CN203437910U - Automatic assembling device - Google Patents

Abstract

The utility model discloses an automatic assembling device which is used for assembling cooling fins and chips. The automatic assembling device comprises a working table, and a conveying rail arranged on the working table and used for conveying the cooling fins and the chips, and further comprises a cooling fin feed device for sending the cooling fins into a feed port of the conveying rail, a cooling fin oil coating device for coating the cooling fins with heat dissipation oil, a chip foot cutting device for cutting off feet of the chips, a chip feed device for placing the chips on the cooling fins, a screw locking device for locking screws on the cooling fins, and a feed device for thumbing the cooling fins, wherein the cooling fin feed device, the cooling fin oil coating device, the chip foot cutting device, the chip feed device, the screw locking device and the feed device are sequentially arranged on the working table according to the assembly process. By means of the scheme, the cooling fins and the chips can be automatically assembled without manpower, production efficiency is improved, and production cost is reduced.

Description

Automatic assembly equipment

Technical field

The utility model relates to technical field of automation equipment, specially refers to a kind of automatic assembly equipment.

Background technology

Generally, on the power panel of a lot of products, be provided with fin and be fixed on the chip on fin, and the assembling to fin and chip at present, need operator to get fin by hand, get chip, manual painting on fin after heat radiation oil, is scribbling chip positioning on the oily fin of heat radiation, then by manual method, get screw and by screwed lock on fin, after assembling completes, the product that need to assembling be completed by manual mode is equally placed in article box.The mode of this hand assembled fin and chip, can reduce production efficiency undoubtedly, improves production cost.

Utility model content

Main purpose of the present utility model is for a kind of automatic assembly equipment is provided, can automatic Composition fin and chip, without artificial participation, be conducive to enhance productivity, and reduce production costs.

The utility model provides a kind of automatic assembly equipment, be used for assembling fin and chip, this automatic assembly equipment comprises workbench, and be arranged on the track that transports that transports fin and chip on this workbench, automatic assembly equipment also comprises by assembling flow path and is arranged on successively fin pay-off on described workbench, fin oiling station, chip cutting device, chip pay-off, lock screw device and pay-off, wherein:

Described fin pay-off, transports track top described in being positioned at, be connected with the described feeding mouth that transports track, transports the feeding mouth of track described in fin is sent into;

Described fin oiling station, transports track top described in being positioned at, adjacent to described fin pay-off, at the described track that transports, be transported to coating heat radiation oil on the fin below this fin oiling station;

Described chip cutting device, transports track top described in being positioned at, adjacent to described fin oiling station, chip is carried out to cutting;

Described chip pay-off, transports track top described in being positioned at, adjacent to described chip cutting device, the chip after described chip cutting device cutting is seated on fin;

Described lock screw device, transports track top described in being positioned at, adjacent to described chip pay-off, in storing, have the fin of the chip screw of locking;

Described pay-off, with the described track overlap joint that transports, stirs and is positioned at the extremely corresponding work of the fin station of transporting on track.

Preferably, described fin pay-off comprises fin vibrating disc, fin feed appliance and fin sub-material cylinder, wherein:

Described fin vibrating disc is arranged on described workbench, and the fin permutation of putting is thereon become to same orientation;

Described fin feed appliance is connected with the feeding mouth that transports track with described fin vibrating disc, transport fin after permutation to described in transport the feeding mouth of track;

Described fin sub-material cylinder is connected with described fin feed appliance, described in the fin on described fin feed appliance is pushed, transports track.

Preferably, described fin oiling station comprises pressure pot, is coated with oil gas cylinder and oiling head, wherein:

Described pressure pot is arranged on described workbench, contains and carries heat radiation oil and by gas pressure, heat radiation oil be delivered to described oiling head;

Described oiling head is communicated with described pressure pot, and oiling head comprises oil outlet, is coated with heat radiation oil by described oil outlet on fin;

Described painting oil gas cylinder is connected with described oiling head, drives this oiling head to move up and down.

