CN205056770U - Consistent automatic sheet metal make -up machine - Google Patents

Abstract

The utility model discloses a consistent automatic sheet metal make -up machine, the present invention comprises a machine frame, a forming device, a plurality of tracks, a plurality of microscope carriers, four thrust unit, a pulling device, one goes up heating device and two cooling device, this forming device can carry out the cramping, the heating, and blowing moulding processing, the frame is located to the track and forming device goes up and arrange into one time the font, the microscope carrier can carry the moulded die and sheet metal is a closed form circulation along this plural number pathway movement and messenger's action route, but thrust unit and the circulation of a plurality of microscope carriers of pulling device push -and -pull are removed, it can be to the heating of the sheet metal on the microscope carrier of below to go up heating device, two last cooling device have a plurality of nozzles can spout the cooling air to the sheet metal on the microscope carrier of below, vaporific coolant liquid or aqueous coolant liquid, can form in succession and always change the automatic contour machining by above -mentioned structure, and make it have to reduce the volume in order to save space and can promote work efficiency's efficiency by a wide margin.

Description

Consistent automation sheet metal forming machine

Technical field

The utility model relates to a kind of technical field of sheet metal forming machine aspect, espespecially make the pan feeding of sheet metal, preheating, shaping, cooling and the molding manufacture procedure of feeding can form a continuous and processing operation for consistentization automation in the circulation of a closed, and make it therefore have can significantly to reduce volume to save space and significantly can promote the consistent automation sheet metal forming machine person of operating efficiency.

Background technology

Generally known sheet metal forming machine, as TaiWan, China is announced shown in M447804 patent, (following symbol represents and please refer to this front case, this does not separately annotate in symbol description), sheet metal 65 is mainly placed in shaping mould 2155 to complete pan feeding processing procedure by it; Then utilize and move material unit 61 by these mould 2155 delivery to be formed on the mould external heat device 25 in mould outer heating zone 24, suitable temperature is heated to, to complete preheating processing procedure by the sheet metal 65 of these moulds 2155 to be formed to its end face to utilize mould external heat device 25; Utilize afterwards and move material unit 61 these moulds 2155 to be formed are become operable profile mould 2151 together with sheet metal 65 delivery on it to the upper end of lift 31, the lifting of this lift 31 is utilized to make operable profile mould 2151 fitted seal mould 211 clamp sheet metal 65 afterwards, heated by heater 23 pairs of sheet metals 65 of mould 21 periphery simultaneously, and utilize transfer port 2135 output high-pressure gas on sealed mould 211 to carry out blowing moulding to sheet metal 65, make molding manufacture procedure; After shaping, recycling move material unit 61 by this shaping mould 215 together with sheet metal 65 (the metal forming part 67) delivery after shaping on it in a cooling bath 70, utilize the low temperature of this cooling bath 70 directly to reduce this shaping mould 215 and indirectly reduce the temperature of this metal forming part 67, to lower the temperature the object of the demoulding to reach this metal forming part 67, and then complete cooling processing procedure; Last operation person is again by taking out metal forming part 67 in this shaping mould 215 to complete feeding processing procedure; When moving material unit 61 shaping mould 215 delivery returned original position for pan feeding again for then recycling during formed sheet metal 65 again.

But, because the molding manufacture procedure of the pan feeding of this known sheet metal forming machine, preheating, shaping, cooling and feeding is linear flow waterline, and utilize completely between each processing procedure and move material unit 61 and carry out delivery, therefore overall volume can be made too huge and comparatively take up space, and the conveying of sheet metal 65 is also not smooth and time-consuming, and working (machining) efficiency can be made poor.And it is in preheating and cooling processing procedure, all only utilize by waiting for that the bottom of shaping mould 2155 (shaping mould 215) carries out heating or cooling, reach the object indirectly making metal forming part 67 heat up or lower the temperature, therefore needing to make wait shaping mould 2155 be raised to very high temperature just can make sheet metal 65 be preheating to required temperature, relative also need to make shaping mould 215 drop to very low temperature this metal forming part 67 just can be made indirectly to drop to the temperature being enough to the demoulding, therefore it is to spend the very long time in preheating and cooling processing procedure.

