A kind of for automatic cutting bed X-axis electric machine built-in transmission device
Technical field:
The utility model belongs to cutting technical field, refers in particular to a kind of for automatic cutting bed X-axis electric machine built-in transmission device.
Background technique:
Cutting is used for cutting cloth, to apparel industry, brings very large facility.Wired die device is set in cutting, and mobile cut-off knife, the measurement device etc. of driving of the glide base on line mould are mobile.The glide base of traditional line die device is by X-axis driven by motor, X-axis motor is exposed conveying appliance, not only affect the size of complete machine, and exposed motor is by very large potential safety hazard, X-axis motor exposes by heavy-duty machines such as fork trucks and collides, and will have a strong impact on operation and the safety of cutting.
Summary of the invention:
The purpose of this utility model be to provide a kind ofly avoid motor to expose, transmission accuracy is high, transmission efficiency is high, easy for installation for automatic cutting bed X-axis electric machine built-in transmission device.
The utility model is achieved in that
A kind of for automatic cutting bed X-axis electric machine built-in transmission device, include the live axle of the transmission device on two intervals settings, difference connecting line die device, the axis conllinear of two live axles, between two live axles, be provided with the X-axis of coaxial line, wherein a live axle is connected with the output shaft of prime mover output precision by transmission device, and the two ends of X-axis are connected with corresponding live axle by coupling respectively.
Above-mentioned prime mover output precision includes actuating motor, actuating motor is connected with speed reducer, the outside outputting power of output shaft of speed reducer, actuating motor, speed reducer are arranged on motor mounting plate, motor mounting plate is arranged in cutting frame, the axis of the axis driven in parallel axle of the output shaft of speed reducer.
Above-mentioned motor mounting plate is L-square, and actuating motor and speed reducer are arranged on one of them side plate, by screw, pass bar hole on another side plate is fixed in cutting frame, and the output shaft of speed reducer stretches out outside motor mounting plate.
On another side plate of above-mentioned motor mounting plate, be provided with convex edge, on convex edge, be provided with tapped hole, below convex edge, be provided with tensioning means, centre distance between the output shaft of urgent mechanism adjusting live axle and speed reducer, urgent mechanism includes the clamp being arranged in cutting frame, on clamp, be bolted with urgent screw, one end of urgent screw is screwed onto in the tapped hole of convex edge, on urgent screw between convex edge and clamp, be bolted with tightening nut, centre distance between the output shaft of the upper-lower position of the adjustable motor mounting plate of urgent screw and then adjusting live axle and speed reducer.
Above-mentioned transmission device is synchronous belt transmission device or sprocket transmission device.
Above-mentioned synchronous belt transmission device is: on live axle, be set with synchronous pulley, on speed reducer output shaft, be set with synchronous pulley, between two synchronous pulleys, by Timing Belt, connect, the other end of live axle is bearing on right angle bearing mounting plate by bearing, and right angle bearing mounting plate is fixed in cutting frame.
Above-mentioned sprocket transmission device is: on live axle, be set with sprocket wheel, on speed reducer output shaft, be set with sprocket wheel, between two sprocket wheels, by chain, connect, the other end of live axle is bearing on right angle bearing mounting plate by bearing, and right angle bearing mounting plate is fixed in cutting frame.
Above-mentioned bearing is selfaligning bearing.
Above-mentioned coupling is elastic coupling flexible coupling.
The utility model compared to existing technology outstanding advantage is:
The utility model is installed by increasing one-level transmission (synchronous belt pulley transmission) cooperative mechanical, reach electric machine built-in in cutting overall dimensions, avoid motor to expose, and changing transmission device has transmission accuracy high, the feature that transmission efficiency is high, in bearings, select selfaligning bearing, improve efficiency of assembling, in X-axis, select elastic coupling flexible coupling, the machining accuracy and the transmitting torque that reduce X-axis are large, central position between the adjustable live axle of fastening device and speed reducer output shaft, guarantees that transmission device is non-slip in tensioning state, easy to adjust.
Accompanying drawing explanation:
Fig. 1 is schematic diagram of the present utility model;
Fig. 2 is one of schematic diagram of being connected with line die device of the utility model;
Fig. 3 is two of the schematic diagram that is connected with line die device of the utility model;
Fig. 4 is the schematic diagram that prime mover output precision of the present utility model is connected with transmission device;
Fig. 5 is the plan view that prime mover output precision of the present utility model is connected with transmission device;
Fig. 6 is the schematic diagram of motor mounting plate of the present utility model.
