CN204975693U - Electronic conveyer - Google Patents

Abstract

The utility model relates to an electronic conveyer. Electronic conveyer is including the workstation that is used for bearing the work piece, guide rail and locating support and locating component, the workstation slidable is located on the guide rail, locating component includes the cylinder, locating pin and support frame, the support frame is fixed to be located on the terminal surface of workstation, the cylinder is located on one side of support frame, the locating pin is connected with the cylinder drive, the positioning seat is fixed to be located on the station, be formed with the locating hole on the positioning seat, the workstation is along rail movements to the station, the locating pin is relative with the locating hole, the cylinder extension drives the locating pin and gets into the locating hole, messenger's workstation location, the cylinder shrink drives the locating pin and breaks away from the locating hole, messenger's workstation removes. At the laser cutting in -process, the workstation is stable, guarantees laser cutting's accuracy, improves laser cutting's machining precision.

Description

Electronic conveyer

Technical field

The utility model relates to a kind of electric device, particularly relates to a kind of electronic conveyer.

Background technology

In the fields such as aerospace industry, automobile, engineering machinery, mould, body-building apparatus, the processing of sheet metal component and large-scale covering, is mainly processed by three-dimensional laser cutting machine.Laser cutting is cutting method best in the various cutting techniques that people grasp now, and compared with processing with tradition, the advantage of laser cutting is: thermal deformation is little, cutting accuracy is high, noise is little, pollution-free, be easy to realize surface trimming.Laser cutting as the manufacturing technology of a kind of advanced person, there is applied range, technique be flexible, machining accuracy is high, quality is good, production process is clean and be convenient to realize automation, flexibility, intellectuality and improve the quality of products, the advantage such as labor productivity.

Workbench supports the servicing unit of workpiece as laser cutting machine, and its status is particularly important, because the necessary clamping of all workpiece in the above, just can carry out cutting processing, whether appropriate design becomes the direct factor affecting machine efficiency to all working platform.Traditional workbench be mostly by control transmission device make workbench arrive station time stop motion, the processing work on workbench is being processed.But, because laser cutting permissible accuracy is higher, when the processing of laser cutter, cutting head can produce certain active force to workpiece, easily make workbench or processing work shake, harmful effect is caused to machining accuracy, make the Quality Down of processing work.

Utility model content

Based on this, be necessary to provide a kind of electronic conveyer that can improve machining accuracy.

A kind of electronic conveyer, comprise the workbench for carrying workpiece, guide rail and locating support and positioning component, described workbench is slidably located on described guide rail, described positioning component comprises cylinder, alignment pin and bracing frame, support frame as described above is fixed on the end face of described workbench, described cylinder is located on the side of support frame as described above, described alignment pin is connected with described air cylinder driven, described positioning seat is fixed on station, described positioning seat is formed with locating hole, described workbench is along described guide rail movement to described station, described alignment pin is relative with described locating hole, described cylinder extends and drives described alignment pin to enter described locating hole, make described table positions, described cylinder shrinks and drives described alignment pin to depart from described locating hole, make described movable workbench.

Processing work can be installed on the table by above-mentioned electronic conveyer, by coordinating between workbench with guide rail, workbench is along guide rail movement, when workbench reaches station time, cylinder extends and makes alignment pin be contained in locating hole, thus make table positions on station, facilitate laser cutting machine to process processing work.In laser cutting process, workbench is stablized, and ensures the accuracy of laser cutting, improves the machining accuracy of laser cutting.

Wherein in an embodiment, also comprise transmission component, described transmission component comprises motor, power transmission shaft, bearing, first wheel and the second wheel, one end away from described positioning component of described workbench is located at by described motor, drive axis described in described driven by motor, described bearing holder (housing, cover) is located on described power transmission shaft, described workbench is fixed on described bearing, described first wheel, the two ends of described power transmission shaft are located at respectively by second wheel, described guide rail is two, article two, described guide rail is parallel to each other, described first wheel, second wheel correspondence is located at two described guide rails, described first wheel, second wheel is along described guide rail movement.