Utility model content

The purpose of this utility model is to provide a kind of consistent automation sheet metal forming machine, comparatively take up space to improve known sheet metal forming machine to also exist bulky, between each processing procedure the transport of sheet metal comparatively to have some setbacks and time-consuming and make the poor and preheating of the efficiency of processing and forming and cooling processing procedure can spend the more time and affect the problems such as working (machining) efficiency.

In order to reach above-mentioned purpose, solution of the present utility model is:

A kind of consistent automation sheet metal forming machine, its distinguish be disposed adjacent one get/material feeding region, a thermal treatment zone, a shaping area and a cooling zone, this consistent automation sheet metal forming machine, comprising:

One frame, is located at this and gets/material feeding region, this thermal treatment zone and this cooling zone;

Pair of metal sheet material carries out clamping, heat and the shaped device of blowing moulding processing, and it is located at this shaping area;

Plurality of tracks, it is located on this frame and this shaped device, and is arranged in one " time " font;

A plurality of microscope carrier being mounted to pattern, sheet metal settled by this shaping mould, and it is the closed circulation of " mouth " font to make path of motion that a plurality of microscope carrier carries this shaping mould and sheet metal along plural rail moving;

Four thrust units, be located at the side that this gets/material feeding region, this thermal treatment zone, this shaping area and this cooling zone respectively, four thrust units promote a plurality of microscope carrier respectively and get loopy moving in/material feeding region, this thermal treatment zone, this shaping area and this cooling zone in this;

One pull unit, it is located at the opposite side of this shaping area, and is combined on this shaped device, and the shaping position microscope carrier being pulled to this shaping area by the thermal treatment zone being moved to this shaped device carries out molding manufacture procedure to facilitate;

Heater on one, it is located at this thermal treatment zone and is positioned at the top of track, and described microscope carrier is by process below it, and on this, heater is to the sheet metal heating on the microscope carrier below it; And

Cooling device on two, be located at this cooling zone side by side, each cooling device comprises a support and a plurality of nozzle, this support to be incorporated in this frame and to extend to the top of track, a plurality of nozzle be combined on this support for downward through microscope carrier on shaping after sheet metal spray cooling air, vaporific cooling fluid or aqueous cooling fluid, make shaping after sheet metal by cooling and demolding fast on shaping mould.

Also comprise a plurality of lower heater and a plurality of lower cooling device, this thermal treatment zone is located at by a plurality of lower heater, and to be combined among this frame and to be positioned at the below of track, to the shaping mould heating on the microscope carrier of process, with the indirect sheet metal heating on microscope carrier, a plurality of lower cooling device is located at this cooling zone and this gets/material feeding region, and to be combined among this frame and to be positioned at the below of track, to the shaping mould cooling on the microscope carrier of process, with indirect to the sheet metal cooling on microscope carrier.

Described lower heater comprises a heating plate and and drives cylinder pressure, this heating plate is liftably located among this frame, this driving cylinder pressure drives this heating plate to be elevated, and bottom the shaping mould be posted by microscope carrier, has a plurality of supplying hot water in the pipeline wherein flowed in this heating plate to make this heating plate.

Described lower cooling device comprises a coldplate and and drives cylinder pressure, this coldplate is liftably located among this frame, this driving cylinder pressure can drive this cooling plate lifting, bottom the shaping mould be posted by microscope carrier to make this coldplate, there is a plurality of cold water or condensate liquid of supplying in the pipeline wherein flowed in this coldplate.

Described/material feeding region, this thermal treatment zone, this shaping area and this cooling zone of getting is arranged in rectangle.

Described thrust unit comprises a pushing block and the flexible cylinder pressure that this pushing block can be driven to move linearly that can push against in microscope carrier one side.

