CN211277242U - Full-automatic moving contact assembling machine - Google Patents

Abstract

The utility model discloses a moving contact full-automatic assembly machine, including carrying the thing revolving stage, carry and set up 6 lower fixtures on the thing revolving stage, correspond lower fixture department in proper order in the rotation circumference of carrying the thing revolving stage and set up moving contact material loading portion, insulating part material loading portion, material loading detection portion, the portion of compressing tightly that is used for compressing tightly moving contact and insulating part that is used for picking moving contact and insulating part whether place in place, the unloading portion that is used for picking moving contact subassembly and the empty material detection portion that is used for detecting whether empty material on the fixture; the insulation part feeding part comprises a second upper and lower cylinder and an insulation part overturning and positioning block, the second upper and lower cylinder is obliquely arranged, the insulation part overturning and positioning block is used for obliquely fixing the insulation part, a pneumatic finger is arranged on the second upper and lower cylinder, the insulation part is obliquely grabbed in the insulation part overturning and positioning block and then obliquely stacked on a movable contact in the lower fixture.

Description

Full-automatic moving contact assembling machine

Technical Field

The utility model relates to a low-voltage circuit breaker moving contact assembly field, concretely relates to full automatic assembly machine of moving contact.

Background

Currently, there are many components in low-voltage circuit breaker products that are assembled from two or more parts. As shown in fig. 13 and 14, the movable contact 11 is provided with a movable contact boss 11-1, the insulating member 12 cannot be vertically assembled on the movable contact, and the movable contact 11 must be assembled on the movable contact by inclining from the movable contact step 11-2. At present, the moving contact assembly is still manually operated by staff, manually fed and manually operated, and is manually taken out after the assembly is finished, and a turnover box is put into the moving contact assembly, so that the moving contact assembly has more operation steps, more complex operation and low efficiency. In order to meet the production requirement of the moving contact component and improve the efficiency, new full-automatic tooling equipment meeting the moving contact assembly requirement is urgently needed to be designed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the invention relates to a full-automatic moving contact assembling machine which comprises a carrying rotary table, wherein 6 lower fixtures are arranged on the carrying rotary table, a moving contact feeding part for grabbing a moving contact, an insulating part feeding part for grabbing an insulating part, a feeding detection part for detecting whether the moving contact and the insulating part are placed in place, a pressing part for pressing the moving contact and the insulating part, a discharging part for grabbing the moving contact component and an empty material detection part for detecting whether the fixture is empty or not are sequentially arranged at positions, corresponding to the lower fixtures, in the rotating circumferential direction of the carrying rotary table; the insulation part feeding part comprises a second upper and lower cylinder and an insulation part overturning and positioning block, the second upper and lower cylinder is obliquely arranged, the insulation part overturning and positioning block is used for obliquely fixing the insulation part, a pneumatic finger is arranged on the second upper and lower cylinder, the insulation part is obliquely grabbed in the insulation part overturning and positioning block and then obliquely stacked on a movable contact in the lower fixture.

Furthermore, the insulating part feeding part also comprises an insulating part feeding part supporting column, a second parallel cylinder and an insulating part linear vibration assembly; the insulating part linear vibration assembly conveys the insulating part to the insulating part overturning positioning block; the second parallel air cylinder is arranged on the upper portion of the supporting column of the insulating part feeding portion, and the second upper and lower air cylinders are obliquely arranged on the second parallel air cylinder.

Furthermore, the insulation piece overturning positioning block comprises an insulation piece sliding guide groove, an overturning groove and a positioning block baffle; the insulating part slides along the insulating part sliding guide groove, and the tail part of the insulating part falls to the turnover groove after touching the positioning block baffle, so that the turnover positioning of the insulating part is realized.

Further, the inclination angle of the second up-down cylinder is 58 °, and the turning angle of the insulating member in the insulating member turning positioning block is 58 °.

Furthermore, the moving contact feeding part comprises a moving contact feeding part support column, a first parallel cylinder, a first upper cylinder, a first lower cylinder, a moving contact positioning block and a moving contact linear vibration assembly; the moving contact linear vibration assembly conveys a moving contact to the moving contact positioning block, the first parallel air cylinder is arranged on the upper portion of a supporting column of a feeding portion of the moving contact, the first upper air cylinder and the first lower air cylinder are vertically arranged on the first parallel air cylinder, and the first upper air cylinder and the first lower air cylinder are provided with pneumatic fingers to grab the moving contact from the moving contact positioning block.

