CN208820638U - The automatic processing of stator magnetic shoe assembles integrated equipment - Google Patents
The automatic processing of stator magnetic shoe assembles integrated equipment Download PDFInfo
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- CN208820638U CN208820638U CN201821750741.1U CN201821750741U CN208820638U CN 208820638 U CN208820638 U CN 208820638U CN 201821750741 U CN201821750741 U CN 201821750741U CN 208820638 U CN208820638 U CN 208820638U
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- 238000004140 cleaning Methods 0.000 claims abstract description 67
- 239000007921 spray Substances 0.000 claims abstract description 43
- 238000000429 assembly Methods 0.000 claims abstract description 31
- 230000000712 assembly Effects 0.000 claims abstract description 31
- 230000001360 synchronised effect Effects 0.000 claims description 26
- 230000005693 optoelectronics Effects 0.000 claims description 7
- 230000006698 induction Effects 0.000 claims description 6
- 230000000007 visual effect Effects 0.000 claims description 6
- 239000000463 material Substances 0.000 claims description 5
- 238000000034 method Methods 0.000 abstract description 22
- 238000005507 spraying Methods 0.000 abstract description 3
- NJPPVKZQTLUDBO-UHFFFAOYSA-N novaluron Chemical compound C1=C(Cl)C(OC(F)(F)C(OC(F)(F)F)F)=CC=C1NC(=O)NC(=O)C1=C(F)C=CC=C1F NJPPVKZQTLUDBO-UHFFFAOYSA-N 0.000 description 6
- RYGMFSIKBFXOCR-UHFFFAOYSA-N Copper Chemical compound [Cu] RYGMFSIKBFXOCR-UHFFFAOYSA-N 0.000 description 2
- 239000003795 chemical substances by application Substances 0.000 description 2
- 229910052802 copper Inorganic materials 0.000 description 2
- 239000010949 copper Substances 0.000 description 2
- 239000003292 glue Substances 0.000 description 2
- 238000004519 manufacturing process Methods 0.000 description 2
- 239000007787 solid Substances 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000005284 excitation Effects 0.000 description 1
- 238000012423 maintenance Methods 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 238000012536 packaging technology Methods 0.000 description 1
- 238000007781 pre-processing Methods 0.000 description 1
- 230000001737 promoting effect Effects 0.000 description 1
- 238000007711 solidification Methods 0.000 description 1
- 230000008023 solidification Effects 0.000 description 1
- 238000005406 washing Methods 0.000 description 1
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Abstract
The utility model discloses a kind of automatic processing assembling integrated equipment of stator magnetic shoe, the magnetic shoe piece in pallet loading assemblies is grabbed by magnetic shoe grabbing assembly, successively magnetic shoe piece is driven to the workspace of magnetic shoe plasma cleaning component and cleaned, spray promotor processing, the workspace for taking magnetic shoe dispensing component to carries out dispensing operation, it is finally taken out by magnetic shoe blanking component, to realize the pretreatment overall process of magnetic shoe and stator assembling;Stator elements constantly are transmitted to stator conveying assembly by stator loading assemblies, cleaning settles at one go with promotor spraying, stator elements after processing are transferred on assembling turntable by positioning take-off assembly again and carry out stator and magnetic shoe assembling, magnetic shoe blanking component and positioning take-off assembly convey magnetic shoe or stator to stator assembling machine structure simultaneously, assembling process while stator and magnetic shoe thus may be implemented, automatic operation management, structure is simple, it is easily achieved, the pretreated working efficiency of stator can be greatly improved.
Description
Technical field
The utility model relates to the technical field of stator magnetic shoe assembling more particularly to a kind of automatic processing groups of stator magnetic shoe
Fill integrated equipment.
Background technique
Magnetic shoe is one of permanent magnet, the tiles magnet being used primarily on magneto.With electromagnetic motor by encouraging
Magnetic coil generates magnetic potential source difference, and magneto is to generate constant magnetic potential source with permanent-magnet material.Permanent magnetic tile has instead of electrical excitation
Have many good qualities, can make electric machine structure it is simple, it is easy to maintenance, light-weight, small in size, using reliable, copper consumption is few, copper loss is low,
Energy consumption is small etc..
Traditional stator magnetic shoe packaging technology is as follows, first magnetizes to magnetic shoe, then completes stator and magnetic shoe assembling, point
Glue, solidification due to magnetizing before magnetic shoe assembling and be easily assembled operator not, therefore cause that operation labor intensity is big and production efficiency is low.
Utility model content
Shortcoming present in view of the above technology, what the utility model provided that a kind of structure is simple and convenient to operate determines
The automatic processing of sub- magnetic shoe assembles integrated equipment.
