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

Definition

The term "Ejector Pin Holder Bracket" refers to a mechanical component used in manufacturing processes, particularly in injection molding. It serves as a support structure for ejector pins, which are used to push out molded parts from a mold after the injection process is complete. The bracket ensures proper alignment and function of the ejector pins, facilitating efficient operation in production lines.

Synonyms

• Ejector Pin Support Bracket
• Ejector Pin Mounting Bracket
• Ejector Pin Holder

Antonyms

• Ejector Pin Release Mechanism (in a functional context)
• Ejector Pin Dispenser (in a functional context)

Examples

1. The technician examined the Ejector Pin Holder Bracket for any signs of wear.
2. We need to install the new Ejector Pin Holder Bracket to improve efficiency.
3. The design team created a more durable Ejector Pin Holder Bracket for the latest model.
4. During the maintenance check, they found the Ejector Pin Holder Bracket was loose and needed tightening.
5. The engineer replaced the damaged Ejector Pin Holder Bracket with a stronger material.
6. It’s essential to calibrate the Ejector Pin Holder Bracket to ensure proper operation.
7. The factory manager approved the purchase of additional Ejector Pin Holder Brackets.
8. The assembly line worker adjusted the position of the Ejector Pin Holder Bracket.
9. The prototype included an innovative Ejector Pin Holder Bracket design.
10. The Ejector Pin Holder Bracket failed during testing, leading to production delays.
11. She suggested using a different type of Ejector Pin Holder Bracket for better performance.
12. The maintenance crew inspected each Ejector Pin Holder Bracket before the production run.
13. The new Ejector Pin Holder Bracket improved part ejection speed significantly.
14. The technician demonstrated how to replace the Ejector Pin Holder Bracket safely.
15. The mold designer optimized the layout for the Ejector Pin Holder Bracket.
16. They decided to upgrade their Ejector Pin Holder Bracket to enhance durability.
17. The old Ejector Pin Holder Bracket was replaced after years of service.
18. The engineers studied the impact of the Ejector Pin Holder Bracket on cycle times.
19. The assembly manual included detailed instructions for the Ejector Pin Holder Bracket.
20. A faulty Ejector Pin Holder Bracket can lead to production errors.
21. The production team monitored the performance of the Ejector Pin Holder Bracket.
22. They designed a custom Ejector Pin Holder Bracket for the unique mold.
23. The Ejector Pin Holder Bracket was painted to prevent corrosion.
24. Operators were trained to handle the Ejector Pin Holder Bracket carefully.
25. The project manager noted the importance of the Ejector Pin Holder Bracket in the assembly line.
26. A new Ejector Pin Holder Bracket was developed to streamline the process.
27. The technician calibrated the Ejector Pin Holder Bracket for optimal performance.
28. The Ejector Pin Holder Bracket was reinforced to withstand higher pressures.
29. They secured the Ejector Pin Holder Bracket to prevent movement during operation.
30. The part quality improved once the Ejector Pin Holder Bracket was adjusted.
31. The team assembled the Ejector Pin Holder Bracket with precision.
32. A broken Ejector Pin Holder Bracket caused a halt in production.
33. The prototype testing involved the Ejector Pin Holder Bracket extensively.
34. The engineer analyzed the design of the Ejector Pin Holder Bracket for enhancements.
35. The Ejector Pin Holder Bracket was manufactured using high-grade materials.
36. They discussed the features of the new Ejector Pin Holder Bracket.
37. The assembly process included the installation of the Ejector Pin Holder Bracket.
38. The Ejector Pin Holder Bracket facilitated smoother operations in the factory.
39. During the review, the Ejector Pin Holder Bracket was highlighted as a critical component.
40. The technician revised the plans for the Ejector Pin Holder Bracket based on feedback.
41. The Ejector Pin Holder Bracket was painted to match the machinery.
42. A proper Ejector Pin Holder Bracket ensures the longevity of the mold.
43. The old design of the Ejector Pin Holder Bracket was phased out.
44. The engineer prototyped a new Ejector Pin Holder Bracket for testing.
45. They aligned the Ejector Pin Holder Bracket before starting the machine.
46. The project team collaborated on the Ejector Pin Holder Bracket design.
