CN208747920U - The molding machine for having output mechanism - Google Patents
The molding machine for having output mechanism Download PDFInfo
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- CN208747920U CN208747920U CN201820918118.6U CN201820918118U CN208747920U CN 208747920 U CN208747920 U CN 208747920U CN 201820918118 U CN201820918118 U CN 201820918118U CN 208747920 U CN208747920 U CN 208747920U
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- die unit
- main chamber
- output mechanism
- molding machine
- transfer
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Abstract
The utility model relates to a kind of molding machines for having output mechanism, comprising: die unit, storage are formed object;Main chamber has and preheats the preheating mechanism of the die unit, at least one of the shaping mechanism for being formed object molding curved face part and the cooling body of the die unit for being cooled and shaped end;Transfer mechanism transfers the die unit in the main compartment along the first direction from main chamber's entrance towards main chamber outlet;And output mechanism, the die unit is discharged to the external of the main chamber in it, the transfer mechanism disposably pushes multiple die units of the main compartment, and the output mechanism will be expelled to the outside of the main chamber by the die unit that the transfer mechanism is pushed into discharges position of readiness in multiple die units.
Description
Technical field
The utility model relates to a kind of molding machines for having the output mechanism that die unit is taken out from main chamber.
Background technique
Past uses flat glass in portable terminal, and recently to improve grip feeling or improving information display property, greatly
Mostly use the glass with curved face part.Left and right side or the curved bend glass of upper and lower side are used as latest model smart phone mostly
Front window or back rear cover purposes.
In the present invention, it if molding terminates, is formed some or all of object and is formed as curved surface.It is formed object packet
Include cam lens, the glass with curved face part, cover glass, automobile instrument panel glass, various measuring instrument cover glasses, Lan Bao
Stone, light-transmitting plate, portable terminal front cover and rear cover.
Utility model content
The utility model takes out mould from main chamber with can providing the frame that can not contact interference main chamber outlet and its periphery
Have the output mechanism of unit, and the output mechanism for becoming the structure for pulling die unit is provided, and offer makes the dynamic of die unit
Line minimizes, and prevents the molding machine of the contact interference between each component.
Above-mentioned the purpose of this utility model can be achieved through the following technical solutions.
The molding machine of the utility model includes: die unit, and storage is formed object;Main chamber has described in preheating
The preheating mechanism of die unit forms described in shaping mechanism and the cooling and shaping end of curved face part in the object that is formed
At least one of cooling body of die unit;Transfer mechanism, along from main chamber's entrance towards the first direction of main chamber outlet
The die unit is transferred in the main compartment;And the mold list is discharged in output mechanism, external to the main chamber
Member, the transfer mechanism disposably push multiple die units of the main compartment, and the output mechanism will be multiple
The outside of the main chamber is expelled in the die unit by the die unit that the transfer mechanism is pushed into discharges position of readiness.
In addition, in the molding machine of the utility model, in the institute that the discharges position of readiness is opposed with the output mechanism
Stating die unit includes being present in the first part of the inside of the main chamber and being present in the second part of the outside of the main chamber.
In addition, in the molding machine of the utility model, inside and the main chamber of the output mechanism in the main chamber
Outside disengaging.
In addition, the transfer mechanism includes multiple shifting rods, and the shifting rod is along institute in the molding machine of the utility model
It states first direction and pushes the die unit regulation spacing, the regulation spacing is transfer starting position extremely transfer end position
Distance, the transfer end position is the final transfer for being configured at most downstream along the first direction in the multiple shifting rod
Bar contacted with the die unit in the state of near the position of the main chamber outlet, be detached from when the final shifting rod described in
When transferring end position, the die unit is expelled to the main chamber outlet by the output mechanism.
In addition, the output mechanism includes opposed with the side of the die unit in the molding machine of the utility model
Discharge bar, the discharge bar draws from the upstream side of the die unit close to the die unit, and by the die unit
It moves to the outside of the main chamber outlet.
In addition, the molding machine of the utility model includes the discharge that the die unit is pulled to the outside of the main chamber
Bar and the discharge axis for being connected to the discharge bar, if making discharge axis linear movement, the discharge bar is from the main chamber
Outside enters the inside of the main chamber via the main chamber outlet.
