Novel air blowing type selective double-head screw machine
Technical Field
The utility model relates to a lock screw equipment field specifically is a novel air blowing type selectivity double-end screw machine.
Background
Automatic lock screw machine is through all kinds of electronic, pneumatic components and parts realize the automatic transport of screw, screw up, processes such as detection, simplify screw fastening process through equipment, reach and reduce artifical quantity and reduce the bad factor that artifical maloperation brought, a typical nonstandard automation equipment, automatic lock screw equipment has a lot of, and the air blowing type lock attaches the screw machine and is exactly one of them, however, traditional air blowing type lock attaches the screw machine it can only carry out the screw lock of single model size and attaches the work, can't carry out the screw lock to the different model screw hole sites department of same product department and attach the work, the practicality is relatively poor.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a novel air blowing type selectivity double-end screw machine to solve traditional air blowing type lock and attach screw machine its screw lock that can only carry out single model size and attach work, can't carry out the screw lock to the different model screw hole site departments of same product department and attach work, the relatively poor problem of practicality.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a novel air blowing type selectivity double-end screw machine, includes equipment base, removes bearing structure, mount pad, sliding seat structure and the lock that blows attaches the structure, equipment base department is provided with two stands, equipment base department is provided with control panel and touch-sensitive screen, remove bearing structure and install in equipment base's upper end surface department, mount pad fixed mounting is in the top department of two stands, sliding seat structrual installation is in mount pad department, the lock that blows attaches structrual installation in sliding seat structure department.
Preferably, the movable bearing structure comprises two Y-axis movable modules and two bearing platforms, the two Y-axis movable modules and the two bearing platforms are arranged on the upper end surface of the equipment base, and the two bearing platforms are respectively arranged on the two Y-axis movable modules.
Preferably, the sliding seat structure includes that the X axle removes the module and removes the seat, the X axle removes the module and installs in the top department of mount pad, it is the L type to remove the seat, it installs in X axle removal module department to remove the seat.
Preferably, the air blowing lock attaches the structure and includes that first Z axle removes module, second Z axle removal module, first mounting bracket, second mounting bracket, first servo electric batch, second servo electric batch, first air blowing lock attaches the cylinder, the second air blowing lock attaches the cylinder, first air blowing send the screw pipe and the second air blowing send the screw pipe, first Z axle removes module and second Z axle and removes the module and all install in the front department that removes the seat, first mounting bracket and second mounting bracket are installed respectively in first Z axle removal module and second Z axle removal module department, first servo electric batch and second servo electric batch respectively fixed mounting in first mounting bracket and second mounting bracket department, first air blowing lock attaches cylinder and second air blowing lock and attaches the equal fixed mounting in seat department of cylinder and remove, just first air blowing lock attaches the cylinder and second air blowing lock and attaches the flexible end of cylinder and respectively with first mounting bracket and second mounting bracket fixed connection, the bottom output end department that first servo air blowing electric batch and second servo electric batch were blown the screw and were all provided with the screw pipe of blowing, first servo air blowing is connected in the servo air blowing electric batch and the output end department of second servo air blowing and second servo air blowing send the screw and the output department respectively and remove the seat and send the output department with the servo air blowing pipe.
The utility model provides a novel air blowing type selectivity double-end screw machine possesses following beneficial effect:
the utility model discloses a be provided with and remove bearing structure, the mount pad, the sliding seat structure and the lock of blowing attach the structure, make and carry out the screw lock to the product and attach the during operation, can start earlier and set up the parameter, and add appropriate amount screw in two air blowing formula screw feeder machines, it is fixed to bearing platform department by artifical blowing, at this moment, start button according to equipment, judge which kind of screw that the current hole site needs the lock to attach through the computer, and blow out the screw from the air blowing formula feeder that corresponds, remove the work cooperation between module and the Y axle removal module via the X axle, it removes to station department to drive the position that the product needs the lock to attach the screw, can remove module or second Z axle through corresponding first Z axle and remove module work, the drive chuck that blows descends and cooperate the work that corresponds first servo electric screwdriver or second servo electric screwdriver to attach the lock the screw, attach the completion to all screw locks of product until automatic continuous work, can carry out the screw lock that different models to the product and attach work, the practicality is higher.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic view of the installation position structure of the Z-axis moving module of the present invention;
fig. 3 is a schematic view of the second blowing locking cylinder mounting structure of the present invention.