Wherein in an embodiment, described motor is reducing motor.

Wherein in an embodiment, described transmission component also comprises shaft coupling, described first wheel and or the center of described second wheel be provided with connecting axle, described shaft coupling connects described power transmission shaft and described connecting axle.

Wherein in an embodiment, described transmission component also comprises axle end baffle plate, and described axle end baffle plate is located at described connecting axle one end away from described power transmission shaft, described axle end baffle plate along described connecting axle axial limiting described in the first wheel and the second wheel.

Wherein in an embodiment, the contact surface of described first wheel or described second wheel and described guide rail offers groove, described contact surface offers groove, described groove was around described contact surface one week, and described guide rail is contained in described groove.

Wherein in an embodiment, described transmission component comprises drive sprocket and driving chain, described drive sprocket is located on described power transmission shaft, described driving chain is in transmission connection described drive sprocket and described motor, driving chain motion described in described driven by motor, described driving chain drives described drive sprocket to rotate, to make described drive axis.

Wherein in an embodiment, also comprise driven subassembly, described transmission component is located at one end of described workbench, described driven subassembly is located at the other end of described workbench, described driven subassembly comprises driven pulley, driven shaft and driven bearing, and described driven pulley is located on described driven shaft, and described driven shaft bearing sleeve is located on described driven shaft, described driven bearing is fixedly connected with described workbench, and described working table movement makes described driven pulley roll along described guide rail.

Wherein in an embodiment, described positioning component comprises fairlead, and support frame as described above is away from the side of described cylinder, and described fairlead and described alignment pin are oppositely arranged, and described alignment pin is contained in described fairlead, and stretches along described fairlead.

Wherein in an embodiment, also comprise block, described block is fixed at the end of described guide rail, and described block and described workbench abut against, with spacing described workbench.

Accompanying drawing explanation

Fig. 1 is the stereogram of the electronic conveyer of present embodiment;

Fig. 2 is the stereogram of the positioning component of the electronic conveyer shown in Fig. 1;

Fig. 3 is the exploded view of the positioning component of the electronic conveyer shown in Fig. 2;

Fig. 4 is the stereogram of electronic another angle of conveyer shown in Fig. 1;

Fig. 5 is the stereogram of the transmission component of the electronic conveyer shown in Fig. 4;

Fig. 6 is the stereogram of the driven subassembly of the electronic conveyer shown in Fig. 1.

Detailed description of the invention

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in detail detailed description of the invention of the present utility model below in conjunction with accompanying drawing.Set forth a lot of detail in the following description so that fully understand the utility model.But the utility model can be much different from alternate manner described here to implement, those skilled in the art can when doing similar improvement without prejudice to when the utility model intension, and therefore the utility model is by the restriction of following public concrete enforcement.

It should be noted that, when element is called as " being fixed on " another element, directly can there is element placed in the middle in it on another element or also.When an element is considered to " connection " another element, it can be directly connected to another element or may there is centering elements simultaneously.Term as used herein " vertical ", " level ", "left", "right" and similar statement just for illustrative purposes, do not represent it is unique embodiment.

Unless otherwise defined, all technology used herein and scientific terminology are identical with belonging to the implication that those skilled in the art of the present utility model understand usually.The object of the term used in description of the present utility model herein just in order to describe specific embodiment, is not intended to be restriction the utility model.Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this description is recorded.

Refer to Fig. 1, the electronic conveyer of present embodiment comprises workbench 10, guide rail 20, positioning component 30 and positioning seat 40 for carrying workpiece.

