CN216941704U - Large-inclination downhill inclined-ejection die carrier - Google Patents
Large-inclination downhill inclined-ejection die carrier Download PDFInfo
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- CN216941704U CN216941704U CN202123395818.2U CN202123395818U CN216941704U CN 216941704 U CN216941704 U CN 216941704U CN 202123395818 U CN202123395818 U CN 202123395818U CN 216941704 U CN216941704 U CN 216941704U
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- ejector rod
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- 238000003825 pressing Methods 0.000 claims description 23
- 238000009415 formwork Methods 0.000 claims description 7
- 230000000149 penetrating effect Effects 0.000 claims description 5
- 238000000034 method Methods 0.000 claims description 3
- 230000008901 benefit Effects 0.000 abstract description 6
- 230000006872 improvement Effects 0.000 abstract description 4
- 230000007547 defect Effects 0.000 abstract description 3
- 230000009471 action Effects 0.000 description 5
- 230000007246 mechanism Effects 0.000 description 3
- 238000005457 optimization Methods 0.000 description 3
- 230000000903 blocking effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000002347 injection Methods 0.000 description 1
- 239000007924 injection Substances 0.000 description 1
- 238000001746 injection moulding Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 239000000243 solution Substances 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
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Abstract
The utility model relates to a large-inclination downhill inclined top die carrier, which comprises: the device comprises a body, a top plate, a fixed template, a movable template, an inclined ejector block and an inclined ejector rod; a top plate is arranged at the upper part of the body; the lower part of the top plate is provided with a fixed template, and the fixed template is connected with the top plate through a bolt; a movable template is arranged on the lower side of the fixed template, and the movable template is connected with the fixed template through a guide pillar and a guide sleeve; an inclined jacking block is arranged inside the movable template; an inclined ejector rod is arranged at the lower part of the inclined ejector block and is connected with the inclined ejector block through a screw; the utility model has the advantages that through the improvement of the large-inclination downhill inclined ejecting die frame, the structural design is reasonable, the movement of the inclined ejecting block along the die opening direction is converted into the movement of the inclined ejecting block relative to a product piece along the die release angle direction, the die release is convenient, the problem that the large-angle inclined ejecting block is easy to block is avoided, and the problems and the defects of the existing device are effectively solved.
Description
Technical Field
The utility model relates to a large-inclination downhill inclined-ejection die carrier, in particular to a large-inclination downhill inclined-ejection die carrier.
Background
In the mold opening direction of the injection mold, when the inside of a plastic product has a large-size back-off and cannot be forcedly demolded, an inclined ejector rod core-pulling mechanism is usually adopted to realize the ejection and demolding of the plastic product. The common inclined top core-pulling mechanism is generally used for horizontal core-pulling or core-pulling at a small angle downhill, and the angle is generally not more than 30 degrees.
However, when the included angle between the local back-off core pulling direction of the plastic part product and the horizontal direction is greater than 30 degrees, the common inclined ejector core pulling mechanism is adopted, so that moving parts are easily clamped in the core pulling process, the action of the mold is unreliable, and the inclined ejector rod is easily broken, so that the production efficiency of the mold is influenced.
In view of this, research improvement is carried out to the existing problem, and a large-inclination downhill inclined ejecting die frame is provided, which has the advantages that the structural design is reasonable, the movement of an inclined ejecting block along the die opening direction is converted into the movement of the inclined ejecting block relative to a product piece along the die release angle direction, the die release is convenient, the problem that the large-angle inclined ejecting block is easy to block is avoided, and the purposes of solving the problem and improving the practical value are achieved through the technology.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a large-slope downhill pitched roof formwork in order to overcome the defects of the prior art.