The side of described microscope carrier has a hook block, this pull unit comprises a holder, a sliding seat, a upright Telescopic pressing cylinder, a horizontal extension cylinder pressure and a pulling claw, this holder is combined on this shaped device, this sliding seat is liftably combined on this holder, this vertical expansion cylinder pressure is located on this holder to drive this sliding seat to be elevated, this horizontal extension cylinder pressure to be located in this sliding seat and to be had and driven a flexible expansion link by it, the end that this pulling claw is located at this expansion link is located on the hook block of this microscope carrier, to pull this microscope carrier for hooking.

This shaped device comprises a upper bolster, one lifting platform and a lift, this upper bolster installs a sealed mould, sealing mould sends gases at high pressure to carry out blowing moulding, heater is provided with in this upper bolster, when shaping, sheet metal is heated, this lifting platform is liftably located at immediately below this upper bolster, this lifting platform is provided with plurality of tracks and this microscope carrier is imported shaping position, the bottom that this lifting platform is located at by this lift drives this lifting of lifting table, the shaping mould on the microscope carrier of shaping position is made to clamp therebetween with sealing mould by relative for sheet metal, and then carry out heating and the action of blowing moulding.

Described shaped device also comprises a location hook and a plurality of locating dowel, location hook is located on this lifting platform swingably, when this microscope carrier moves to shaping position, this location hook hook lives a side of this microscope carrier to be located, after sheet metal is shaping, this location hook is swingable to the table top of this lifting platform, this microscope carrier is made to move to cooling zone above it, a plurality of locating dowel telescopically is located on this lifting platform, when this microscope carrier is for being entered before in this shaped device by this thermal treatment zone, to make this microscope carrier pass through among a plurality of this lifting platform of locating dowel retraction, when this microscope carrier moves to shaping position, a plurality of locating dowel stretches out this lifting platform to prop up a side of this microscope carrier, this location hook and a plurality of locating dowel is utilized to be positioned on shaping position by this microscope carrier.

Described lift is a hydraulic press.

Adopt said structure, the utility model consistent automation sheet metal forming machine can be the design of three-back-shaped arrangement and the setting of four thrust units and this pull unit by this track, sheet metal is made can sequentially to carry out pan feeding, preheating, shaping, cooling and the molding manufacture procedure of feeding by the transport of a plurality of microscope carrier, to form the circulating path of a closed, those processing procedures can be formed continuously and the processing of consistentization automation in the cycle, and then make it therefore have can significantly to reduce volume to save space and significantly can promote effect of operating efficiency.Especially, utilize in cooling processing procedure nozzle directly cooling air, aqueous or vaporific cooling fluid are sprayed to this shaping after sheet metal, the sheet metal after this can be made especially shaping cools and the demoulding, fast to promote working (machining) efficiency further.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the utility model leading flank;

Fig. 2 is front view of the present utility model;

Fig. 3 is top view of the present utility model;

Fig. 4 is rearview of the present utility model;

Fig. 5 is the schematic perspective view of the utility model trailing flank;

Fig. 6 is the relevant position schematic diagram of the utility model microscope carrier and track;

The layout schematic diagram of the track of this creation of the 7th figure system.

Fig. 8 to Figure 10 is the shift action schematic diagram of the utility model microscope carrier;

Figure 11 and Figure 12 is the action schematic diagram of the utility model pull unit;

Figure 13 is the three-dimensional enlarged diagram of the utility model shaped device;

Figure 14 is the action schematic diagram heating (cooling) device under the utility model;

Figure 15 is the block diagram of the utility model molding manufacture procedure.