In order to achieve the above object, a kind of automatic processing of stator magnetic shoe of the utility model assembles integrated equipment, including magnetic
Watt pretreatment mechanism, stator pretreatment mechanism, stator assembling machine structure and lower bearing bracket body, the magnetic shoe pre-process mechanism, stator
Pretreatment mechanism and stator assembling machine structure are each attached on lower bearing bracket body;Magnetic shoe pretreatment mechanism includes pallet feeding group
Part, magnetic shoe grabbing assembly, magnetic shoe plasma cleaning component, magnetic shoe dispensing component, magnetic shoe blanking component, synchronous belt conveying assembly with
And lower bearing bracket body, the magnetic shoe grabbing assembly are arranged between pallet loading assemblies and synchronous belt conveying assembly, the magnetic shoe point
Glue component is arranged between magnetic shoe plasma cleaning component and magnetic shoe blanking component, the magnetic shoe plasma cleaning component and magnetic
Watt dispensing component is arranged at synchronous belt conveying assembly side;Stator pretreatment mechanism includes stator loading assemblies, stator
Conveying assembly, stator plasma cleaning component, promotor spray assembly and positioning take-off assembly, the stator loading assemblies
Feeding port connects with the input terminal of stator conveying assembly, and the output end of the stator conveying assembly connects with positioning take-off assembly,
The stator plasma cleaning component and promotor spray assembly are arranged at the side of stator conveying assembly, and the promotion
The setting of agent spray assembly is between stator plasma cleaning component and positioning take-off assembly;The magnetic shoe blanking component and positioning
Take-off assembly is in contact with stator assembling machine structure.
Wherein, the pallet loading assemblies include pallet feeding station, robot feeding station, pallet discharge station and
Feeding pallet, the robot feeding station are arranged between pallet feeding station and pallet discharge station, are built-in with magnetic shoe piece
Feeding pallet be respectively contained in pallet feeding station and robot feeding station, taken out magnetic shoe piece feeding pallet hold
It sets in pallet discharge station.
Wherein, the pallet loading assemblies further include the traversing component of pallet, and the traversing component of pallet includes that pallet is traversing
Guide rail and tray support arm, the tray support arm are slidably fixed on the traversing guide rail of pallet, the tray support arm two
Two groups of sucker plates are drawn at end, and every group of sucker plate bottom is equipped with vertical cylinder;The distance between two groups of sucker plates are equal on pallet
Expect the distance between station and robot feeding station and the distance between robot feeding station and pallet feeding station.
Wherein, the tray slot marginal position of the pallet feeding station is equipped with the first transfer cylinder and the first tenon folder,
The robot feeding station is equipped with the second transfer cylinder and the second tenon folder, the pallet discharge station are equipped with third
Cylinder and third tenon folder are shifted, the first tenon folder is connected with the movable end of the first transfer cylinder, most second tenons
It presss from both sides and is connected with the movable end of the second transfer cylinder, the third tenon folder is connected with the movable end of third transfer cylinder.
Wherein, the stator loading assemblies include charging belt and stator baffle, and the stator baffle includes directing plate
And reclaiming plate, the directing plate, which is drawn and tilted from a side of charging belt, stretches to reclaiming plate, the reclaiming plate and feeding
Another side of belt is parallel, and reclaiming plate greater than the diameter of a stator and is less than at a distance from another side of charging belt
The diameter of two stators.
Wherein, the stator baffle further includes limit plate, and the limit plate is fixed on a side edge of charging belt,
The reclaiming plate is fixed on customization conveying assembly, and the directing plate is not contacted with the sliding bell face of charging belt.
Wherein, the stator conveying assembly includes belt line drive end, belt line driven end, belt line baffle and induction
Stator optoelectronic switch, the belt line drive end connect with stator loading assemblies, the belt line driven end and positioning feeding group
Part connects, and the belt line baffle plate setting is evenly distributed on belt line in the two sides of belt line, multiple groups induction stator optoelectronic switch
On baffle.
Wherein, the stator assembling machine structure includes CCD visual component, assembling turntable and operation position, the CCD vision
Between stator conveying assembly and assembling turntable, multiple groups operation position is evenly distributed on the margin location of assembling turntable for component setting
It sets, and when one group of operation position is opposite with stator conveying assembly, in addition two groups of operation positions are opposite with synchronous belt conveying assembly.
