CN203918411U - Double-workbench multifunctional efficient rate automatic locking screw machine - Google Patents

Double-workbench multifunctional efficient rate automatic locking screw machine Download PDF

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Publication number
CN203918411U
CN203918411U CN201420267222.5U CN201420267222U CN203918411U CN 203918411 U CN203918411 U CN 203918411U CN 201420267222 U CN201420267222 U CN 201420267222U CN 203918411 U CN203918411 U CN 203918411U
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CN
China
Prior art keywords
workbench
axle
shaft
belt
forebay
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CN201420267222.5U
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Chinese (zh)
Inventor
熊世伟
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东莞市贝迪自动化科技有限公司
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Priority to CN201420267222.5U priority Critical patent/CN203918411U/en
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Publication of CN203918411U publication Critical patent/CN203918411U/en

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Abstract

The utility model relates to screw locking machine technical field, relate in particular to double-workbench multifunctional efficient rate automatic locking screw machine, comprise working box, working box is provided with forebay, screw supplying device, workbench and the Y-axis transmission mechanism for driving workbench to move forward and backward, workbench is positioned at the below of forebay, and the front end of forebay is provided with Z 1axle lock screw device and for driving Z 1the X that axle lock screw device moves left and right 1shaft transmission, the rear end of forebay is provided with Z 2axle lock screw device and for driving Z 2the X that axle lock screw device moves left and right 2shaft transmission.A kind of double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, the Z that it arranges by forebay 1axle lock screw device and Z 2axle lock screw device has been realized on a procedure screwed lock that can be respectively workpiece be carried out to different size model and has been paid, thereby has reduced production process, has shortened production procedure, and then has improved production efficiency, and production capacity can promote more than 98%.

Description

Double-workbench multifunctional efficient rate automatic locking screw machine

Technical field

The utility model relates to screw locking machine technical field, relates in particular to double-workbench multifunctional efficient rate automatic locking screw machine.

Background technology

At present, in the process of producing product of electronic assemblies, Hardware fitting, automobile and other industries, all include screwed lock and pay technique, traditional is to adopt pure manual operation to carry out screwed lock to pay, and this kind of technology not only wastes time and energy, and operating efficiency is extremely low, the screw locking machine being now developed out replaces.When existing screw locking machine work, generally place workpiece to be processed at the front end of screw locking machine, then by electric screwdriver, workpiece to be processed is carried out to screwed lock and pay, after screwed lock to be completed is paid, then take out workpiece, carry out the lock screw lock of next workpiece to be processed and pay technique, so circulation.But nowadays a lot of products of electronic assemblies, Hardware fitting, automobile and other industries use the screw of several different size sizes simultaneously, therefore, at least need point twice screwed lock to pay operation and carry out screwed lock and pay using the product of screw of several different size sizes, production efficiency still has much room for improvement.

Obviously, there is following a few point defect in the above-mentioned existing screw locking machine of mentioning: one, each screwed lock is paid the screwed lock that is merely able to carry out a kind of specification and paid, and the scope of application is little; Two, only have single workbench setting, be merely able to that single-piece workpiece is carried out to screwed lock at every turn and pay, production efficiency is low; Three, take workpiece by manual operation, manpower labour intensity is large, and automaticity is low.

Utility model content

The purpose of this utility model is that providing a kind of for the deficiencies in the prior art can carry out the double-workbench multifunctional efficient rate automatic locking screw machine that the screwed lock of two kinds of different sizes is paid to workpiece.

For achieving the above object, double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, comprise working box, working box is provided with forebay, screw supplying device, workbench and the Y-axis transmission mechanism for driving workbench to move forward and backward, workbench is positioned at the below of forebay, and the front end of described forebay is provided with Z 1axle lock screw device and for driving Z 1the X that axle lock screw device moves left and right 1shaft transmission, the rear end of forebay is provided with Z 2axle lock screw device and for driving Z 2the X that axle lock screw device moves left and right 2shaft transmission.

Wherein, described workbench comprises left workbench and right workbench, and Y-axis transmission mechanism comprises Y 1shaft transmission and Y 2shaft transmission; Left workbench and right workbench are arranged at respectively working box top, Y 1shaft transmission is used for driving left workbench to move forward and backward, Y 2shaft transmission is used for driving right workbench to move forward and backward.

Wherein, described screw supplying device is arranged between left workbench and right workbench and is positioned at the below of forebay.

Wherein, described working box is also provided with the afer bay that is positioned at forebay rear, and afer bay is provided with to be got work piece apparatus and get for driving the X that work piece apparatus moves left and right 3shaft transmission.

