream side of the direction of feed of thin metallic plate P.Similarly, make bearing The upper mold mould bases 30B for living in mould 40B (shown in Fig. 4) also extends to the downstream side of direction of feed.In turn, make hanging component 30C to The foreign side of the direction of feed of thin metallic plate P extends, to make up the deficiency of the extension size of upper mold 40B.

In above first embodiment, shear 60 is installed in the end of hanging component 30C, the shear 60 Carry out the shearing of the final process of the manufacture as aluminum fin 100.

Upper mold mould bases 30B and the 30A bearings of lower die mould bases in device 30 in addition, multiple molds 40 are stamped.It is more by this 1 mold 40 in a mold 40 molds with well through insertion hole 110 on thin metallic plate P (shown in Fig. 2).Into And by 1 mold 40 in multiple molds 40, with well (Fig. 2 institutes of groove gap 130 are formed between being inserted into hole 110 Show).

In addition, the spacing dispenser 50 controlled the spacing feeding of thin metallic plate P is arranged at lower die mould bases 30A The part that extends out of slave decompressor 30 on.

By 1 decompressor 30 as constructed as above, the processing of multiple manufacturing processes is carried out.

The processing of blinds fin 120 (shown in Fig. 2) is carried out in initial process in above-mentioned multiple manufacturing processes.

In next multiple processes, carry out successively with well through the processing for being inserted into hole 110.It is formed with band casing Through be inserted into hole 110 thin metallic plate P by between ranks groove gap process and trimming process.Here, pass through spacing dispenser 50 carry out the spacing feeding of thin metallic plate P entirety.

Fig. 2 indicates the plane for the aluminum fin 100 that the manufacturing device by above-mentioned aluminum fin manufactures Figure.As shown in Fig. 2, to having carried out the made of metal with well through the processing for being inserted into hole 110, blinds fin 120 and groove gap 130 Thin plate P is carried out at the same time the processing of hollow portion 140 and notch 150,160.

Then, in final process, by shear 60 shown in FIG. 1, regulation is cut into thin metallic plate P is about to The shearing of length.Thin metallic plate P becomes aluminum fin 100 in the final process.

In addition, aluminum fin 100 after the completion is as shown in Figure 1, be incorporated in the configuration of the downstream of final process Stacker 70 in.Stacker 70 has the multiple pin 70A being provided for erecting in the vertical direction.Pin 70A is inserted into band set Running through for pipe is inserted into hole 110, to which aluminum fin 100 is gathered into folds with fixed spacing tegillum.

In addition, the manufacturing device of the aluminum fin of above first embodiment with it is previously known same, be configured to Each process is carried out at the same time in multiple row so that manufacture multiple fins simultaneously using thin metallic plate P.In addition, can be according at which Groove gap is formed between continuous row between the row of a position to set the columns of fin, or the fin different to columns is carried out at the same time Processing.In addition, by these settings, the quantity of determining while manufacture fin.

Fig. 3 indicates the direction of feed on the edge and thin metallic plate P of the mian part of the manufacturing device of above-mentioned aluminum fin The schematic diagram of the longitudinal section of orthogonal plane, Fig. 4 indicate from the IV-IV lines of Fig. 3 section (along thin metallic plate P into To the longitudinal section in direction) schematic diagram.In Fig. 3,40A is by the lower die of lower die mould bases 30A bearings.In Fig. 4,40B is by upper mold The upper mold of mould bases 30B bearings.

As shown in figure 3, upper mold mould bases 30B is supported in lower die mould bases 30A by pillar 81,82.

In addition, as shown in figure 4, so that downside outstanding mode of the part of upper mold 40B in upper mold mould bases 30B is installed Upper mold 40B.In addition, the downside mounting block 261,262,263 in the pressing part 30a of decompressor 30 (is only shown in Fig. 4 261)。

Fig. 5 indicates the upward view for being equipped with the lower die mould bases 30A of lower die 40A.As shown in figure 5, being installed in lower die mould bases Lower die 40A on 30A is configured at the position opposed with the upper mold 40B being installed on upper mold mould bases 30B.

In addition, Fig. 6 indicates that the machining control component 211,212,213 of the manufacturing device of above-mentioned aluminum fin is located at Axis 201 when not allowing stamping position, 202, the vertical view of machining control component 211,212,213 and upper mold mould bases 30B.Separately Outside, in Fig. 6,301,302,303 be the block of the downside for the pressing part 30a (not shown) for being provided projectingly on decompressor 30. The upside of Fig. 6 only shows axis 201,202, machining control component 211,212,213 and block 261,262,263.