Wherein, the magnetic shoe plasma cleaning component includes arch support, magnetic shoe plasma cleaning head, the spray of magnetic shoe promotor
Head and the traversing guide rail of cleaning, the arch support longitudinal crossing synchronous belt conveying assembly is simultaneously fixed on lower bearing bracket body, described
Magnetic shoe plasma cleaning head and magnetic shoe promotor spray head are slidably fixed on the traversing guide rail of cleaning, and magnetic shoe plasma is clear
Hair washing and magnetic shoe promotor spray head are separately positioned on the traversing guide rail two sides of cleaning;The magnetic shoe dispensing component includes point plastic pin
Cylinder, X-axis moving guide rail, Y-axis moving guide rail and Z axis moving guide rail, the X-axis moving guide rail are parallel with synchronous belt conveying assembly
It is arranged and is fixed on lower bearing bracket body, the Y-axis moving guide rail is slidably fixed on X-axis moving guide rail, and the Z axis movement is led
Rail is slidably fixed on Y-axis moving guide rail.
Wherein, the stator plasma cleaning component includes plasma bracket, stator plasma cleaning head and plasma Z
Axis riser guide, the Z axis riser guide are fixed on plasma bracket, and the stator plasma cleaning head is slidably fixed on
On Z axis riser guide, and the stator plasma cleaning head is directed toward stator conveying assembly;The promotor spray assembly includes promoting
Into agent bracket, stator promotor spray head and promotor Z axis riser guide, the Z axis riser guide is fixed on promotor bracket
On, the stator promotor spray head is slidably fixed on Z axis riser guide, and stator promotor spray head direction stator is defeated
Sending component.
The beneficial effects of the utility model are:
Compared with prior art, the magnetic shoe piece in pallet loading assemblies is grabbed by magnetic shoe grabbing assembly, is then put
Enter on synchronous belt conveying assembly, synchronous belt conveying assembly in the course of rotation, successively drives magnetic shoe piece to magnetic shoe plasma
The workspace of cleaning assembly is cleaned, sprays promotor processing, and the workspace for taking magnetic shoe dispensing component to carries out dispensing operation, most
It is taken out afterwards by magnetic shoe blanking component, to realize the pretreatment overall process of magnetic shoe and stator assembling;Pass through stator loading assemblies
Stator elements constantly are transmitted to stator conveying assembly, the stator elements on stator conveying assembly successively pass through stator plasma cleaning
Component cleaning, promotor spray assembly spray promotor, and cleaning settles at one go with promotor spraying, then will by positioning take-off assembly
Stator elements, which are transferred on assembling turntable, after processing carries out stator and magnetic shoe assembling, and magnetic shoe blanking component and positioning take-off assembly are same
When to stator assembling machine structure convey magnetic shoe or stator, assembling process while stator and magnetic shoe, automation thus may be implemented
Operational administrative has the advantages of simple structure and easy realization, and can greatly improve the pretreated working efficiency of stator.
Detailed description of the invention
Fig. 1 is the structure chart of the automatic processing assembling integrated equipment of the utility model stator magnetic shoe;
Fig. 2 is the structure chart that the utility model magnetic shoe pre-processes mechanism;
Fig. 3 is the pallet loading assemblies local structural graph that the utility model magnetic shoe pre-processes mechanism;
Fig. 4 is the structure chart for the magnetic shoe grabbing assembly that the utility model magnetic shoe pre-processes mechanism;
Fig. 5 is the structure chart for the magnetic shoe plasma cleaning component that the utility model magnetic shoe pre-processes mechanism;
Fig. 6 is the structure chart for the magnetic shoe dispensing component that the utility model magnetic shoe pre-processes mechanism;
Fig. 7 is the structure chart for the magnetic shoe blanking component that the utility model magnetic shoe pre-processes mechanism;
Fig. 8 is the structural schematic diagram that the utility model stator assembles preprocessor structure;
Fig. 9 is the local structural graph for the stator loading assemblies that the utility model stator pre-processes mechanism;
Figure 10 is the structure chart for the stator conveying assembly that the utility model stator pre-processes mechanism;
Figure 11 is the knot for the stator plasma cleaning component that the utility model stator pre-processes mechanism
Composition;
Figure 12 is the structure chart for the promotor spray assembly that the utility model stator pre-processes mechanism;
Figure 13 is the local structural graph of the utility model stator assembling machine structure.