In addition, the molding machine of the utility model has the discharge for the outside that the die unit is pulled to the main chamber
Bar, the discharge bar enter the master from the external of the main chamber in the state of to the upper side direction interval of the die unit
The inside of room.
In addition, the die unit includes upper die and lower mould, the row in the molding machine of the utility model
Mechanism is only contacted with the lower mould out.
In addition, in the molding machine of the utility model, when the contact separation for making the output mechanism Yu the die unit
When, make the output mechanism to the empty Space Rotating or linear movement between the die unit and die unit and described
Keep out of the way the side of die unit.
In addition, the output mechanism includes the rotation in main chamber outlet rotation in the molding machine of the utility model
Plate, if the die unit is placed in the swivel plate by the transfer mechanism, the swivel plate is together with the die unit
Rotate and be expelled to the die unit outside of the main chamber.
In addition, the output mechanism includes moving back and forth in the main chamber outlet in the molding machine of the utility model
Reciprocating plate, if the die unit is placed in the reciprocating plate, the reciprocating plate and the die unit by the transfer mechanism
The outside of the main chamber is moved and is expelled to the die unit together.
In addition, the die unit is placed in bottom piece, the die unit in the molding machine of the utility model
Opposed with upper mass above, the output mechanism includes the reciprocating plate of linear movement, if making the upper mass and the mold list
The upper surface of member interval and the reciprocating plate are from the outside of the main chamber close to the bottom piece, then the transfer mechanism promotion is pacified
The die unit for being put in the bottom piece comes to the mobile die unit of the reciprocating plate.
In addition, the size of the output mechanism is less than as the described of movable passageway in the molding machine of the utility model
Main chamber outlet.
The effect of the utility model is as follows.
According to the utility model, the frame of interference main chamber is not contacted in the move moulds transfer mechanism of unit of main compartment,
And have and the independent output mechanism of mobile mechanism in simple structure, it is thus possible to arrange die unit within the faster time
Out to accurate position.Since multiple die units being discharged in the most optimal way, it is thus possible to reduce the length of device or account for
There is space.
Detailed description of the invention
Fig. 1 is the plane for the molding machine that the transfer mechanism of diagram the utility model is located at the state of transfer starting position
Figure.
Fig. 2 is the plane for the molding machine that the transfer mechanism of diagram the utility model is located at the state of transfer end position
Figure.
Fig. 3 is that the transfer mechanism of diagram the utility model is back to the state of transfer starting position from transfer end position
The plan view of molding machine.
Fig. 4 is the plan view for illustrating an embodiment of output mechanism of the utility model.
Fig. 5 is the side view of the motion track of the output mechanism of pictorial image 4.
Fig. 6 is plan view of the diagram as the reciprocating plate of the utility model output mechanism.
Fig. 7 is plan view of the diagram as the swivel plate of the output mechanism of the utility model.
Symbol description
2: investment room, 3: main chamber, 4: discharge room, 10: preheating mechanism, 30: shaping mechanism, 40: cooling body, 102: curved surface
Portion, 103: flat part, 105: it is formed object, 200: die unit, 201: upper die, 203: lower mould, 211: the first
Point, 212: second part, 410: bottom piece, 420: upper mass, 450: reciprocating plate, 460: swivel plate, 3a: main chamber's entrance, 3b:
Main chamber outlet, 22: main chamber's shutter, 600: transfer mechanism, 610: transfer shaft, 620: shifting rod, 200n: final die unit,
620n: final shifting rod, 700: output mechanism, 701: discharge bar, 702: discharge axis, 720: discharges position of readiness, 730: transfer
Starting position, 740: transfer end position, 750: frame, L: cooling water.
Specific embodiment
In Fig. 1, transfer mechanism 600, which is located at, transfers starting position 730, and in Fig. 2, transfer mechanism 600 is located at transfer stop bits
Set 740.
Object 105 is formed in the storage of die unit 200.If shaping mechanism 30 applies outside vertical direction die unit 200
Power then can form desired curved face part 102 being formed object 105.Preheating mechanism 10 can be by die unit 200 and storage
Preheating temperature is heated in the object 105 that is formed of die unit 200.Shaping mechanism 30 is by die unit 200 and is formed object 105
It is heated to being different from the forming temperature of preheating temperature, and pressurizes to die unit 200.Circulation has the cooling body 40 of cooling water L
It is cooled and shaped the die unit 200 terminated or is formed object 105.It can have preheating mechanism 10, shaping mechanism inside main chamber 3
30, at least one of cooling body 40.For purposes of illustration only, Fig. 1 be omitted into Fig. 7 preheating mechanism 10, shaping mechanism 30,
The detailed construction of cooling body 40.