Workbench 10 is slidably located on guide rail 20.Refer to Fig. 2 and Fig. 3, positioning component 30 comprises cylinder 301, alignment pin 302 and bracing frame 303.Bracing frame 303 is fixed on the end face of workbench 10, and cylinder 301 is located on the side of bracing frame 303, and alignment pin 302 drives with cylinder 301 and is connected.Positioning seat 40 is fixed on processing stations.Be appreciated that positioning seat 40 can be located at desktop for supporting electronic conveyer or support.Positioning seat 40 is formed with locating hole 401, workbench 10 moves to processing stations along guide rail 20, alignment pin 302 is relative with locating hole 401, cylinder 301 extends and drives alignment pin 302 to enter locating hole 401, workbench 10 is located, cylinder 301 shrinks and drives alignment pin 302 to depart from locating hole 401, and workbench 10 is moved.

Processing work can be arranged on workbench 10 by above-mentioned electronic conveyer, by coordinating between workbench 10 with guide rail 20, workbench 10 moves along guide rail 20, when workbench 10 reaches station time, cylinder 301 extends and makes alignment pin 302 be contained in locating hole 401, thus make workbench 10 be positioned on station, facilitate laser cutting machine to process processing work.In laser cutting process, workbench 10 is stablized, and ensures the accuracy of laser cutting, improves the machining accuracy of laser cutting.

Further, when needs are processed processing work at another station time, by travelling table 10, workbench 10 reaches another station along guide rail 20, is again located by alignment pin 302, can process processing work.Therebetween, without the need to dismantling processing work or installing, disassembly and assembly time in the middle of saving, improves working (machining) efficiency.

Bracing frame 303 comprises two vertical support plates 304,305.One of them support plate 304 is for being connected with the end face of workbench 10, and another support plate 305 is for installing cylinder 301.Stiffener 307 is provided with between two support plates 304,305 of present embodiment.Stiffener 307 is right angled triangle.Two right-angle sides of right angled triangle abut against with two support plates 304,305, respectively to strengthen the intensity of bracing frame 303.

Positioning component 30 comprises fairlead 306.Bracing frame 303 is away from the side of cylinder 301, and fairlead 306 and alignment pin 302 are oppositely arranged, and alignment pin 302 is contained in fairlead 306, and stretches along fairlead 306.Because the flexible alignment pin 302 that drives of cylinder 301 passes in and out locating hole 401, whole motion has certain stroke, fairlead 306 can ensure the movement locus of alignment pin 302, avoids alignment pin 302 to offset relative to locating hole 401, makes alignment pin 302 can not normally enter locating hole 401.

Be appreciated that fairlead 306 can omit.Alignment pin 302 and the close together of locating hole 401, also can prevent alignment pin 302 and locating hole 401 from offseting in motion process.

Refer to Fig. 4 and Fig. 5, the electronic conveyer of present embodiment also comprises transmission component 50.Transmission component 50 comprises motor 501, power transmission shaft 502, bearing 503, first wheel 504 and the second wheel 505.

One end away from positioning component 30 of workbench 10 is located at by motor 501, and motor 501 drives power transmission shaft 502 to rotate.Particularly, motor 501 is reducing motor.Reducing motor in use vibrates little, and avoiding is moved by motor 501 produces larger vibration to workbench 10, impact processing.Be appreciated that motor 501 can also be dc motor or variable-frequency motor 501 etc.

Transmission component 50 also comprises drive sprocket 506 and driving chain 507.Drive sprocket 506 is located on power transmission shaft 502, and driving chain 507 is in transmission connection drive sprocket 506 and motor 501.Motor 501 drives driving chain 507 to move, and driving chain 507 drives drive sprocket 506 to rotate, and rotates to make power transmission shaft 502.Be appreciated that power transmission shaft 502 can also by conveyer belt or gear drive.