Wherein:

1 gets the/thermal treatment zone, material feeding region 2

3 cooling zone, shaping areas 4

10 frames

20 shaped device 21 upper bolsters

22 lifting platform 23 lifts

24 location hook 25 locating dowels

26 sealed moulds

30 tracks

40 microscope carriers 41 hook block

50a, 50b, 50c, 50d thrust unit

51 pushing blocks 52 stretch cylinder pressure

60 pull unit 61 holders

62 sliding seat 63 vertical expansion cylinder pressures

64 horizontal extension cylinder pressure 65 pulling claws

66 expansion links

Heater on 70

Cooling device 81 support on 80

82 nozzles

90 times heater 91 heating plates

92 drive cylinder pressure 93 times cooling devices.

Detailed description of the invention

In order to explain the technical solution of the utility model further, below by specific embodiment, the utility model is elaborated.

Refer to shown in Fig. 1 to Fig. 7, the utility model discloses consistent automation sheet metal forming machine, it is distinguished and to be disposed adjacent and be arranged in one of rectangle and get/shaping area, the thermal treatment zone 2, material feeding region 1, one 3 and a cooling zone 4, and this consistent automation sheet metal forming machine to comprise in frame 10, shaped device 20, plurality of tracks 30, a plurality of microscope carrier 40, four thrust unit 50, pull unit 60, a cooling device 80, a plurality of lower heater 90 and a plurality of lower cooling device 93 on heater 70, two.Wherein:

This gets/and material feeding region 1 can park for two microscope carriers 40, and the sheet metal after shaping can take out and insert sheet metal for molding in this by operator.This thermal treatment zone 2 can be parked for three microscope carriers 40, and the sheet metal of process can be heated to proper temperature in advance.This shaping area 3 can be parked for a microscope carrier 40, and can clamp sheet metal, heats and the processing of blowing moulding.This cooling zone 4 can be parked for two microscope carriers 40, can carry out twice cooling to the sheet metal of process.

This frame 10 is located at this and is got/material feeding region 1, this thermal treatment zone 2 and this cooling zone 4.

This shaped device 20 is located at this shaping area 3 and can be clamped sheet metal, heat and the processing of blowing moulding.

Plurality of tracks 30 is located on this frame 10 and this shaped device 20, and is arranged in one " time " font.

A plurality of microscope carrier 40 is available on it and is mounted to pattern (not shown), can for settling sheet metal on this shaping mould, make a plurality of microscope carrier 40 can carry this shaping mould and sheet metal moves along plurality of tracks 30, and the circulation of the closed of its transport path in " mouth " font.

Four thrust unit 50a, 50b, 50c, 50d are located at this and get the side of/material feeding region 1, this thermal treatment zone 2, this shaping area 3 and this cooling zone 4 respectively, and wherein three thrust units 50a, 50b, 50d are located in this frame 10, another thrust unit 50c is located on this shaped device 20.This thrust unit 50a can by microscope carrier 40 by this get/material feeding region 1 pushes this thermal treatment zone 2 to, microscope carrier 40 can be pushed towards this shaping area 3 by this thermal treatment zone 2 by this thrust unit 50b, this thrust unit 50c can push microscope carrier 40 to cooling zone 4 by the shaped device 20 of this shaping area 3, and this thrust unit 50d can push microscope carrier 40 to this by this cooling zone 4 and get/material feeding region 1.

This pull unit 60 is located at the opposite side of this shaping area 3, and is combined on this shaped device 20, and the shaping position place of this shaped device 20 moved to by the microscope carrier 40 that this thrust unit 50b can be pushed to precalculated position towards this shaping area 3.

On this, this thermal treatment zone 2 is located at by heater 70, and is positioned at the top of track 30, can pass through for microscope carrier 40 by below it.On this, the sheet metal on the microscope carrier 40 below it can be heated to suitable preheat temperature by heater 70.

On two, cooling device 80 is located at this cooling zone 4 side by side, each cooling device 80 comprises a support 81 and a plurality of nozzle 82, this support 81 to be incorporated in this frame 10 and to extend to the top of this track 30, a plurality of nozzle 82 is combined on this support 81, and can downward through microscope carrier 40 on shaping after sheet metal spray cooling air or vaporific cooling fluid or aqueous cooling fluid, with make shaping after sheet metal by cooling and demolding fast on shaping mould.And, utilize this two cooling device 80 to carry out the cooling and demolding of two-part, stripping result and product quality can be promoted.