Wherein, described in, get work piece apparatus and comprise cylinder, support, vacuum cup and vacuum generator; Cylinder and X 3shaft transmission is fixedly connected with, and support is connected with the piston rod of cylinder, and vacuum cup is installed on support and is positioned at the top of workbench, and vacuum cup is connected by tracheae with vacuum generator.

Wherein, described X 3shaft transmission comprises movable sleeving, guide pillar, motor, belt and belt pulley; Belt pulley is installed on the left and right sides of afer bay, belt is set around belt pulley, the output shaft of motor with wherein one belt pulley drive be connected, guide pillar is installed along X-direction level, movable sleeving is socketed and is fixedly connected with belt with guide pillar, gets work piece apparatus and is fixedly connected with movable sleeving.

Wherein, the length of described guide pillar is greater than the width of working box.

Wherein, described X 1shaft transmission comprises X 1axis linear slide rail, X 1spindle motor, X 1axle belt and X 1shaft pulley; X 1shaft pulley is installed on the left and right sides of forebay, X 1axle belt is set around X 1shaft pulley, X 1the output shaft of spindle motor and wherein an X 1shaft pulley drives and connects, X 1axis linear slide rail is installed along X-direction level, X 1the slide block of axis linear slide rail and X 1axle belt connects, Z 1axle lock screw device and X 1the slide block of axis linear slide rail is fixedly connected with.

Wherein, described Y 1shaft transmission comprises Y 1axis linear slide rail, Y 1spindle motor, Y 1axle belt and Y 1shaft pulley; Y 1shaft pulley is installed on the both sides, front and back of working box, Y 1axle belt is set around Y 1shaft pulley, Y 1the output shaft of spindle motor and wherein a Y 1shaft pulley drives and connects, Y 1axis linear slide rail is installed along Y direction level, Y 1the slide block of axis linear slide rail and Y 1axle belt connects, left workbench and Y 1the slide block of axis linear slide rail is fixedly connected with.

Wherein, described Z 1axle lock screw device and Z 2axle lock screw device 5 includes Z axis electric screwdriver and the Z-axis transmission mechanism for driving Z axis electric screwdriver to move up and down.

The beneficial effects of the utility model: a kind of double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, when work, first workpiece to be processed is positioned on workbench, then start Y-axis transmission mechanism, X simultaneously 1shaft transmission and X 2shaft transmission, wherein, Y-axis transmission mechanism drives workbench to move to backward Z 1the below of axle lock screw device, then X 1shaft transmission drives Z 1axle lock screw device moves left and right adjusting position to the workpiece of placing on workbench, Z 1axle lock screw device is descending to carry out screwed lock to work and pays, and now, screwed lock is paid complete for the first time; Then Y-axis transmission mechanism continues to drive the workbench of the workpiece after clamping has had screwed lock for the first time to pay to move to backward Z 2the below of axle lock screw device, then X 2shaft transmission drives Z 2axle lock screw device moves left and right adjusting position to the workpiece of placing on workbench, Z 2axle lock screw device is descending to carry out screwed lock to work and pays, and now, can complete screwed lock for the second time and pay.A kind of double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, the Z that it arranges by forebay 1axle lock screw device and Z 2axle lock screw device has been realized on a procedure screwed lock that can be respectively workpiece be carried out to different size model and has been paid, thereby has reduced production process, has shortened production procedure, and then has improved production efficiency, and production capacity can promote more than 98%.

Brief description of the drawings

Fig. 1 is perspective view of the present utility model.

Fig. 2 is the perspective view at another visual angle of the utility model.

Fig. 3 is front view of the present utility model.

Fig. 4 is top view of the present utility model.

Fig. 5 is right view of the present utility model.

Fig. 6 is the perspective view after the utility model hidden parts shell.

Fig. 7 is the perspective view at another visual angle after the utility model hidden parts shell.

Fig. 8 is the local enlarged diagram at A place in Fig. 4.

Fig. 9 is the local enlarged diagram at B place in Fig. 5.

Figure 10 is the local enlarged diagram at C place in Fig. 6.

