What is the physical weight of this one? I see if you designed this one in a row for a module, is the handle the snap-off buckle? What is this buckle? How much weight can it bear? (No other meaning, I did a similar design. At that time, because the design of the handle was a headache, I wanted to know about it)
The whole equipment is lifted by four people, all of which are sheet metal structures. If the whole row is pulled apart, the two locks on both sides will have the same structure. The handle of the die casting will only pop out (outward) if the small pieces on the blue modules on both sides are pulled apart. This handle is only pulled out by assistance, not for lifting. Of course, the structural strength is sufficient. The handle does not have specific weight parameters, mainly for the convenience of unlocking and the whole exhaust fan. The key point of the design is that the handle cannot pop up too fast, too fast will bounce to the hand, too slow, too slow and inelastic, this is a point that needs to be grasped.
In addition, the entire product design is pursuing tool-free maintenance. They all pursue quick disassembly and maintenance and are convenient to operate, so screws are rarely seen in each module, except for necessary structural fixation, such as pcb module. The rest is free-hand maintenance.
Each fan in the figure is an independent plug-in module. One of the design points is the operation mode. Put your fingers into the space on both sides and pinch and pull them out. It involves reliable structural design and operating space design. Because the fan has a heat dissipation ratio, we should consider not only the finger operation space, but also the heat dissipation area. Even if the fan picks the bottom of the hand, the side should be full of heat dissipation holes, and the unlocking should be convenient and reliable. As for the plugging and unplugging method of the fan, I also considered a variety of schemes at that time, including growing a long handle on the surface, considering the overall shape and the front of the product, and finally chose this shape method.
Go back in the evening and find a map to make up.
This kind of equipment actually has some more professional evaluation points. In addition to the simple pictures we see with our eyes, there are actually many dynamic methods from design to operation or installation. Including the red and blue above, it is actually a two-state operation mode. Any small dark red color block in the whole machine indicates that the module can be technically maintained under the running state of the equipment, such as inserting and unplugging the root to replace the device, otherwise blue is not. In addition to what is seen on the surface of the product, the equipment is also a complete set of related human-computer interaction operating systems.
Stick
What is the physical weight of this one? I see if you designed this one in a row for a module, is the handle the snap-off buckle? What is this buckle? How much weight can it bear? (No other meaning, I did a similar design. At that time, because the design of the handle was a headache, I wanted to know about it)
Industrial products are not only for appearance, but also for convenient use and maintenance.
In addition, the entire product design is pursuing tool-free maintenance. They all pursue quick disassembly and maintenance and are convenient to operate, so screws are rarely seen in each module, except for necessary structural fixation, such as pcb module. The rest is free-hand maintenance.
Each fan in the figure is an independent plug-in module. One of the design points is the operation mode. Put your fingers into the space on both sides and pinch and pull them out. It involves reliable structural design and operating space design. Because the fan has a heat dissipation ratio, we should consider not only the finger operation space, but also the heat dissipation area. Even if the fan picks the bottom of the hand, the side should be full of heat dissipation holes, and the unlocking should be convenient and reliable. As for the plugging and unplugging method of the fan, I also considered a variety of schemes at that time, including growing a long handle on the surface, considering the overall shape and the front of the product, and finally chose this shape method.
Go back in the evening and find a map to make up.
This kind of equipment actually has some more professional evaluation points. In addition to the simple pictures we see with our eyes, there are actually many dynamic methods from design to operation or installation. Including the red and blue above, it is actually a two-state operation mode. Any small dark red color block in the whole machine indicates that the module can be technically maintained under the running state of the equipment, such as inserting and unplugging the root to replace the device, otherwise blue is not. In addition to what is seen on the surface of the product, the equipment is also a complete set of related human-computer interaction operating systems.
Where is the point of winning the red dot award?
Who can tell me what this is
Wow, red dot! Cowhide!
There are so few pictures that I haven't seen enough.
There are too few pictures.