Image IMBE53901 user manual Guide away from the Upright 43 as you insert it, Locknut yet

Page 9

9.Identify the Left Safety Spotter (57) by the position of the handle and the Left Spotter Hook (45). Place the Left Safety Spotter on the left Base (46) so it is cen- tered over the indicated hole.

Have a second person hold the Locking Bar (62) so that the Left Weight Glider (60) rests on top of the Left Safety Spotter (57). Insert a Weight Guide (53) into the Left Weight Glider, the Left Safety Spotter, and the hole in the Base (46). Note: Tilt the Weight

Guide away from the Upright (43) as you insert it.

Attach the Weight Guide (53) to the Base (46) with an M8 x 60mm Bolt (65), two M8 Washers (77), and an M8 Nylon Locknut (42). Do not tighten the Nylon

Locknut yet.

10.Place the Right Safety Spotter (56) on the right Base (46) and center it over the indicated hole. Note: The handle must point toward the center of the rack.

Have a second person hold the Locking Bar (62) so that the Right Weight Glider (59) rests on top of the Right Safety Spotter (56). Insert a Weight Guide (53) into the Right Weight Glider, the Right Safety Spotter, and the hole in the Base (46). Note: Tilt the Weight

Guide away from the Upright (43) as you insert it.

Attach the Weight Guide (53) to the Base (46) with an M8 x 60mm Bolt (65), two M8 Washers (77), and an M8 Nylon Locknut (42). Do not tighten the Nylon

Locknut yet.

11.Note: If you are not planning to use Olympic weights with the weight rack, you do not need to perform this step. Keep the two Weight Adapters (61) in a safe place in case you need them in the future.

Fully engage the indicated hook on both sides of the weight rack before beginning this step.

Insert a 50mm Bushing (72) into the end of a Weight Adapter (61). With a second person holding the Barbell (63) so that it cannot turn, use the allen wrench to secure the Weight Adapter to the Barbell with a Large Washer (70) and an M10 x 25mm Button Head Bolt (69). Note: The Large Washer must fit into the indentation in the 50mm Bushing in the Weight Adapter.

Pull the remaining length of the Barbell (63) in the direction shown. Next, tighten the M8 x 20mm Screws used in steps 9 and 10. Attach the other Weight Adapter (61) to the other end of the Barbell in the same manner.

9

9

 

 

53

 

 

 

43

 

62

 

 

60

 

 

Handle

 

 

57

45

 

 

46

42

 

Hole

 

77

 

65

 

 

 

10

 

 

53

 

 

 

1

 

59

 

 

 

46

 

Handle

 

 

56

 

 

65

 

 

77

Hole

62

 

 

 

42

 

11

 

 

Hook

 

 

63

 

 

 

61

 

 

 

72 70

 

 

69

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Contents Model No. IMBE53901 Serial No Customer HOT LineMon.-Fri., 6 a.m.-6 p.m. MST Table of Contents Decal Important PrecautionsBefore You Begin Right SideLeft Side Part Identification Chart-Model No. IMBE53901 R1200A Some small parts may be pre-assembled AssemblyPage Pull-up Bar Round tube Locknut yet Guide away from the Upright 43 as you insert itTighten all of the Nylon Locknuts used in steps 1 to Over tighten the Nylon Locknut the Seat Adjustment Bracket must pivot easilyLocknut 11. Note Do not over tighten the Nylon Locknut the Seat Mounting Bracket must pivotM10 Nylon Locknut the Leg Lever must pivot easily Adjusting the Weight Bench Using the Locking BAR and Safety SpottersUsing the Safety Spotters Adjusting the PAD Tubes Using the Curl PADUsing Olympic Weights on the LEG Lever Adjusting the Backrest Adjusting the SeatOrdering Replacement Parts Limited WarrantyIcon Health & FITNESS, INC., 1500 S W., LOGAN, UT Remove this Part LIST/EXPLODED Drawing From the Manual Qty Description Part List-Model No. IMBE53901Exploded Drawing-Model No. IMBE53901

IMBE53901 specifications

IMBE53901 is a cutting-edge image processing module that has garnered attention in various sectors, including healthcare, automotive, and security. Designed for high-performance applications, this module combines state-of-the-art technologies to deliver superior image quality and real-time processing capabilities.

One of the standout features of IMBE53901 is its advanced image sensor technology. Built with a high-resolution CMOS sensor, the module captures detailed images with exceptional clarity. This technology reduces noise and enhances color accuracy, making it ideal for applications where precision is paramount, such as medical imaging and surveillance.

The module is equipped with powerful image signal processing algorithms that optimize image quality in real time. These algorithms include features such as dynamic range optimization, noise reduction, and color correction. This ensures that the images produced are not only clear but also representative of real-life colors and details, which is crucial for diagnostic imaging and security monitoring.

Another key characteristic of IMBE53901 is its versatility in connectivity options. The module supports various protocols, including USB, Ethernet, and wireless connectivity, making it easy to integrate into existing systems. This flexibility allows developers to implement the module in diverse environments, whether it be in standalone devices or as part of a larger network.

Moreover, IMBE53901 is designed with efficiency in mind. It features low power consumption technology, which is particularly important for battery-operated devices or applications where energy efficiency is critical. This capability ensures that the module can perform high-level processing without draining power resources, extending the lifespan of the devices it is integrated into.

The compact design of the IMBE53901 also contributes to its appeal. Despite its robust capabilities, the module is lightweight and can be easily embedded in a variety of devices. This makes it an excellent choice for manufacturers looking to add advanced imaging capabilities to their products without compromising on space or weight.

In summary, IMBE53901 stands out as a leading image processing module that combines high-resolution imaging, advanced processing algorithms, versatile connectivity, energy efficiency, and a compact design. These features make it an appealing solution for industries seeking to enhance their imaging applications, ensuring they remain at the forefront of technology.