This thermal treatment zone 2 is located at by a plurality of lower heater 90, and is combined among this frame 10, and is positioned at the below of track 30, to the shaping mould heating on the microscope carrier 40 of process, can heat the sheet metal on microscope carrier 40 with indirect, to reach the auxiliary effect heated up.

A plurality of lower cooling device 93 is located at this cooling zone 4 and this gets/material feeding region 1, and be combined among this frame 10, and be positioned at the below of track 30, can to the shaping mould cooling on the microscope carrier 40 of process, with indirect to the sheet metal cooling on microscope carrier 40, to reach the effect of supplement heat rejecter.

Shown in Fig. 8, this Fig. 8 point out this thrust unit 50a can by getting/microscope carrier 40 of material feeding region 1 end is pushed to the front end of the thermal treatment zone 2, microscope carrier 40 in shaped device 20 can be pushed to the front end of cooling zone 4 by this thrust unit 50c, is located at cooling device 80 place on.

Shown in Fig. 9, this Fig. 9 point out this thrust unit 50c by the front end microscope carrier 40 of the thermal treatment zone 2 towards shaping area 3 direction push time, microscope carrier 40 in the thermal treatment zone 2 can be pushed mutually, and makes the microscope carrier 40 of the thermal treatment zone 2 end be pushed out outside the thermal treatment zone 2 and enter among shaping area 3.This thrust unit 50d can by the microscope carrier 40 of this front end, cooling zone 4 towards getting/direction of material feeding region 1 pushes, the microscope carrier 40 of front end, cooling zone 4 is made to move to cooling zone 4 end, be located at cooling device 80 place on another, the microscope carrier 40 of cooling zone 4 end then can be pushed through gets/front end, material feeding region 1, relative to get/microscope carrier 40 of front end, material feeding region 1 can be pushed through and get/material feeding region 1 end.

Shown in Figure 10, after this Figure 10 points out that the microscope carrier 40 of this thermal treatment zone 2 is pulled to this shaping area 3, this pull unit 60 returns original position after can moving this microscope carrier 40 shaping position of this shaped device 20 to again, can clamp, heats and the processing of blowing moulding to make this shaped device 20 to the sheet metal on the microscope carrier 40 of this shaping position.

In Fig. 6 and Fig. 7, each thrust unit 50a, 50b, 50c, 50d comprise a pushing block 51 and the flexible cylinder pressure 52 that this pushing block 51 can be driven to move linearly that can push against in microscope carrier 40 1 side, and this flexible cylinder pressure 52 can be oil hydraulic cylinder or pneumatic cylinder.

In Fig. 1, Fig. 6, Figure 11 and Figure 12, the side of this microscope carrier 40 has a hook block 41.This pull unit 60 comprises upright Telescopic pressing cylinder 63, the horizontal extension cylinder pressure 64 of holder 61, sliding seat 62, one and a pulling claw 65.This holder 61 is combined on this shaped device 20, this sliding seat 62 is liftably combined on this holder 61, this vertical expansion cylinder pressure 63 is located on this holder 61 and can be elevated for driving this sliding seat 62, this horizontal extension cylinder pressure 64 to be located in this sliding seat 62 and to be had and can be driven a flexible expansion link 66 by it, and the end that this pulling claw 65 is located at this expansion link 66 can be located on the hook block 41 of this microscope carrier 40 for hooking.This vertical expansion cylinder pressure 63 and this horizontal extension cylinder pressure 64 can be oil hydraulic cylinder or pneumatic cylinder.By the action of this vertical expansion cylinder pressure 63 and this horizontal extension cylinder pressure 64, this pulling claw 65 can be controlled rise and move to above the hook block 41 of this microscope carrier 40, then decline hook is located on this hook block 41, move this microscope carrier 40 to shaping position by this pulling claw 65 again, finally make this pulling claw 65 rise and return original position.