First direction is the direction for transferring die unit 200, is X-direction.Second direction is Y perpendicular to first direction
Axis direction.Third direction is perpendicular to the direction of first direction and second direction, is Z axis direction.
In order to disposably transfer multiple die units 200, transfer mechanism 600 can be reciprocal single as unit of providing spacing
One track.Shifting rod 620 can be in the institute in the transfer starting position 730 and transfer for starting the die unit 200 that transfer stops
It states reciprocal between the transfer end position 740 of the stopping of die unit 200.
As shown in Figure 1, transfer starting position 730 can determine with to be contacted with die unit 200 in transfer mechanism 600 and
The position for having the shifting rod 620 in the state of the condition for moving transfer mechanism 600 and die unit 200 together or finally transfer
The position of bar 620n.
Transfer end position 740 can be in the final shifting rod 620n and mold for being configured at most downstream along first direction
Near the position of main chamber outlet 3b in the state of the contact of unit 200.If further moving final shifting rod to first direction
620n, it is likely that collision is in the frame 750 of main chamber 3.After final shifting rod 620n reaches transfer end position 740, to avoiding
Drag-over unit can be made by carrying out avoidance action as an embodiment with the position of the collision of output mechanism 700 or die unit 200
Structure 600 retreats to position as shown in Figure 3.
Referring to Fig. 2, it can be final shifting rod 620n and be located at transfer end position 740, final die unit 200n is in
The state of main chamber outlet 3b is ridden over, output mechanism 700 is for the final die unit 200n of taking-up and in movement.At this point, in the presence of most
The worry that whole shifting rod 620n and output mechanism 700 collide, thus when final shifting rod 620n is tied departing from transfer as shown in Figure 3
When beam position 740, final die unit 200n can be expelled to main chamber outlet 3b by output mechanism 700.
It is not limited to Fig. 1 to Fig. 3, even if existing only in main chamber 3 in final die unit 200n as shown in Figures 4 to 7
In the case where portion, whole die unit 200n can also be taken out by output mechanism 700.At this point, receiving the dynamic of output mechanism 700 willingly
Line increases, the size of discharge room 4 increases etc., and can be retrieved with the easy of structure.
Transfer mechanism 600 can be transferred inside main chamber 3 along the first direction from main chamber entrance 3a towards main chamber outlet 3b
Die unit 200.Transfer mechanism 600 can equally spacedly maintain the spacing between each die unit 200.Transfer mechanism 600
Multiple die units 200 can be pushed in a straight line along first direction.Transfer starting position 730 and transfer end position 740
The distance between can be identical as the spacing distance between multiple shifting rods 620.Transfer starting position 730 and transfer end position
The distance between 740 can be identical as along the first direction regulation spacing of unit 200 that moves moulds.
Transfer mechanism 600 can have the shifting rod 620 and fixed multiple shifting rods opposed with each die unit 200
620 transfer shaft 610.Transfer shaft 610 can extend in a first direction.It is more by the linear movement or rotation of transfer shaft 610
A shifting rod 620 can move at the same time.In the present invention, there is transfer shaft 610 disposably to drive each transfer arm 620
Feature, rather than the complicated structure of each shifting rod 620 is operated alone.
Shifting rod 620 moves and separate after can pushing die unit 200 to first direction along the reverse direction of first direction
Die unit 200, and retreat to the empty space between die unit 200.Shifting rod 620 can be made to be located at first direction
The side of die unit 200 in downstream keep out of the way the side of rear another die unit 200 towards the upstream for being located at first direction
Rotation or linear movement.
Therefore, when shifting rod 620 can be prevented to be back to transfer starting position 730, shifting rod 620 is locked to die unit
200 side.Furthermore it is possible to prevent due to shifting rod 620 is locked to the face of assembling conjunction upper die 201 and lower mould 203
It is formed defect caused by the external force of object 105.