In addition, thin metallic plate P (not shown) is supplied to (feeding side shown in arrow from the downside of Fig. 6 towards upside To).

As shown in fig. 6, configured with a pair of of cylindrical shape in a manner of parallel to each other and interval on upper mold mould bases 30B Axis 201,202.The both ends of machining control component 211,212,213 are connect with a pair of of axis 201,202.Here, axis 201,202 passes through It wears and is inserted in the hole of the both ends of machining control component 211,212,213 setting, by the way that axis is fixed in the both sides in the hole 201, the fixed component 214,215 on 202 limits the movement of machining control component 211,212,213 in the axial direction, to axis 201, it 202 is connected with machining control component 211,212,213.

It can be moved in the axial direction by the bearing of cylinder body 221,222 at the both ends of one axis 201.In addition, being in for axis 201 adds The bearing of middle section supported portion 241,242 between work control unit 211,212,213 is to move in the axial direction.

Similarly, the both ends of another axis 202 are also to move in the axial direction by the bearing of cylinder body 231,232.In addition, axis 202 bearing of middle section supported portion 251,252 between machining control component 211,212,213 is can be in axial direction Upper movement.

Cylinder body 221,231 and cylinder body 222,232 are alternately supply compressed air, thus along axis by axis 201,202 201,202 axially driving machining control component 211,212,213.Cylinder body 231,232 be make machining control component 211,212, 213 are moved to the driving portion for allowing stamping position or not allowing in stamping position.

On the other hand, Fig. 7 show machining control component 211,212,213 be located at allow stamping position when axis 201,202, Machining control component 211,212,213, the vertical view of block 261,262,263 and upper mold mould bases 30B.The upside of Fig. 7 is only shown Axis 201,202, machining control component 211,212,213 and block 261,262,263.

In addition, thin metallic plate P (not shown) is supplied to (feeding side shown in arrow from the downside of Fig. 7 towards upside To).

As shown in fig. 7, when machining control component 211,212,213 is located at permission stamping position, if making decompressor 30 acted and make pressing part 30a decline, then the lower end of block 261,262,263 can be connected to machining control component 211, 212,213 and be depressed.Upper mold 40B is pressed by machining control component 211,212,213 towards lower die 40A as a result, to gold Belong to sheeting P to be processed.

Then, according to Fig. 8~Figure 11, illustrating that machining control component 211,212,213 is located at allows stamping position and does not permit Perhaps stamping position when using decompressor 30 processing action.In Fig. 8~Figure 11, for composition part identical with Fig. 1~Fig. 7 Assign same reference number.

Fig. 8 shows the solids of the idling conditions of the manufacturing device of above-mentioned aluminum fin (not allowing stamping position) Figure, when Fig. 9 indicates to be acted decompressor 30 under the idling conditions of the manufacturing device of above-mentioned aluminum fin Stereogram.

In fig. 8, machining control component 211 is in is moved to the shape not allowed at stamping position by axis 201,202 State.In this state, even if making decompressor 30 be acted as shown in Figure 9 and pressing part 30a being made to decline pressing part 30a It will not be connected on machining control component 211 but dally, therefore thin metallic plate P will not be processed.

On the other hand, Figure 10 indicates the dissengaged positions (allowing stamping position) of the manufacturing device of above-mentioned aluminum fin Stereogram, Figure 11 expression so that decompressor is acted under the dissengaged positions of the manufacturing device of above-mentioned aluminum fin When stereogram.

In Figure 10, machining control component 211 is in is moved to the state allowed in stamping position by axis 201,202. Under the state, if making decompressor 30 be acted as shown in figure 11 and pressing part 30a being made to decline, pressing part 30a can be abutted It is depressed on machining control component 211.Upper mold 40B is pressed towards lower die 40A as a result, to thin metallic plate P carry out at The processing such as type or cut-out.In the 1st embodiment, it is carried out at the same time hollow portion 140 shown in Fig. 2, notch 150,160 etc. Processing.