Reference numeral comprises:

1-working box

11-forebay, 12-afer bay, 13-screw supplying device

14-left workbench 15-right workbench 16-display

2-Y 1shaft transmission

21-Y 1axis linear slide rail 22-Y 1spindle motor 23-Y 1axle belt

24-Y 1shaft pulley

3-Z 1axle lock screw device

30-movable plate, 31-Z axis linear slide rail, 32-Z axis motor

33-Z axis belt, 34-Z axis belt pulley, 35-electric screwdriver

36-screwdriver, 37-suction nozzle, 38-electron displacement chi

39-flexible apparatus, 391-flexible slide block, 392-sliding bar

393-flexible member

4-X 1shaft transmission

41-X 1axis linear slide rail 42-X 1spindle motor 43-X 1axle belt

44-X 1shaft pulley

5-Z 2axle lock screw device

6-X 3shaft transmission

61-movable sleeving, 62-guide pillar, 63-motor

64-belt, 65-belt pulley

7-get work piece apparatus

71-cylinder, 72-support, 73-vacuum cup

74-vacuum generator

8-clamping device

81-clamping fixed block, 82-clamping movable block, 83-power cylinder

9-X 2shaft transmission

10-Y 2shaft transmission.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is described in detail, the front, back, left, right, up, down that the utility model is mentioned is all taking Fig. 3 (being the front view of the technical program screw locking machine) as basis of reference.

As shown in Figures 1 to 10, double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, comprise working box 1, working box 1 is provided with forebay 11, screw supplying device 13, workbench and the Y-axis transmission mechanism for driving workbench to move forward and backward, workbench is positioned at the below of forebay 11, and the front end of described forebay 11 is provided with Z 1axle lock screw device 3 and for driving Z 1the X that axle lock screw device 3 moves left and right 1shaft transmission 4, the rear end of forebay 11 is provided with Z 2axle lock screw device 5 and for driving Z 2the X that axle lock screw device 5 moves left and right 2shaft transmission 9.

When work, first workpiece to be processed is positioned on workbench, then starts Y-axis transmission mechanism, X simultaneously 1shaft transmission 4 and X 2shaft transmission 9, wherein, Y-axis transmission mechanism drives workbench to move to backward Z 1the below of axle lock screw device 3, then X 1shaft transmission 4 drives Z 1axle lock screw device 3 moves left and right adjusting position to the workpiece of placing on workbench, Z 1axle lock screw device 3 is descending to carry out screwed lock to workpiece and pays, and now, screwed lock is paid complete for the first time; Then Y-axis transmission mechanism continues to drive the workbench of the workpiece after clamping has had screwed lock for the first time to pay to move to backward Z 2the below of axle lock screw device 5, then X 2shaft transmission 9 drives Z 2axle lock screw device 5 moves left and right adjusting position to the workpiece of placing on workbench, Z 2axle lock screw device 5 is descending to carry out screwed lock to workpiece and pays, and now, can complete screwed lock for the second time and pay.A kind of double-workbench multifunctional efficient rate automatic locking screw machine of the present utility model, the Z that it arranges by forebay 11 1axle lock screw device 3 and Z 2axle lock screw device 5 has been realized on a procedure screwed lock that can be respectively workpiece be carried out to different size model and has been paid, thereby has reduced production process, has shortened production procedure, and then has improved production efficiency, and production capacity can promote more than 98%.

In the present embodiment, described workbench comprises left workbench 14 and right workbench 15, and Y-axis transmission mechanism comprises Y 1shaft transmission 2 and Y 2shaft transmission 10; Left workbench 14 and right workbench 15 are arranged at respectively working box 1 top (for example, left workbench 14 and right workbench 15 can be arranged at respectively to the both sides of working box 1 top), Y 1shaft transmission 2 is for driving left workbench 14 to move forward and backward, Y 2shaft transmission 10 is for driving right workbench 15 to move forward and backward.Concrete, front and back are positioned over two workpiece respectively on left workbench 14 and right workbench 15, regulate Y 1shaft transmission 2, Y 2shaft transmission 10, X 1shaft transmission 4 and X 2after the parameters such as the operating rate of shaft transmission 9, start Y simultaneously 1shaft transmission 2 drives left workbench 14 to move forward and backward along Y direction, and the workpiece of placing when left workbench 14 passes through Z 2axle lock screw device 5 is descending carries out screwed lock while paying to it, Y 2shaft transmission 10 drives right workbench 15 to move forward and backward to Z along Y direction 1the below of axle lock screw device 3, X 1shaft transmission 4 drives Z 1the workpiece that axle lock screw device 3 is placed right workbench 15 carries out screwed lock while paying; Pass through Z and work as the workpiece of placing on right workbench 15 2axle lock screw device 5 carries out screwed lock while paying, and the workpiece of placing on left workbench 14 passes through Z 1axle lock screw device 3 carries out screwed lock and pays, the screwed lock that so cycle alternation ground carries out respectively two kinds of specifications and models to the workpiece of placing on left workbench 14 and right workbench 15 is paid, the screwed lock that realization need to be carried out two kinds of specifications and models to single-piece workpiece is paid work, double-workbench carries out simultaneously, the course of work continues uninterrupted, operating efficiency is high, realizes high production capacity output.