Preferably, described chip cutting device comprises chip vibrating disc, chip feed appliance and chip cutting cylinder, wherein:

Described chip vibrating disc is arranged on described workbench, and the chip permutation of putting is thereon become to same orientation;

Described chip feed appliance is connected with described chip vibrating disc, transports the extremely described chip cutting cylinder of the chip below after permutation; Described chip cutting cylinder moves up and down, and chip is carried out to cutting.

Preferably, described chip pay-off comprises chip gripping cylinder, chip upper and lower air cylinders and the traversing cylinder of chip, wherein:

Described chip gripping cylinder is arranged on described workbench, the chip of gripping after described chip cutting cylinder cutting;

Described chip upper and lower air cylinders is connected with described chip gripping cylinder with the traversing cylinder of described chip, drives chip gripping cylinder to move up and down and transverse shifting.

Preferably, described lock screw device comprises screw permutation device, screw conveying glassware, screw sub-material cylinder, lock screw electric screwdriver, lock screw cylinder and chip positioning cylinder, wherein:

Described screw permutation device is arranged on described workbench, and the screw permutation of putting is thereon become to same orientation;

Described screw conveying glassware is connected with described screw permutation device, and the screw after permutation is transported to described screw sub-material cylinder;

Described screw sub-material cylinder is connected with described screw conveying glassware, and screw is pushed to described lock screw electric screwdriver below successively;

Described lock screw cylinder is connected with described lock screw electric screwdriver, drives described lock screw electric screwdriver to move up and down, by screwed lock on fin;

Described chip positioning cylinder is adjacent with described screw sub-material cylinder, by chip positioning on fin.

Preferably, described pay-off comprises feeding front and back cylinder, feeding pusher dog and the left back cylinder of feeding, wherein:

Before and after described feeding, cylinder and the left back cylinder of feeding are arranged on described workbench, drive before and after described feeding pusher dog and move left and right;

Described feeding pusher dog is connected with the left back cylinder of feeding with cylinder before and after described feeding, and overlaps with the described track that transports, and transports the fin on track described in stirring.

Preferably, automatic assembly equipment also comprise be arranged on described workbench, with described in transport the material box that the discharging opening of track is connected.

Preferably, automatic assembly equipment also comprises the discharging track being connected with the described discharging opening that transports track, and this discharging track is sent fin and chip after assembling into described material box.

Preferably, automatic assembly equipment also comprises and is arranged on the operation control box of on described workbench, the assembling flow path of fin and chip being controlled.

The utility model is sent to fin by fin pay-off the feeding mouth that transports track, enter and transport after track, pay-off dials to every a slice fin fin oiling station below successively, is coated with heat radiation oil by fin oiling station on fin; Simultaneously, chip cutting device carries out after cutting chip, through chip pay-off, the chip after cutting is seated in and scribbles on the oily fin of heat radiation, then by lock screw device, chip is positioned, and at the fin screw of locking, complete the assembling of fin and chip.Can automatically complete the assembling of fin and chip, without artificial participation, thereby improve production efficiency, and reduced production cost.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model automatic assembly equipment preferred embodiment;

Fig. 2 is the front view of automatic assembly equipment in Fig. 1;

Fig. 3 is the top view of automatic assembly equipment in Fig. 1.

The realization of the utility model object, functional characteristics and advantage, in connection with embodiment, are described further with reference to accompanying drawing.

The specific embodiment

Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of automatic assembly equipment.By this automatic assembly equipment can automatically complete fin feeding, fin oiling, the automatic cutting of chip, chip is positioned on fin automatically and the assembling flow path such as automatic locking screw, without artificial participation.

Referring to figs. 1 through Fig. 3, Fig. 1 is the structural representation of the utility model automatic assembly equipment preferred embodiment; Fig. 2 is the front view of automatic assembly equipment in Fig. 1; Fig. 3 is the top view of automatic assembly equipment in Fig. 1.