Die unit 200 is standby in investment room 2, if main chamber's shutter 22 is opened, can pass through main chamber's entrance 3a quilt
It puts into the preheating mechanism 10 of main chamber 3.
Discharge room 4 can be discharged to by main chamber outlet 3b in the die unit 200 that cooling body 40 terminates engineering.If
Multiple die units 200 transfer path on the way inside main chamber 3 and are blocked, it is likely that collide or send out between die unit 200
Raw unnecessary stand-by time.It is required to without the structure for stagnantly transferring die unit 200.
Can be shifting rod 620 pushes die unit 200 to transfer, and output mechanism 700 is from main chamber outlet 3b to discharge room
4 layback moving mold units 200.
Last final die unit 200n positioned at main chamber 3 is near main chamber outlet 3b, final die unit 200n quilt
Output mechanism 700 takes out to discharge room 4.
Output mechanism 700 will only can be located in multiple die units 200 inside main chamber 3 to be pushed by transfer mechanism 600
The final die unit 200n of discharges position of readiness 720 is expelled to the outside of main chamber 3.Discharges position of readiness 72 is inside main chamber 3
The position opposed with output mechanism 700 of die unit 200.
It may include being present in main chamber 3 in the die unit 200 opposed with output mechanism 700 of discharges position of readiness 720
The second part 212 of internal first part 211 and the outside for being present in main chamber 3.According to this embodiment, discharge machine can be reduced
The size of structure 700, and reduce the length of the mobile moving-wire of output mechanism 700, and reduce the discharge room 4 of storage output mechanism 700
Size.
It is necessary to prevent output mechanism 700 and transfer mechanism 600, the frame 750 of main chamber 3, main chamber outlet 3b, mold list
The other components collisions such as member 200.For this purpose, inside and outside discrepancy of the output mechanism 700 in main chamber 3.Output mechanism 700 is in main chamber
3 outside is standby, and when other component is moved to the position kept out of the way, at least part of mechanism 700 can enter main chamber 3 out
Inside.
The final die unit 200n indicated by the solid line of Fig. 3 is first moved to and is represented by dashed line most by output mechanism 700
The position of whole die unit 200n ensures headroom inside main chamber 3.Later, if being located at the last final shifting of main chamber 3
It send bar 620n that die unit 200 is transferred to the headroom from transfer starting position 730, then can prevent and die unit
200 collision.
That is, being discharged in the last final die unit 200n for being adjacent to main chamber outlet 3b by main chamber outlet 3b
After room 4 is discharged, transfer mechanism 600 can transfer die unit 200 to first direction.
Shifting rod 620 can be back to transfer starting position 730 from the position that die unit 200 is kept out of the way.Reference Fig. 3,
The position for keeping out of the way shifting rod 620 is the position for rotating shifting rod 620 to the outside of die unit 200.Referring to Fig. 3, make
In the state that shifting rod 620 is kept out of the way, new die unit 200 can be fed into the foremost of main chamber 3 by main chamber entrance 3a.
After the inside of main chamber 3 is adjacent to the die unit 200 of main chamber entrance 3a to first direction transfer, master can be passed through
Chamber inlet 3a puts into new die unit 200 to the inside of main chamber 3.If putting into new die unit 200, shifting rod 620 can
Transfer starting position 730 is dropped to the rotation by transfer shaft 610.If to the mobile transfer shaft 610 of first direction, all shiftings
Send bar 620 that can transfer die unit 200 to first direction.
Lower mould 203 can be made to be placed in bottom piece 410, make to be formed object 105 and be placed in lower mould 203.To block
Being applied to other than the plus-pressure of upper mass 420 is formed the improper external force or impact force of side of object 105 etc., preferably
Shifting rod 620 or output mechanism 700 are only contacted with lower mould 203.
Make upper die 201 to other than Z axis direction if shifting rod 620 or output mechanism 700 touch upper die 201
Direction stress, then be formed object 105 and be possible to defect occur.The shifting rod 620 or output mechanism 700 of the utility model are with only
The path contacted with lower mould 203 is mobile.It is preferred that transfer mechanism 600 or output mechanism 700 are only contacted with lower mould 203,
Without being contacted with upper die 201.
