CN210282994U - Multi-station rotary table ejection mechanism - Google Patents
Multi-station rotary table ejection mechanism Download PDFInfo
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- CN210282994U CN210282994U CN201920980347.5U CN201920980347U CN210282994U CN 210282994 U CN210282994 U CN 210282994U CN 201920980347 U CN201920980347 U CN 201920980347U CN 210282994 U CN210282994 U CN 210282994U
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Abstract
The multi-station rotary table ejection mechanism comprises a movable car wall, a rotary table mechanism is arranged at the front end of the movable car wall, a B-station ejection mechanism and an A-station ejection mechanism are arranged at the rear end of the movable car wall, a C-station ejection mechanism is further arranged at the rear end of the movable car wall, the B-station ejection mechanism is aligned with a hole in a second discharge area on the rotary table mechanism, the A-station ejection mechanism is aligned with a hole in a first discharge area on the rotary table mechanism, the C-station ejection mechanism is aligned with a hole in a third discharge area, the rotary table mechanism is further provided with a fourth discharge area and a fifth discharge area, holes are formed in the fourth discharge area and the fifth discharge area, and the holes in the fourth discharge area and the fifth discharge area do not interfere with the holes in the first discharge area and the second discharge area. The utility model discloses following beneficial effect has: the finished parts which need to be formed by multiple molding machines in a coordinated mode are injected and formed on the same molding machine, and cost of the middle process can be reduced.
Description
Technical Field
The utility model belongs to the injection molding machine field, concretely relates to multistation carousel ejection mechanism.
Background
The existing multi-component injection molding machine is a double-station mold supporting mechanism molding machine, and 1 or more plastic materials with different properties can be injected in a single station. The carousel drag mold duplex position now defines A station and B station. The mould injects the first plastic to form the semi-finished product at the A station, the mould injects the second plastic on the original semi-finished product along with the movement (0 to 180 degrees) of the rotary disc to the B station, finally forms the finished product, and the mould is supported to take out the finished product. (taking a toothbrush on the market as an example, the toothbrush is mainly composed of hard PC material and soft rubber).
The existing method of three-station injection molding is to add a group of single-station molding machines on the basis of the existing double-station molding machine. And adding a third plastic on the semi-finished product of the double-station plastic machine through the single-station plastic machine to obtain a finished product at three stations.
The double-station molding machine and the single-station molding machine need at least 2 different molds; the transportation cost for transferring the semi-finished products from the double-station plastic molding machine to the single-station plastic molding machine is high, and the semi-finished products are required to be installed on the single-station plastic molding machine, so that the time is wasted.
Disclosure of Invention
The utility model provides a not enough to prior art, the utility model provides a multistation carousel ejection mechanism solves current many components ordinary bijective machine and need do three station injection moulding, needs mould the basis of machine in current duplex position, and the machine is moulded to a set of simplex position again, and the cost of transportation is high, and the device is with high costs, the problem that production efficiency is low moreover.
The utility model discloses a following technical scheme realizes.
The multi-station rotary disc ejection mechanism comprises a movable car wall, a rotary disc mechanism is arranged at the front end of the movable car wall, a B-station ejection mechanism and an A-station ejection mechanism are arranged at the rear end of the movable car wall, a C-station ejection mechanism is further arranged at the rear end of the movable car wall, the B-station ejection mechanism, the A-station ejection mechanism and the C-station ejection mechanism are driven by oil cylinders in a controlled manner, the B-station ejection mechanism is aligned with a hole in a second discharge area on the rotary disc mechanism, the A-station ejection mechanism is aligned with a hole in a first discharge area on the rotary disc mechanism, the C-station ejection mechanism is aligned with a hole in a third discharge area, the rotary disc mechanism is further provided with a fourth discharge area and a fifth discharge area, holes are formed in the fourth discharge area and the fifth discharge area, and the third discharge area is provided with holes, The fourth discharging area and the fifth discharging area are distributed along the center of the rotary disc mechanism at 120 degrees, and the holes of the fourth discharging area and the fifth discharging area do not interfere with the holes of the first discharging area and the second discharging area. A multi-station turntable die supporting mechanism is additionally provided with a group of independent die supporting mechanisms on the basis of the original double-station die supporting mechanism. Original stations A and B are reserved, and the stations C can independently realize die supporting.
Preferably, the holes on the first discharging area and the second discharging area are arranged in an axial symmetry mode. When the rotation of 180 degrees is convenient, the film can be supported.
Preferably, the C-station ejection mechanism is positioned between the B-station ejection mechanism and the A-station ejection mechanism and is positioned above the B-station ejection mechanism and the A-station ejection mechanism.