In the figure: 1. an equipment base; 2. a mounting base; 3. a column; 4. a control panel; 5. a touch screen; 6. a Y-axis moving module; 7. a load-bearing platform; 8. an X-axis moving module; 9. a movable seat; 10. a first Z-axis moving module; 11. a second Z-axis moving module; 12. a first mounting bracket; 13. a second mounting bracket; 14. a first servo electric batch; 15. a second servo electric batch; 16. a first blow lock cylinder; 17. a second air blowing locking cylinder; 18. a first air-blowing screw-feeding tube; 19. a second air blowing screw conveying pipe; 20. an air blowing chuck.
Detailed Description
The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1-3, the utility model provides a technical solution: the utility model provides a novel air blowing type selectivity double-end screw machine, includes equipment base 1, removes bearing structure, mount pad 2, sliding seat structure and the lock that blows attaches the structure, equipment base 1 department is provided with two stands 3, equipment base 1 department is provided with control panel 4 and touch-sensitive screen 5, remove bearing structure and install in equipment base 1's upper end surface department, 2 fixed mounting in the top department of two stands 3 of mount pad, sliding seat structural mounting is in mount pad 2 department, the lock that blows attaches structural mounting in sliding seat structure department.
The movable bearing structure comprises two Y-axis moving modules 6 and two bearing platforms 7, the two Y-axis moving modules 6 and the two bearing platforms 7 are arranged, the two Y-axis moving modules 6 are arranged on the upper end surface of the equipment base 1, and the two bearing platforms 7 are respectively arranged on the two Y-axis moving modules 6, so that the bearing platforms 7 can be driven to move through the work of the Y-axis moving modules 6, and then products placed and fixed on the bearing platforms 7 are driven to move;
the movable seat structure comprises an X-axis moving module 8 and a moving seat 9, the X-axis moving module 8 is installed at the top of the installation seat 2, the moving seat 9 is L-shaped, and the moving seat 9 is installed at the X-axis moving module 8, so that the moving seat 9 can be driven to move left and right through the work of the X-axis moving module 8, and the air blowing locking structure is driven to move left and right;
the blowing locking structure comprises a first Z-axis moving module 10, a second Z-axis moving module 11, a first mounting frame 12, a second mounting frame 13, a first servo screwdriver 14, a second servo screwdriver 15, a first blowing locking cylinder 16, a second blowing locking cylinder 17, a first blowing screw tube 18 and a second blowing screw tube 19, wherein the first Z-axis moving module 10 and the second Z-axis moving module 11 are both mounted at the front of the moving base 9, the first mounting frame 12 and the second mounting frame 13 are respectively mounted at the first Z-axis moving module 10 and the second Z-axis moving module 11, the first servo screwdriver 14 and the second servo screwdriver 15 are respectively and fixedly mounted at the first mounting frame 12 and the second mounting frame 13, the first blowing locking cylinder 16 and the second blowing locking cylinder 17 are respectively and fixedly mounted at the moving base 9, the telescopic ends of the first blowing locking cylinder 16 and the second blowing locking cylinder 17 are respectively and fixedly connected with the first mounting frame 12 and the second servo screwdriver mounting frame 13, the bottom of the first blowing screw tube 14 and the second servo screwdriver 15 are respectively connected with the servo screwdriver mounting frame 18, the bottom of the second blowing screw tube 14 or the servo screwdriver tube 19 is connected with the second servo screwdriver mounting frame 15, the bottom of the servo screwdriver mounting frame 18 and the servo screwdriver tube 19, and the servo screwdriver tube 19 are respectively, after moving downwards to a proper position, the first servo electric screwdriver 14 or the second servo electric screwdriver 15 works to lock and attach the screw of the product;
it is understood that the first and second blow screw pipes 18 and 19 are externally connected with a blow screw feeder, respectively.
The working principle is as follows: when the screw locking work is performed on a product, the machine can be started firstly to set parameters, a proper amount of screws are added into two air blowing type screw feeding machines, the manual material is placed to the bearing platform 7 and the product is fixed, at the moment, the start button of the equipment is pressed, the position of the current product hole site needing to be locked is judged through a computer, the screws are blown out from the corresponding air blowing type feeding machines, the screws are conveyed to the air blowing chuck 20 through matching with the first air blowing screw conveying pipe 18 or the second air blowing screw conveying pipe 19, at the moment, the position of the product needing to be locked is driven to be moved to the position through the work matching between the X-axis moving module 8 and the Y-axis moving module 6, the position of the product needing to be locked is driven to be moved to the station, the screw locking work can be performed through the corresponding first air blowing locking cylinder 16 or the second air blowing locking cylinder 17, the first Z-axis moving module 10 or the second Z-axis moving module 11 is matched, the air blowing chuck 20 is driven to descend and be matched with the work of the corresponding first servo screwdriver 14 or the second servo screwdriver 15 to be locked until the product is automatically and continuously operated, and all the screw locking work types of the product can be locked, and the product can be locked with higher practicability.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.