100 Examples of sentences containing the common noun "ejector pin-holder-device"

Definition

The "Ejector Pin Holder Device" refers to a mechanical component used in injection molding processes. It is designed to securely hold ejector pins, which are essential for removing molded parts from their molds. The device ensures precise alignment and stability of ejector pins during the operation, contributing to the efficiency and accuracy of the molding process.

Synonyms

• Ejector Pin Retainer
• Ejector Pin Fixture
• Ejector Pin Support

Antonyms

• Ejector Pin Release Mechanism (in the context of a device that does not hold or retains ejector pins)

Examples

1. The technician installed the Ejector Pin Holder Device before starting the injection molding process.
2. We need to examine the Ejector Pin Holder Device for any signs of wear.
3. The engineer designed a more efficient Ejector Pin Holder Device for the new molding machine.
4. During the maintenance check, the team repaired the Ejector Pin Holder Device.
5. The operator adjusted the settings on the Ejector Pin Holder Device to improve performance.
6. She calibrated the Ejector Pin Holder Device for better accuracy.
7. Our company upgraded to a high-speed Ejector Pin Holder Device last year.
8. The Ejector Pin Holder Device ensures that the pins remain aligned during the cycle.
9. He demonstrated how to properly use the Ejector Pin Holder Device.
10. The factory invested in a new Ejector Pin Holder Device to enhance productivity.
11. They modified the Ejector Pin Holder Device to fit the new molds.
12. The technician cleaned the Ejector Pin Holder Device after each shift.
13. A faulty Ejector Pin Holder Device can lead to production delays, so we must monitor it closely.
14. The team disassembled the Ejector Pin Holder Device for inspection.
15. She noted the importance of the Ejector Pin Holder Device in the assembly line.
16. The engineer specified the materials needed for the Ejector Pin Holder Device.
17. They documented the performance of the Ejector Pin Holder Device over time.
18. The workshop featured a variety of Ejector Pin Holder Devices for different applications.
19. He calculated the dimensions required for the new Ejector Pin Holder Device.
20. The design team collaborated to optimize the Ejector Pin Holder Device.
21. They tested the Ejector Pin Holder Device under various conditions.
22. The Ejector Pin Holder Device functioned flawlessly throughout the production run.
23. The manual outlined the maintenance procedures for the Ejector Pin Holder Device.
24. She recommended a more durable Ejector Pin Holder Device for heavy-duty use.
25. The assembly line utilized an automated Ejector Pin Holder Device to enhance efficiency.
26. He fabricated a custom Ejector Pin Holder Device for the unique mold.
27. The training session included a demonstration of the Ejector Pin Holder Device.
28. They analyzed the failure rate of the Ejector Pin Holder Device in the past year.
29. The company patented a new design for the Ejector Pin Holder Device.
30. She explained the mechanism of the Ejector Pin Holder Device to the new interns.
31. The team implemented changes to the Ejector Pin Holder Device based on feedback.
32. They reported an error in the configuration of the Ejector Pin Holder Device.
33. The workshop displayed various models of the Ejector Pin Holder Device.
34. He demonstrated the ease of use of the Ejector Pin Holder Device.
35. The Ejector Pin Holder Device reduced the risk of mishaps during production.
36. They investigated the cause of the malfunction in the Ejector Pin Holder Device.
37. The operator replaced the worn-out components of the Ejector Pin Holder Device.
38. She highlighted the benefits of the new Ejector Pin Holder Device during the meeting.
39. The engineering team developed a prototype for the Ejector Pin Holder Device.
40. They secured the Ejector Pin Holder Device to the machine before starting.
41. The upgrades improved the overall functionality of the Ejector Pin Holder Device.
42. He inspected the Ejector Pin Holder Device for any defects.
43. The Ejector Pin Holder Device played a crucial role in the assembly process.
44. They scheduled regular maintenance for the Ejector Pin Holder Device.
45. The technician calibrated the Ejector Pin Holder Device to ensure precision.
