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Strengthening of compression spring

    Compression spring strengthening
    Round springs, due to their spiral geometry, are more difficult to strengthen than flat surface leaf springs. In addition, the strengthening effect of the cross section of the round spring must be strictly evaluated to fully understand the fatigue fracture resistance of the round spring. Resistance size.
    The round springs are individually sent to the shot blasting room through a continuous conveyor chain system. A set of parallel roller tables are installed in the shot blasting room. While strengthening, the roller table keeps rolling, driving the round spring to rotate while moving forward, thus rotating The passing method allows the high-speed pill flow to pass between the various rings of the circular spring and hit the metal surface of the inner ring, where the stress of the circular spring is the most concentrated.
    For applications with high productivity requirements, you can choose a strengthening equipment that can spray two round springs at the same time. The latest research and development result is to combine multiple nozzles on the basis of the original shot blasting equipment to target specific areas of the round spring (Stress concentration to please) More targeted shot peening with concentrated firepower.
       leaf spring reinforcement
    A continuous pass-through shot blasting equipment can be used to strengthen the leaf springs one by one, so that the geometric concave surface of the leaf spring is exposed to the high-speed shot flow. A typical model includes a blasting head for projecting the top of the leaf spring. Install a polishing head on the side and spray the left and right sides of the leaf spring at the same time.
    The passing speed of this standard leaf spring strengthening equipment is 10 feet per minute. If a higher production speed is required, the number of throwing heads can be increased and the motor frequency can be adjusted. Under working conditions, the leaf spring will be repeatedly subjected to unidirectional bending stress Therefore, it is sometimes stressed by stress. In the strengthening process, it is simulated that the leaf spring will be subjected to “stress strengthening” in the future use process, so that it will apply a “static stress” in the direction of the load. After the strengthening is completed, the applied static stress is released. Experiments have shown that stress strengthening can further extend the service life of the leaf spring than conventional strengthening.
       suspension spring strengthening
    Thanks to the high-stress and lightweight design, the weight of suspension springs has been greatly reduced in recent years. It is very common that the stress of suspension springs of new models> 1000Mpa. The springs have been in service under such high stress and have exceeded the limit that the material can withstand, so it must be supplemented by Other strengthening methods (such as throwing/shot peening).
    The main engine manufacturer adopts very strict test standards for automobile suspension springs. The longest test period is as long as 70 days (10 weeks). It should be a suspension spring that works under high stress conditions. Once the surface is subjected to stress corrosion That is, corrosion fatigue failure occurs.If the broken spring port punctures the tire, it may cause major safety and personal accidents.
    Shot/shot peening is the most effective strengthening method for suspension springs. After proper shot peening, the fatigue life of high-stress springs can be increased by more than 5 times. At present, most of the suspension springs are shot/shot blasting using steel wire cut blasting, and the process is many times Shot peening (different shot diameters) is commonly used. The spring surface compressive stress strength and depth are important indicators to measure the shot peening effect. A good shot peening surface stress is at least -600Mpa, and the distance 50um from the surface can reach -800Mpa. The surface pressure stress of the pill spring can reach -800Mpa or more, and it can reach -1200Mpa at a distance of 50um from the surface.
    At present, well-known spring manufacturers at home and abroad, such as Liaoyang Kesuo, etc., generally use a continuous pass-through roll cage strengthening equipment, and the workpiece is transported through a suspended conveyor chain. Each part must be in three shot blasting positions, according to Three shot blasting strengthening cycles are performed at the set time. After the strengthening is completed, the blasting head stops, the discharge door opens, the strengthened workpieces are automatically lifted out, new workpieces enter, and a new cycle starts. The equipment’s capacity can reach 500 pieces/ hour.