Further, the loading rotary table comprises a pneumatic divider and a pneumatic dividing disc; the pneumatic divider is provided with the pneumatic dividing disc, and the pneumatic dividing disc is provided with 6 lower clamps at equal intervals.

Furthermore, the vibration device also comprises a moving contact vibration disc which is communicated with the moving contact linear vibration component.

Further, still include insulating part vibration dish, insulating part vibration dish 3 intercommunication insulating part straight line shakes the subassembly.

The utility model has the advantages that:

the utility model provides a moving contact full-automatic assembly machine, this moving contact full-automatic assembly machine easy operation to enable the assembly process and simplify, the staff only needs the material loading, and all the other actions are accomplished by equipment is automatic, directly obtain the finished product, and assembly quality is reliable, as long as change corresponding anchor clamps, then have certain compatibility applicable to multiple part assembly's tool equipment.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of FIG. 1 (with the top cover of the frame omitted);

fig. 3 is a perspective view of the loading turntable of the present invention;

fig. 4 is a perspective view of the lower clamp of the present invention;

fig. 5 is a cross-sectional view of the lower clamp of the present invention;

fig. 6 is a perspective view of the moving contact loading part of the present invention;

fig. 7 is a perspective view of a moving contact positioning block of the moving contact loading part of the present invention;

fig. 8 is a perspective view of the loading portion of the insulating member of the present invention;

fig. 9 is a perspective view of the insulation member turnover positioning block of the present invention;

fig. 10 is a cross-sectional view of an insulation member upset locating block of the present invention;

fig. 11 is a perspective view of the pressing part of the present invention;

FIG. 12 is a perspective view of the bevel angle pressing block of the present invention;

fig. 13 shows the moving contact and the insulating member of the present invention before assembly;

fig. 14 shows the assembled movable contact assembly of the present invention;

wherein: 1. a frame; 2. a moving contact vibrating disk; 3. an insulator vibrating disk; 4. a loading turntable; 4-1, a pneumatic divider; 4-2, a pneumatic cutting disc; 4-3, a lower clamp; 4-4, supporting columns of the pneumatic partition disc; 5. a movable contact feeding part; 5-1, moving contact material loading part support column; 5-2, a first parallel cylinder; 5-3, a first upper cylinder and a first lower cylinder; 5-4 parts of moving contact positioning blocks; 5-4-1, a moving contact sliding guide groove; 5-4-2, a moving contact optical fiber sensor mounting hole; 5-4-3, clamping the abdicating hole by a gas claw; 5-5, moving contact linear vibration component; 6. an insulating member feeding part; 6-1, supporting columns of a feeding part of the insulating part; 6-2, a second parallel cylinder; 6-3, a second upper cylinder and a second lower cylinder; 6-4, overturning the insulating part to position the block; 6-4-1, an insulating member sliding guide groove; 6-4-2, an insulating part optical fiber sensor mounting hole; 6-4-3, overturning the groove; 6-4-4, positioning block baffle; 6-5, an insulator linear vibration assembly; 7. a feeding detection part; 8. a pressing part; 8-1, a pressing part supporting column; 8-2, a third upper and lower cylinder; 8-3, oblique angle briquetting; 9. a blanking part; 10. an empty material detection part; 11. a moving contact; 11-1, moving contact boss; 11-2, moving contact steps; 12. an insulating member; 12-1, an insulator boss.

Detailed Description

The preferred mechanisms and methods of motion realization of the present invention are further described below in conjunction with the figures and the detailed description.

As shown in fig. 1 and 2, the full-automatic moving contact assembling machine comprises a frame 1, a moving contact vibration disc 2, an insulating part vibration disc 3, a loading rotary table 4, a moving contact loading part 5, an insulating part loading part 6, a loading detection part 7, a pressing part 8, a blanking part 9 and an empty material detection part 10.