According to the manufacturing device of the aluminum fin of above structure, (the driving of cylinder body 221,222,231,232 is utilized Portion) the machining control component 211,212,213 penetrated through for a pair of of axis 201,202 that is parallel to each other and configuring at spaced intervals is led to Connected axis 201,202 is crossed along the axially driving of axis 201,202, being moved into allows stamping position or do not allow to rush Press position.As a result, will not as in the past, in processing such as cut-outs, machining control component 211,212,213 is with axis 201,202 Center rotating and make 211,212,213 hooking of machining control component live.Therefore, it is possible to pass through simple structure so that control The intensity of the control mechanism of the processing of aluminum fin improves, and prevents the breakage of control mechanism and acts bad.In addition, energy Enough prevent from acting it is bad caused by mold 40 breakage.

In addition, in above first embodiment, a pair of of axis 201,202 is connected to the machining control component of length shapes 211,212,213 both ends, however can also be in the one end of the length direction of machining control component connects multiple axis extremely A few axis.In this case, it is driven by being connected to axial direction of the axis of machining control component using driving portion along axis, energy Enough being moved to machining control component allows stamping position and does not allow at stamping position.

Further, since above-mentioned a pair of axis 201,202 is separately connected with machining control component 211,212,213, therefore process Control unit 211,212,213 is integrally constituted with axis 201,202 and is driven in an axial direction.Therefore, it is possible to realize machining control Component 211,212,213 is to permission stamping position and stablizing for stamping position is not allowed to move.

Further, since by above-mentioned cylinder body 221,222,231,232 (driving portion) respectively drive in an axial direction a pair of of axis 201, 202, therefore machining control component 211,212,213 does not allow to permission stamping position and the movement of stamping position to become more steady It is fixed.

In addition, the one end in the length direction of above-mentioned machining control component 211,212,213 is connected with axis 201, adding The another side of the length direction of work control unit 211,212,213 is connected with axis 202, and machining control component 211, 212,213 two end sides configure axis 201,202, therefore cope in lateral space the space of upper and lower directions there are ampleness Confined setting condition.

In addition, in the manufacturing device of above-mentioned aluminum fin, it can also be in the length direction of machining control component One end connection there are one axis, run through inserted with another axis in the another side of the length direction of machining control component.This In the case of kind, axis is axially driven using driving portion through an axis, and machining control component is axially guided through another axis.

【2nd embodiment】

Figure 12 indicates the longitudinal section of the mian part of the manufacturing device of the aluminum fin of the 2nd embodiment of the present invention Schematic diagram, Figure 13 indicate that the longitudinal section from the XIII-XIII lines of Figure 12 (is cut along the vertical of direction of feed of thin metallic plate P Face) schematic diagram.The manufacturing device of the aluminum fin of 2nd embodiment in addition to mian part shown in Figure 12 have with The same structure of manufacturing device of the aluminum fin of 1st embodiment, is hereby incorporated Fig. 1.

In Figure 12,340A is by the lower die of lower die mould bases 330A bearings.In Figure 13,340B is supported by upper mold mould bases 330B Upper mold, 330a is the pressing part of decompressor 30 (shown in Fig. 1).It is equipped on the downside of the pressing part 330a of decompressor 30 Block 361,362,363.

As shown in figure 12, upper mold mould bases 330B is supported in by pillar 381,382 on lower die mould bases 330A.

The main shaft 301 of cylindrical shape and the countershaft 302 of the diameter cylindrical shape smaller than the diameter of main shaft 301 it is parallel to each other and It is configured at spaced intervals in the up-down direction in the upside of upper mold mould bases 330B.The both ends of main shaft 301 are supported by cylinder body 321,322 For that can move in the axial direction.

Be inserted in the hole that is arranged on machining control component 311,312,313 in addition, main shaft 301 runs through, main shaft 301 with plus Work control unit 311,312,313 connects.It is inserted on machining control component 311,312,313 in addition, countershaft 302 runs through In the hole of setting.

Cylinder body 321,322 is alternately supplied to compressed air, to be added along the axially driving of main shaft 301 by main shaft 301 Work control unit 311,312,313.At this point, countershaft 302 axially guides machining control component 311,312,313.

Cylinder body 321,322 is so that machining control component 311,312,313 is moved to permission stamping position or do not allow punching press Driving portion on position.

The manufacturing device of the aluminum fin of above-mentioned 2nd embodiment has the heat exchanger with the 1st embodiment With the same effect of the manufacturing device of fin.

