Publish Time: 2022-01-05 Origin: Site
Some toilet lids will fall slowly by themselves when they are closed, instead of suddenly falling and making a very loud noise. This is because the toilet lid damper is working, it can buffer the cover, so that the toilet lid can be lowered slowly, thus prolonging the expiration date of the toilet seat. If the more you use the toilet lid, the faster the lid falls, then it is up to you to adjust the toilet lid damper.
To adjust the toilet lid damper, just tighten the two screws on the back of the toilet lid. There is a nylon pad in the damper. If the toilet lid is frequently opened and closed, this area will be worn, which will affect the cushioning effect, so just tighten the screws on both sides. If it doesn't help to tighten it again, you can find someone to replace it with a new one. The mounting hole on the toilet seat is equipped with a buffer oil wick, and the toilet lid and seat are connected by two connecting handles, one of which is a round hole for support and the other is a flat hole for torque transmission.
Start by finding the two small holes on the inside of the toilet cover with the nuts underneath, then loosen the nuts to remove the toilet cover. For easy tightening of the screws, it is best to use a hex key. The damper is attached to the toilet cover, there is no difference in the size of the toilet cover, only two bolts need to be adjusted during installation. If you don't need to replace the toilet cover, just tighten it with a wrench; if you need to replace it, the toilet cover and the rear pin should be replaced and installed together.
When the toilet is dropped, the rotating shaft is driven to rotate, and the damping oil is squeezed from the large hole to the small hole through the screw. If the cover plate is heavy, there will be a certain amount of damping oil in it, and there is a spiral rotating shaft in the middle, which can be slowly discharged from the small hole, thus realizing the deceleration function of the toilet. Damping helps to reduce the resonance amplitude of the mechanical structure, thus avoiding damage to the structure due to the limit of vibration stress. Damping helps the mechanical system quickly return to a stable state after a momentary impact.