In the present embodiment, described screw supplying device 13 is arranged between left workbench 14 and right workbench 15 and is positioned at the below of forebay 11.Concrete, when screw locking machine carries out screwed lock while paying work, Z 1axle lock screw device 3 and Z 2axle lock screw device 5 need to be drawn screw from screw supplying device 13, for realizing Z 1axle lock screw device 3 and Z 2it is as far as possible short that axle lock screw device 5 is drawn the time that screw spends, and the position of this of the technical program kind of screw supplying device 13 arranges to realize and allows Z simultaneously 1axle lock screw device 3 and Z 2axle lock screw device 5 required stroke in the time of the interior absorption screw of screw supplying device 13 is the shortest, draws screw the fastest, and the shortest time spending, improves the production efficiency of work substantially, and then further promotes production capacity.In addition, screw supplying device 13 can arrange two as required, and two screw supplying device 13 front and back lean against and are arranged between left workbench 14 and right workbench 15, and two screw supplying devices 13 can be distinguished two kinds of different screws of specifications and models of splendid attire, reasonable in design, result of use is good.

Certainly the Z of the screw locking machine of the technical program, 1axle lock screw device 3 and Z 2the screwed lock that axle lock screw device 5 all can carry out specifications and models of the same race to workpiece is paid, if workpiece need to carry out relatively large specifications and models screwed lock of the same race while paying, the screw locking machine of the technical program can be accelerated multiple screwed locks and pay work, realizes equally high efficiency.

In the present embodiment, described working box 1 is also provided with the afer bay 12 that is positioned at forebay 11 rears, and afer bay 12 is provided with to be got work piece apparatus 7 and get for driving the X that work piece apparatus 7 moves left and right 3shaft transmission 6.Concrete, when the workpiece of placing on left workbench 14 and/or right workbench 15 has carried out after lock screw operation, i.e. Z 1axle lock screw device 3 and Z 2axle lock screw device 5 is through workpiece being carried out after screwed lock pays, and this operation need to be carried out next process, the Y that the technical program arranges 1shaft transmission 2 and Y 2shaft transmission 10 can first drive respectively left workbench 14 and right workbench 15 to move to afterwards the below of getting work piece apparatus 7 that afer bay 12 arranges always, gets the descending absorption of work piece apparatus 7/captured the workpiece that screwed lock is paid, and then gets work piece apparatus 7 up again; Now, X 3shaft transmission 6 drives the connected work piece apparatus 7 of getting to move along X-direction, until move to, the location point of setting carries out the work of next process or the collection dress etc. of packing.This kind of design of the present utility model realized automation pickup and can be delivered to next process carries out work, replace traditional artificial pickup pattern, realize pickup automation, improved the production efficiency of whole production line, brought great economic benefit to enterprise.

See Fig. 9, in the present embodiment, described in get work piece apparatus 7 and comprise cylinder 71, support 72, vacuum cup 73 and vacuum generator 74; Cylinder 71 and X 3shaft transmission 6 is fixedly connected with, and support 72 is connected with the piston rod of cylinder 71, and vacuum cup 73 is installed on support 72 and is positioned at the top of workbench, and vacuum cup 73 is connected by tracheae with vacuum generator 74.Concrete, in the time that left workbench 14 or right workbench 15 move to the below of getting work piece apparatus 7, now, cylinder 71 starts, it is descending that the piston rod of cylinder 71 promotes connected support 72, due to vacuum cup 73 being installed on support 72, when vacuum cup 73 contact and to left workbench 14 or right workbench 15 on place workpiece apply after certain pressure, vacuum generator 74 vacuumizes vacuum cup 73 by tracheae, vacuum cup 73 is drawn the workpiece of placing on left workbench 14 or right workbench 15, the piston rod of cylinder 71 resets again, support 72 goes upward to original position, X 3shaft transmission 6 drives whole absorption to have the position of getting work piece apparatus 7 and move to along X-direction concrete setting of workpiece, then, gets work piece apparatus 7 and can repeat above-mentioned action, workpiece is transferred to the operating position that need to operate to next process, last, X 3shaft transmission 6 drivings are got work piece apparatus 7 and are repeated workpiece absorption work, and whole workpiece is drawn and mobile process of carrying all realizes automation mechanized operation, and without manual operation, production process is smooth and easy, and production efficiency is high.