Fig. 4 and Fig. 5 is the embodiment of output mechanism 700, diagram discharge bar 701.Output mechanism 700 includes and die unit
The opposed discharge bar 701 in 200 side or discharge axis 702.Bar 701, which is discharged, can lean on near-lying mode from the upstream side of die unit 200
Have unit 200 and the die unit room of being pulled to 200 is exported to the outside of 3b.
Discharge axis 702 can connect to discharge bar 701, and drive discharge bar 701.If making that the linear movement of axis 702 is discharged,
Bar 701 is then discharged can enter the inside of main chamber 3 from the outside of main chamber 3 via main chamber outlet 3b.
The size of output mechanism 700 can be less than the main chamber outlet 3b as movable passageway.To avoid and other component
Collision, discharge bar 701 can enter master from the external of main chamber 3 in the state of to the upper side direction interval of die unit 200
The inside of room 3.
On the other hand, even if when output mechanism 700 carries out avoidance operation from die unit 200, if to object 105 is formed
Apply side outward force, then may have difficulties.When making the contact separation of output mechanism 700 and die unit 200, preferably
Make output mechanism 700 to the empty Space Rotating or linear movement between die unit 200 and die unit 200 and in mold
Keep out of the way the side of unit 200.
Referring to Fig. 5, discharge bar 701 can be recycled on the basis of appended drawing reference in the position of A-B-C-D-E-A.Appended drawing reference
The output mechanism 700 of location A retreats to the upside of die unit 200, and standby in the outside of main chamber 3.If making transfer mechanism 600
Keep out of the way with upper mass 420, then output mechanism 700 enters the inside of main chamber 3.
Consider die unit 200 position deviation, as shown in iconic marker B, output mechanism 70 can along first direction to
The upstream side of die unit 200 or the front side of die unit 200 enter.As shown in reference number C, output mechanism 700 can be into
Enter the empty space between die unit 200 and die unit 200.As shown in iconic marker D, output mechanism 700 starts and mould
Tool unit 200 contacts and the preparation for the unit 200 that terminates to move moulds.If output mechanism 700 is made to be moved to iconic marker E, mould
Tool unit 200 is discharged to the outside of main chamber 3.To carry out next movement, output mechanism 700 can be back to iconic marker A.
Fig. 6 is another embodiment of output mechanism 700, illustrates reciprocating plate 450.
Reciprocating plate 450 can be moved back and forth in main chamber outlet 3b to rectilinear direction.If transfer mechanism 600 is by die unit
200 are placed in reciprocating plate 450, then reciprocating plate 450 can move together with die unit 200 and die unit 200 is expelled to master
The outside of room 3.
Mobile reciprocating plate 450 is with close bottom piece 410, and the gap between reciprocating plate 450 and bottom piece 410 both can be small
In the width of die unit 200, so that die unit 200 can jump to reciprocating plate 450 in 410 level of bottom piece.
If make upper mass 420 at the upper surface of die unit 200 interval and reciprocating plate 450 from the outside of main chamber 3 close to lower part
Block 410, then transfer mechanism 600 can push the die unit for being placed in bottom piece 410 200 to move moulds to reciprocating plate 450
Unit 200.
If die unit 200 is transferred to reciprocating plate 450 from bottom piece 410 by transfer mechanism 600, reciprocating plate can be made
450 move linearly and are moved to the outside of main chamber 3.Die unit 200 can be discharged to main chamber 3 with reciprocating plate 450 together
It is external.
Fig. 7 is another embodiment of output mechanism 700, illustrates swivel plate 460.Swivel plate 460 can be made in main chamber outlet
3b rotation.If die unit 200 is placed in swivel plate 460 by transfer mechanism 600, swivel plate 460 can be with die unit 200 1
Die unit 200 is discharged to the external of main chamber 3 with rotation.
Claims (13)
1. a kind of molding machine characterized by comprising
Die unit, storage are formed object;
Main chamber, have preheat the die unit preheating mechanism, it is described be formed object molding curved face part shaping mechanism,
And it is cooled and shaped at least one of the cooling body of the die unit terminated;
Transfer mechanism transfers the mold list in the main compartment along the first direction from main chamber's entrance towards main chamber outlet
Member;And
The die unit is discharged in output mechanism, external to the main chamber,
The transfer mechanism disposably pushes multiple die units of the main compartment,
The output mechanism will be pushed into the die unit of discharges position of readiness by the transfer mechanism in multiple die units
It is expelled to the outside of the main chamber.
