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

Definition

The "Ejector Pin Holder Mechanism" refers to a component in manufacturing and molding processes, particularly in injection molding. It is a mechanism used to hold and operate ejector pins, which are essential for removing molded parts from a mold after the cooling process. The mechanism ensures precise movement and stability of the ejector pins, facilitating efficient production.

Synonyms

  • Ejector pin assembly
  • Ejector mechanism
  • Pin holder system
  • Ejector holder

Antonyms

  • Ejector pin restraint
  • Pin immobilizer
  • Holdback mechanism

Examples

  1. The engineer designed the Ejector Pin Holder Mechanism to improve production efficiency.

  2. During the inspection, we found the Ejector Pin Holder Mechanism was malfunctioning.

  3. The quality of the molded parts depends heavily on the Ejector Pin Holder Mechanism.

  4. Maintenance of the Ejector Pin Holder Mechanism is crucial for optimal performance.

  5. Our team upgraded the Ejector Pin Holder Mechanism to reduce cycle time.

  6. The Ejector Pin Holder Mechanism ensures that the ejector pins function smoothly.

  7. We need to calibrate the Ejector Pin Holder Mechanism for accurate ejector pin alignment.

  8. The breakdown of the Ejector Pin Holder Mechanism caused delays in production.

  9. A robust Ejector Pin Holder Mechanism can withstand high production demands.

  10. The technician replaced the worn parts of the Ejector Pin Holder Mechanism.

  11. The new Ejector Pin Holder Mechanism improved the mold release process significantly.

  12. We are testing a prototype of the Ejector Pin Holder Mechanism this week.

  13. The Ejector Pin Holder Mechanism plays a vital role in ensuring part integrity.

  14. Engineers often overlook the Ejector Pin Holder Mechanism during design reviews.

  15. The Ejector Pin Holder Mechanism prevents damage to the molded parts during ejection.

  16. A malfunctioning Ejector Pin Holder Mechanism can lead to production errors.

  17. We analyzed the performance of the Ejector Pin Holder Mechanism under various conditions.

  18. The durability of the Ejector Pin Holder Mechanism is essential for long-term use.

  19. The Ejector Pin Holder Mechanism was designed with advanced materials for better resilience.

  20. Regular inspection of the Ejector Pin Holder Mechanism can prevent costly downtime.

  21. The operator adjusted the settings of the Ejector Pin Holder Mechanism.

  22. Feedback from the production team led to improvements in the Ejector Pin Holder Mechanism.

  23. The Ejector Pin Holder Mechanism was a key factor in achieving our production targets.

  24. A faulty Ejector Pin Holder Mechanism can result in inconsistent part quality.

  25. The design of the Ejector Pin Holder Mechanism influences the overall efficiency of the mold.

  26. We implemented a new maintenance schedule for the Ejector Pin Holder Mechanism.

  27. The Ejector Pin Holder Mechanism requires precise engineering to function effectively.

  28. Training on the Ejector Pin Holder Mechanism is essential for new staff.

  29. The Ejector Pin Holder Mechanism is critical for complex mold designs.

  30. We sourced high-quality components for the Ejector Pin Holder Mechanism.

  31. The installation of the new Ejector Pin Holder Mechanism was completed ahead of schedule.

  32. The Ejector Pin Holder Mechanism must be compatible with the mold design.

  33. Our research focused on optimizing the Ejector Pin Holder Mechanism for faster cycles.

  34. The Ejector Pin Holder Mechanism can significantly reduce labor costs in production.

  35. A well-maintained Ejector Pin Holder Mechanism enhances the overall production line.

  36. The Ejector Pin Holder Mechanism can be adjusted for different mold sizes.

  37. We encountered issues with the Ejector Pin Holder Mechanism during the trial run.

  38. The new features of the Ejector Pin Holder Mechanism were well-received by the team.

  39. The Ejector Pin Holder Mechanism is often overlooked in maintenance routines.

  40. Our latest model of the Ejector Pin Holder Mechanism includes innovative technology.

  41. The Ejector Pin Holder Mechanism is essential for automated molding processes.

  42. We documented the performance of the Ejector Pin Holder Mechanism for future reference.

  43. The design changes to the Ejector Pin Holder Mechanism improved efficiency by 20%.

  44. The Ejector Pin Holder Mechanism reduces the risk of part distortion during ejection.

  45. The operator noticed irregularities in the Ejector Pin Holder Mechanism operation.

  46. Upgrading the Ejector Pin Holder Mechanism can lead to better product quality.

  47. The Ejector Pin Holder Mechanism must be regularly lubricated for optimal performance.