The automatic assembly equipment that the present embodiment provides, be used for assembling fin and chip, this automatic assembly equipment comprises workbench 100, and is arranged on this workbench 100 and transports track 101 for what transport fin and chip, in the present embodiment, this transports track 101 for rectilinear orbit; This automatic assembly equipment also comprises the material box 102 being connected with the discharging opening that transports track 101, is arranged on equally the operation control box 103 for the assembling flow path of fin and chip is controlled on workbench 100.In the present embodiment, automatic assembly equipment also comprises by assembling flow path and is arranged on successively fin pay-off 104 on described workbench 100, fin oiling station 105, chip cutting device 106, chip pay-off 107, lock screw device 108 and pay-off 109, wherein:

Fin pay-off 104, is positioned at and transports track 101 tops, is connected, for fin being sent into the feeding mouth that transports track 101 with the feeding mouth that transports track 101;

Fin oiling station 105, is positioned at and transports track 101 tops, adjacent to fin pay-off 104, for being transported to coating heat radiation oil on the fin below this fin oiling station transporting track 101;

Chip cutting device 106, is positioned at and transports track 101 tops, adjacent to fin oiling station 105, for chip is carried out to cutting;

Chip pay-off 107, is positioned at and transports track 101 tops, adjacent to chip cutting device 106, for the chip after chip cutting device 106 cuttings is seated in to fin;

Lock screw device 108, is positioned at and transports track 101 tops, adjacent to chip pay-off 107, for there is the fin of the chip screw of locking in storing;

Pay-off 109, overlaps with transporting track 101, for stirring, is positioned at the extremely corresponding work of the fin station of transporting on track 101.

In the assembling flow path of fin and chip, by operating the work of each assembling flow path of programme-control setting in control box 103.Fin pay-off 104, fin oiling station 105, chip cutting device 106, chip pay-off 107 and lock screw device 108 move simultaneously, and pay-off 109, for stirring fin, is sent to next assembling flow path by fin.By fin pay-off 104, fin is sent to the feeding mouth that transports track 101, enter and transport after track 101, pay-off 109 dials to fin oiling station 105 belows by every a slice fin successively, is coated with heat radiation oil by fin oiling station 105 on fin; Simultaneously, 106 pairs of chips of chip cutting device carry out after cutting, through chip pay-off 107, the chip after cutting is seated in and scribbles on the oily fin of heat radiation, by 108 pairs of chips of lock screw device, position again, and at the fin screw of locking, complete the assembling of fin and chip, the fin and the chip that complete after assembling drop in material box 102 by discharging track 1011.

Further, fin pay-off 104 comprises fin vibrating disc 1041, fin feed appliance 1042 and fin sub-material cylinder 1043.Wherein, fin vibrating disc 1041 is arranged on workbench 100, by self vibrations, the fin permutation of putting is thereon become to same orientation; One end of fin feed appliance 1042 connects fin vibrating disc 1041, and the other end connects the feeding mouth that transports track 101, and the fin after fin vibrating disc 1041 permutations is transported to the feeding mouth that transports track 101; Fin sub-material cylinder 1043 is connected with the feeding mouth that transports track 101, by himself motion, by transporting fin on the feeding mouth of track 101, is pushed and transports track 101.

Further, fin oiling station 105 comprises pressure pot 1051, is coated with oil gas cylinder 1052 and oiling head 1053.Wherein, pressure pot 1051 is arranged on workbench 100, wherein contains and is loaded with heat radiation oil, by gas pressure, heat radiation oil is delivered to connected oiling head 1053, oiling head 1053 comprises a plurality of oil outlets, and in the present embodiment, oiling head 1053 comprises the oil outlet that 9 diameters are 1mm; Being coated with oil gas cylinder 1052 and being connected with oiling head 1053, for driving oiling head 1053 to move up and down, is fin oiling.When pay-off 109 dials to fin behind oiling head 1053 belows, be coated with oil gas cylinder 1052 and drive oiling head 1053 to move up and down, and on fin, be coated with heat radiation oil by a plurality of oil outlets on oiling head 1053.

Further, chip cutting device 106 comprises chip vibrating disc 1061, chip feed appliance 1062 and chip cutting cylinder 1063.Wherein, chip vibrating disc 1061 is arranged on workbench 100, by self shock effect, the chip permutation of putting is thereon become to same orientation; Chip feed appliance 1062 is connected with chip vibrating disc 1061, and the chip after chip vibrating disc 1061 permutations is transported to chip cutting cylinder 1063 belows; Chip cutting cylinder 1063 moves up and down by himself, completes the cutting to chip.