46. The company sourced high-quality materials for the Ejector Pin Holder Device.
47. The training manual included instructions for the Ejector Pin Holder Device.
48. The operator monitored the performance of the Ejector Pin Holder Device throughout the shift.
49. They recorded the performance metrics of the Ejector Pin Holder Device.
50. The new Ejector Pin Holder Device outperformed the previous model.
51. He installed additional safety features on the Ejector Pin Holder Device.
52. The team discussed potential improvements to the Ejector Pin Holder Device.
53. They evaluated the effectiveness of the Ejector Pin Holder Device.
54. The factory relied on the Ejector Pin Holder Device for efficient production.
55. He configured the Ejector Pin Holder Device to meet specific mold requirements.
56. The upgrades enhanced the durability of the Ejector Pin Holder Device.
57. The operator logged the usage statistics of the Ejector Pin Holder Device.
58. She shared tips on maintaining the Ejector Pin Holder Device effectively.
59. The Ejector Pin Holder Device facilitated smoother production cycles.
60. The team collaborated with suppliers for the Ejector Pin Holder Device's components.
61. They implemented a new safety protocol related to the Ejector Pin Holder Device.
62. The technician adjusted the tension on the Ejector Pin Holder Device.
63. They conducted a workshop on the maintenance of the Ejector Pin Holder Device.
64. The Ejector Pin Holder Device ensured consistent quality in the molded parts.
65. He demonstrated troubleshooting techniques for the Ejector Pin Holder Device.
66. The operator requested a replacement for the faulty Ejector Pin Holder Device.
67. The Ejector Pin Holder Device contributed to reducing cycle time.
68. They modified the Ejector Pin Holder Device design based on user feedback.
69. The team integrated the Ejector Pin Holder Device into the existing system.
70. She reviewed the specifications for the Ejector Pin Holder Device.
71. The Ejector Pin Holder Device played a pivotal role in the manufacturing process.
72. The technician recalibrated the Ejector Pin Holder Device after the upgrade.
73. They presented the new Ejector Pin Holder Device at the industry conference.
74. The Ejector Pin Holder Device improved the overall efficiency of the line.
75. The engineer validated the performance of the Ejector Pin Holder Device.
76. He recommended scheduling checks for the Ejector Pin Holder Device.
77. The workshop featured hands-on training for the Ejector Pin Holder Device.
78. The Ejector Pin Holder Device streamlined the production workflow.
79. They assessed the impact of the Ejector Pin Holder Device on production rates.
80. The operator implemented changes to the Ejector Pin Holder Device settings.
81. The Ejector Pin Holder Device ensured that parts were ejected smoothly.
82. She observed the operation of the Ejector Pin Holder Device closely.
83. The team compiled a report on the Ejector Pin Holder Device's performance.
84. The technician tested the Ejector Pin Holder Device after repairs.
85. The Ejector Pin Holder Device allowed for quicker mold changes.
86. They finalized the design of the new Ejector Pin Holder Device.
87. The operator communicated issues with the Ejector Pin Holder Device promptly.
88. She explained the importance of the Ejector Pin Holder Device in the process.
89. The Ejector Pin Holder Device enabled a safer working environment.
90. He supervised the installation of the Ejector Pin Holder Device.
91. The team celebrated the successful integration of the Ejector Pin Holder Device.
92. They conducted regular checks on the Ejector Pin Holder Device's functionality.
93. The Ejector Pin Holder Device boosted productivity significantly.
94. She recommended best practices for using the Ejector Pin Holder Device.
95. The operator documented any changes made to the Ejector Pin Holder Device.
96. The Ejector Pin Holder Device enhanced precision in the production line.
97. They reviewed the historical performance of the Ejector Pin Holder Device.
98. The technician modified the Ejector Pin Holder Device to accommodate larger pins.
99. The Ejector Pin Holder Device simplified the overall production process.
100. He explained how the Ejector Pin Holder Device prevents damage to the molds.