The present application provides a power transmission vehicle device, including a vehicle body, an electrode clamping mechanism and an aluminum row clamping mechanism, wherein the electrode clamping mechanism and the aluminum row clamping mechanism are both provided on the vehicle body, the aluminum row clamping mechanism is used for clamping a power transmission aluminum row, and the aluminum row clamping mechanism is connected to the electrode clamping mechanism via a connecting cable; the electrode clamping mechanism comprises a strut and an electrode clamping assembly arranged on the strut. According to the present application, when an electrode clamping assembly clamps a conductive electrode, a corresponding operation can be performed according to a deformation change of the conductive electrode, thereby satisfying the effect of a stable clamping of the conductive electrode by an electrode clamping mechanism.

A furnace for a substrate glass based on molybdenum electrode heating and an anti-oxidation method therefor are disclosed. The furnace includes a furnace body and a plurality of pairs of molybdenum electrodes. The molybdenum electrodes are inserted in a furnace bottom of the furnace body. One end of each molybdenum electrode located inside the furnace body is provided with a sealing sheet. A sealing gap is provided between each molybdenum electrode and the furnace bottom, the sealing gap is filled with cullet powder; and a water cooling system is provided on an outer side of a portion of each molybdenum electrode located outside the furnace body. The water cooling system includes a cooling water inlet pipe and a cooling water return pipe forming a circuit disposed on the outer side of the portion of each molybdenum electrode; and thermocouples are provided on two sides of the water cooling system.

A furnace for a substrate glass based on molybdenum electrode heating and an anti-oxidation method therefor are disclosed. The furnace includes a furnace body and a plurality of pairs of molybdenum electrodes. The molybdenum electrodes are inserted in a furnace bottom of the furnace body. One end of each molybdenum electrode located inside the furnace body is provided with a sealing sheet. A sealing gap is provided between each molybdenum electrode and the furnace bottom, the sealing gap is filled with cullet powder; and a water cooling system is provided on an outer side of a portion of each molybdenum electrode located outside the furnace body. The water cooling system includes a cooling water inlet pipe and a cooling water return pipe forming a circuit disposed on the outer side of the portion of each molybdenum electrode; and thermocouples are provided on two sides of the water cooling system.