Preferably, the ejection rods of the C-station ejection mechanism are four and are connected to form a rectangle.
Preferably, the holes of the fourth discharging area and the fifth discharging area are also four and are connected to form a rectangle.
Preferably, the C-station ejection mechanism, the B-station ejection mechanism and the A-station ejection mechanism are locked on the movable car wall, and material rods of the C-station ejection mechanism, the B-station ejection mechanism and the A-station ejection mechanism can freely stretch out and draw back in the movable car wall.
Compared with the prior art: the same machine can simultaneously have the injection function of the injection molding machine with single injection and double injection center distance adjustable, has stronger adaptability to mold products, and meets higher requirements of customers.
Drawings
Fig. 1 is one of the schematic structural diagrams of the present invention.
Fig. 2 is a second schematic structural diagram of the present invention.
Fig. 3 is a side view of the present invention.
Fig. 4 is a schematic view of the 0-degree position rotary disk mechanism of the present invention.
Fig. 5 is a schematic diagram of a third discharging area, a fourth discharging area and a fifth discharging area of the present invention.
Fig. 6 is a schematic view of the rotary disk mechanism of the present invention rotating 120 degrees.
Fig. 7 is a schematic view of the rotary disk mechanism of the present invention rotating 240 degrees.
Detailed Description
The multi-station rotary table ejection mechanism comprises a movable car wall 1, wherein a rotary table mechanism 2 is arranged at the front end of the movable car wall 1, a B-station ejection mechanism 4 and an A-station ejection mechanism 5 are arranged at the rear end of the movable car wall 1, and is characterized in that a C-station ejection mechanism 3 is further arranged at the rear end of the movable car wall 1, the B-station ejection mechanism 4, the A-station ejection mechanism 5 and the C-station ejection mechanism 3 are driven by oil cylinders in a controlled manner, the B-station ejection mechanism 4 is aligned with holes in a second discharge area 61 on the rotary table mechanism 2, the A-station ejection mechanism 5 is aligned with holes in a first discharge area 62 on the rotary table mechanism 2, the C-station ejection mechanism 3 is aligned with holes in a third discharge area 63, the rotary table mechanism 2 is further provided with a fourth discharge area 64 and a fifth discharge area 65, and holes are formed in the fourth discharge area 64 and the fifth discharge area 65, the third discharging area 63, the fourth discharging area 64 and the fifth discharging area 65 are distributed at 120 degrees along the center of the rotary disc mechanism 2, the holes of the fourth discharging area 64 and the fifth discharging area 65 are not interfered with the holes of the first discharging area 62 and the second discharging area 61, the holes of the first discharging area 62 and the second discharging area 61 are arranged in an axial symmetry manner, the C-station ejection mechanism 3 is positioned between the B-station ejection mechanism 4 and the A-station ejection mechanism 5 and positioned at the upper parts of the B-station ejection mechanism and the A-station ejection mechanism 5, the ejection rods of the C-station ejection mechanism 3 are four and connected to form a rectangle, the holes of the fourth discharging area 64 and the fifth discharging area 65 are also four and connected to form a rectangle, the C-station ejection mechanism 3, the B-station ejection mechanism 4 and the A-station ejection mechanism 5 are locked on the wall of the movable car, the material rods of the C station ejection mechanism 3, the B station ejection mechanism 4 and the A station ejection mechanism 5 can freely stretch out and draw back in the movable car wall 1.
When the servo drive motor drives the rotary disc mechanism 2 not to rotate, the C-station ejection mechanism 3, the B-station ejection mechanism 4 and the A-station ejection mechanism 5 can perform ejection actions in the movable car wall 1, the C-station ejection mechanism 3 is aligned with a hole in the third discharging area 63, the B-station ejection mechanism 4 is aligned with a hole in the second discharging area 61, and the A-station ejection mechanism 5 is aligned with a hole in the first discharging area 62, so that ejection rods of the three ejection mechanisms can be ejected out of corresponding holes;
when the servo driving motor drives the rotary disc mechanism 2 to rotate 180 degrees, the B-station ejection mechanism 4 and the A-station ejection mechanism 5 can perform ejection actions in the movable car wall 1, at the moment, the C-station ejection mechanism 3 is not aligned with the hole of the third discharging area 63, the hole on the second discharging area 61 and the hole on the first discharging area 62 are centrosymmetric, the B-station ejection mechanism 4 is aligned with the hole on the second discharging area 61, the A-station ejection mechanism 5 is aligned with the hole on the first discharging area 62, and the C-station ejection mechanism 3 cannot perform ejection actions;
when the servo driving motor drives the rotary disc mechanism 2 to rotate 120 degrees and 240 degrees respectively, at the moment, the third discharging area 63, the fourth discharging area 64 and the fifth discharging area 65 are distributed at 120 degrees along the center of the rotary disc mechanism 2, so that the original discharging position of the C station ejection mechanism 3 can be reached after selection, the C station ejection mechanism 3 can perform ejection action in the movable car wall 1, and the B station ejection mechanism 4 and the A station ejection mechanism 5 cannot perform ejection action.