In order to achieve the purpose, the utility model adopts the technical scheme that:
a large-slope downhill pitched roof formwork comprises: the device comprises a body, a top plate, a fixed template, a movable template, an inclined ejector block, an inclined ejector rod, a sliding seat inclined guide post, a secondary guide rod, a sliding seat, a sliding block pressing plate, an ejector rod fixing plate, a push plate, a bottom plate and a product part; a top plate is arranged at the upper part of the body; a fixed template is arranged at the lower part of the top plate and is connected with the top plate through bolts; a movable template is arranged on the lower side of the fixed template, and the movable template is connected with the fixed template through a guide pillar and a guide sleeve; an inclined jacking block is arranged inside the movable template; an inclined ejector rod is arranged at the lower part of the inclined ejector block and is connected with the inclined ejector block through a screw; a sliding block is arranged on the lower side of the inclined ejector rod and connected with the inclined ejector rod through a screw; a sliding seat is arranged on one side of the sliding block; the upper part of the sliding seat is provided with a sliding seat inclined guide post; a slide block pressing plate is arranged on the lower side of the slide block; the slide block pressing plate is arranged on the ejector rod fixing plate; the ejector rod fixing plate is provided with an ejector rod; a push plate is arranged on the lower side of the ejector rod fixing plate; a bottom plate is arranged at the bottom of the body; a secondary guide rod is arranged between the bottom plate and the movable template; and a product piece is arranged at the upper part of the inclined ejecting block.
As further optimization of the technical scheme, the cross section of the slide block pressing plate of the large-inclination downhill inclined ejecting die carrier is of a T-shaped structure, and the slide block pressing plate is matched with the slide block in a sliding mode.
As a further optimization of the technical scheme, the T-shaped notch is formed in the lower side of the sliding block of the large-slope downhill inclined ejecting die frame, and the sliding block is matched with the sliding block pressing plate.
As further optimization of the technical scheme, the secondary guide rod is arranged on the sliding block of the large-slope downhill inclined ejecting die carrier, and the secondary guide rod is connected with the sliding block in a penetrating manner.
Due to the application of the technical scheme, compared with the prior art, the utility model has the following advantages:
1. according to the large-inclination downhill inclined ejecting die frame, the T-shaped notch is formed in the lower side of the sliding block, the sliding block is matched with the sliding block pressing plate, the sliding block slides on the sliding block pressing plate, the movement of the inclined ejecting block along the die opening direction is converted into the movement of the inclined ejecting block relative to a product piece along the demolding angle direction, demolding is facilitated, and the situation that the large-angle inclined ejecting block is easy to block is avoided.
2. According to the large-inclination downhill inclined ejection die carrier, the secondary guide rod is arranged on the sliding block and is connected with the sliding block in a penetrating manner, and the secondary guide rod plays a role in protecting and guiding the inclined ejection rod and prevents the inclined ejection rod from being broken due to too large ejection distance.
3. The utility model has the advantages that through the improvement of the large-inclination downhill inclined ejecting die frame, the structural design is reasonable, the movement of the inclined ejecting block along the die opening direction is converted into the movement of the inclined ejecting block relative to a product piece along the die release angle direction, the die release is convenient, the problem that the large-angle inclined ejecting block is easy to block is avoided, and the problems and the defects of the existing device are effectively solved.
Drawings
The technical scheme of the utility model is further explained by combining the accompanying drawings as follows:
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a partial schematic view of the present invention;
fig. 3 is a schematic structural view of a product part of the utility model.
Wherein: the device comprises a body 1, a top plate 2, a fixed template 3, a movable template 4, an inclined ejector block 5, an inclined ejector rod 6, a sliding seat inclined guide post 7, a secondary guide rod 8, a sliding seat 9, a sliding block 10, a sliding block pressing plate 11, an ejector rod 12, an ejector rod fixing plate 13, a push plate 14, a bottom plate 15 and a product piece 16.
Detailed Description
The utility model is further described in detail with reference to the drawings and the specific embodiments.