See Fig. 6, in the present embodiment, described X 3shaft transmission 6 comprises movable sleeving 61, guide pillar 62, motor 63, belt 64 and belt pulley 65; Belt pulley 65 is installed on the left and right sides of afer bay 12, belt 64 is set around belt pulley 65, the output shaft of motor 63 drives and is connected with a belt pulley 65 wherein, guide pillar 62 is installed along X-direction level, movable sleeving 61 is socketed with guide pillar 62 and is fixedly connected with belt 64, gets work piece apparatus 7 and is fixedly connected with movable sleeving 61.Concrete, after motor 63 starts, the main shaft of motor 63 rotates and drives connected one of them belt pulley 65 to rotate, belt pulley 65 rotates and drives the belt 64 that is set around two belt pulleys 65 to rotate, because movable sleeving 61 is fixedly connected with belt 64, be that movable sleeving 61 is along with the rotation of belt 64 is moved along X-direction taking guide pillar 62 as guiding, thereby the work piece apparatus 7 of getting being fixedly connected with movable sleeving 61 is moved along X-direction, and then the cylinder 71 of getting work piece apparatus 7 is moved along X-direction, final realization got work piece apparatus 7 and drawn workpiece and be delivered to next process, whole service process is steadily orderly, noise is low, efficiency is high.

In the present embodiment, the length of described guide pillar 62 is greater than the width of working box 1, guide pillar 62 is as the guide of getting work piece apparatus 7, the length of its design is greater than to the width of working box 1, can make long a part of guide pillar 62 extend to the operating position (can certainly extend to the operating position of a procedure) of next process, together with lower or the position of a upper procedure plug into, it is convenient in the time that workpiece is delivered to next process, there will not be the problem of disconnection, make the operation of whole production line more smooth and easy steadily, improve the automaticity of production line, and then enhance productivity.

See Fig. 6, in the present embodiment, described X 1shaft transmission 4 comprises X 1axis linear slide rail 41, X 1spindle motor 42, X 1axle belt 43 and X 1shaft pulley 44; X 1shaft pulley 44 is installed on the left and right sides of forebay 11, X 1axle belt 43 is set around X 1shaft pulley 44, X 1the output shaft of spindle motor 42 and wherein an X 1shaft pulley 44 drives and connects, X 1axis linear slide rail 41 is installed along X-direction level, X 1the slide block of axis linear slide rail 41 and X 1axle belt 43 connects, Z 1axle lock screw device 3 and X 1the slide block of axis linear slide rail 41 is fixedly connected with.Concrete, X 1spindle motor 42 startup work, X 1the main shaft of spindle motor 42 rotates and drives one of them X 1shaft pulley 44 rotates, X 1shaft pulley 44 drives and is set around two X 1the X of shaft pulley 44 1axle belt 43 rotates, due to X 1the slide block of axis linear slide rail 41 and X 1axle belt 43 connects, and makes X 1the slide block of axis linear slide rail 41 is realized X-direction with X 1the guide rail of axis linear slide rail 41 moves for leading, simultaneously due to Z 1axle lock screw device 3 and X 1the slide block of axis linear slide rail 41 is fixedly connected with, thereby realizes X 1spindle motor 42 is controlled Z 1axle lock screw device 3 carries out the automated movement of X-direction, controls front-side lock spiral shell device to left workbench 14 or has the workpiece of placing in work to carry out screwed lock and pay.More specifically, X 2shaft transmission 9 and X 1shaft transmission 4 includes same modular construction, and it can automatically be controlled and drive rear side chain spiral shell device to left workbench 14 or have the workpiece of placing in work to carry out screwed lock and pay.