Further, chip pay-off 107 comprises the traversing cylinder 1073 of chip gripping cylinder 1071, chip upper and lower air cylinders 1072 and chip.Wherein, chip gripping cylinder 1071 is arranged on workbench 100, the chip for gripping after chip cutting cylinder 1063 cuttings; Chip upper and lower air cylinders 1072 is connected with chip gripping cylinder 1071 with the traversing cylinder 1073 of chip, drives respectively chip gripping cylinder 1071 to move up and down and transverse shifting, and chip is seated on fin.

Further, lock screw device 108 comprises screw permutation device 1081, screw conveying glassware 1082, screw sub-material cylinder 1083, lock screw electric screwdriver 1084, lock screw cylinder 1085 and chip positioning cylinder 1086.Wherein, screw permutation device 1081 is arranged on workbench 100, by himself vibrations, the screw permutation of putting is thereon become to same orientation; Screw conveying glassware 1082 is connected with screw permutation device 1081, for the screw after screw permutation device 1081 permutations is transported to screw sub-material cylinder 1083; Screw sub-material cylinder 1083 is connected with screw conveying glassware 1082, for the screw that screw conveying glassware 1082 is transported, pushes to successively lock screw electric screwdriver 1084 belows, for lock screw electric screwdriver 1084 at the fin screw of locking; Lock screw cylinder 1085 is connected with lock screw electric screwdriver 1084, and when screw sub-material cylinder 1083 pushes to screw behind lock screw electric screwdriver 1084 belows, 1085 drivings of lock screw cylinder are locked screw electric screwdrivers 1084 and moved up and down, by screwed lock on fin; And chip positioning cylinder 1086 is for positioning the chip being seated on fin.

Further, pay-off 109 comprises feeding front and back cylinder 1091, the left back cylinder 1092 of feeding and feeding pusher dog 1093.Wherein, before and after feeding, cylinder 1091 and the left back cylinder 1092 of feeding are arranged on workbench, are respectively used to drive feeding pusher dog 1093 front and back and move left and right; Feeding pusher dog 1093 is connected with the left back cylinder 1092 of feeding with cylinder 1091 before and after feeding, before and after feeding, under the driving of cylinder 1091 and the left back cylinder 1092 of feeding, stirs successively the fin transporting on track 101.

The utility model embodiment, by fin pay-off 104, fin is sent to the feeding mouth that transports track 101, enter and transport after track 101, pay-off 109 dials to fin oiling station 105 belows by every a slice fin successively, is coated with heat radiation oil by fin oiling station 105 on fin; Simultaneously, 106 pairs of chips of chip cutting device carry out after cutting, through chip pay-off 107, the chip after cutting are seated in and scribble on the oily fin of heat radiation, then position by 108 pairs of chips of lock screw device, and at the fin screw of locking, complete the assembling of fin and chip.Can automatically complete the assembling of fin and chip, without artificial participation, thereby improve production efficiency, and reduced production cost.

The foregoing is only preferred embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure transformation that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. an automatic assembly equipment, be used for assembling fin and chip, this automatic assembly equipment comprises workbench, and be arranged on the track that transports that transports fin and chip on this workbench, it is characterized in that, automatic assembly equipment also comprises by assembling flow path and is arranged on successively fin pay-off on described workbench, fin oiling station, chip cutting device, chip pay-off, lock screw device and pay-off, wherein:

Described fin pay-off, transports track top described in being positioned at, be connected with the described feeding mouth that transports track, transports the feeding mouth of track described in fin is sent into;

Described fin oiling station, transports track top described in being positioned at, adjacent to described fin pay-off, at the described track that transports, be transported to coating heat radiation oil on the fin below this fin oiling station;

Described chip cutting device, transports track top described in being positioned at, adjacent to described fin oiling station, chip is carried out to cutting;

Described chip pay-off, transports track top described in being positioned at, adjacent to described chip cutting device, the chip after described chip cutting device cutting is seated on fin;

Described lock screw device, transports track top described in being positioned at, adjacent to described chip pay-off, in storing, have the fin of the chip screw of locking;

Described pay-off, with the described track overlap joint that transports, stirs and is positioned at the extremely corresponding work of the fin station of transporting on track.