The frame 1 is used for fixing the whole moving contact full-automatic assembling machine.

The moving contact vibration disc 2 and the insulating part vibration disc 3 are both composed of a vibration disc base and a disc surface and are respectively used for storing a moving contact 11 and an insulating part 12. The vibration disk base provides power, a specific guide groove matched with the shape of the moving contact 11 and the shape of the insulating part 12 are respectively arranged on the disk surface, and the moving contact 11 and the insulating part 12 are arranged along the direction of the guide groove through vibration.

As shown in fig. 3, 4 and 5, the carrying rotary table 4 comprises a pneumatic splitter 4-1 and a pneumatic splitter disc 4-2, the pneumatic splitter disc 4-1 is provided with the pneumatic splitter disc 4-2, wherein the pneumatic splitter disc 4-2 is a high-precision pneumatic splitter disc, 6 lower clamps 4-3 are arranged on the disc surface of the pneumatic splitter disc at equal intervals, the lower clamps correspond to 6 stations respectively, the first station is correspondingly provided with a moving contact feeding part 5, the second station is correspondingly provided with an insulating part feeding part 6, the third station is correspondingly provided with a feeding detection part 7, the fourth station is correspondingly provided with a compacting part 8, the fifth station is correspondingly provided with a blanking part 9, and the sixth station is correspondingly provided with an empty material detection part 10; the pneumatic cutting disc 4-2 rotates 60 degrees each time and is aligned with each station; the pneumatic dividing disc 4-2 adopts a hollow design to reduce the weight of the disc surface, so that the rotating inertia of the dividing disc is reduced, and the positioning precision is improved; the lower clamp 4-3 is accurately attached to the shape of the movable contact 11 and is connected with the pneumatic dividing disc 4-2 through a pin, so that the positioning is accurate and the model change is convenient; the pneumatic dividing disc support columns 4-4 are additionally arranged below the pneumatic dividing disc 4-2, and the pneumatic dividing disc support columns 4-4 comprise guide shafts and guide shaft supports, so that good support is provided for the pneumatic dividing disc 4-2, and the pneumatic dividing disc 4-2 is prevented from inclining due to unbalanced weight in the assembling process.

As shown in fig. 6 and 7, the moving contact feeding part 5 comprises a moving contact feeding part support column 5-1, a first parallel cylinder 5-2, a first upper cylinder 5-3, a first lower cylinder 5-3, a moving contact positioning block 5-4 and a moving contact linear vibration assembly 5-5. The first parallel cylinder 5-2 is provided with a linear guide rail and an adjustable front and back hydraulic buffer, is accurate in positioning and stable in movement, is arranged on the upper portion of a support column 5-1 of a feeding portion of the movable contact, the first upper and lower cylinders 5-3 are vertically arranged on the first parallel cylinder 5-2, a pneumatic finger is arranged at the bottom of the first upper and lower cylinders 5-3, a finger clamp is additionally arranged on the pneumatic finger, and the finger clamp is matched with the movable contact 11 in shape. The moving contact linear vibration component 5-5 is connected with the guide groove of the moving contact vibration disc 2, the terminal of the moving contact linear vibration component 5-5 is provided with a moving contact positioning block 5-4, as shown in figure 7, the moving contact sliding guide groove 5-4-1, a moving contact optical fiber sensor mounting hole 5-4-2 and a gas claw clamping abdicating hole 5-4-3 are arranged on the moving contact positioning block 5-4. The moving contact optical fiber sensor is arranged in a moving contact optical fiber sensor mounting hole 5-4-2 and used for detecting whether the moving contact 11 is in place or not.

The moving contact 11 is transmitted from the moving contact vibration disk 2 to the moving contact positioning block 5-4 along the moving contact linear vibration component 5-5, the moving contact 11 is in place along the moving contact sliding guide groove 5-4-1, after the moving contact optical fiber sensor detects that the moving contact 11 is in place, the first upper and lower cylinders 5-3 act and move downwards, after the action is in place, a pneumatic finger clamp is arranged at the air claw clamping abdicating hole 5-4-3 and comes out of the clamping moving contact 11, then the first upper and lower cylinders 5-3 are lifted up, after the first upper and lower cylinders are in place, the first parallel cylinder 5-2 acts and horizontally extends out, then the first upper and lower cylinders 5-3 go down, at this time, the moving contact 11 can be just put into the lower clamp 4-3, then the pneumatic finger is loosened, the upper cylinder and the lower cylinder are lifted, the parallel cylinder retreats, and one action cycle is completed and is repeated.