Shown in Figure 13, this shaped device 20 comprises upper bolster 21, lifting platform 22, lift 23, location hook 24 and an a plurality of locating dowel 25.This upper bolster 21 can supply installation one sealed mould 26, and sealing mould 26 can send gases at high pressure to carry out blowing moulding.Be provided with heater in this upper bolster 21, can heat sheet metal when shaping.This lifting platform 22 is liftably located at immediately below this upper bolster 21, and this lifting platform 22 is provided with again individual track 30 can for this microscope carrier 40 is imported shaping position.This lift 23 can be a hydraulic press, and can be elevated for driving this lifting platform 22, and the shaping mould on the microscope carrier 40 of shaping position can be clamped relative for sheet metal therebetween with sealing mould 26, and then carries out heating and the action of blowing moulding.This location hook 24 is located on this lifting platform 22 swingably, when this microscope carrier 40 moves to shaping position, this location hook 24 can live a side of this microscope carrier 40 to be located for hook, after sheet metal is shaping, this location hook 24 is swingable to the table top of this lifting platform 22, this microscope carrier 40 is can be passed through above it and moves to cooling zone 4.A plurality of locating dowel 25 telescopically is located on this lifting platform 22, when this microscope carrier 40 is for being entered before in this shaped device 20 by this thermal treatment zone 2, among this lifting platform 22 of a plurality of locating dowel 25 retraction with make this microscope carrier 40 by, when this microscope carrier 40 moves to shaping position, a plurality of locating dowel 25 stretches out this lifting platform 22 to prop up a side of this microscope carrier 40.Utilize this location hook 24 and a plurality of locating dowel 25 this microscope carrier 40 can be positioned on shaping position.

Shown in Figure 14, this lower heater 90 comprises a heating plate 91 and and drives cylinder pressure 92.This heating plate 91 is liftably located among this frame 10, this driving cylinder pressure 92 can drive this heating plate 91 to be elevated, be posted by bottom the shaping mould on microscope carrier 40 to make this heating plate 91, have in this heating plate 91 a plurality of pipeline can supplying hot water in wherein flowing, with mat, it is heated this shaping mould by this heating plate 91.The structure of this lower cooling device 93 is identical with this lower heater 90, difference be only pipeline can time cold water or condensate liquid in wherein flowing, to make this heating plate 91 become coldplate, and can for cooling this shaping mould.

Refer to shown in Figure 15, the molding manufacture procedure of the utility model consistent automation sheet metal forming machine, comprises:

(a) pan feeding: sheet metal is inserted this get/microscope carrier 40 of material feeding region 1 end on shaping mould on;

(b) preheating: utilize this thrust unit 50a this is got/microscope carrier 40 of material feeding region 1 end is pushed to this front end, thermal treatment zone 2, and then utilize this thrust unit 50b to push microscope carrier 40 until release this shaping area 3 toward the thermal treatment zone 2 end, and this microscope carrier 40 can to utilize on this heater 70 and this lower heater 90 by direct or indirect the heating the sheet metal on this microscope carrier 40 of upper and lower when this thermal treatment zone 2, to be heated predetermined temperature;

C () is shaping: utilize this pull unit 60 to move on the shaping position of this shaped device 20 by this microscope carrier 40, then utilizes this shaped device 20 to clamp the sheet metal on this microscope carrier 40, heats and the processing of blowing moulding;

D () cools: utilize this thrust unit 50c that the microscope carrier 40 in shaped device 20 is pushed to this front end, cooling zone 4, to utilize first upper cooling device 80 and lower cooling device 93 by upper, what below was direct or indirect carries out first time cooling and demolding program to the sheet metal after shaping on this microscope carrier 40, and then utilize this thrust unit 50c to shift the microscope carrier 40 of this front end, cooling zone 4 onto rear end, to utilize second upper cooling device 80 and lower cooling device 93 by upper, what below was direct or indirect carries out first time cooling and demolding program to the sheet metal after shaping on this microscope carrier 40.Wherein, this on two cooling device 80 be utilize cooling air, aqueous or vaporific cooling fluid directly spray to this shaping after sheet metal, the sheet metal after this so can be made shaping cools and the demoulding fast;

E () feeding: utilize this thrust unit 50d that the microscope carrier 40 of cooling zone 4 end is pushed through this to get/the front end of material feeding region 1, can take out the sheet metal after shaping for operator.