See Fig. 7, in the present embodiment, described Y 1shaft transmission 2 comprises Y 1axis linear slide rail 21, Y 1spindle motor 22, Y 1axle belt 23 and Y 1shaft pulley 24; Y 1shaft pulley 24 is installed on the both sides, front and back of working box 1, Y 1axle belt 23 is set around Y 1shaft pulley 24, Y 1the output shaft of spindle motor 22 and wherein a Y 1shaft pulley 24 drives and connects, Y 1axis linear slide rail 21 is installed along Y direction level, Y 1the slide block of axis linear slide rail 21 and Y 1axle belt 23 connects, left workbench 14 and Y 1the slide block of axis linear slide rail 21 is fixedly connected with.Concrete, Y 1spindle motor 22 startup work, Y 1the main shaft of spindle motor 22 rotates and drives one of them Y 1shaft pulley 24 rotates, Y 1shaft pulley 24 drives and is set around two Y 1the Y of shaft pulley 24 1axle belt 23 rotates, due to Y 1the slide block of axis linear slide rail 21 and Y 1axle belt 23 connects, and makes Y 1the slide block of axis linear slide rail 21 is realized Y direction with Y 1the guide rail of axis linear slide rail 21 moves for leading, simultaneously due to left workbench 14 and Y 1the slide block of axis linear slide rail 21 is fixedly connected with, thereby realizes Y 1spindle motor 22 is controlled left workbench 14 and carries out the automated movement of Y direction, controls to place clamping and have the left workbench 14 of workpiece to move forward and backward, and is positioned Z 1axle lock screw device 3 or Z 2the below of axle lock screw device 5 is carried out screwed lock and is paid work.More specifically, Y 2shaft transmission 10 and Y 1shaft transmission 2 includes same modular construction, and it can control and drive placement clamping to have the right workbench 15 of workpiece to move forward and backward automatically, and is positioned Z 1axle lock screw device 3 or Z 2the below of axle lock screw device 5 is carried out screwed lock and is paid work.

Refer to Figure 10, described Z 1axle lock screw device 3 and Z 2axle lock screw device 5 includes electric screwdriver and the Z-axis transmission mechanism for driving electric screwdriver to move up and down.Concrete, described Z-axis transmission mechanism comprises Z axis linear slide rail 31, Z axis motor 32, Z axis belt 33 and Z axis belt pulley 34; Z axis motor 32 is by a movable plate 30 and X 1axle belt 43 is fixedly connected with, Z axis belt pulley 34 is installed on this movable plate 30, Z axis belt 33 is set around Z axis belt pulley 34, the output shaft of Z axis motor 32 drives and is connected with a Z axis belt pulley 34 wherein, Z axis linear slide rail 31 is along this movable plate 30 of Z-direction at right angle setting, the slide block of Z axis linear slide rail 31 is connected with Z axis belt 33, and electric screwdriver is connected with the slide block of Z axis linear slide rail 31.In the time that Z axis motor 32 starts work, the main shaft of Z axis motor 32 rotates and drives one of them Z axis belt pulley 34 to rotate, Z axis belt pulley 34 drives the Z axis belt 33 that is set around two Z axis belt pulleys 34 to rotate, because the slide block of Z axis linear slide rail 31 is connected with Z axis belt 33, making the slide block of z axis slide rail 31 realize Z-direction moves up and down taking the guide rail of Z axis linear slide rail 31 as guiding, simultaneously because electric screwdriver is fixedly connected with the slide block of Z axis linear slide rail 31, thereby realizing Z axis motor 32 controls electric screwdriver and carries out automatically moving up and down of Z-direction, thereby controlling electric screwdriver carries out screwed lock and pays work placing the workpiece of clamping on left workbench 14 or right workbench 15.

Further referring to Figure 10, the electric screwdriver of the present embodiment comprises electric screwdriver 35, screwdriver 36 and suction nozzle 37, electric screwdriver 35 is connected with screwdriver 36, suction nozzle 37 is sheathed on the periphery of screwdriver 36, suction nozzle 37 is communicated with vacuum generator 74 by tracheae, when driving electric screwdriver, Z-axis transmission mechanism comes downwards to screw supplying device 13 when interior, vacuum generator 74 makes suction nozzle 37 produce absorption affinity to screw by tracheae, draw screw thereby realize, for guaranteeing that the absorption of screw is not caused coming off because touching foreign object, magnetic devices (such as electromagnet etc.) can be set on the blade of screwdriver 36, realize the dual suction-operated of vacuum suction and magnetic absorption, adsorption effect is very good, guarantee that screw can not come off in electric screwdriver midway, ensure that screwed lock pays the smooth and easy of work and carry out, and then the operating efficiency of raising lock screw, the output of lifting production capacity.

See Fig. 8, workbench in the present embodiment also can arrange clamping device 8, clamping device 8 comprises clamping fixed block 81 and the clamping movable block 82 of the both sides that are arranged at workbench, then connect a power cylinder 83 that can drive clamping movable block 82 to move in the end of clamping movable block 82, in the time being placed with workpiece on workbench, for guaranteeing that this workpiece carries out screwed lock while paying, there will not be displacement, drive clamping movable block 82 to move by power cylinder 83 and support workpiece, clamp workpiece with 81 actings in conjunction of clamping fixed block, thereby guarantee that workpiece is not carrying out movement when screwed lock is paid, screwed lock is paid effective, it is high that screwed lock is paid efficiency.

