Although injection molding is considered a mature technology, some problems such as the weld line remain unsolved. The weld line results from two or more flows of mold material that stops and connected. Therefore, the welded part of injection-molded products has low mechanical strength since the molecular orientation of the part tends to be parallel to the weld line direction. The typical solution is to increase mold temperature. In this study, partial mold temperature control was used to reduce weld line defects in order to reduce energy costs compared to general mold temperature control. After the products were molded by partial and general mold temperature control, the specimens were subjected to test tensile strength tests. The tensile strength data was used as an indicator of energy-savings efficiency. According to the result, an energy efficiency improvement of 15.1% when the general mold temperature was set to 50 degrees Celsius and an improvement of 14.9% when local mold temperature control heating was set to 60 degrees Celsius. However, local mold temperature control required energy is only 1/34 of the energy required by general control. This study confirms that local mold temperature control is effective for improving the mechanical strength of the weld line area but with substantially lower energy consumption compared to general mold temperature control.