Main element symbol description is as follows:
1, magnetic shoe pretreatment mechanism 2, stator pre-process mechanism
3, stator assembling machine structure
11, pallet loading assemblies 12, magnetic shoe grabbing assembly
13, magnetic shoe plasma cleaning component 14, magnetic shoe dispensing component
15, magnetic shoe blanking component 16, synchronous belt conveying assembly
17, lower bearing bracket body
111, pallet feeding station 112, robot feeding station
113, pallet discharge station 114, feeding pallet
115, the traversing component of pallet
1111, the first transfer cylinder 1112, the first tenon folder
1121, the second transfer cylinder 1122, the second tenon folder
1131, third transfer cylinder 1132, third tenon folder
1151, the traversing guide rail 1152 of pallet, tray support arm
1153, sucker plate 1154, vertical cylinder
121, feeding robot pedestal 122, four axis robot of feeding
123, magnetic shoe feeding gripper
131, arch support 132, magnetic shoe plasma cleaning head
133, magnetic shoe promotor spray head 134, the traversing guide rail of cleaning
141, dispensing syringe 142, X-axis moving guide rail
143, Y-axis moving guide rail 144, Z axis moving guide rail
151, feeding robot pedestal 152, four axis robot of blanking
153, magnetic shoe blanking gripper
21, stator loading assemblies 22, stator conveying assembly
23, stator plasma cleaning component 24, promotor spray assembly
25, take-off assembly is positioned
211, charging belt 212, stator baffle
2121, directing plate 2122, reclaiming plate
2123, limit plate
221, belt line drive end 222, belt line driven end
223, belt line baffle 224, induction stator optoelectronic switch
231, plasma bracket 232, stator plasma cleaning head
233, plasma Z axis riser guide
241, promotor bracket 242, stator promotor spray head
243, promotor Z axis riser guide
31, CCD visual component 32, assembling turntable
33, operation position.
Specific embodiment
In order to more clearly state the utility model, the utility model is further described with reference to the accompanying drawing.
Refering to fig. 1, a kind of automatic processing of stator magnetic shoe of the utility model assembles integrated equipment, including magnetic shoe preprocessor
Structure 1, stator pretreatment mechanism 2, stator assembling machine structure 3 and lower bearing bracket body 17, magnetic shoe pre-process mechanism 1, stator preprocessor
Structure 2 and stator assembling machine structure 33 are each attached on lower bearing bracket body 17.
Further referring to Fig. 2, it includes pallet loading assemblies 11, magnetic shoe grabbing assembly 12, magnetic shoe that magnetic shoe, which pre-processes mechanism 1,
Plasma cleaning component 13, magnetic shoe dispensing component 14, magnetic shoe blanking component 15, synchronous belt conveying assembly 16 and lower bearing bracket body
17, pallet loading assemblies 11, magnetic shoe grabbing assembly 12, magnetic shoe plasma cleaning component 13, magnetic shoe dispensing component 14, magnetic shoe blanking
Component 15 and synchronous belt conveying assembly 16 are each attached on lower bearing bracket body 17, and magnetic shoe grabbing assembly 12 is arranged in pallet feeding group
Between part 11 and synchronous belt conveying assembly 16, magnetic shoe dispensing component 14 is arranged in magnetic shoe plasma cleaning component 13 and magnetic shoe blanking
Between component 15, magnetic shoe plasma cleaning component 13 and magnetic shoe dispensing component 14 are arranged at 16 side of synchronous belt conveying assembly
Side.The magnetic shoe piece in pallet loading assemblies 11 is grabbed by magnetic shoe grabbing assembly 12, then puts it into synchronous belt conveying assembly
On 16, synchronous belt conveying assembly 16 in the course of rotation, is successively driven magnetic shoe piece to magnetic shoe plasma cleaning component 13
Workspace is cleaned, sprays promotor processing, and the workspace for taking magnetic shoe dispensing component 14 to carries out dispensing operation, finally by magnetic shoe
Blanking component 15 takes out, to realize the pretreatment overall process of magnetic shoe and stator assembling, the pretreated overall process of magnetic shoe passes through
The combination of the above structure realizes full-automatic operation, both improves production efficiency, while also improving processing accuracy.
Further referring to Fig. 3, pallet loading assemblies 11 include pallet feeding station 111, robot feeding station 112,
Pallet discharge station 113 and feeding pallet 114, the setting of robot feeding station 112 is under pallet feeding station 111 and pallet
Expect between station 113, the feeding pallet 114 for being built-in with magnetic shoe piece is respectively contained in pallet feeding station 111 and robot takes
Expect on station 112, the feeding pallet 114 for having taken out magnetic shoe piece is accommodated in pallet discharge station 113.Pallet feeding station 111,
Robot feeding station 112, pallet discharge station 113 are respectively set, and facilitate the feeding pallet 114 during automatically processing
It picks and places, is more clear operational sequence.
In the present embodiment, pallet loading assemblies 11 further include the traversing component 115 of pallet, and the traversing component 115 of pallet includes
The traversing guide rail 1151 of pallet and tray support arm 1152, tray support arm 1152 are slidably fixed on the traversing guide rail 1151 of pallet
On, two groups of sucker plates 1153 are drawn at 1152 both ends of tray support arm, and every group of 1153 bottom of sucker plate is equipped with vertical cylinder 1154;
The distance between two groups of sucker plates 1153 are equal to the distance between pallet feeding station 111 and robot feeding station 112, and
The distance between robot feeding station 112 and pallet feeding station 111.Tray support arm 1152 is in the process of moving, real
Between existing pallet feeding station 111 and robot feeding station 112, robot feeding station 112 and pallet discharge station 113 it
Between feeding pallet 114 shift.
