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

Definition

The term "Ejector Mechanism Assembly" refers to a component or system within machinery or devices designed to expel or release an object or substance. It is commonly used in various mechanical applications, including firearms, machinery, and manufacturing equipment, to facilitate the removal of items from a chamber or holding area.

Synonyms

• Ejector system
• Ejection mechanism
• Ejector assembly
• Discharge mechanism
• Expulsion system

Antonyms

• Retention mechanism
• Holding assembly
• Insertion system
• Containment structure

Examples

1. The Ejector Mechanism Assembly quickly ejected the spent cartridge.
2. Engineers designed a new Ejector Mechanism Assembly that can eject multiple items simultaneously.
3. The faulty Ejector Mechanism Assembly caused the machine to fail to eject the product.
4. During the test, the Ejector Mechanism Assembly successfully ejected the sample from the chamber.
5. The technician inspected the Ejector Mechanism Assembly to ensure it would eject properly.
6. The Ejector Mechanism Assembly was upgraded to eject objects more efficiently.
7. After troubleshooting, they discovered the Ejector Mechanism Assembly was misaligned and needed to eject correctly.
8. The new model features a more robust Ejector Mechanism Assembly designed to eject heavier items.
9. The Ejector Mechanism Assembly malfunctioned, causing it to eject debris instead of the intended product.
10. With precision engineering, the Ejector Mechanism Assembly can eject items at high speeds.
11. The Ejector Mechanism Assembly was tested to ensure it could eject under extreme conditions.
12. Safety protocols require operators to check the Ejector Mechanism Assembly before it ejects any materials.
13. The design of the Ejector Mechanism Assembly allows it to eject without damaging the items.
14. The Ejector Mechanism Assembly is critical for the system to eject waste materials efficiently.
15. After the upgrade, the Ejector Mechanism Assembly was able to eject larger objects with ease.
16. The operator engaged the Ejector Mechanism Assembly, which then ejected the defective part.
17. The Ejector Mechanism Assembly was praised for its ability to consistently eject items accurately.
18. The maintenance team replaced the old Ejector Mechanism Assembly to improve the rate at which it could eject.
19. The Ejector Mechanism Assembly in the printer was jammed and needed to be repaired to eject paper correctly.
20. The new prototype included an advanced Ejector Mechanism Assembly that could eject components with precision.
21. An operator must always monitor the Ejector Mechanism Assembly when it ejects materials to prevent accidents.
22. The Ejector Mechanism Assembly was designed to eject items in a controlled and safe manner.
23. Following the incident, the Ejector Mechanism Assembly was reviewed to ensure it would eject properly in future operations.
24. The Ejector Mechanism Assembly was featured prominently in the machinery's technical specifications, detailing how it ejects items.
25. The Ejector Mechanism Assembly proved to be efficient as it could eject multiple items without delay.
26. During the demonstration, the Ejector Mechanism Assembly effectively ejected the sample for analysis.
27. The Ejector Mechanism Assembly is designed to minimize the risk of injury when it ejects objects.
28. Engineers are constantly looking for ways to improve the Ejector Mechanism Assembly to eject more efficiently.
29. The Ejector Mechanism Assembly was installed to ensure that products would reliably eject from the production line.
30. The malfunctioning Ejector Mechanism Assembly resulted in a backlog of products that could not be ejected.
31. The team conducted several tests to see how well the Ejector Mechanism Assembly could eject under pressure.
32. Each Ejector Mechanism Assembly is calibrated to eject items of varying sizes and weights.
33. Safety features were added to the Ejector Mechanism Assembly to prevent accidental ejection of tools.
34. The Ejector Mechanism Assembly was responsible for ensuring the device could eject components quickly.
35. In the event of a malfunction, the Ejector Mechanism Assembly should still be able to eject safely.
36. The technician explained how the Ejector Mechanism Assembly functions to eject items from the system.
37. The automated system relies on the Ejector Mechanism Assembly to eject products at the end of the assembly line.
38. Proper maintenance of the Ejector Mechanism Assembly ensures it will continue to eject without failure.
39. The design team is working on a new Ejector Mechanism Assembly that can eject items with minimal energy consumption.
40. The Ejector Mechanism Assembly operated flawlessly and ejected the last item of the batch.
41. The outdated Ejector Mechanism Assembly struggled to eject items consistently.
42. The engineers proposed enhancements to the Ejector Mechanism Assembly to improve how it ejects materials.
43. During the simulation, the Ejector Mechanism Assembly was activated to eject the payload.
44. The Ejector Mechanism Assembly must be calibrated correctly for it to eject items at the desired speed.
45. In case of an emergency, the Ejector Mechanism Assembly should be able to eject all contents immediately.
46. The design of the Ejector Mechanism Assembly allows it to eject items smoothly and without obstruction.
47. The operator was trained to monitor the Ejector Mechanism Assembly during operation to ensure it could eject effectively.
48. The Ejector Mechanism Assembly was tested for its ability to eject different types of materials.
