Ejector Pin Holder Plate

Definition

The "Ejector Pin Holder Plate" is a component typically found in injection molding machinery. It serves as a support structure that holds ejector pins in place during the molding process. These pins are used to push the molded part out of the mold cavity after it has cooled and solidified. The holder plate ensures precise alignment and functionality of the ejector pins, contributing to the efficiency and quality of the molding operation.

Synonyms

• Ejector Plate
• Pin Holder Plate
• Ejector Pin Plate
• Ejector Mechanism Holder

Antonyms

• Ejector Pin Retainer (in a sense of not allowing movement)
• Fixed Plate (as it does not allow for ejector pin function)

Examples

1. The technician adjusted the Ejector Pin Holder Plate to improve the efficiency of the molding process.
2. Each Ejector Pin Holder Plate must be calibrated for maximum performance.
3. During maintenance, the Ejector Pin Holder Plate was cleaned thoroughly.
4. The design of the Ejector Pin Holder Plate can greatly impact production speed.
5. Engineers often test the Ejector Pin Holder Plate for durability under high pressure.
6. The Ejector Pin Holder Plate needs to be replaced if it shows signs of wear.
7. Proper alignment of the Ejector Pin Holder Plate is crucial for successful operation.
8. The Ejector Pin Holder Plate is made from high-strength materials to withstand stress.
9. She examined the Ejector Pin Holder Plate for any defects.
10. The manufacturing team installed a new Ejector Pin Holder Plate to enhance performance.
11. A faulty Ejector Pin Holder Plate can lead to defective molded parts.
12. The Ejector Pin Holder Plate was designed to accommodate various pin sizes.
13. Adjustments to the Ejector Pin Holder Plate can reduce cycle times.
14. The Ejector Pin Holder Plate plays a vital role in the molding process.
15. He noted the position of the Ejector Pin Holder Plate before starting the machine.
16. The team discussed the specifications of the Ejector Pin Holder Plate in the meeting.
17. The Ejector Pin Holder Plate was fabricated using advanced manufacturing techniques.
18. A precise Ejector Pin Holder Plate ensures consistent part quality.
19. The operator monitored the Ejector Pin Holder Plate during production runs.
20. The Ejector Pin Holder Plate must be securely mounted to prevent vibration.
21. They developed a prototype for the Ejector Pin Holder Plate to test its effectiveness.
22. The Ejector Pin Holder Plate was installed to facilitate easier part removal.
23. Regular inspections of the Ejector Pin Holder Plate are necessary for maintenance.
24. The design team reviewed the Ejector Pin Holder Plate for potential improvements.
25. He noted that the Ejector Pin Holder Plate was slightly out of alignment.
26. The Ejector Pin Holder Plate is crucial for the efficiency of the mold operation.
27. Operators were trained on how to adjust the Ejector Pin Holder Plate.
28. The Ejector Pin Holder Plate must be compatible with the mold design.
29. A malfunctioning Ejector Pin Holder Plate can cause delays in production.
30. They replaced the worn Ejector Pin Holder Plate with a new one.
31. The Ejector Pin Holder Plate is often overlooked during routine checks.
32. The specifications of the Ejector Pin Holder Plate were updated for the new model.
33. She demonstrated how to assemble the Ejector Pin Holder Plate correctly.
34. The Ejector Pin Holder Plate was designed to minimize friction.
35. Engineers recommended a redesign of the Ejector Pin Holder Plate for better performance.
36. The Ejector Pin Holder Plate must withstand high temperatures during operation.
37. He was tasked with testing the new Ejector Pin Holder Plate prototype.
38. The Ejector Pin Holder Plate is essential for the automated ejection of parts.
39. Adjustments to the Ejector Pin Holder Plate can optimize the molding process.
40. The team documented the installation of the Ejector Pin Holder Plate in their report.
41. The Ejector Pin Holder Plate needs to be regularly lubricated.
42. She found a replacement for the damaged Ejector Pin Holder Plate.
43. The Ejector Pin Holder Plate was designed for easy access during maintenance.
44. He emphasized the importance of the Ejector Pin Holder Plate in the assembly line.