Bearing 503 is sheathed on power transmission shaft 502.Workbench 10 is fixed on bearing 503.Particularly, bearing 503 is rolling bearing units.Rolling bearing units are a kind of assembly that bearing and mount pad are combined.Particularly, rolling bearing units are the base plate having individual mounting screw on the stayed surface of the axis parallel with bearing.Workbench 10 can directly be arranged on base plate by screw, facilitates the installation of workbench 10.Be appreciated that bearing 503 is for multiple, multiple bearing 503 is distributed on power transmission shaft 502, is connected with power transmission shaft 502 is stable to make workbench 10.Workbench 10 directly can be fixed on the lateral wall of bearing 503 by welding or the mode such as bonding.

The two ends of power transmission shaft 502 are located at respectively by first wheel 504, second wheel 505.Guide rail 20 is two, is parallel to each other between two guide rails 20.First wheel 504, second wheel 505 correspondence is located on two guide rails 20, and the first wheel 504, second wheel 505 moves along guide rail 20.First wheel 504 or the second wheel 505 and the contact surface of guide rail 20 offer groove 511, contact surface offers groove 511, groove 511 was around contact surface one week, and guide rail 20 is contained in groove 511.Because the distance between two closed slides 20 is certain, and distance between two wheels is certain.When a side rails 20 is accommodated in the groove 511 with the first wheel 504 or the second wheel 505 time, then can ensure that opposite side guide rail 20 contacts with another wheel.

Transmission component 50 also comprises shaft coupling 508, the first wheel 504 and or the center of the second wheel 505 be provided with connecting axle 509, shaft coupling 508 connection for transmission axle 502 and connecting axle 509.Shaft coupling 508 can facilitate the installation of the first wheel 504 and the second wheel 505.

Transmission component 50 also comprises axle end baffle plate 510.Axle end baffle plate 510 is located at connecting axle 509 one end away from power transmission shaft 502, and axle end baffle plate 510 is along axial limiting first wheel 504 of connecting axle 509 and the second wheel 505.Meanwhile, axle end baffle plate 510 can prevent all driving parts on power transmission shaft 502 from moving axially.

Refer to Fig. 6, electronic conveyer also comprises driven subassembly 60, and transmission component 50 is located at one end of workbench 10, and driven subassembly 60 is located at the other end of workbench 10, and driven subassembly 60 comprises driven pulley 601, driven shaft 602 and driven bearing 603.Driven pulley 601 is located on driven shaft 602, and driven bearing 603 is sheathed on driven shaft 602, and driven bearing 603 is fixedly connected with workbench 10, and workbench 10 motion makes driven pulley 601 roll along guide rail 20.Workbench 10 motion drives driven subassembly 60 auxiliary moving being positioned at opposite side, makes whole electronic conveyer stable movement.Further, driven subassembly 60 also comprises axle end baffle plate 604.Axle end baffle plate 604 is along the axial limiting driven pulley 601 connecting driven shaft 602.

Electronic conveyer also comprises block 70.Block 70 is fixed at the end of guide rail 20, and block 70 and workbench 10 abut against, with spacing table 10.Stop mobile when workbench 10 arrives front end assigned address, block 70 can prevent the generation of workbench 10 overshoot phenomenon, prevents workbench 10 impaired.

When workbench 10 arrives processing stations, disable motor 501, workbench 10 stops mobile.Cylinder 301 action on positioning component 30, makes alignment pin 302 down lead along fairlead 306, until in the termination of alignment pin 302 arrives in locating support locating hole 401 and after clamping, namely whole electronic conveyer has good positioning.Then laser cutter is to work pieces process.After processing workpiece, cylinder 301 action on positioning component 30, makes alignment pin 302 up be regained by fairlead 306.Until after alignment pin 302 departs from locating hole 401, can starter motor 501 again, make whole electronic conveyer toward motion in the other direction, and move to subsequent work region.

Processing work can be arranged on workbench 10 by above-mentioned electronic conveyer, by coordinating between workbench 10 with guide rail 20, workbench 10 moves along guide rail 20, when workbench 10 reaches station time, cylinder 301 extends and makes alignment pin 302 be contained in locating hole 401, thus make workbench 10 be positioned on station, facilitate laser cutting machine to process processing work.In laser cutting process, workbench 10 is stablized, and ensures the accuracy of laser cutting, improves the machining accuracy of laser cutting.