49. After the update, the Ejector Mechanism Assembly showed improved performance in how it ejects items.
50. The Ejector Mechanism Assembly is essential in processes where rapid ejection is required.
51. The team observed how the Ejector Mechanism Assembly could eject heavy items without strain.
52. When the button was pressed, the Ejector Mechanism Assembly swiftly ejected the component.
53. The Ejector Mechanism Assembly is critical for ensuring waste materials are ejected properly.
54. The engineers were pleased with how the Ejector Mechanism Assembly could eject items without issues.
55. The technician replaced the worn-out parts of the Ejector Mechanism Assembly to allow it to eject better.
56. The Ejector Mechanism Assembly must be regularly tested to ensure it can eject items reliably.
57. The malfunction in the Ejector Mechanism Assembly caused it to eject an incorrect item.
58. Proper alignment of the Ejector Mechanism Assembly is crucial for it to eject effectively.
59. The new design of the Ejector Mechanism Assembly allows it to eject items in a more environmentally friendly way.
60. The Ejector Mechanism Assembly was specifically designed to eject heavy loads safely.
61. The operator demonstrated how to activate the Ejector Mechanism Assembly to eject the item.
62. The Ejector Mechanism Assembly should be inspected regularly to ensure it can always eject properly.
63. The training manual included instructions on how to troubleshoot the Ejector Mechanism Assembly when it fails to eject.
64. The Ejector Mechanism Assembly was engineered to eject items with minimal noise.
65. The Ejector Mechanism Assembly must be compatible with the machinery to ensure it can eject items correctly.
66. The project involved redesigning the Ejector Mechanism Assembly to improve its ability to eject.
67. The Ejector Mechanism Assembly was a key component in the automated system, allowing it to eject waste efficiently.
68. After replacing the faulty part, the Ejector Mechanism Assembly was able to eject items again.
69. The Ejector Mechanism Assembly was calibrated to eject items at a specific interval.
70. The technician noted that the Ejector Mechanism Assembly must always be ready to eject on command.
71. The new Ejector Mechanism Assembly featured advanced sensors that detected when to eject items.
72. Each Ejector Mechanism Assembly in the factory was tested to ensure they could eject without failure.
73. The Ejector Mechanism Assembly helped streamline the process by allowing the machine to eject at a faster rate.
74. The operator manually adjusted the Ejector Mechanism Assembly to ensure it could eject the items accurately.
75. When the system failed, the Ejector Mechanism Assembly was the first component checked to see if it could still eject.
76. The Ejector Mechanism Assembly was designed to eject delicate items without causing damage.
77. The updated Ejector Mechanism Assembly could eject with greater force than the previous version.
78. During the inspection, the Ejector Mechanism Assembly was found to eject properly, meeting all specifications.
79. The Ejector Mechanism Assembly was essential for ensuring that production could continue without delays in ejection.
80. The operator carefully monitored the Ejector Mechanism Assembly as it prepared to eject the final piece.
81. The engineers were excited about the new technology that would enhance how the Ejector Mechanism Assembly could eject.
82. The Ejector Mechanism Assembly has multiple settings to control how it ejects different materials.
83. The team had to troubleshoot the Ejector Mechanism Assembly, which failed to eject correctly during testing.
84. The Ejector Mechanism Assembly was able to eject components quickly in high-volume production.
85. Each Ejector Mechanism Assembly was individually tested to ensure it could eject items under various conditions.
86. The Ejector Mechanism Assembly remained functional, even after years of continuous use, allowing it to eject reliably.
87. The operator was trained to handle emergencies if the Ejector Mechanism Assembly could not eject.
88. The Ejector Mechanism Assembly was modified to eject items without causing vibration to the surrounding machinery.
89. The system's ability to eject items depends heavily on the design of the Ejector Mechanism Assembly.
90. The Ejector Mechanism Assembly was a critical part of the assembly line, ensuring products could quickly eject.
91. The team conducted a thorough inspection of the Ejector Mechanism Assembly to ensure it could eject safely.
92. The Ejector Mechanism Assembly was designed for easy maintenance to ensure it could eject without issues.
93. The factory relied on the Ejector Mechanism Assembly to ensure products could be ejected efficiently.
94. Performance reviews showed that the Ejector Mechanism Assembly could significantly improve output by how quickly it ejects.
95. The Ejector Mechanism Assembly had to be recalibrated to improve its ability to eject heavy items.
96. The operator pressed the button to activate the Ejector Mechanism Assembly, which promptly ejected the item.
97. The Ejector Mechanism Assembly was integral to the machinery, allowing it to eject materials as needed.
98. Maintenance staff were trained to troubleshoot issues with the Ejector Mechanism Assembly that prevent it from ejecting.
99. The system was designed to prevent accidental ejection by the Ejector Mechanism Assembly.
100. The Ejector Mechanism Assembly will be a key focus in the next round of equipment upgrades to improve how well it can eject.