45. The Ejector Pin Holder Plate was checked for proper functionality before the run.
46. The original Ejector Pin Holder Plate was more efficient than the new model.
47. They used CAD software to redesign the Ejector Pin Holder Plate.
48. The Ejector Pin Holder Plate improved the overall cycle time of the process.
49. A thorough inspection of the Ejector Pin Holder Plate was conducted.
50. The Ejector Pin Holder Plate was painted to prevent rust.
51. He explained how the Ejector Pin Holder Plate interacts with the mold.
52. The Ejector Pin Holder Plate needs to be firmly secured to avoid issues.
53. Upgrades to the Ejector Pin Holder Plate were implemented this quarter.
54. The Ejector Pin Holder Plate was a crucial component in the assembly.
55. The team evaluated the performance of the Ejector Pin Holder Plate during tests.
56. They discussed the best materials for the Ejector Pin Holder Plate.
57. The Ejector Pin Holder Plate showed signs of wear after extensive use.
58. She highlighted the need for a robust Ejector Pin Holder Plate in the design.
59. The Ejector Pin Holder Plate was installed incorrectly, causing malfunctions.
60. He was responsible for calibrating the Ejector Pin Holder Plate.
61. The Ejector Pin Holder Plate needs to be periodically replaced.
62. The efficiency of the molding process relies heavily on the Ejector Pin Holder Plate.
63. They standardized the dimensions of the Ejector Pin Holder Plate across all machines.
64. The Ejector Pin Holder Plate must be designed to fit precisely within the mold.
65. The maintenance schedule included checks for the Ejector Pin Holder Plate.
66. The Ejector Pin Holder Plate was engineered for maximum strength.
67. They sourced high-quality materials for the Ejector Pin Holder Plate.
68. The Ejector Pin Holder Plate facilitated smoother operation of the ejector system.
69. They documented a failure in the Ejector Pin Holder Plate during the test.
70. The Ejector Pin Holder Plate was optimized for faster cycle times.
71. He routinely checks the Ejector Pin Holder Plate for damage.
72. The Ejector Pin Holder Plate was crucial for maintaining production standards.
73. After replacing the Ejector Pin Holder Plate, production resumed smoothly.
74. The design of the Ejector Pin Holder Plate was updated to increase efficiency.
75. The Ejector Pin Holder Plate helped prevent jamming during the ejection process.
76. They conducted a stress test on the Ejector Pin Holder Plate.
77. The Ejector Pin Holder Plate was part of the new machine upgrade.
78. He shared insights on the importance of the Ejector Pin Holder Plate.
79. The Ejector Pin Holder Plate assembly was simplified for ease of use.
80. They highlighted the role of the Ejector Pin Holder Plate in the training session.
81. The Ejector Pin Holder Plate was painted to match the machine's exterior.
82. Modifications to the Ejector Pin Holder Plate improved its performance.
83. The Ejector Pin Holder Plate was designed for easy maintenance access.
84. She praised the durability of the new Ejector Pin Holder Plate.
85. The Ejector Pin Holder Plate was essential for part integrity during ejection.
86. He noted the need for a more robust Ejector Pin Holder Plate.
87. The Ejector Pin Holder Plate was a critical part of the molding setup.
88. Training focused on the operation of the Ejector Pin Holder Plate.
89. The Ejector Pin Holder Plate was crafted with precision engineering.
90. They evaluated the potential for new designs of the Ejector Pin Holder Plate.
91. The Ejector Pin Holder Plate was responsible for consistent ejection force.
92. She carefully aligned the Ejector Pin Holder Plate before starting the machine.
93. The Ejector Pin Holder Plate was integral to the machine’s functionality.
94. They reported a malfunction related to the Ejector Pin Holder Plate.
95. The Ejector Pin Holder Plate was designed to accommodate various mold types.
96. He shared feedback on the performance of the Ejector Pin Holder Plate.
97. The Ejector Pin Holder Plate required adjustments for optimal operation.
98. They discussed the design challenges of the Ejector Pin Holder Plate.
99. The Ejector Pin Holder Plate was highlighted in the maintenance manual.
100. The team worked to improve the design of the Ejector Pin Holder Plate for future models.