2. automatic assembly equipment according to claim 1, is characterized in that, described fin pay-off comprises fin vibrating disc, fin feed appliance and fin sub-material cylinder, wherein:

Described fin vibrating disc is arranged on described workbench, and the fin permutation of putting is thereon become to same orientation;

Described fin feed appliance is connected with the feeding mouth that transports track with described fin vibrating disc, transport fin after permutation to described in transport the feeding mouth of track;

Described fin sub-material cylinder is connected with described fin feed appliance, described in the fin on described fin feed appliance is pushed, transports track.

3. automatic assembly equipment according to claim 2, is characterized in that, described fin oiling station comprises pressure pot, is coated with oil gas cylinder and oiling head, wherein:

Described pressure pot is arranged on described workbench, contains and carries heat radiation oil and by gas pressure, heat radiation oil be delivered to described oiling head;

Described oiling head is communicated with described pressure pot, and oiling head comprises oil outlet, is coated with heat radiation oil by described oil outlet on fin;

Described painting oil gas cylinder is connected with described oiling head, drives this oiling head to move up and down.

4. automatic assembly equipment according to claim 3, is characterized in that, described chip cutting device comprises chip vibrating disc, chip feed appliance and chip cutting cylinder, wherein:

Described chip vibrating disc is arranged on described workbench, and the chip permutation of putting is thereon become to same orientation;

Described chip feed appliance is connected with described chip vibrating disc, transports the extremely described chip cutting cylinder of the chip below after permutation; Described chip cutting cylinder moves up and down, and chip is carried out to cutting.

5. automatic assembly equipment according to claim 4, is characterized in that, described chip pay-off comprises chip gripping cylinder, chip upper and lower air cylinders and the traversing cylinder of chip, wherein:

Described chip gripping cylinder is arranged on described workbench, the chip of gripping after described chip cutting cylinder cutting;

Described chip upper and lower air cylinders is connected with described chip gripping cylinder with the traversing cylinder of described chip, drives chip gripping cylinder to move up and down and transverse shifting.

6. automatic assembly equipment according to claim 5, is characterized in that, described lock screw device comprises screw permutation device, screw conveying glassware, screw sub-material cylinder, lock screw electric screwdriver, lock screw cylinder and chip positioning cylinder, wherein:

Described screw permutation device is arranged on described workbench, and the screw permutation of putting is thereon become to same orientation;

Described screw conveying glassware is connected with described screw permutation device, and the screw after permutation is transported to described screw sub-material cylinder;

Described screw sub-material cylinder is connected with described screw conveying glassware, and screw is pushed to described lock screw electric screwdriver below successively;

Described lock screw cylinder is connected with described lock screw electric screwdriver, drives described lock screw electric screwdriver to move up and down, by screwed lock on fin;

Described chip positioning cylinder is adjacent with described screw sub-material cylinder, by chip positioning on fin.

7. automatic assembly equipment according to claim 6, is characterized in that, described pay-off comprises feeding front and back cylinder, feeding pusher dog and the left back cylinder of feeding, wherein:

Before and after described feeding, cylinder and the left back cylinder of feeding are arranged on described workbench, drive before and after described feeding pusher dog and move left and right;

Described feeding pusher dog is connected with the left back cylinder of feeding with cylinder before and after described feeding, and overlaps with the described track that transports, and transports the fin on track described in stirring.

8. according to the automatic assembly equipment described in any one in claim 1 to 7, it is characterized in that, also comprise be arranged on described workbench, with described in transport the material box that the discharging opening of track is connected.

9. automatic assembly equipment according to claim 8, is characterized in that, also comprises the discharging track being connected with the described discharging opening that transports track, and this discharging track is sent fin and chip after assembling into described material box.

10. automatic assembly equipment according to claim 9, is characterized in that, also comprises and is arranged on the operation control box of on described workbench, the assembling flow path of fin and chip being controlled.

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