See Figure 10, described Z 1axle lock screw device 3 and Z 2axle lock screw device 5 is provided with electron displacement chi 38, electron displacement chi 38 is connected with electric screwdriver 35, electron displacement chi 38 can drive the descending distance value of electric screwdriver to judge according to Z-axis transmission mechanism, the screwdriver 36 that the judges electric screwdriver whether distance in downstream settings value range carries out screwed lock to workpiece and pays, thereby the lock that can judge single screw is paid in the screw hole of locking workpiece whether completely, thereby can identify screwed lock and pay after operation completes whether belong to non-defective unit, and then the yields of raising product, the quality of raising product.

See Figure 10, described Z 1axle lock screw device 3 and Z 2axle lock screw device 5 is provided with flexible apparatus 39, flexible apparatus 39 comprises flexible slide block 391, sliding bar 392 and is sheathed on the flexible member 393 of sliding bar 392 peripheries, this flexible member 393 can be selected spring, flexible slide block 391 is slidably connected on the guide rail of Z axis linear slide rail 31, and be positioned at above the slide block of Z axis linear slide rail 31, the two ends up and down of sliding bar 392 are fixedly connected with the slide block of Z axis linear slide rail 31 with flexible slide block 391 respectively.In the time that the work of lock screw is carried out, when workpiece is conflicted in the bottom of the screwdriver 36 that the electric screwdriver 35 of electric screwdriver connects, screwdriver 36 can move up along the guide rail of Z axis linear slide rail 31, the slide block extruding flexible member 393 that is Z axis linear slide rail 31 upwards compresses, thereby can effectively prevent that screwdriver 36 direct collisions are to workpiece, cause workpiece damage, reduce widely the defective products rate of product, reasonable in design, service efficiency is very good.

Screw locking machine in the present embodiment is also provided with PLC controller and display 16, display 16 is rotatably installed on the side of forebay 11, PLC is connected with each transmission mechanism signal of telecommunication, realize each transmission mechanism Automatic Control, coordinate carrying out in order of each workpiece, increase work efficiency.Obviously, automation equipment can realize automation control with logic control circuit, in conjunction with actual conditions, adopts PLC to control better effects if, and the PLC controller that the utility model uses can be and directly purchases PLC controller.

The advantage of screw locking machine of the present utility model has: one, each screwed lock is paid the screwed lock that can carry out two kinds of specifications and paid, applied widely; Two, the setting of double-workbench, can carry out screwed lock to two part workpiece at every turn and pay, and production efficiency is high; Three, take workpiece by automation mechanized operation, without manpower work, automaticity is high.

Known the utility model is to have above-described good characteristic in sum, is made it manufacture assembling and use, and promotes the usefulness not having in conventional art and has practicality, becomes a novel product structure that has a practical value.

Above content is only preferred embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.

Claims (10)