Consistent automation sheet metal forming machine provided by the utility model, can by the design of this track 30 arrangement in " returning " font, and four thrust unit 50a, 50b, 50c, the setting of 50d and this pull unit 60, make sheet metal sequentially can carry out pan feeding by the transport of a plurality of microscope carrier 40, preheating, shaping, cooling and feeding molding manufacture procedure and, to form the circulating path of a closed, those processing procedures can be formed continuously and the processing of consistentization automation in the cycle, and then make it therefore have can significantly to reduce volume to save space and significantly can promote effect of operating efficiency.Especially, the utility model, when preheating and cooling processing procedure, is undertaken heating and cooling by the upper and lower of microscope carrier 40 all simultaneously, therefore significantly can shorten the time of preheating and cooling processing procedure, and make it can promote operating efficiency further.Particularly, utilize in cooling processing procedure nozzle 82 directly cooling air, aqueous or vaporific cooling fluid are sprayed to this shaping after sheet metal, the sheet metal after this can be made especially shaping cools and the demoulding fast.

Above-described embodiment and graphic and non-limiting product form of the present utility model and style, any person of an ordinary skill in the technical field, to its suitable change done or modification, all should be considered as not departing from patent category of the present utility model.

Claims (10)

1. a consistent automation sheet metal forming machine, its distinguish be disposed adjacent one get/material feeding region, a thermal treatment zone, a shaping area and a cooling zone, it is characterized in that: this consistent automation sheet metal forming machine, comprising:

One frame, is located at this and gets/material feeding region, this thermal treatment zone and this cooling zone;

Pair of metal sheet material carries out clamping, heat and the shaped device of blowing moulding processing, and it is located at this shaping area;

Plurality of tracks, it is located on this frame and this shaped device, and is arranged in one " time " font;

A plurality of microscope carrier being mounted to pattern, sheet metal settled by this shaping mould, and it is the closed circulation of " mouth " font to make path of motion that a plurality of microscope carrier carries this shaping mould and sheet metal along plural rail moving;

Four thrust units, be located at the side that this gets/material feeding region, this thermal treatment zone, this shaping area and this cooling zone respectively, four thrust units promote a plurality of microscope carrier respectively and get loopy moving in/material feeding region, this thermal treatment zone, this shaping area and this cooling zone in this;

One pull unit, it is located at the opposite side of this shaping area, and is combined on this shaped device, and the shaping position microscope carrier being pulled to this shaping area by the thermal treatment zone being moved to this shaped device carries out molding manufacture procedure to facilitate;

Heater on one, it is located at this thermal treatment zone and is positioned at the top of track, and described microscope carrier is by process below it, and on this, heater is to the sheet metal heating on the microscope carrier below it; And

Cooling device on two, be located at this cooling zone side by side, each cooling device comprises a support and a plurality of nozzle, this support to be incorporated in this frame and to extend to the top of track, a plurality of nozzle be combined on this support for downward through microscope carrier on shaping after sheet metal spray cooling air, vaporific cooling fluid or aqueous cooling fluid, make shaping after sheet metal by cooling and demolding fast on shaping mould.