  48. We experienced a significant reduction in waste due to the Ejector Pin Holder Mechanism.

  49. The Ejector Pin Holder Mechanism needs to be recalibrated after every major repair.

  50. Understanding the Ejector Pin Holder Mechanism is crucial for troubleshooting.

  51. The Ejector Pin Holder Mechanism is a critical part of the molding machine assembly.

  52. A properly functioning Ejector Pin Holder Mechanism minimizes cycle interruptions.

  53. The Ejector Pin Holder Mechanism should be inspected after every production run.

  54. Production efficiency improved with the new Ejector Pin Holder Mechanism design.

  55. The Ejector Pin Holder Mechanism prevents jamming of the ejector pins.

  56. We are evaluating the performance of the Ejector Pin Holder Mechanism in real-time.

  57. The Ejector Pin Holder Mechanism enhances the operational stability of the molding process.

  58. Engineers discussed the shortcomings of the existing Ejector Pin Holder Mechanism.

  59. The Ejector Pin Holder Mechanism is often customized to fit specific production needs.

  60. A well-designed Ejector Pin Holder Mechanism can reduce maintenance costs.

  61. The Ejector Pin Holder Mechanism was tested under extreme conditions.

  62. The team conducted a thorough analysis of the Ejector Pin Holder Mechanism.

  63. The Ejector Pin Holder Mechanism has a direct impact on cycle time efficiency.

  64. We documented improvements made to the Ejector Pin Holder Mechanism over time.

  65. The Ejector Pin Holder Mechanism must be sturdy to handle repeated use.

  66. The project involved redesigning the Ejector Pin Holder Mechanism for better performance.

  67. The Ejector Pin Holder Mechanism is vital in high-speed production environments.

  68. We prioritized the optimization of the Ejector Pin Holder Mechanism in our updates.

  69. The Ejector Pin Holder Mechanism requires skilled technicians for proper setup.

  70. Effective use of the Ejector Pin Holder Mechanism can streamline manufacturing.

  71. The Ejector Pin Holder Mechanism was a focal point during the engineering review.

  72. A malfunction in the Ejector Pin Holder Mechanism can halt production entirely.

  73. The Ejector Pin Holder Mechanism was praised for its innovative design.

  74. The efficiency of the Ejector Pin Holder Mechanism can dictate overall productivity.

  75. We faced challenges in sourcing parts for the Ejector Pin Holder Mechanism.

  76. The Ejector Pin Holder Mechanism needs to be compatible with multiple mold designs.

  77. Operators received training on the latest Ejector Pin Holder Mechanism features.

  78. The Ejector Pin Holder Mechanism should be regularly updated to incorporate new technology.

  79. The team gathered data on the Ejector Pin Holder Mechanism for future improvements.

  80. A malfunctioning Ejector Pin Holder Mechanism can lead to increased production costs.

  81. The Ejector Pin Holder Mechanism was a key topic during the production meeting.

  82. We implemented feedback from operators to enhance the Ejector Pin Holder Mechanism.

  83. The Ejector Pin Holder Mechanism must be designed for easy maintenance.

  84. The engineer explained how the Ejector Pin Holder Mechanism operates within the mold.

  85. We are excited to test the new features of the Ejector Pin Holder Mechanism.

  86. The Ejector Pin Holder Mechanism requires regular calibration to ensure accuracy.

  87. Operators must be trained on the proper use of the Ejector Pin Holder Mechanism.

  88. The design of the Ejector Pin Holder Mechanism can vary based on application.

  89. It is essential to monitor the Ejector Pin Holder Mechanism during production runs.

  90. The Ejector Pin Holder Mechanism enhances the safety of the molding process.

  91. A reliable Ejector Pin Holder Mechanism is crucial for high-volume production.

  92. The Ejector Pin Holder Mechanism was integral to the success of our project.

  93. We are conducting a review of the Ejector Pin Holder Mechanism for improvements.

  94. The Ejector Pin Holder Mechanism provides precise control over ejector pins.

  95. Troubleshooting the Ejector Pin Holder Mechanism is part of the regular maintenance routine.

  96. The new Ejector Pin Holder Mechanism design has received positive feedback from users.

  97. We are exploring automation options for the Ejector Pin Holder Mechanism.

  98. The Ejector Pin Holder Mechanism is an essential component of the production line.

  99. The Ejector Pin Holder Mechanism can be modified for different production requirements.

  100. Properly functioning Ejector Pin Holder Mechanism ensures smooth operation of the molding process.

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