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

Definition

The term "Ejector Pin Lever" refers to a mechanical component used in molds and manufacturing processes, specifically in injection molding. It is designed to assist in the ejection of molded parts from the mold cavity by providing leverage to the ejector pins, which push the finished product out after the molding process is complete. This mechanism is crucial for ensuring efficient production and maintaining the quality of the molded items.

Synonyms

• Ejector Lever
• Pin Lever
• Mold Ejector
• Ejection Mechanism

Antonyms

• Retention Mechanism
• Holding Device
• Insertion Mechanism

Examples

1. The technician adjusted the Ejector Pin Lever to improve the ejection process.
2. After replacing the mold, he checked the Ejector Pin Lever for proper alignment.
3. The factory implemented a new system to automatically control the Ejector Pin Lever.
4. She noticed that the Ejector Pin Lever was stuck and needed lubrication.
5. The engineer designed a more efficient Ejector Pin Lever for the production line.
6. Proper maintenance of the Ejector Pin Lever is essential for production efficiency.
7. The Ejector Pin Lever worked flawlessly during the trial run.
8. He learned how to operate the Ejector Pin Lever with precision.
9. The manual provided detailed instructions on how to adjust the Ejector Pin Lever.
10. A malfunctioning Ejector Pin Lever can lead to defects in molded parts.
11. She replaced the worn-out Ejector Pin Lever in record time.
12. The design team discussed improvements to the Ejector Pin Lever mechanism.
13. Observing the Ejector Pin Lever during production helped him identify issues.
14. He was trained on how to troubleshoot problems with the Ejector Pin Lever.
15. The new Ejector Pin Lever design reduced cycle time significantly.
16. During the inspection, they found the Ejector Pin Lever to be malfunctioning.
17. He manually adjusted the Ejector Pin Lever to ensure proper ejection.
18. The Ejector Pin Lever needs to be calibrated regularly for optimal performance.
19. The assembly line was halted due to a problem with the Ejector Pin Lever.
20. She demonstrated how the Ejector Pin Lever functions during the training session.
21. A robust Ejector Pin Lever can withstand heavy usage in production.
22. The testing phase revealed that the Ejector Pin Lever could be improved.
23. He made a note to order a replacement for the damaged Ejector Pin Lever.
24. The Ejector Pin Lever was critical in achieving the desired output quality.
25. Engineers evaluated various materials for the Ejector Pin Lever construction.
26. The prototype included an innovative Ejector Pin Lever design.
27. She was responsible for monitoring the Ejector Pin Lever during shifts.
28. They upgraded the Ejector Pin Lever to enhance the overall efficiency of the machine.
29. The Ejector Pin Lever must be tested after every maintenance check.
30. He took detailed notes on the Ejector Pin Lever performance throughout the day.
31. The Ejector Pin Lever was designed to be user-friendly and easy to operate.
32. She explained how the Ejector Pin Lever works to new employees.
33. The failure of the Ejector Pin Lever caused a significant delay in production.
34. The maintenance team replaced the old Ejector Pin Lever with a new one.
35. The Ejector Pin Lever is an essential component in the injection molding process.
36. They performed a thorough inspection of the Ejector Pin Lever before production began.
37. The factory invested in advanced technology for the Ejector Pin Lever system.
38. He was fascinated by the mechanics of the Ejector Pin Lever.
39. The Ejector Pin Lever was designed to minimize wear and tear.
40. She adjusted the tension on the Ejector Pin Lever for better results.
41. The Ejector Pin Lever can be controlled manually or automatically.
42. A well-functioning Ejector Pin Lever is vital for high-quality production.
43. He noticed an improvement in cycle time after fixing the Ejector Pin Lever.
44. The Ejector Pin Lever was crucial for the efficiency of the entire assembly line.
45. She documented the specifications for the new Ejector Pin Lever.
