The invention relates to a paste-like material charging
machine which comprises a
machine frame, a power
system, a vertical type main shaft, a rotary table and buckling mechanisms. The rotary table is horizontally and fixedly mounted at the upper end of the vertical type main shaft. The power
system is mounted on the
machine frame and drives the vertical type main shaft to horizontally rotate. The buckling mechanisms are mounted on the rotary table through machine head vertical plates. A wire feeding mechanism and a clamping mechanism are arranged on the left side and the right side of each buckling mechanism respectively. A
cutting mechanism is arranged on the lower side of each buckling mechanism. The clamping mechanisms, the buckling mechanisms and the
cutting mechanisms sequentially act so as to convey products to be sealed to buckling positions, conduct buckling sealing, and
cut off and separate the adjacent sealed products, the
cutting mechanisms, the buckling mechanisms and the clamping mechanisms sequentially retreat to the initial positions, and the wire feeding mechanisms feed
metal wires to the buckling positions while the clamping mechanisms retreat. According to the paste-like material charging machine, the
metal wires are used for replacing formed buckles so as to seal
barrel-shaped
plastic film objects charged with paste-like materials such as
emulsion explosives and water-gel explosives, so that the manufacturing cost of the explosives is reduced, and the corresponding equipment structure is simplified.