The utility model discloses a large-slope downhill pitched roof formwork which is shown in the attached figures 1-3 and comprises: the device comprises a body 1, a top plate 2, a fixed template 3, a movable template 4, an inclined ejector block 5, an inclined ejector rod 6, a slide inclined guide post 7, a secondary guide rod 8, a slide 9, a slide block 10, a slide block pressing plate 11, an ejector rod 12, an ejector rod fixing plate 13, a push plate 14, a bottom plate 15 and a product piece 16; the upper part of the body 1 is provided with a top plate 2; the lower part of the top plate 2 is provided with a fixed template 3, and the fixed template 3 is connected with the top plate 2 through bolts; a movable template 4 is arranged on the lower side of the fixed template 3, and the movable template 4 is connected with the fixed template 3 through a guide pillar and a guide sleeve; an inclined jacking block 5 is arranged inside the movable template 4; an inclined ejector rod 6 is arranged at the lower part of the inclined ejector block 5, and the inclined ejector rod 6 is connected with the inclined ejector block 5 through a screw; a slide block 10 is arranged on the lower side of the oblique ejector rod 6, and the slide block 10 is connected with the oblique ejector rod 6 through a screw; one side of the slide block 10 is provided with a slide seat 9; the upper part of the sliding seat 9 is provided with a sliding seat inclined guide post 7; a slide block pressing plate 11 is arranged on the lower side of the slide block 10; the slide block pressing plate 11 is arranged on the ejector rod fixing plate 13; the ejector rod fixing plate 13 is provided with an ejector rod 12; a push plate 14 is arranged on the lower side of the ejector rod fixing plate 13; the bottom of the body 1 is provided with a bottom plate 15; a secondary guide rod 8 is arranged between the bottom plate 15 and the movable template 4; the upper part of the lifter block 5 is provided with a product piece 16.
Specifically, as shown in fig. 1, the cross-sectional profile of the slider pressing plate 11 is a "T" shaped structure, and the slider pressing plate 11 and the slider 10 are matched in a sliding manner, so that the slider 10 slides on the slider pressing plate 11.
Specifically, as shown in fig. 1, a T-shaped notch is formed in the lower side of the slider 10, and the slider 10 is matched with the slider pressing plate 11, so that the slider 10 slides on the slider pressing plate 11, the product piece 16 is ejected by the inclined ejecting block 5, and demolding is facilitated.
Specifically, as shown in fig. 1, a secondary guide rod 8 is arranged on the slider 10, the secondary guide rod 8 is connected with the slider 10 in a penetrating manner, and the secondary guide rod 8 protects and guides the inclined ejector rod 6 to prevent the inclined ejector rod 6 from being broken due to too large ejection distance.
The method comprises the following specific implementation steps:
when the large-inclination downhill inclined ejection die set is used and the die is opened, an ejection rod of an injection molding machine acts on a push plate 14, a slide seat 9 moves upwards under the action of the push plate 14, and slides rightwards relative to the push plate 14 under the action of a slide seat inclined guide post 7, a slide block 10, an inclined ejection block 5 and an inclined ejection rod 6 move upwards along the direction of the inclined ejection rod 6 under the action of the slide seat 9 and a secondary guide rod 8 and slide downwards along the inclined plane direction relative to the slide seat 9, a plastic part product 14 is ejected upwards under the action of an ejection rod 12, and the movement of the inclined ejection block relative to a product piece along the direction of a demolding angle is realized through the relative coordinated movement of all parts, so that the large-inclination downhill inclined ejection die set has the advantages of reasonable structural design, the movement of the inclined ejection block along the die opening direction is converted into the movement of the inclined ejection block relative to the product piece along the direction of the demolding angle, the demolding is convenient, and the easy blocking of a large-angle inclined ejection block is avoided, the use requirements of people are met.
In summary, the following steps: according to the large-inclination downhill inclined ejecting die frame, the T-shaped notch is formed in the lower side of the sliding block, the sliding block is matched with the sliding block pressing plate, the sliding block slides on the sliding block pressing plate, the movement of the inclined ejecting block along the die opening direction is converted into the movement of the inclined ejecting block relative to a product piece along the demolding angle direction, demolding is facilitated, and the situation that the large-angle inclined ejecting block is easy to block is avoided; the secondary guide rod is arranged on the sliding block and is connected with the sliding block in a penetrating manner, and the secondary guide rod plays a role in protecting and guiding the inclined ejector rod and prevents the inclined ejector rod from being broken due to too large ejection distance; through the improvement to a big inclination downhill path pushes up die carrier to one side, it is reasonable to have a structural design, turns into the motion of oblique kicking block along the die sinking direction for the motion of product spare along drawing of patterns angle direction with the motion of oblique kicking block, and the drawing of patterns of being convenient for has avoided dead advantage of easy card of big-angle oblique kicking block to effectual problem and the not enough of having solved current device appearance.
