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

Definition

An ejector pin is a mechanical component commonly used in injection molding processes. It is a rod or pin that pushes or ejects a molded part from a mold after the part has solidified. Ejector pins play a crucial role in the manufacturing process, ensuring that products can be easily removed from molds without damage.

Synonyms

  • Ejector rod
  • Ejector mechanism
  • Ejector tool

Antonyms

  • Retainer
  • Holder
  • Fastener

Examples

  1. The technician adjusted the ejector pin to ensure smooth operation.
  2. During the manufacturing process, the ejector pin can become jammed.
  3. The design of the ejector pin affects the quality of the molded part.
  4. After cooling, the machine will activate the ejector pin to release the item.
  5. Inspect the ejector pin for wear and tear before starting production.
  6. The ejector pin needs to be lubricated regularly to function properly.
  7. Without a functioning ejector pin, the production line can halt.
  8. The engineer proposed a redesign of the ejector pin for better efficiency.
  9. Each cycle, the ejector pin plays a vital role in part removal.
  10. The ejector pin was replaced to improve the mold's performance.
  11. They calibrated the ejector pin to prevent any defects in the product.
  12. The operator pushed the button to activate the ejector pin.
  13. An improperly aligned ejector pin can cause damage to the mold.
  14. The factory has multiple ejector pins for different mold sizes.
  15. Maintenance of the ejector pin is crucial for uninterrupted production.
  16. The ejector pin was too short for the new mold design.
  17. She demonstrated how to adjust the ejector pin during the training session.
  18. The ejector pin had to be replaced after several thousand cycles.
  19. A malfunctioning ejector pin can lead to production delays.
  20. The quality control team examined the ejector pin for defects.
  21. The ejector pin system was upgraded to improve speed.
  22. He noticed the ejector pin was bent and needed realignment.
  23. The new machine features an automated ejector pin mechanism.
  24. The ejector pin must be positioned correctly to avoid breakage.
  25. They tested the ejector pin under various conditions for durability.
  26. Adjustments to the ejector pin can enhance the overall output.
  27. The ejector pin must be made of high-strength material to withstand pressure.
  28. She replaced the old ejector pin with a newer model.
  29. The ejector pin was designed to minimize wear on the mold.
  30. After each shift, the workers inspect the ejector pin for issues.
  31. The ejector pin operates in sync with the injection cycle.
  32. They documented the ejector pin specifications for future reference.
  33. A faulty ejector pin can compromise the integrity of the part.
  34. The ejector pin is essential for high-volume production runs.
  35. The ejector pin is often adjustable to cater to different molds.
  36. He learned how to troubleshoot the ejector pin effectively.
  37. The design team considered the ejector pin layout carefully.
  38. Inadequate maintenance of the ejector pin led to production errors.
  39. The ejector pin can be customized for specific applications.
  40. Each ejector pin is calibrated for precise operation.
  41. The ejector pin was installed incorrectly, causing a jam.
  42. The operator observed the ejector pin during the cycle.
  43. The ejector pin is a critical part of the injection molding machine.
  44. They replaced the ejector pin as part of the routine maintenance.
  45. The ejector pin ensured no part was left behind in the mold.
  46. A well-maintained ejector pin enhances production efficiency.
  47. The ejector pin can be adjusted based on the material used.
  48. She noted the position of the ejector pin before starting the cycle.
  49. The factory introduced a new ejector pin design to reduce costs.
  50. He was responsible for monitoring the ejector pin performance.
  51. The ejector pin is crucial for preventing mold damage.
  52. The team evaluated the impact of the ejector pin on cycle times.
  53. The ejector pin was too long, causing operational issues.
  54. They used a laser to measure the ejector pin alignment.
  55. The ejector pin needs to be replaced after a specific number of cycles.
  56. The ejector pin had a smooth finish to prevent part sticking.
  57. The operator quickly adjusted the ejector pin as needed.
  58. A new ejector pin design improved the production rate significantly.
  59. The ejector pin was integrated into the mold's overall design.
  60. They aligned the ejector pin with the mold cavity for optimal performance.
  61. The ejector pin was checked for compatibility with the new mold.
  62. An efficient ejector pin saves time and reduces waste.
  63. The ejector pin had to be reinforced to handle heavier parts.
  64. She explained the function of the ejector pin to new hires.
  65. The ejector pin must be robust to handle high-pressure applications.
  66. They monitored the ejector pin for any signs of fatigue.
  67. The ejector pin was designed to fit into various mold configurations.
  68. The technician demonstrated how to replace the ejector pin.
  69. The ejector pin mechanism was upgraded for better reliability.
  70. A broken ejector pin can halt the entire production line.
  71. They conducted a test run to assess the ejector pin functionality.
  72. The ejector pin design was a key factor in the mold's success.
  73. The operator had to reset the ejector pin after a malfunction.
  74. She emphasized the importance of the ejector pin in the process.
  75. The ejector pin was calibrated for a faster ejection time.
  76. They sourced high-quality materials for the ejector pin.
  77. The ejector pin plays a vital role in achieving production goals.
  78. An efficient ejector pin reduces the risk of product defects.
  79. The ejector pin position was critical for part accuracy.
  80. After the update, the ejector pin operated more smoothly.
  81. They scheduled regular checks on the ejector pin.
  82. The ejector pin was critical for the assembly line's operation.
  83. She noted the ejector pin's performance during the shift.
  84. The ejector pin was tested under extreme conditions.
  85. They maintained a stock of spare ejector pins for emergencies.
  86. The ejector pin system was praised for its efficiency.
  87. A faulty ejector pin can lead to costly downtime.
  88. The ejector pin was instrumental in achieving high production rates.
  89. They replaced the ejector pin with an upgraded version.
  90. The ejector pin must be aligned to avoid misfires.
  91. The operator regularly monitored the ejector pin for wear.
  92. The ejector pin was designed for easy replacement.
  93. The ejector pin can be adjusted to accommodate different materials.
  94. They installed a new ejector pin as part of the upgrade.
  95. The ejector pin was critical in the mold release process.
  96. Proper alignment of the ejector pin is essential for success.
  97. The ejector pin was engineered for durability and longevity.
  98. They conducted training on the maintenance of the ejector pin.
  99. The ejector pin significantly impacts production efficiency.
  100. The team was relieved when the ejector pin was fixed just in time for production.
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