Further, when needs are processed processing work at another station time, by travelling table 10, workbench 10 reaches another station along guide rail 20, is again located by alignment pin 302, can process processing work.Therebetween, without the need to dismantling processing work or installing, disassembly and assembly time in the middle of saving, improves working (machining) efficiency.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to utility model patent scope.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. an electronic conveyer, it is characterized in that, comprise the workbench for carrying workpiece, guide rail and locating support and positioning component, described workbench is slidably located on described guide rail, described positioning component comprises cylinder, alignment pin and bracing frame, support frame as described above is fixed on the end face of described workbench, described cylinder is located on the side of support frame as described above, described alignment pin is connected with described air cylinder driven, described positioning seat is fixed on station, described positioning seat is formed with locating hole, described workbench is along described guide rail movement to described station, described alignment pin is relative with described locating hole, described cylinder extends and drives described alignment pin to enter described locating hole, make described table positions, described cylinder shrinks and drives described alignment pin to depart from described locating hole, make described movable workbench.

2. electronic conveyer according to claim 1, it is characterized in that, also comprise transmission component, described transmission component comprises motor, power transmission shaft, bearing, first wheel and the second wheel, one end away from described positioning component of described workbench is located at by described motor, drive axis described in described driven by motor, described bearing holder (housing, cover) is located on described power transmission shaft, described workbench is fixed on described bearing, described first wheel, the two ends of described power transmission shaft are located at respectively by second wheel, described guide rail is two, article two, described guide rail is parallel to each other, described first wheel, second wheel correspondence is located at two described guide rails, described first wheel, second wheel is along described guide rail movement.

3. electronic conveyer according to claim 2, is characterized in that, described motor is reducing motor.

4. electronic conveyer according to claim 2, is characterized in that, described transmission component also comprises shaft coupling, described first wheel and or the center of described second wheel be provided with connecting axle, described shaft coupling connects described power transmission shaft and described connecting axle.

5. electronic conveyer according to claim 4, it is characterized in that, described transmission component also comprises axle end baffle plate, and described axle end baffle plate is located at described connecting axle one end away from described power transmission shaft, described axle end baffle plate along described connecting axle axial limiting described in the first wheel and the second wheel.

6. electronic conveyer according to claim 2, it is characterized in that, the contact surface of described first wheel or described second wheel and described guide rail offers groove, described contact surface offers groove, described groove was around described contact surface one week, and described guide rail is contained in described groove.

7. electronic conveyer according to claim 2, it is characterized in that, described transmission component comprises drive sprocket and driving chain, described drive sprocket is located on described power transmission shaft, described driving chain is in transmission connection described drive sprocket and described motor, driving chain motion described in described driven by motor, described driving chain drives described drive sprocket to rotate, to make described drive axis.

8. electronic conveyer according to claim 2, it is characterized in that, also comprise driven subassembly, described transmission component is located at one end of described workbench, described driven subassembly is located at the other end of described workbench, described driven subassembly comprises driven pulley, driven shaft and driven bearing, described driven pulley is located on described driven shaft, described driven shaft bearing sleeve is located on described driven shaft, described driven bearing is fixedly connected with described workbench, and described working table movement makes described driven pulley roll along described guide rail.

9. electronic conveyer according to claim 1, is characterized in that, described positioning component comprises fairlead, support frame as described above is away from the side of described cylinder, described fairlead and described alignment pin are oppositely arranged, and described alignment pin is contained in described fairlead, and stretch along described fairlead.

10. electronic conveyer according to claim 1, is characterized in that, also comprise block, and described block is fixed at the end of described guide rail, and described block and described workbench abut against, with spacing described workbench.