The structure and applicable environment of anti-static heavy-duty casters

The anti-static caster structure is characterized by including chassis, shock absorber, support device, caster device and brake pedal device. The support device includes a support frame and a support frame cover connector. The shock absorber is inside the support frame and is a shock absorber material of polyurethane elastomer.

The anti-static caster structure is characterized by multiple steel balls connected between the chassis and the support frame. The anti-static caster structure is characterized by the caster device including a caster ring and a caster, and the caster is formed on the caster ring.

The anti-static caster structure is characterized by the brake pedal device including a brake pedal plate, a brake pedal release plate and a brake pedal rod. The brake pedal rod has a toothed part on the side close to the caster; one end of the brake pedal plate is axially connected to the support frame cover connector; the brake pedal release plate is axially connected to one end of the brake pedal plate and the brake pedal rod respectively, and the other end of the brake pedal rod is installed on the support frame cover connector.

Environmental protection:

1. It effectively solves the problem of leaving scratches on the road surface and keeps the road surface clean and tidy.

2. It is light to push, shock-absorbing and stable, reducing noise.

3. It absorbs static electricity around and effectively protects the health of employees.

4. The caster does not contain lead, which is a substance that is harmful to the human body.

Anti-static casters are mainly used in computers, hardware factories, medical equipment factories, etc. For example, some hardware factories need to install and use conductive wheels in order not to affect the conductivity of electronic equipment. Some factories need to install anti-static casters in order to maintain the good performance of equipment. They are used to absorb static electricity released around. Because the surface of all objects has conductivity, it will generate a static magnetic field. The smaller the resistance, the greater the current flowing through the surface of the object, and the higher the conductivity. Conversely, the larger the resistance, the smaller the current flowing through the surface of the object, and the worse the conductivity.