2. molding machine according to claim 1, which is characterized in that
It include being present in the main chamber in the discharges position of readiness die unit opposed with the output mechanism
The second part of the first part in portion and the outside for being present in the main chamber.
3. molding machine according to claim 1, which is characterized in that
External disengaging of the output mechanism in the inside and the main chamber of the main chamber.
4. molding machine according to claim 1, which is characterized in that
The transfer mechanism includes multiple shifting rods,
The shifting rod pushes the die unit to provide spacing along the first direction,
The regulation spacing is to transfer the distance of starting position to transfer end position,
The transfer end position is the final transfer for being configured at most downstream along the first direction in the multiple shifting rod
Bar contacted with the die unit in the state of near the position of the main chamber outlet,
When the final shifting rod is detached from the transfer end position, the die unit is expelled to institute by the output mechanism
State main chamber outlet.
5. molding machine according to claim 1, which is characterized in that
The output mechanism includes the discharge bar opposed with the side of the die unit,
The discharge bar is pulled to institute from the upstream side of the die unit close to the die unit, and by the die unit
State the outside of main chamber outlet.
6. molding machine according to claim 1, which is characterized in that
Including the die unit to be pulled to the discharge bar of the outside of the main chamber and is connected to the discharge axis of the discharge bar,
If the discharge axis is made to move linearly, the discharge bar enters institute via the main chamber outlet from the outside of the main chamber
State the inside of main chamber.
7. molding machine according to claim 1, which is characterized in that
Discharge bar with the outside that the die unit is pulled to the main chamber,
Described in external entrance of discharge bar in the state of to the upper side direction interval of the die unit from the main chamber
The inside of main chamber.
8. molding machine according to claim 1, which is characterized in that
The die unit includes upper die and lower mould,
The output mechanism is only contacted with the lower mould.
9. molding machine according to claim 1, which is characterized in that
When making the contact separation of the output mechanism and the die unit,
Make the output mechanism to the empty Space Rotating or linear movement between the die unit and die unit and in institute
Keep out of the way the side for stating die unit.
10. molding machine according to claim 1, which is characterized in that
The output mechanism includes the swivel plate in main chamber outlet rotation,
If the die unit is placed in the swivel plate by the transfer mechanism, the swivel plate is together with the die unit
Rotate and be expelled to the die unit outside of the main chamber.
11. molding machine according to claim 1, which is characterized in that
The output mechanism includes the reciprocating plate moved back and forth in the main chamber outlet,
If the die unit is placed in the reciprocating plate by the transfer mechanism, the reciprocating plate is together with the die unit
Outside mobile and that the die unit is expelled to the main chamber.
12. molding machine according to claim 1, which is characterized in that
The die unit is placed in bottom piece,
The upper surface of described die unit is opposed with upper mass,
The output mechanism includes the reciprocating plate of linear movement,
If make the upper surface of the upper mass and the die unit be spaced and the reciprocating plate from the outside of the main chamber close to institute
Bottom piece is stated, then the transfer mechanism pushes the die unit for being placed in the bottom piece to come to described in reciprocating plate movement
Die unit.
13. molding machine according to claim 1, which is characterized in that
The size of the output mechanism is less than the main chamber outlet as movable passageway.
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CN201820918118.6U CN208747920U (en) | 2018-06-13 | 2018-06-13 | The molding machine for having output mechanism |
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CN201820918118.6U CN208747920U (en) | 2018-06-13 | 2018-06-13 | The molding machine for having output mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112851092A (en) * | 2019-11-28 | 2021-05-28 | Daeho科技株式会社 | Large-area forming apparatus equipped with No. 1 transfer unit and No. 2 transfer unit |
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2018
- 2018-06-13 CN CN201820918118.6U patent/CN208747920U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112851092A (en) * | 2019-11-28 | 2021-05-28 | Daeho科技株式会社 | Large-area forming apparatus equipped with No. 1 transfer unit and No. 2 transfer unit |
CN112851092B (en) * | 2019-11-28 | 2023-02-21 | Daeho科技株式会社 | Large-area forming apparatus equipped with No. 1 transfer unit and No. 2 transfer unit |
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