In the present embodiment, the tray slot marginal position of pallet feeding station 111 be equipped with first transfer cylinder 1111 and
First tenon folder 1112, robot feeding station 112 are equipped with the second transfer cylinder 1121 and the second tenon folder 1122, pallet
Discharge station 113 is equipped with third transfer cylinder 1131 and third tenon folder 1132, the first tenon folder 1112 and the first transfer
The movable end of cylinder 1111 is connected, and most second tenon folders 1122 are connected with the movable end of the second transfer cylinder 1121, third tenon
Head folder 1132 is connected with the movable end of third transfer cylinder 1131.
The concrete operations mode of pallet loading assemblies 11 is as follows:
Under the drive of vertical cylinder 1154, two groups of sucker plates 1153, which move up, is respectively at pallet feeding station 111
Tray slot bottom and robot feeding station 112 tray slot bottom;
The first transfer cylinder 1111 of starting and the second transfer cylinder 1121, the first tenon folder 1112 shift cylinder first
It is exited outward under 1111 drive, the second tenon folder 1122 exits outward under the drive of the second transfer cylinder 1121, on pallet
Feeding pallet 114 on material station 111 and the feeding pallet 114 in robot feeding station 112 just fall into two groups of sucker plates
On 1153;
Restart vertical cylinder 1154, so that two groups of sucker plates 1153 is moved down the distance of one piece of feeding pallet 114, then open
Dynamic first transfer cylinder 1111 is pushed home into the first tenon folder 1112 under the drive of the first transfer cylinder 1111, blocks one
Block feeding pallet 114, avoids it from falling;
Start the traversing guide rail 1151 of pallet, tray support arm 1152 is mobile, when two groups of sucker plates 1153 are respectively at machine
Behind the tray slot bottom of people's feeding station 112 and the tray slot bottom of pallet discharge station 113, stop motion;
Start third and shift cylinder 1131, moves back third tenon folder 1132 outward under the drive of third transfer cylinder 1131
Out, the vacant feeding pallet 114 in pallet discharge station 113 is in contact with the feeding pallet 114 on sucker plate 1153;
It is again started up vertical cylinder 1154, two groups of sucker plates 1153 is made to move up the distance of one piece of feeding pallet 114, then
The second transfer cylinder 1121 of starting and third shift cylinder 1131, are that the second tenon folder 1122 shifts cylinder 1121 second
It is pushed home under drive, third tenon folder 1132 is pushed home under the drive of third transfer cylinder 1131;
Magnetic shoe grabbing assembly 12 grabs the magnetic shoe piece in robot feeding station 112, to the feeding pallet 114 in the station
After vacant;Above-mentioned movement is repeated, is shifted on feeding pallet 114 to robot feeding station 112 to be processed, and upper material torr will be controlled
Disk 114 is transferred to pallet discharge station 113.
Further referring to Fig. 4, magnetic shoe grabbing assembly 12 includes feeding robot pedestal 121, four axis robot 122 of feeding
And magnetic shoe feeding gripper 123, four axis robot 122 of feeding are fixed on feeding robot pedestal 121, magnetic shoe feeding gripper
123 stretch out from the lever arm of four axis robot 122 of feeding, and synchronous belt conveying assembly 16 includes two conveyer belts, every conveyer belt
On be equipped with multiple groups magnetic shoe limited block, magnetic shoe feeding gripper 123 is active between feeding pallet 114 and magnetic shoe limited block.Magnetic shoe
For feeding gripper 123 under the drive of four axis robot 122 of feeding, any position that may be implemented in opereating specification is mobile.
Further referring to Fig. 5, magnetic shoe plasma cleaning component 13 includes arch support 131, magnetic shoe plasma cleaning head
132, magnetic shoe promotor spray head 133 and the traversing guide rail 134 of cleaning, 131 longitudinal crossing synchronous belt conveying assembly 16 of arch support
And be fixed on lower bearing bracket body 17, magnetic shoe plasma cleaning head 132 and magnetic shoe promotor spray head 133 are slidably fixed on clearly
Wash on traversing guide rail 134, and magnetic shoe plasma cleaning head 132 and magnetic shoe promotor spray head 133 be separately positioned on cleaning it is traversing
134 two sides of guide rail.Magnetic shoe piece first carries out plasma cleaning, then sprays promotor, and two functors are each attached to arch support 131
On, it is controlled respectively by two traversing guide rails 134 of cleaning, the magnetic shoe piece on two synchronous belts is processed respectively, can be further improved
Working efficiency saves the time.