In this application, can set up the hole of the fourth ejection of compact region 64 and the hole of the fifth ejection of compact region 65 and overlap on first ejection of compact region 62 and the second ejection of compact region 61, the small and exquisite some of the hole of C station ejection mechanism 3 and the discharge bar of C station ejection mechanism 3 are done, make it can overlap with some holes on first ejection of compact region 62 and the second ejection of compact region 61, accomplish the ejection of compact, just so need not punch on first ejection of compact region 62 and the second ejection of compact region 61 in addition, convenience more ingenious.
The protection scope of the present invention includes but is not limited to the above embodiments, the protection scope of the present invention is subject to the claims, and any replacement, deformation, and improvement that can be easily conceived by those skilled in the art made by the present technology all fall into the protection scope of the present invention.
Claims (6)
1. The multi-station rotary table ejection mechanism is characterized by comprising a movable car wall (1), wherein a rotary table mechanism (2) is arranged at the front end of the movable car wall (1), a B-station ejection mechanism (4) and an A-station ejection mechanism (5) are arranged at the rear end of the movable car wall (1), the multi-station rotary table ejection mechanism is characterized in that a C-station ejection mechanism (3) is further arranged at the rear end of the movable car wall (1), the B-station ejection mechanism (4), the A-station ejection mechanism (5) and the C-station ejection mechanism (3) are controlled and driven by oil cylinders, the B-station ejection mechanism (4) is aligned with a hole in a second discharge area (61) in the rotary table mechanism (2), the A-station ejection mechanism (5) is aligned with a hole in a first discharge area (62) in the rotary table mechanism (2), and the C-station ejection mechanism (3) is aligned with a hole in a third discharge area (63), the rotary disc mechanism (2) is further provided with a fourth discharging area (64) and a fifth discharging area (65), holes are formed in the fourth discharging area (64) and the fifth discharging area (65), the third discharging area (63), the fourth discharging area (64) and the fifth discharging area (65) are distributed along the center of the rotary disc mechanism (2) at 120 degrees, and the holes of the fourth discharging area (64) and the fifth discharging area (65) do not interfere with the holes of the first discharging area (62) and the second discharging area (61).
2. A multi-station rotary disc ejection mechanism according to claim 1, wherein the holes in the first ejection area (62) and the second ejection area (61) are arranged in axial symmetry.
3. The multi-station rotary table ejection mechanism according to claim 1, wherein the C-station ejection mechanism (3) is positioned between the B-station ejection mechanism (4) and the A-station ejection mechanism (5) and is positioned at the upper part of the B-station ejection mechanism and the A-station ejection mechanism.
4. A multi-station rotary disc ejection mechanism according to claim 1, wherein the ejection rods of the C-station ejection mechanism (3) are four and connected to form a rectangle.
5. A multi-station rotary disc ejection mechanism according to claim 4, wherein the holes of the fourth discharge area (64) and the fifth discharge area (65) are also four and are connected to form a rectangle.
6. The multi-station rotary table ejection mechanism according to claim 1, wherein the C-station ejection mechanism (3), the B-station ejection mechanism (4) and the A-station ejection mechanism (5) are locked on the movable car wall, and material rods of the C-station ejection mechanism (3), the B-station ejection mechanism (4) and the A-station ejection mechanism (5) can freely extend and retract in the movable car wall (1).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920980347.5U CN210282994U (en) | 2019-06-27 | 2019-06-27 | Multi-station rotary table ejection mechanism |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920980347.5U CN210282994U (en) | 2019-06-27 | 2019-06-27 | Multi-station rotary table ejection mechanism |
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| CN210282994U true CN210282994U (en) | 2020-04-10 |
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| CN201920980347.5U Active CN210282994U (en) | 2019-06-27 | 2019-06-27 | Multi-station rotary table ejection mechanism |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110181752A (en) * | 2019-06-27 | 2019-08-30 | 富强鑫(宁波)机器制造有限公司 | Station dial ejecting mechanism and its application method |
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2019
- 2019-06-27 CN CN201920980347.5U patent/CN210282994U/en active Active
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN110181752A (en) * | 2019-06-27 | 2019-08-30 | 富强鑫(宁波)机器制造有限公司 | Station dial ejecting mechanism and its application method |
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