As shown in fig. 8, 9 and 10, the insulator feeding part 6 comprises an insulator feeding part support column 6-1, a second parallel air cylinder 6-2, a second upper air cylinder 6-3, an insulator overturning positioning block 6-4 and an insulator linear vibration assembly 6-5. The second parallel air cylinder 6-2 is provided with a guide rail and an adjustable front and back hydraulic buffer, is accurate in positioning and stable in movement, is arranged at the upper part of a support column 6-11 of a feeding part of the insulating part, a second upper air cylinder 6-3 and a second lower air cylinder 6-3 are obliquely arranged on the second parallel air cylinder 6-2, in order to match with the turning angle of the insulating part 12, the inclination angle from the vertical central line is 58 degrees, the bottom of the second upper air cylinder 6-3 and the bottom of the second lower air cylinder are provided with pneumatic fingers, finger clamps are additionally arranged on the pneumatic fingers, and the finger clamps are matched with the appearance of the insulating. The insulator linear vibration assembly 6-5 is connected with the guide groove of the insulator vibration disc 3, the terminal of the insulator linear vibration assembly 6-5 is provided with an insulator overturning positioning block 6-4, and as shown in fig. 9 and 10, the insulator overturning positioning block 6-4 is provided with an insulator sliding guide groove 6-4-1, an insulator optical fiber sensor mounting hole 6-4-2, an overturning groove 6-4-3 and a positioning block baffle 6-4-4. The insulator optical fiber sensor is arranged in the insulator optical fiber sensor mounting hole 6-4-2 and used for detecting whether the insulator 12 is in place or not.

The insulation piece 12 is transmitted to an insulation piece overturning positioning block 6-4 from the insulation piece vibration disc 3 along an insulation piece linear vibration assembly 6-5, the insulation piece 12 slides along an insulation piece sliding guide groove 5-4-1, after the insulation piece 12 touches a positioning block baffle 6-4-4, the tail of the insulation piece 12 falls to an overturning groove 6-4-3 due to the dead weight of the insulation piece 12, so that the head of the insulation piece naturally tilts up, the insulation piece 12 can be overturned by 58 degrees just by the designed angle of the overturning groove 6-4-3, and pneumatic finger clamping is facilitated; the positioning block baffle 6-4-4 blocks the insulating part 12, so that the insulating part 12 can be prevented from being stacked to influence stable discharging, the previous insulating part 12 falls into the positioning block in an overturning manner, the overturned insulating part 12 blocks the subsequent insulating part 12, and the subsequent insulating part 12 is also prevented from being stacked. The overturning positioning block 6-4 of the insulating part is simple in structure, complex design is avoided, only the size of the positioning block baffle 6-4-4 and the size of the overturning groove 6-4-3 are reasonably designed, the size of the positioning block baffle 6-4-4 and the size of the overturning groove are matched with that of the insulating part 12, the positioning is inaccurate when the size is large, and the size is small and the overturning cannot be performed.

After the insulating part optical fiber sensor detects that the insulating part 12 is in place, because the second upper cylinder 6-3 is obliquely arranged at 58 degrees, the second upper cylinder 6-3 moves downwards obliquely to move in place, the pneumatic finger clamps the insulating part 12, then the second upper cylinder 6-3 is obliquely lifted upwards, after the second upper cylinder 6-3 is in place, the second horizontal cylinder 6-2 moves to horizontally extend out along the track, then the second upper cylinder 6-3 is obliquely lifted downwards, at the moment, the insulating part 12 is just obliquely placed into the lower clamp 4-3 to be stacked on the movable contact 11, then the pneumatic finger releases, the second upper cylinder 6-3 is obliquely lifted upwards, the second horizontal cylinder 6-2 retracts, and the operation cycle is completed and the process is repeated.