1. double-workbench multifunctional efficient rate automatic locking screw machine, comprise working box (1), working box (1) is provided with forebay (11), screw supplying device (13), workbench and the Y-axis transmission mechanism for driving workbench to move forward and backward, workbench is positioned at the below of forebay (11), it is characterized in that: the front end of described forebay (11) is provided with Z 1axle lock screw device (3) and for driving Z 1the X that axle lock screw device (3) moves left and right 1shaft transmission (4), the rear end of forebay (11) is provided with Z 2axle lock screw device (5) and for driving Z 2the X that axle lock screw device (5) moves left and right 2shaft transmission (9).
2. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 1, is characterized in that: described workbench comprises left workbench (14) and right workbench (15), and Y-axis transmission mechanism comprises Y 1shaft transmission (2) and Y 2shaft transmission (10); Left workbench (14) and right workbench (15) are arranged at respectively working box (1) top, Y 1shaft transmission (2) is for driving left workbench (14) to move forward and backward, Y 2shaft transmission (10) is for driving right workbench (15) to move forward and backward.
3. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 2, is characterized in that: described screw supplying device (13) is arranged between left workbench (14) and right workbench (15) and is positioned at the below of forebay (11).
4. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 1, it is characterized in that: described working box (1) is also provided with the afer bay (12) that is positioned at forebay (11) rear, afer bay (12) is provided with to be got work piece apparatus (7) and gets for driving the X that work piece apparatus (7) moves left and right 3shaft transmission (6).
5. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 4, is characterized in that: described in get work piece apparatus (7) and comprise cylinder (71), support (72), vacuum cup (73) and vacuum generator (74); Cylinder (71) and X 3shaft transmission (6) is fixedly connected with, and support (72) is connected with the piston rod of cylinder (71), and vacuum cup (73) is installed on support (72) and is positioned at the top of workbench, and vacuum cup (73) is connected by tracheae with vacuum generator (74).
6. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 4, is characterized in that: described X 3shaft transmission (6) comprises movable sleeving (61), guide pillar (62), motor (63), belt (64) and belt pulley (65); Belt pulley (65) is installed on the left and right sides of afer bay (12), belt (64) is set around belt pulley (65), the output shaft of motor (63) drives and is connected with a belt pulley (65) wherein, guide pillar (62) is installed along X-direction level, movable sleeving (61) is socketed and is fixedly connected with belt (64) with guide pillar (62), gets work piece apparatus (7) and is fixedly connected with movable sleeving (61).
7. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 6, is characterized in that: the length of described guide pillar (62) is greater than the width of working box (1).
8. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 1, is characterized in that: described X 1shaft transmission (4) comprises X 1axis linear slide rail (41), X 1spindle motor (42), X 1axle belt (43) and X 1shaft pulley (44); X 1shaft pulley (44) is installed on the left and right sides of forebay (11), X 1axle belt (43) is set around X 1shaft pulley (44), X 1the output shaft of spindle motor (42) and wherein an X 1shaft pulley (44) drives and connects, X 1axis linear slide rail (41) is installed along X-direction level, X 1slide block and the X of axis linear slide rail (41) 1axle belt (43) connects, Z 1axle lock screw device (3) and X 1the slide block of axis linear slide rail (41) is fixedly connected with.
9. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 2, is characterized in that: described Y 1shaft transmission (2) comprises Y 1axis linear slide rail (21), Y 1spindle motor (22), Y 1axle belt (23) and Y 1shaft pulley (24); Y 1shaft pulley (24) is installed on the both sides, front and back of working box (1), Y 1axle belt (23) is set around Y 1shaft pulley (24), Y 1the output shaft of spindle motor (22) and wherein a Y 1shaft pulley (24) drives and connects, Y 1axis linear slide rail (21) is installed along Y direction level, Y 1slide block and the Y of axis linear slide rail (21) 1axle belt (23) connects, left workbench (14) and Y 1the slide block of axis linear slide rail (21) is fixedly connected with.
10. double-workbench multifunctional efficient rate automatic locking screw machine according to claim 1, is characterized in that: described Z 1axle lock screw device (3) and Z 2axle lock screw device (5) includes Z axis electric screwdriver and the Z-axis transmission mechanism for driving Z axis electric screwdriver to move up and down.
CN201420267222.5U 2014-05-23 2014-05-23 Double-workbench multifunctional efficient rate automatic locking screw machine CN203918411U (en)

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Application Number Priority Date Filing Date Title
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103978361A (en) * 2014-05-23 2014-08-13 东莞市贝迪自动化科技有限公司 Double-working-table multifunctional high-efficiency automatic screwing machine
CN107662096A (en) * 2016-07-27 2018-02-06 汉达精密电子(昆山)有限公司 Automatic assembling magnet arrangement

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103978361A (en) * 2014-05-23 2014-08-13 东莞市贝迪自动化科技有限公司 Double-working-table multifunctional high-efficiency automatic screwing machine
CN107662096A (en) * 2016-07-27 2018-02-06 汉达精密电子(昆山)有限公司 Automatic assembling magnet arrangement

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Denomination of utility model: Double-working-table multifunctional high-efficiency automatic screwing machine

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Pledgee: China Co truction Bank Corp Dongguan Dongcheng Branch

Pledgor: Dongguan City Bei Di automation Science and Technology Ltd.

Registration number: 2017440000102

Denomination of utility model: Double-working-table multifunctional high-efficiency automatic screwing machine

Effective date of registration: 20171016

Granted publication date: 20141105

Pledgee: China Co truction Bank Corp Dongguan Dongcheng Branch

Pledgor: Dongguan City Bei Di automation Science and Technology Ltd.

Registration number: 2017440000102

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Address after: 523000 No. 10, Jing Rong Road, Niu Shan outer diameter Industrial Park, Dongcheng Street, Dongguan, Guangdong

Patentee after: Guangdong Bedi robot Co., Ltd.

Address before: 523000 Guangdong province Dongguan Nancheng District Guan Tai Road and Station Road Interchange aubstadt high-tech park in the first period of the first building C room 02

Patentee before: Dongguan City Bei Di automation Science and Technology Ltd.

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Registration number: 2017440000102