Further referring to Fig. 6, magnetic shoe dispensing component 14 includes dispensing syringe 141, X-axis moving guide rail 142, Y-axis movement
Guide rail 143 and Z axis moving guide rail 144, X-axis moving guide rail 142 and synchronous belt conveying assembly 16 are arranged in parallel and are fixed on down
On Rack Body 17, Y-axis moving guide rail 143 is slidably fixed on X-axis moving guide rail 142, and Z axis moving guide rail 144 is slidably solid
It is scheduled on Y-axis moving guide rail 143.The common work of X-axis moving guide rail 142, Y-axis moving guide rail 143 and Z axis moving guide rail 144
With can be more accurate by dispensing syringe 141 and the Distance positioning of magnetic shoe piece.
Further referring to Fig. 7, magnetic shoe blanking component 15 includes feeding robot pedestal 151, four axis robot 152 of blanking
And magnetic shoe blanking gripper 153, four axis robot 152 of blanking are fixed on feeding robot pedestal 151, magnetic shoe blanking gripper
153 stretch out from the lever arm of four axis robot 152 of blanking.
Further referring to Fig. 8, stator assembling preprocessor structure include stator loading assemblies 21, stator conveying assembly 22,
Stator plasma cleaning component 23, promotor spray assembly 24 and positioning take-off assembly 25, the feeding of stator loading assemblies 21
Mouth connects with the input terminal of stator conveying assembly 22, and the output end of stator conveying assembly 22 connects with positioning take-off assembly 25, fixed
Sub- plasma cleaning component 23 and promotor spray assembly 24 are arranged at the side of stator conveying assembly 22, and promotor sprays
The setting of component 24 is applied between stator plasma cleaning component 23 and positioning take-off assembly 25.It is continuous by stator loading assemblies 21
Stator elements are transmitted to stator conveying assembly 22, the stator elements on stator conveying assembly 22 successively pass through stator plasma cleaning
The cleaning of component 23, promotor spray assembly 24 spray promotor, and cleaning settles at one go with promotor spraying, then by positioning feeding group
Stator elements after processing are transferred on assembling turntable 32 and carry out stator and magnetic shoe assembling by part 25.The stator assembling of the utility model is pre-
Processing mechanism automatic operation management, has the advantages of simple structure and easy realization, and can greatly improve the pretreated working efficiency of stator.
Further referring to Fig. 9, stator loading assemblies 21 include charging belt 211 and stator baffle 212, stator baffle
212 include directing plate 2121 and reclaiming plate 2122, and directing plate 2121, which is drawn and tilted from a side of charging belt 211, to be stretched to
Reclaiming plate 2122, reclaiming plate 2122 is parallel with another side of charging belt 211, and reclaiming plate 2122 and charging belt 211
The distance of another side is greater than the diameter of a stator and less than the diameter of two stators.
In the present embodiment, stator baffle 212 further includes limit plate 2123, and limit plate 2123 is fixed on charging belt 211
A side edge on, reclaiming plate 2122 be fixed on customization conveying assembly on, the sliding skin of directing plate 2121 and charging belt 211
Zone face does not contact.
The fixation of limit plate 2123 and reclaiming plate 2122 realizes the fixation of directing plate 2121, determines on charging belt 211
Component is mobile to 2122 direction of reclaiming plate with belt on belt, and during vertical shift, inclined directing plate 2121 is kept off
The moving range of stator elements is lived, stator elements just can only be from 2122 position blanking of reclaiming plate.And reclaiming plate 2122 and charging belt
The distance of 211 another side is greater than the diameter of a stator and less than the diameter of two stators, under ensuring that so every time
Material all can only next stator elements, guarantee that single stator elements are fallen into and carry out the next step in stator conveying assembly 22.
Further referring to Figure 10, stator conveying assembly 22 includes belt line drive end 221, belt line driven end 222, skin
Band line baffle 223 and induction stator optoelectronic switch 224, belt line drive end 221 connect with stator loading assemblies 21, belt line
Driven end 222 connects with positioning take-off assembly 25, and the two sides of belt line are arranged in belt line baffle 223, and multiple groups incude stator light
Electric switch 224 is evenly distributed on belt line baffle 223.Incuding stator optoelectronic switch 224 can be to the stator elements in belt line
It carries out position and determines only there is stator in belt line, stator plasma cleaning component 23 and promotor spray assembly 24 just can
Carry out next step operation.
Further referring to Figure 11, stator plasma cleaning component 23 includes plasma bracket 231, stator plasma cleaning
First 232 and plasma Z axis riser guide 233, Z axis riser guide is fixed on plasma bracket 231, stator plasma cleaning
First 232 are slidably fixed on Z axis riser guide, and stator plasma cleaning head 232 is directed toward stator conveying assembly 22.