As shown in fig. 11 and 12, the pressing part 8 comprises a pressing support column 8-1, a third upper and lower cylinder 8-2 and a bevel pressing block 8-3. The third upper and lower cylinders 8-2 are arranged on the material pressing support columns 8-1, and the bevel angle pressing blocks 8-3 are arranged at the lower ends of the third upper and lower cylinders 8-2. The third upper and lower cylinders 8-2 drive the bevel pressing block 8-3 to press downwards, the angle of the bevel pressing block 8-3 is jointed with the initial state of the insulating part 12, and the insulating part 12 can be smoothly assembled in the moving contact 11 when the bevel pressing block presses downwards.

The material loading detection portion 7 is similar with empty material detection portion 10's structure, all includes bracing piece and detection sensor, and detection sensor installs on the top of bracing piece, and the difference is: because the insulating part 12 is obliquely arranged on the movable contact 11, and the detection sensor of the feeding detection part 7 needs to be obliquely arranged, light of the detection sensor can vertically strike the surface of the insulating part 12, when the reflected light is bright, the insulating part 12 is correctly arranged, when the reflected light is dark, the insulating part 12 is not correctly arranged, and at the moment, equipment alarms and manual intervention are performed; the detection sensor of the empty material detection part 10 is vertically arranged, detection light directly strikes on the clamp, when no reflected light exists, empty material is indicated, the equipment normally operates, when reflected light exists, material is indicated on the clamp, the equipment gives an alarm, and manual intervention is performed.

The blanking part 9 comprises a blanking support column, a third parallel cylinder and a third upper and lower cylinder. The third parallel cylinder is provided with a linear guide rail and an adjustable front hydraulic buffer and an adjustable rear hydraulic buffer and is arranged on the upper portion of the blanking support column, the third upper cylinder and the third lower cylinder are vertically arranged on the third parallel cylinder, the bottom of the third upper cylinder and the bottom of the third lower cylinder are provided with pneumatic fingers, and the pneumatic fingers are additionally provided with finger clamps.

The third upper and lower cylinders are vertically downward, the pneumatic finger clamps the assembled insulating part 12 and the moving contact 11 after the third upper and lower cylinders are in place, the third upper and lower cylinders are upward, the third upper and lower cylinders extend out, the third upper and lower cylinders are downward after the third upper and lower cylinders are in place, the pneumatic finger clamps place the assembled moving contact assembly into the hopper chute, the third upper and lower cylinders are upward, the third upper and lower cylinders retract, one action cycle is completed, and the process is repeated.

The working process of the whole device is as follows: the moving contact 11 and the insulating element 12 are prepared to be processed and poured into the corresponding vibrating discs respectively. Pressing a start button, respectively arranging a moving contact 11 and an insulating part 12 automatically according to a certain posture by a moving contact vibration disc 2 and an insulating part vibration disc 3, enabling the moving contact 11 to enter a moving contact positioning block 5-4, switching on a sensor signal, enabling the insulating part 12 to enter an insulating part overturning positioning block 6-4 after overturning, and switching on the sensor signal; in the No. 1 station, a moving contact 11 is grabbed by a moving contact loading part 5 and placed into a lower clamp 4-3 of a pneumatic partition plate 4-2, and the pneumatic partition plate 4-2 starts to rotate for 60 degrees; after the workpiece rotates to the station No. 2, the insulating part feeding part of the station No. 2 picks out the insulating part 12 by inclining for 58 degrees, the insulating part is placed on the moving contact 11 in the lower fixture 4-3 and is superposed, and the dividing disc rotates for 60 degrees; when the machine rotates to the station No. 3, a detection sensor of the feeding detection part 7 detects whether the moving contact 11 and the insulating part 12 are assembled correctly or not, if the moving contact 11 and the insulating part are assembled correctly, the index plate continues to rotate by 60 degrees, and if the moving contact and the insulating part are not assembled correctly, equipment alarms and manual intervention is performed; rotating to a No. 4 station, and driving an oblique angle pressing block 8-3 to press and assemble a moving contact 11 and an insulating part 12 by a third upper cylinder and a third lower cylinder of the pressing part 8; rotating to a No. 5 station, integrally clamping the assembled moving contact assembly out by the blanking part, and putting the moving contact assembly into a hopper chute; and when the material is rotated to a sixth station, a photoelectric sensor of the empty material detection part detects whether the material is empty, if the material is empty, the index plate can continuously rotate by 60 degrees to complete an assembly period, and if the material is empty, the equipment gives an alarm and performs manual intervention. Because the indexing disc is provided with 6 sets of same clamps, 6 stations work simultaneously when the indexing disc rotates one time, and the working efficiency of assembly can be greatly improved. The operation is repeated in cycles.