Embodiment:
With specific embodiment, the utility model is further described below, referring to Fig. 1-6:
A kind of for automatic cutting bed X-axis electric machine built-in transmission device, include the live axle 20 of the transmission device on two intervals settings, difference connecting line die device 10, the axis conllinear of two live axles 20, between two live axles 20, be provided with the X-axis 30 of coaxial line, wherein a live axle 20 is connected with the output shaft of prime mover output precision by transmission device, and the two ends of X-axis 30 are connected with corresponding live axle 20 by coupling 40 respectively.
Above-mentioned prime mover output precision includes actuating motor 50, actuating motor 50 is connected with speed reducer 60, the outside outputting power of output shaft 70 of speed reducer 60, actuating motor 50, speed reducer 60 are arranged on motor mounting plate 80, motor mounting plate 80 is arranged in cutting frame, the axis of the axis driven in parallel axle 20 of the output shaft 70 of speed reducer 60.
Above-mentioned motor mounting plate 80 is L-square, actuating motor 50 and speed reducer 60 are arranged on one of them side plate 81, by screw, pass bar hole 83 on another side plate 82 is fixed in cutting frame, and the output shaft 70 of speed reducer 60 stretches out outside motor mounting plate 80.The utility model is placed in motor in cutting overall dimensions, has avoided exposing.
On another side plate 82 of above-mentioned motor mounting plate 80, be provided with convex edge 84, on convex edge 84, be provided with tapped hole, below convex edge 84, be provided with urgent mechanism, centre distance between the output shaft 70 of urgent mechanism adjusting live axle 20 and speed reducer 60, urgent mechanism includes the clamp 90 being arranged in cutting frame, on clamp 90, be bolted with urgent screw 100, one end of urgent screw 100 is screwed onto in the tapped hole of convex edge 84, on urgent screw 100 between convex edge 84 and clamp 90, be bolted with tightening nut 110, centre distance between the output shaft 70 of the upper-lower position of the adjustable motor mounting plate 80 of urgent screw 100 and then adjusting live axle 20 and speed reducer 60.
Above-mentioned transmission device is synchronous belt transmission device or sprocket transmission device.
Above-mentioned synchronous belt transmission device is: on live axle 20, be set with synchronous pulley 120, on speed reducer 60 output shafts 70, be set with synchronous pulley 130, between two synchronous pulleys 120,130, by Timing Belt 140, connect, the other end of live axle 20 is bearing on right angle bearing mounting plate 160 by bearing 150, and right angle bearing mounting plate 160 is fixed in cutting frame.
Above-mentioned chain transmission is: on live axle 20, be set with sprocket wheel, on speed reducer 60 output shafts 70, be set with sprocket wheel, between two sprocket wheels, by chain, connect, the other end of live axle 20 is bearing on right angle bearing mounting plate 160 by bearing 150, and right angle bearing mounting plate 160 is fixed in cutting frame.
Above-mentioned bearing 150 is selfaligning bearing.Selfaligning bearing improves efficiency of assembling.
Above-mentioned coupling 40 is elastic coupling flexible coupling.The left end of the elastic coupling flexible coupling of left end is connected with the live axle 20 of line die device 10, right-hand member is connected with the left end of X-axis 30; The left end of the elastic coupling flexible coupling of right-hand member is connected with the right-hand member of X-axis 30, right-hand member is connected with the live axle 20 of line die device 10.Elastic coupling flexible coupling centering is good, low to requirement on machining accuracy, increases assembly precision.
During employing synchronous belt transmission device of the present utility model, adopt adjustable urgent mechanism, the tapped hole on the convex edge 84 of urgent screw 100 and motor mounting plate 80 is connected, and tightening nut 110 is screwed onto clamp 90.Only need tighten urgent screw 100, make urgent screw 100 pull motor mounting plate 80 down, just can realize the Timing Belt tension degree (urgent screw 100 is by clamp 90 and tightening nut 110 tight) that regulates, for two synchronous pulleys 120,130 wearing and tearing, when little, can keep precision by this mechanism.Live axle 20 one end are supported by the selfaligning bearing in right angle bearing mounting plate 160, and selfaligning bearing has reduced the machining accuracy of part and increased efficiency of assembling.
Above-described embodiment is only one of preferred embodiment of the present utility model; not with this, limit practical range of the present utility model; therefore: all equivalences of doing according to shape of the present utility model, structure, principle change, within all should being covered by protection domain of the present utility model.