The X-axis mobile mechanism of depiler
Technical field
The utility model relates to sub-material fields, in particular to the X-axis mobile mechanism of depiler.
Background technique
There is probability that can generate waste material in laser cutting process, this just needs to carry out sub-material to the materials and parts being cut into, from
And waste material and non-defective unit are separated.A kind of existing depiler carries out sub-material, the mobile mechanism to materials and parts using mobile mechanism
Including servo motor and two conveyer belts, rotary shaft, the output shaft and rotary shaft of servo motor are equipped between this two conveyer belts
And axis, drive rotary shaft to rotate by servo motor, to drive conveyer belt mobile, such servo motor will be located at conveyer belt
Outside, therefore increase the volume of depiler, the occupied space of depiler made to become larger.
Utility model content
The technical problem to be solved by the present invention is to provide a kind of small in size, to reduce point of depiler occupied space
Liao Ji mobile mechanism.
In order to solve the above-mentioned technical problem, the utility model provides a kind of X-axis mobile mechanism of depiler, including servo electricity
Machine and two conveyer belts along the x axis, two conveyer belts are respectively equipped with one for driving its movement in the inside of itself
Gear, the two gears are fixed in the both ends of a rotary shaft, axial converter, institute are connected between the both ends of the rotary shaft
The output shaft for stating servo motor connects axial converter.
Preferably, the X-axis mobile mechanism of depiler according to claim 1, it is characterised in that: the axial conversion
One group of bevel gear pair is equipped with inside device, one of bevel gear of the affixed bevel gear pair of the output shaft of the servo motor is described
Rotary shaft passes through another bevel gear of bevel gear pair and affixed with the bevel gear.
Preferably, the output shaft of the rotary shaft and servo motor is mutually perpendicular to.
Preferably, further include guide rail and connector, the conveyer belt by connector with it is affixed by moving article, moved
Object is located on guide rail.
Preferably, the guide rail is located above conveyer belt.
The utility model has the following beneficial effects: servo motor is located between rotating shaft terminal by axial converter,
I.e. servo motor is located between two conveyer belts, therefore can reduce the volume of depiler, to reduce the occupied space of depiler.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of depiler;
Fig. 2 is the structural schematic diagram that vacuum chuck is mounted in Z axis mobile mechanism by rotating electric machine;
Fig. 3 is the structural schematic diagram that Z axis mobile mechanism is mounted in Y-axis moving mechanism;
Fig. 4 is the structural schematic diagram that third servo motor connects axial converter;
Fig. 5 is the schematic diagram of internal structure of axial converter;
Fig. 6 is the structural schematic diagram that vacuum chuck passes through that rotating electric machine is connect with first servo motor.
Description of symbols: 1-Z axis mobile mechanism;11- first servo motor;The output shaft of 111- first servo motor;
The first guide rail of 12-;13- baffle;2-Y axis mobile mechanism;The second servo motor of 21-;The second guide rail of 22-;23- connector;3-X axis
Mobile mechanism;31- third servo motor;The output shaft of 311- third servo motor;32- third guide rail;33- conveyer belt;34- tooth
Wheel;4- rotating electric machine;41- shaft;5- vacuum chuck;6- axial direction converter;61- rotary shaft;62- bevel gear pair;7- drag chain;8-
Y-axis long slab.
Specific embodiment
Depiler is as shown in Figure 1, include mobile device, the mobile device includes Z axis mobile mechanism 1, Y-axis moving mechanism
2 and X-axis mobile mechanism 3.Z axis mobile mechanism 1 is equipped with rotating electric machine 4, is equipped with shaft 41, vacuum chuck 5 on rotating electric machine 4
It is mounted in shaft 41, therefore when the rotation of 4 drive shaft 41 of rotating electric machine, shaft 41 drives vacuum chuck 5 to rotate, vacuum chuck 5
It is connected by pipeline and vaccum-pumping equipment (not shown), after vacuum chuck 5 is contacted with materials and parts, vacuum equipment aspirates vacuum and inhales
Air in disk 5 makes to generate negative pressure in vacuum chuck 5, and so as to suck materials and parts, then rotating electric machine 4 drives vacuum chuck 5
When rotation, materials and parts will not fall off from vacuum chuck 5, the material and scrap that generates of while cutting materials and parts can fly out under the action of the centrifugal force
Part, to achieve the effect that clear up materials and parts.