Further referring to Figure 12, promotor spray assembly 24 includes promotor bracket 241, stator promotor spray head 242
And promotor Z axis riser guide 243, Z axis riser guide is fixed on promotor bracket 241, and stator promotor spray head 242 can
Sliding is fixed on Z axis riser guide, and stator promotor spray head 242 is directed toward stator conveying assembly 22.
Further referring to Figure 13, stator assembling machine structure 3 includes CCD visual component 31, assembling turntable 32 and operative employee
Position 33, CCD visual component 31 is arranged between stator conveying assembly and assembling turntable 32, and multiple groups operation position 33 is evenly distributed on
The marginal position of turntable 32 is assembled, and when one group of operation position 33 is opposite with stator conveying assembly, in addition two groups of operation positions
33 is opposite with synchronous belt conveying assembly.There is multiple groups operation position 33 on assembling turntable 32, assembling turntable 32 is fixed during rotation
Sub- conveying assembly and synchronous belt conveying assembly place stator and magnetic shoe constantly on operation position 33, and operation position 33 is equipped with solid
The positioning column of stator, stator are through on positioning column, then are sticked magnetic shoe and completed assembling.
Disclosed above is only several specific embodiments of the utility model, but the utility model is not limited to this,
The changes that any person skilled in the art can think of should all fall into the protection scope of the utility model.
Claims (10)
1. a kind of automatic processing of stator magnetic shoe assembles integrated equipment, which is characterized in that pre- including magnetic shoe pretreatment mechanism, stator
Processing mechanism, stator assembling machine structure and lower bearing bracket body, magnetic shoe pretreatment mechanism, stator pretreatment mechanism and stator pack
Mounting mechanism is each attached on lower bearing bracket body;Magnetic shoe pretreatment mechanism includes pallet loading assemblies, magnetic shoe grabbing assembly, magnetic shoe
Plasma cleaning component, magnetic shoe dispensing component, magnetic shoe blanking component, synchronous belt conveying assembly and lower bearing bracket body, the magnetic shoe
Grabbing assembly is arranged between pallet loading assemblies and synchronous belt conveying assembly, magnetic shoe dispensing component setting magnetic shoe etc. from
Between sub- cleaning assembly and magnetic shoe blanking component, the magnetic shoe plasma cleaning component and magnetic shoe dispensing component are arranged at together
Step band conveying assembly side;Stator pretreatment mechanism includes that stator loading assemblies, stator conveying assembly, stator plasma are clear
Wash component, promotor spray assembly and positioning take-off assembly, the feeding port and stator conveying assembly of the stator loading assemblies
Input terminal connect, the output end of the stator conveying assembly connects with positioning take-off assembly, the stator plasma cleaning group
Part and promotor spray assembly are arranged at the side of stator conveying assembly, and the promotor spray assembly is arranged in stator
Between plasma cleaning component and positioning take-off assembly;The magnetic shoe blanking component and positioning take-off assembly are assembled with stator
Mechanism is in contact.
2. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that on the pallet
Expect that component includes pallet feeding station, robot feeding station, pallet discharge station and feeding pallet, the robot feeding
Station is arranged between pallet feeding station and pallet discharge station, and the feeding pallet for being built-in with magnetic shoe piece is respectively contained in pallet
On feeding station and robot feeding station, the feeding pallet for having taken out magnetic shoe piece is accommodated in pallet discharge station.
3. the automatic processing of stator magnetic shoe according to claim 2 assembles integrated equipment, which is characterized in that on the pallet
Expect that component further includes the traversing component of pallet, the traversing component of pallet includes the traversing guide rail of pallet and tray support arm, described
Tray support arm is slidably fixed on the traversing guide rail of pallet, and two groups of sucker plates, every group of suction are drawn in tray support arm both ends
Plate bottom is equipped with vertical cylinder;The distance between two groups of sucker plates be equal to pallet feeding station and robot feeding station it
Between distance and the distance between robot feeding station and pallet feeding station.
4. the automatic processing of stator magnetic shoe according to claim 3 assembles integrated equipment, which is characterized in that on the pallet
Expect that the tray slot marginal position of station is equipped with the first transfer cylinder and the first tenon folder, the robot feeding station are equipped with
Second transfer cylinder and the second tenon folder, the pallet discharge station are equipped with third transfer cylinder and third tenon folder,
The first tenon folder is connected with the movable end of the first transfer cylinder, the movable end of most second tenon folders and the second transfer cylinder
It is connected, the third tenon folder is connected with the movable end of third transfer cylinder.
5. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that on the stator
Material component includes charging belt and stator baffle, and the stator baffle includes directing plate and reclaiming plate, the directing plate from
A side of charging belt, which is drawn and tilted, stretches to reclaiming plate, and the reclaiming plate is parallel with another side of charging belt, and goes out
Flitch is at a distance from another side of charging belt greater than the diameter of a stator and less than the diameter of two stators.
6. the automatic processing of stator magnetic shoe according to claim 5 assembles integrated equipment, which is characterized in that the stator gear
Plate further includes limit plate, and the limit plate is fixed on a side edge of charging belt, and it is defeated that the reclaiming plate is fixed on customization
On sending component, the directing plate is not contacted with the sliding bell face of charging belt.
7. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that the stator is defeated
Sending component includes belt line drive end, belt line driven end, belt line baffle and induction stator optoelectronic switch, the belt line
Drive end connects with stator loading assemblies, and the belt line driven end connects with positioning take-off assembly, and the belt line baffle is set
It sets in the two sides of belt line, multiple groups induction stator optoelectronic switch is evenly distributed on belt line baffle.
8. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that the stator pack
Mounting mechanism includes CCD visual component, assembling turntable and operation position, and the CCD visual component is arranged in stator conveying assembly
Between assembling turntable, multiple groups operation position is evenly distributed on the marginal position of assembling turntable, and when one group of operation position and determines
When sub- conveying assembly is opposite, in addition two groups of operation positions are opposite with synchronous belt conveying assembly.
9. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that described magnetic shoe etc.
Ion Cleaning component includes arch support, magnetic shoe plasma cleaning head, magnetic shoe promotor spray head and cleans traversing guide rail, described
Arch support longitudinal crossing synchronous belt conveying assembly is simultaneously fixed on lower bearing bracket body, the magnetic shoe plasma cleaning head and magnetic shoe
Promotor spray head is slidably fixed on the traversing guide rail of cleaning, and magnetic shoe plasma cleaning head and magnetic shoe promotor spray head point
She Zhi traversing guide rail two sides not cleaned;The magnetic shoe dispensing component includes dispensing syringe, X-axis moving guide rail, Y-axis moving guide rail
And Z axis moving guide rail, the X-axis moving guide rail and synchronous belt conveying assembly are arranged in parallel and are fixed on lower bearing bracket body, institute
It states Y-axis moving guide rail to be slidably fixed on X-axis moving guide rail, the Z axis moving guide rail is slidably fixed on Y-axis moving guide rail
On.
10. the automatic processing of stator magnetic shoe according to claim 1 assembles integrated equipment, which is characterized in that the stator
Plasma cleaning component includes plasma bracket, stator plasma cleaning head and plasma Z axis riser guide, the Z axis liter
Drop guide rail is fixed on plasma bracket, and the stator plasma cleaning head is slidably fixed on Z axis riser guide, and described
Stator plasma cleaning head is directed toward stator conveying assembly;The promotor spray assembly includes promotor bracket, stator promotor
Spray head and promotor Z axis riser guide, the Z axis riser guide are fixed on promotor bracket, the stator promotor spray
Head is slidably fixed on Z axis riser guide, and the stator promotor spray head is directed toward stator conveying assembly.
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CN201821750741.1U CN208820638U (en) | 2018-10-27 | 2018-10-27 | The automatic processing of stator magnetic shoe assembles integrated equipment |
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CN201821750741.1U CN208820638U (en) | 2018-10-27 | 2018-10-27 | The automatic processing of stator magnetic shoe assembles integrated equipment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109167492A (en) * | 2018-10-27 | 2019-01-08 | 深圳市强瑞电子有限公司 | The automatic processing of stator magnetic shoe assembles integrated equipment |
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2018
- 2018-10-27 CN CN201821750741.1U patent/CN208820638U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109167492A (en) * | 2018-10-27 | 2019-01-08 | 深圳市强瑞电子有限公司 | The automatic processing of stator magnetic shoe assembles integrated equipment |
CN109167492B (en) * | 2018-10-27 | 2024-04-19 | 深圳市强瑞精密技术股份有限公司 | Automatic processing and assembling integrated equipment for stator magnetic shoe |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CP03 | Change of name, title or address | ||
CP03 | Change of name, title or address |
Address after: 518000 Building C, 308 Fifth Avenue, Zhangkengjie Community, Guanhu Street, Longhua District, Shenzhen City, Guangdong Province, 1-5 floors Patentee after: Shenzhen Qiangrui Precision Technology Co.,Ltd. Address before: 518000 Factory 101, No. 243, Juling New Village, Jutang Community, Fucheng Street, Longhua District, Shenzhen City, Guangdong Province Patentee before: SHENZHEN QIANGRUI ELECTRONICS Co.,Ltd. |
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CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190503 |