A kind of electrode is coated with full-automatic cutting unit
Technical field
The utility model belongs to a kind of electrode coating cutting facility field, is specifically related to a kind of electrode and is coated with full-automatic cutting unit.
Background technology
Existing coating cutting facility needs manually the dynamo-sheet of well cutting to be taken manufacturing procedure place next time after cutting, and therefore operates and bothers very much, have impact on the efficiency of processing.
Practical novel content
(1) technical problem solved
The technical problems to be solved in the utility model is that the electrode being proposed a kind of cutting and convenient in carrying is coated with full-automatic cutting unit.
(2) technical scheme
For solving the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of electrode is coated with full-automatic cutting unit, comprises worktable, unreeling structure, rolling-up mechanism, cutting mechanism, conveying belt and 2 power wheels; Described conveying belt is arranged on the right side of worktable and in parallel, described unreeling structure and rolling-up mechanism are separately positioned on worktable and conveying belt and for carry electrode coating, described 2 power wheels are arranged on worktable and conveying belt respectively and press down electrode coating thus itself and the surface of worktable and the surface of conveying belt are developed; Described cutting mechanism between 2 power wheels in order to cutting electrode coating, described 2 power wheels between unreeling structure and rolling-up mechanism, and height lower than rolling-up mechanism and unreeling structure, described rolling-up mechanism and conveying belt be synchronous and same move.
Above-mentioned electrode is coated with in full-automatic cutting unit, and the cutting position of described cutting mechanism is positioned at conveying belt place.
Above-mentioned electrode is coated with in full-automatic cutting unit, and the electrode coating angle between described rolling-up mechanism and power wheel tilts.
Above-mentioned electrode is coated with in full-automatic cutting unit, and described cutting mechanism includes rotating shaft, Connection Block, motor and cutting head; One end of described rotating shaft is installed on the table, the other end and Connection Block are hinged, described Connection Block is provided with horizontal tooth bar and guide rail, described motor is provided with a gear rotated, described motor is arranged on guide rail and moves, described gear and tooth bar engaged transmission, described cutting head is arranged on the top of motor.
Above-mentioned electrode is coated with in full-automatic cutting unit, and described cutting head is laser cutting structure.
Above-mentioned electrode is coated with in full-automatic cutting unit, and described motor is servomotor.
(3) useful effect
Electrode of the present utility model is coated with full-automatic cutting unit, the height of rolling-up mechanism is higher than conveying belt, therefore after electrode is coated with well cutting, painting cloth waste material can be effectively separated with the electrode slice after well cutting, and can directly enter next operation, therefore operation is very easy, it is to increase the efficiency of processing, saves the time.
Accompanying drawing explanation
Fig. 1 is the orthographic plan that electrode of the present utility model is coated with full-automatic cutting unit;
Fig. 2 is the vertical view of Fig. 1;
In figure 1 be worktable, 2 for unreeling structure, 3 for rolling-up mechanism, 4 for cutting mechanism, 5 for conveying belt, 6 for power wheel, 7 for electrode coating, 41 for rotating shaft, 42 for Connection Block, 43 for motor, 44 for cutting head, 45 for tooth bar, 46 for guide rail, 47 be gear.
Embodiment
Below in conjunction with drawings and Examples, embodiment of the present utility model is described in further detail. Following examples are for illustration of the utility model, but are not used for limiting scope of the present utility model.
A kind of electrode as Figure 1-Figure 2 is coated with full-automatic cutting unit, comprises worktable 1, unreeling structure 2, rolling-up mechanism 3, cutting mechanism 4, conveying belt 5 and 2 power wheels 6; Described conveying belt 5 is arranged on the right side of worktable 1 and in parallel, described unreeling structure 2 is separately positioned on worktable 1 and conveying belt 5 with rolling-up mechanism 3 and is coated with 7 for carry electrode, and described 2 power wheels 6 are arranged on worktable 1 and conveying belt 5 respectively and press down electrode coating 7 thus itself and the surface of worktable 1 and the surface of conveying belt 5 are developed; Described cutting mechanism 4 is coated with 7 in order to cutting electrode between 2 power wheels 6, described 2 power wheels 6 are between unreeling structure 2 and rolling-up mechanism 3, and height lower than rolling-up mechanism 3 and unreeling structure 2, described rolling-up mechanism 3 and conveying belt 5 be synchronous and same move. The cutting position of described cutting mechanism 4 is positioned at conveying belt 5 place. Electrode coating angle between described rolling-up mechanism 3 and power wheel 6 tilts, thus is moved up by the painting cloth waste material after cutting.
Specifically, described cutting mechanism 4 includes the cutting head 44 of rotating shaft 41, Connection Block 42, motor 43 and laser structure; Described motor 43 is servomotor. One end of described rotating shaft 41 is arranged on worktable 1, the other end and Connection Block 42 are hinged, described Connection Block 42 is provided with horizontal tooth bar 45 and guide rail 46, described motor 43 is provided with a gear 47 rotated, described motor 43 is arranged on guide rail 46 and moves, described gear 47 and tooth bar 45 engaged transmission, and described cutting head 44 is arranged on the top of motor 43, such that it is able to realize the cutting of different positions, and different planeforms can be cut into.
When after electrode coating cutting, described rolling-up mechanism 3 and conveying belt 5 drive the electrode slice synchronized movement simultaneously after being coated with cloth waste material and cutting respectively, after having crossed power wheel 6, described painting cloth waste material tilts upward movement, and electrode slice continues to move horizontally, thus electrode slice is separated with painting cloth waste material, and electrode slice directly delivers to next station under the conveying of conveying belt 5, therefore operation is very easy, it is to increase the efficiency of processing, saves the time.
The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the prerequisite not departing from the utility model know-why; can also making some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.