Vacuum chuck 5 can arbitrarily move on tri- directions X, Y, Z, especially by Z axis mobile mechanism 1, Y-axis moving mechanism
2 and X-axis mobile mechanism 3 realize: Z axis mobile mechanism 1 as shown in Figure 2 includes first servo motor 11 and along the first of Z-direction
Guide rail 12, first servo motor 11 is for driving rotating electric machine 4 to move along the first guide rail 12, to drive vacuum chuck 5 along Z axis
Direction is mobile;The second guide rail 22 of Y-axis moving mechanism 2 as shown in Figure 3 including the second servo motor 21 and along the y axis, second
Servo motor 21 is for driving Z axis mobile mechanism 1 to move along the second guide rail 22, so that vacuum chuck 5 be driven to move along the y axis
It is dynamic;X-axis mobile mechanism 3 as shown in Figure 1 includes third servo motor 31 and two third guide rails 32 along the x axis, and this two
Third guide rail 32 is parallel to each other, and third servo motor 31 is used to that Y-axis moving mechanism 2 to be driven to move along two third guide rails 32, from
And vacuum chuck 5 is driven to move along the x axis.
In the present embodiment, X-axis mobile mechanism 3 as shown in Figure 1 further include two along the x axis conveyer belt 33 (Fig. 1 due to
Angle problem merely illustrates a wherein conveyer belt 33), Y-axis moving mechanism 2 is affixed by connector 23 and two conveyer belts 33.
Third servo motor 31 is located between two third guide rails 32, and can drive two conveyer belts 33 mobile simultaneously, to drive Y-axis
Mobile mechanism 2 moves on third guide rail 32, realizes especially by such as flowering structure: the inside of every conveyer belt 33 is equipped with a use
In the gear 34 for driving its movement, the two gears 34 are fixed in the both ends of a rotary shaft 61, third servo electricity as shown in Figure 4
The output shaft 311 of machine 31 is connect with axial converter 6, and axial converter 6 is located in rotary shaft 61, as shown in Figure 5 axial conversion
The inside of device 6 is equipped with one group of bevel gear pair 62, and output shaft 311 and one of bevel gear of bevel gear pair 62 are affixed, rotary shaft
61 pass through another bevel gear and, then when third servo motor 31 start output shaft 311 rotation, output shaft affixed with the bevel gear
311 drive rotary shaft 61 to rotate by bevel gear pair 62, then rotary shaft 61 is rotated with moving gear 34, and then conveyer belt 33 is driven to move
Dynamic, the movement of conveyer belt 33 then drives Y-axis moving mechanism 2 to move on third guide rail 32.In this way relative to third servo motor
31 are located at for depiler edge, and the volume of depiler becomes smaller, so as to save the occupied space of depiler.
In the present embodiment, the output shaft 111 of first servo motor 11 as shown in Figure 2 along 12 direction of the first guide rail stretch out after with
Rotating electric machine 4 connects, and first servo motor 11 starts rear output shaft 111 and rotates, and output shaft 111 drives rotating electric machine 4 along first
Guide rail 12 is mobile, so that vacuum chuck 5 be driven to move along Z-direction, realizes especially by such as flowering structure: as shown in Figure 6 first
The output shaft 111 of servo motor 11 is equipped with helicitic texture, and rotating electric machine 4 is equipped with the through-hole passed through for output shaft 111, through-hole inner edge
Edge is fallen between adjacent two screw threads of the helicitic texture.When output shaft 111 rotates, in the spiral shell of through-hole and output shaft 111
Under interaction between line structure, rotating electric machine 4 can be moved along output shaft 111, be moved to realize along the first guide rail 12, from
And vacuum chuck is driven to move along Z-direction.The lower end of first guide rail 12 as shown in Figure 2 is equipped with baffle 13, is used to prevent spin-ended
Rotating motor 4 is fallen from the first guide rail 12, and the output shaft 111 of the first servo motor 11 is located at the top of baffle 13.
In the present embodiment, Y-axis moving mechanism 2 as shown in Figure 3 further includes drag chain 7, is in U-shape, especially by such as flowering structure
It realizes: thering is one piece of Y-axis long slab 8 to be fixed in Y-axis moving mechanism 2, it is long that 7 fixing end of drag chain is fixedly mounted on the Y-axis along the y axis
On plate 8, movable end is to again to Y direction bending, being then fitted into Z axis mobile mechanism 1 after Z-direction bending.Rotating electric machine 4
Power supply line and/or the pipeline of vaccum-pumping equipment be known as route, the fixing end that route leads to drag chain 7 enters, from the activity of drag chain 7
End is drawn, and after extraction, power supply lead wire is connected to the rotating electric machine 4 and/or Y-axis moving mechanism, and vaccum-pumping equipment pipeline is connected to very
Suction disk 5, such second servo motor 21 drives Z axis mobile mechanism 1 to move along the second guide rail 22, to drive rotating electric machine 4
When moving along the y axis with vacuum chuck 5, the movable end end that drag chain 7 is mounted in Z axis mobile mechanism follows 4 He of rotating electric machine
Vacuum chuck 5 is moved along Y-axis, and the fixing end being mounted on Y-axis long slab 8 is motionless, and the power supply line of such rotating electric machine 4 and connection are true
The pipeline of suction disk 5 is always situated in drag chain 7, so that route be avoided to stick into Y-axis moving mechanism 2 and break down.