47. The performance metrics were analyzed after replacing the Ejector Pin Holder Bracket.
48. The Ejector Pin Holder Bracket held up well under extreme conditions.
49. They implemented changes to the Ejector Pin Holder Bracket based on user feedback.
50. The Ejector Pin Holder Bracket was sourced from a reputable supplier.
51. A malfunctioning Ejector Pin Holder Bracket can lead to production downtime.
52. The team documented the specifications of the Ejector Pin Holder Bracket.
53. The Ejector Pin Holder Bracket was designed with user safety in mind.
54. They compared different models of the Ejector Pin Holder Bracket.
55. The Ejector Pin Holder Bracket was tested for durability and strength.
56. The assembly line worker secured the Ejector Pin Holder Bracket in place.
57. The engineer presented the new Ejector Pin Holder Bracket design to the team.
58. The company invested in high-quality Ejector Pin Holder Brackets for better output.
59. The Ejector Pin Holder Bracket was inspected before the production cycle began.
60. A properly functioning Ejector Pin Holder Bracket is crucial for efficiency.
61. They requested a redesign of the Ejector Pin Holder Bracket for better performance.
62. The Ejector Pin Holder Bracket was modified to suit specific needs.
63. The maintenance staff replaced the worn-out Ejector Pin Holder Bracket promptly.
64. The Ejector Pin Holder Bracket was integrated into the new machine design.
65. They developed a checklist for the Ejector Pin Holder Bracket inspection.
66. The Ejector Pin Holder Bracket was bolted securely to prevent any movement.
67. The quality control team evaluated the effectiveness of the Ejector Pin Holder Bracket.
68. The Ejector Pin Holder Bracket was highlighted in the training manual.
69. The team implemented a new procedure for handling the Ejector Pin Holder Bracket.
70. The Ejector Pin Holder Bracket was replaced as part of the regular maintenance schedule.
71. They engineered a lightweight Ejector Pin Holder Bracket for ease of use.
72. The Ejector Pin Holder Bracket was thoroughly tested before approval.
73. The design features an adjustable Ejector Pin Holder Bracket.
74. The team refined the production process of the Ejector Pin Holder Bracket.
75. The Ejector Pin Holder Bracket was subjected to stress tests.
76. They fixed the alignment issues with the Ejector Pin Holder Bracket.
77. The new model of the Ejector Pin Holder Bracket was unveiled at the trade show.
78. Proper maintenance of the Ejector Pin Holder Bracket is essential for longevity.
79. The Ejector Pin Holder Bracket was adjusted to accommodate larger molds.
80. The assembly line was optimized with the updated Ejector Pin Holder Bracket.
81. They consulted with experts about the Ejector Pin Holder Bracket design.
82. The Ejector Pin Holder Bracket was painted for better visibility.
83. The technician identified the need for a stronger Ejector Pin Holder Bracket.
84. The design team brainstormed improvements for the Ejector Pin Holder Bracket.
85. They sourced materials for the Ejector Pin Holder Bracket from multiple suppliers.
86. The Ejector Pin Holder Bracket was showcased as part of the new machinery.
87. The quality of the Ejector Pin Holder Bracket was verified before use.
88. They developed a timeline for the installation of the Ejector Pin Holder Bracket.
89. The Ejector Pin Holder Bracket was shipped ahead of schedule.
90. The team discussed the functionality of the Ejector Pin Holder Bracket.
91. The Ejector Pin Holder Bracket was upgraded to meet new industry standards.
92. They analyzed the failure rates of the previous Ejector Pin Holder Bracket.
93. The Ejector Pin Holder Bracket was incorporated into the new production line.
94. The technician calibrated the machines that interact with the Ejector Pin Holder Bracket.
95. The Ejector Pin Holder Bracket was designed for easy replacement.
96. The maintenance team scheduled regular checks for the Ejector Pin Holder Bracket.
97. The Ejector Pin Holder Bracket was constructed using advanced manufacturing techniques.
98. They evaluated the performance of the Ejector Pin Holder Bracket during trials.
99. The Ejector Pin Holder Bracket was crucial in achieving production targets.
100. The design process for the Ejector Pin Holder Bracket took several months.

This comprehensive breakdown provides a clear overview of the term "Ejector Pin Holder Bracket," its synonyms and antonyms, and numerous contextual examples showcasing its usage.