The above is only a specific application example of the present invention, and the protection scope of the present invention is not limited in any way. All the technical solutions formed by equivalent transformation or equivalent replacement fall within the protection scope of the present invention.
Claims (4)
1. A large-slope downhill pitched roof formwork comprises: the device comprises a body (1), a top plate (2), a fixed template (3), a movable template (4), an inclined ejector block (5), an inclined ejector rod (6), a sliding seat inclined guide post (7), a secondary guide rod (8), a sliding seat (9), a sliding block (10), a sliding block pressing plate (11), an ejector rod (12), an ejector rod fixing plate (13), a push plate (14), a bottom plate (15) and a product piece (16); the method is characterized in that: a top plate (2) is arranged at the upper part of the body (1); the lower part of the top plate (2) is provided with a fixed template (3), and the fixed template (3) is connected with the top plate (2) through bolts; a movable template (4) is arranged on the lower side of the fixed template (3), and the movable template (4) is connected with the fixed template (3) through a guide pillar and a guide sleeve; an inclined jacking block (5) is arranged inside the movable template (4); an inclined ejector rod (6) is arranged at the lower part of the inclined ejector block (5), and the inclined ejector rod (6) is connected with the inclined ejector block (5) through a screw; a sliding block (10) is arranged on the lower side of the oblique ejector rod (6), and the sliding block (10) is connected with the oblique ejector rod (6) through a screw; a sliding seat (9) is arranged on one side of the sliding block (10); the upper part of the sliding seat (9) is provided with a sliding seat inclined guide post (7); a slide block pressing plate (11) is arranged on the lower side of the slide block (10); the slide block pressing plate (11) is arranged on the ejector rod fixing plate (13); the ejector rod fixing plate (13) is provided with an ejector rod (12); a push plate (14) is arranged on the lower side of the ejector rod fixing plate (13); a bottom plate (15) is arranged at the bottom of the body (1); a secondary guide rod (8) is arranged between the bottom plate (15) and the movable template (4); the upper part of the inclined ejecting block (5) is provided with a product piece (16).
2. The large-slope downhill pitched roof formwork of claim 1, wherein: the cross section appearance characteristic of slider clamp plate (11) is "T" shape structure, and slider clamp plate (11) and slider (10) cooperate through the sliding mode.
3. The large-slope downhill sloping roof formwork as claimed in claim 1, wherein: the lower side of the sliding block (10) is provided with a T-shaped notch, and the sliding block (10) is matched with the sliding block pressing plate (11).
4. The large-slope downhill pitched roof formwork of claim 1, wherein: the slider (10) is provided with a secondary guide rod (8), and the secondary guide rod (8) is connected with the slider (10) in a penetrating mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123395818.2U CN216941704U (en) | 2021-12-30 | 2021-12-30 | Large-inclination downhill inclined-ejection die carrier |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202123395818.2U CN216941704U (en) | 2021-12-30 | 2021-12-30 | Large-inclination downhill inclined-ejection die carrier |
Publications (1)
Publication Number | Publication Date |
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CN216941704U true CN216941704U (en) | 2022-07-12 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202123395818.2U Expired - Fee Related CN216941704U (en) | 2021-12-30 | 2021-12-30 | Large-inclination downhill inclined-ejection die carrier |
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Country | Link |
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CN (1) | CN216941704U (en) |
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2021
- 2021-12-30 CN CN202123395818.2U patent/CN216941704U/en not_active Expired - Fee Related
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20220712 |