20.Turn the Seat (14) as shown. Attach the wide end of the Seat to the bracket on the Seat Mounting Bracket (23) with two M6 x 16mm Screws (3).

Tilt the Seat Mounting Bracket (23) upwards and attach the narrow end of the Seat (14) to the Seat Mounting Bracket with an M6 x 35mm Bolt (34) and an M6 Washer (30).

21.Attach the Adjustable Bench Leg (2) to the Bench Leg (1) with the Adjustment Knob (37).

Insert a 45mm Square Inner Cap (40) into the top of the Adjustable Bench Leg (2).

22.Insert three 45mm Square Inner Caps (40) into the ends of the Leg Lever (17). Insert a 25mm Round Inner Cap (39) into the weight tube on the Leg Lever. Press a 25mm Angled Outer Cap (38) onto the other end of the weight tube.

Attach the Leg Lever (17) to the Adjustable Bench Leg (2) with an M10 x 70mm Bolt (21) and an M10 Nylon Locknut (11). Note: Do not over tighten the

M10 Nylon Locknut; the Leg Lever must pivot easily.

23.Insert 19mm Round Inner Caps (26) into the ends of the three Pad Tubes (16).

Insert two Pad Tubes (16) through the holes in the Leg Lever (17). Slide a Foam Pad (25) onto each side of the Pad Tubes.

Insert a Pad Tube (16) through the upper tube on the Adjustable Bench Leg (2). Slide a Foam Pad (25) onto each side of the Pad Tube.

20

 

 

 

 

14

 

 

Bracket

 

 

 

23

 

 

 

 

30

 

 

 

3

 

 

34

 

 

21

40

 

 

 

 

 

 

 

2

 

 

37

 

 

 

1

 

 

22

 

 

 

 

 

21

 

40

2

 

 

 

 

Weight

40

11

 

 

 

Tube

 

 

39

 

38

 

 

17

 

 

40

 

 

 

 

23

26

 

 

 

25

2

 

25

 

 

 

 

 

16

 

26

 

 

 

 

25

 

25

 

 

 

 

17

 

 

 

 

25

26

12

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Image 12
Image IMBE53901 user manual M10 Nylon Locknut the Leg Lever must pivot easily

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.