2. consistent automation sheet metal forming machine as claimed in claim 1, it is characterized in that: also comprise a plurality of lower heater and a plurality of lower cooling device, this thermal treatment zone is located at by a plurality of lower heater, and to be combined among this frame and to be positioned at the below of track, to the shaping mould heating on the microscope carrier of process, with indirect to the sheet metal heating on microscope carrier, a plurality of lower cooling device is located at this cooling zone and this gets/material feeding region, and to be combined among this frame and to be positioned at the below of track, to the shaping mould cooling on the microscope carrier of process, with indirect to the sheet metal cooling on microscope carrier.

3. consistent automation sheet metal forming machine as claimed in claim 2, it is characterized in that: described lower heater comprises a heating plate and and drives cylinder pressure, this heating plate is liftably located among this frame, this driving cylinder pressure drives this heating plate to be elevated, bottom the shaping mould be posted by microscope carrier to make this heating plate, there is a plurality of supplying hot water in the pipeline wherein flowed in this heating plate.

4. consistent automation sheet metal forming machine as claimed in claim 2, it is characterized in that: described lower cooling device comprises a coldplate and and drives cylinder pressure, this coldplate is liftably located among this frame, this driving cylinder pressure can drive this cooling plate lifting, bottom the shaping mould be posted by microscope carrier to make this coldplate, there is a plurality of cold water or condensate liquid of supplying in the pipeline wherein flowed in this coldplate.

5. automation sheet metal forming machine as claimed in claim 2 consistent, is characterized in that: described in get/material feeding region, this thermal treatment zone, this shaping area and this cooling zone and be arranged in rectangle.

6. automation sheet metal forming machine as claimed in claim 2 consistent, is characterized in that: described thrust unit comprises a pushing block and the flexible cylinder pressure that this pushing block can be driven to move linearly that can push against in microscope carrier one side.

7. consistent automation sheet metal forming machine as claimed in claim 2, it is characterized in that: the side of described microscope carrier has a hook block, this pull unit comprises a holder, one sliding seat, one upright Telescopic pressing cylinder, one horizontal extension cylinder pressure and a pulling claw, this holder is combined on this shaped device, this sliding seat is liftably combined on this holder, this vertical expansion cylinder pressure is located on this holder to drive this sliding seat to be elevated, this horizontal extension cylinder pressure to be located in this sliding seat and to be had and driven a flexible expansion link by it, the end that this pulling claw is located at this expansion link is located on the hook block of this microscope carrier for hooking, to pull this microscope carrier.

8. consistent automation sheet metal forming machine as claimed in claim 2, it is characterized in that: this shaped device comprises a upper bolster, one lifting platform and a lift, this upper bolster installs a sealed mould, sealing mould sends gases at high pressure to carry out blowing moulding, heater is provided with in this upper bolster, when shaping, sheet metal is heated, this lifting platform is liftably located at immediately below this upper bolster, this lifting platform is provided with plurality of tracks and this microscope carrier is imported shaping position, the bottom that this lifting platform is located at by this lift drives this lifting of lifting table, the shaping mould on the microscope carrier of shaping position is made to clamp therebetween with sealing mould by relative for sheet metal, and then carry out heating and the action of blowing moulding.

9. consistent automation sheet metal forming machine as claimed in claim 8, it is characterized in that: described shaped device also comprises a location hook and a plurality of locating dowel, location hook is located on this lifting platform swingably, when this microscope carrier moves to shaping position, this location hook hook lives a side of this microscope carrier to be located, after sheet metal is shaping, this location hook is swingable to the table top of this lifting platform, this microscope carrier is made to move to cooling zone above it, a plurality of locating dowel telescopically is located on this lifting platform, when this microscope carrier is for being entered before in this shaped device by this thermal treatment zone, to make this microscope carrier pass through among a plurality of this lifting platform of locating dowel retraction, when this microscope carrier moves to shaping position, a plurality of locating dowel stretches out this lifting platform to prop up a side of this microscope carrier, this location hook and a plurality of locating dowel is utilized to be positioned on shaping position by this microscope carrier.

10. consistent automation sheet metal forming machine as claimed in claim 8, is characterized in that: described lift is a hydraulic press.