46. The team brainstormed ideas to enhance the Ejector Pin Lever performance.
47. The Ejector Pin Lever allowed for smoother operations during the molding process.
48. They demonstrated the use of the Ejector Pin Lever at the workshop.
49. The Ejector Pin Lever was a key topic in the engineering meeting.
50. He performed regular checks on the Ejector Pin Lever to ensure reliability.
51. The Ejector Pin Lever was integral to the success of the molding project.
52. She designed a safety feature for the Ejector Pin Lever.
53. The factory upgraded its equipment to include a state-of-the-art Ejector Pin Lever.
54. The Ejector Pin Lever was tested under various conditions to assess durability.
55. The engineer presented findings on the Ejector Pin Lever at the conference.
56. The quality control team monitored the Ejector Pin Lever during production.
57. He suggested improvements for the Ejector Pin Lever operation.
58. The Ejector Pin Lever simplified the ejection process significantly.
59. She was impressed by the innovative design of the Ejector Pin Lever.
60. The Ejector Pin Lever required precise adjustments for optimal performance.
61. They installed a new Ejector Pin Lever to boost production efficiency.
62. The Ejector Pin Lever malfunctioned during the test run, causing delays.
63. He learned about the importance of the Ejector Pin Lever in mold design.
64. A detailed analysis of the Ejector Pin Lever was conducted after the incident.
65. The Ejector Pin Lever was essential for achieving consistent ejection results.
66. The operator was trained specifically on the Ejector Pin Lever functions.
67. They celebrated a successful run after optimizing the Ejector Pin Lever.
68. The Ejector Pin Lever was one of the key features of the new machine.
69. He reviewed the performance data for the Ejector Pin Lever regularly.
70. The Ejector Pin Lever design was praised for its efficiency.
71. She quickly resolved the issues with the Ejector Pin Lever.
72. The regular maintenance schedule included checks on the Ejector Pin Lever.
73. The Ejector Pin Lever needed to be calibrated for each new mold.
74. They tested different configurations of the Ejector Pin Lever to find the best fit.
75. The malfunction of the Ejector Pin Lever led to increased downtime.
76. She was responsible for overseeing the Ejector Pin Lever adjustments.
77. The Ejector Pin Lever plays a critical role in the injection process.
78. He admired the craftsmanship of the Ejector Pin Lever during the factory tour.
79. A smooth-running Ejector Pin Lever is crucial for minimizing waste.
80. The Ejector Pin Lever was fine-tuned to enhance the production rate.
81. The team evaluated the Ejector Pin Lever performance metrics.
82. She shared insights on the Ejector Pin Lever with her colleagues.
83. The Ejector Pin Lever greatly influenced the mold design process.
84. A skilled technician operated the Ejector Pin Lever during production.
85. The Ejector Pin Lever was highlighted as a key feature in the product manual.
86. He documented the steps to troubleshoot the Ejector Pin Lever issues.
87. The Ejector Pin Lever was essential for maintaining production schedules.
88. They researched advanced materials for a more durable Ejector Pin Lever.
89. The successful prototype relied heavily on the efficiency of the Ejector Pin Lever.
90. She conducted a workshop on best practices for using the Ejector Pin Lever.
91. The Ejector Pin Lever was adjusted to accommodate different mold sizes.
92. He was impressed by how quickly the Ejector Pin Lever ejected the parts.
93. The Ejector Pin Lever was redesigned to reduce stress during operation.
94. A malfunctioning Ejector Pin Lever can halt production entirely.
95. They were excited to implement the new Ejector Pin Lever system.
96. The factory's productivity surged after optimizing the Ejector Pin Lever.
97. She explained the mechanics behind the Ejector Pin Lever to the interns.
98. The Ejector Pin Lever operated smoothly, resulting in fewer defects.
99. The assembly line relied on the Ejector Pin Lever for consistent output.
100. He was tasked with ensuring the Ejector Pin Lever met safety standards.