Finally, it should be noted that: although the present invention has been described in detail with reference to the embodiments, it will be apparent to those skilled in the art that modifications, equivalents, improvements and the like can be made to the technical solutions described in the foregoing embodiments or to some technical features of the technical solutions.

Claims (8)

1. The utility model provides a moving contact full-automatic assembly machine which characterized in that: the device comprises a loading rotary table, wherein 6 lower fixtures are arranged on the loading rotary table, a moving contact feeding part for grabbing a moving contact, an insulating part feeding part for grabbing an insulating part, a feeding detection part for detecting whether the moving contact and the insulating part are placed in place, a pressing part for pressing the moving contact and the insulating part, a discharging part for grabbing the moving contact component and an empty material detection part for detecting whether the fixture is empty are sequentially arranged at positions corresponding to the lower fixtures in the rotation circumferential direction of the loading rotary table; the insulation part feeding part comprises a second upper and lower cylinder and an insulation part overturning and positioning block, the second upper and lower cylinder is obliquely arranged, the insulation part overturning and positioning block is used for obliquely fixing the insulation part, a pneumatic finger is arranged on the second upper and lower cylinder, the insulation part is obliquely grabbed in the insulation part overturning and positioning block and then obliquely stacked on a movable contact in the lower fixture.

2. The fully-automatic movable contact assembling machine according to claim 1, wherein: the insulating part feeding part also comprises an insulating part feeding part supporting column, a second parallel cylinder and an insulating part linear vibration assembly; the insulating part linear vibration assembly conveys the insulating part to the insulating part overturning positioning block; the second parallel air cylinder is arranged on the upper portion of the supporting column of the insulating part feeding portion, and the second upper and lower air cylinders are obliquely arranged on the second parallel air cylinder.

3. The fully-automatic movable contact assembling machine according to claim 2, characterized in that: the insulation piece overturning positioning block comprises an insulation piece sliding guide groove, an overturning groove and a positioning block baffle; the insulating part slides along the insulating part sliding guide groove, and the tail part of the insulating part falls to the turnover groove after touching the positioning block baffle, so that the turnover positioning of the insulating part is realized.

4. The fully-automatic movable contact assembling machine according to claim 3, wherein: the inclination angle of the second upper and lower cylinders is 58 degrees, and the overturning angle of the insulating part in the insulating part overturning positioning block is 58 degrees.

5. The fully-automatic movable contact assembling machine according to claim 1, wherein: the moving contact feeding part comprises a moving contact feeding part supporting column, a first parallel cylinder, a first upper cylinder, a first lower cylinder, a moving contact positioning block and a moving contact linear vibration assembly; the moving contact linear vibration assembly conveys a moving contact to the moving contact positioning block, the first parallel air cylinder is arranged on the upper portion of a supporting column of a feeding portion of the moving contact, the first upper air cylinder and the first lower air cylinder are vertically arranged on the first parallel air cylinder, and the first upper air cylinder and the first lower air cylinder are provided with pneumatic fingers to grab the moving contact from the moving contact positioning block.

6. The fully-automatic movable contact assembling machine according to claim 1, wherein: the loading rotary table comprises a pneumatic divider and a pneumatic dividing disc; the pneumatic divider is provided with the pneumatic dividing disc, and the pneumatic dividing disc is provided with 6 lower clamps at equal intervals.

7. The fully-automatic movable contact assembling machine according to claim 5, wherein: the moving contact vibration disc is communicated with the moving contact linear vibration assembly.

8. The fully-automatic movable contact assembling machine according to claim 2, characterized in that: still include insulating part vibration dish, insulating part vibration dish intercommunication the insulating part straight line subassembly that shakes.

Images