Further, since countershaft 302 that is parallel with above-mentioned main shaft 301 and configuring at spaced intervals, which runs through, is inserted in machining control In the hole being arranged on component 311,312,313, therefore machining control component 311,312,313 is made to be moved to permission stamping position Or when not allowing stamping position, machining control component 311,312,313 can be axially guided by countershaft 302, and can lead to It crosses main shaft 301 and countershaft 302 limits machining control component 311,312,313 and rotates.

In addition, according to machining control component 311,312,313 in the length side of above-mentioned machining control component 311,312,313 To the one end main shaft 301, the main shaft 301 in countershaft 302 that are configured with separated from each other compartment of terrain in the up-down direction connect Structure can shorten the length direction of machining control component 311,312,313, cope with machining control component 311,312, The confined situation in 313 space in the longitudinal direction.

In addition, can also be in the manufacturing device of above-mentioned aluminum fin, in the length side of machining control component To one end be connected with the main shaft and countershaft both sides that separated from each other compartment of terrain configures in the up-down direction.In turn, it not only drives Main shaft can also axially drive countershaft by driving portion.

In above first embodiment, a pair of of axis 201,202 penetrates through machining control component 211,212,213, above-mentioned the In 2 embodiments, main shaft 301 and main shaft 301 penetrate through machining control component 311,312,313, however the quantity of axis is without being limited thereto, The present invention can also be the manufacturing device of the aluminum fin for the axis perforation machining control component for being configured to 3 or more.This Outside, the axis that the manufacturing device of aluminum fin of the invention can also be connected by being not penetrated machining control component, makes Machining control component, which is moved to, to be allowed stamping position or does not allow at stamping position.

In the above-mentioned 1st, the 2nd embodiment, used the axis 201,202 of cylindrical shape and the main shaft 301 of cylindrical shape, Main shaft 301, however the shape of axis is without being limited thereto, such as can be the axis of the post shapes of section polygon or section ellipse.

The specific embodiment of the present invention is explained above, however the present invention is not limited to the above-mentioned 1st, the 2nd embodiment, It can make various changes within the scope of the invention to implement.For example, can will be described in the above-mentioned 1st, the 2nd embodiment Content it is appropriately combined after be used as an embodiment of the invention.

Claims (7)

1. a kind of manufacturing device of aluminum fin, which is characterized in that the manufacturing device of the aluminum fin has：

Multiple axis, they are parallel to each other and configure at spaced intervals；

Machining control component is penetrated through by above-mentioned multiple axis, and at least one of above-mentioned multiple axis axis connection；

Driving portion, by axially driving above-mentioned machining control of the above-mentioned axis along above-mentioned axis for being connected with above-mentioned machining control component Component, to make above-mentioned machining control component be moved to permission stamping position or not allow stamping position；And

Pressing part, by the above-mentioned machining control component at above-mentioned permission stamping position by mold compresses in fin component On be processed.

2. the manufacturing device of aluminum fin according to claim 1, which is characterized in that

Above-mentioned machining control component is at least one of the one end of length direction and above-mentioned multiple axis axis connection.

3. the manufacturing device of aluminum fin according to claim 1 or 2, which is characterized in that

Above-mentioned multiple axis include：

Main shaft is connected with above-mentioned machining control component；And

Countershaft, it is parallel relative to above-mentioned main shaft and configure at spaced intervals, and through being inserted in above-mentioned machining control component In the hole of upper setting.

4. the manufacturing device of aluminum fin according to claim 1, which is characterized in that

Above-mentioned multiple axis are separately connected with above-mentioned machining control component.

5. the manufacturing device of aluminum fin according to claim 4, which is characterized in that

Above-mentioned driving portion respectively drives above-mentioned multiple axis in an axial direction.

6. the manufacturing device of aluminum fin according to claim 1, which is characterized in that

The separated from each other compartment of terrain configuration in the up-down direction of above-mentioned multiple axis,

Above-mentioned machining control component is at least one of the one end of length direction and above-mentioned multiple axis axis connection.

7. the manufacturing device of aluminum fin according to claim 1, which is characterized in that

It is connected at least one of above-mentioned multiple axis axis in the one end of the length direction of above-mentioned machining control component,

It is connected at least another axis in above-mentioned multiple axis in the another side of the length direction of above-mentioned machining control component, or Person is in the hole for being set to the another side of above-mentioned length direction of above-mentioned machining control component, through inserted with above-mentioned multiple axis In at least another axis.