CN206484248U - Deep well pump rivet tightening machine clamping position component - Google Patents

Abstract

The utility model discloses a kind of deep well pump rivet tightening machine clamping position component, its drip irrigation device is to include frame, the base provided with pedestal and on pedestal is crossed in the frame, the fixed cover for placing deep well pump is rotatably connected on the base, the base is provided with the connector one being connected with fixed cover, the connector one and is provided with link slot；Drive cylinder is provided with the pedestal, top plate is connected with the take-off lever of the drive cylinder, motor one is provided with the top plate and is connected with the output shaft of motor one and is rotatablely installed in being provided with the contiguous block with link slot pairing on the connector two on top plate, the connector two；The both sides of the frame are provided with the sliding rack that can be slided up and down along frame, the sliding rack and are provided with Calibration Head and the drive division for driving Calibration Head to flush and be pressed on motor casing outer wall with the screwed hole on motor casing.

Description

Deep well pump rivet tightening machine clamping position component

Technical field

The utility model is related to a kind of deep well pump rivet tightening machine clamping position component.

Background technology

The maximum feature of deep well pump is to be formed integrally motor and pump, and it is to immerse in underground water well to carry out suction and defeated A kind of pump of water is sent, is widely used in farmland discharging-irrigating, industrial and mining enterprises, urban water supply and sewerage and sewage disposal etc..

After electric motor end cap is pressed on motor casing by deep well pump in production, it is necessary first to which packing ring is encased in into motor casing In screwed hole, fastened secondly by the screwed hole and being tightened in the screwed hole of electric motor end cap of screw through motor casing.

Traditional deep well pump rivet tightening machine includes frame, the horizontal conveying group having for conveying motor casing in frame Part, the sliding rack that can be slided up and down along frame is provided with the both sides of frame, is provided with sliding rack for clamping motor casing Clamping position component, packing ring feeding material component, packing ring shoot component, screw feeding material component and screw and shoot component, motor casing After being transported to by conveying assembly on processing stations, packing ring is transported to by packing ring by packing ring feeding material component and shot in component, led to Cross packing ring to shoot after the screwed hole that packing ring is pressed on motor casing by component, screw is input to screw and shot by screw feeding material component In component, by screw shoot component by screw through motor casing screwed hole and be tightened in the screwed hole of electric motor end cap.

Clamping position component traditionally generally uses staff's manual rotation motor casing, by the screwed hole in motor casing Alignment packing ring is shot after component and is carrying out fastening clamp by clamping components, and by the way of manual rotation is aligned, in screw thread When hole is not aligned with processing assembly, staff needs again rotary electric machine shell to be aligned, influence production and processing efficiency.

Utility model content

In view of the deficienciess of the prior art, the purpose of this utility model is that providing a kind of deep well pump rivet tightening machine uses Clamping position component, the characteristics of producing and processing efficiency with raising.

Above-mentioned technical purpose of the present utility model technical scheme is that：

Crossed in a kind of deep well pump rivet tightening machine clamping position component, including frame, the frame provided with pedestal, with And the base on pedestal, the fixed cover for placing motor casing is rotatably connected on the base, the base is provided with Link slot is provided with the connector one being connected with fixed cover, the connector one；

It is provided with the pedestal on drive cylinder, the take-off lever of the drive cylinder and is connected with top plate, on the top plate It is provided with motor one and is connected with the output shaft of motor one and is rotatablely installed in the connector two on top plate, institute State the contiguous block being provided with connector two with link slot pairing；

The both sides of the frame be provided with the sliding rack that can be slided up and down along frame, the sliding rack be provided with Calibration Head, And the drive division for driving Calibration Head to flush and be pressed on motor casing outer wall with the screwed hole on motor casing.

By above-mentioned technical proposal, by the placement of the motor casing of the deep well pump fixed cover, processing work is transported in base When on position, sliding rack driving Calibration Head is moved down, and Calibration Head is flushed with the screwed hole on motor casing by drive division and is pressed on electricity On the outer wall of casing；

Now, the drive cylinder driving upward jack-up of top plate, the drive connection of motor one first two rotates a circle on top plate, After contiguous block is chimeric with link slot in the rotation of connector two, to drive fixed cover and the motor casing in fixed cover to turn Dynamic, if motor casing is in rotation process, the screwed hole on motor casing is directed at the Calibration Head of both sides, effect of the Calibration Head in drive division Under entered screwed hole from being originally pressed on the outer wall of motor casing to chimeric, motor casing screwed hole is positioned to be processed On position, the alignment precision of such a mode screwed hole is high, to effectively improve production and processing efficiency.

It is preferred that, mounting groove is offered on the end face of the connector two, the contiguous block is contained in the mounting groove, It is provided with the mounting groove for providing elastic component of the contiguous block to link slot side elastic force.

By above-mentioned technical proposal, in the upward jack-up of drive cylinder driving top plate, if the contiguous block in connector two does not have Have with the link slot pairing in connector one, contiguous block is extruded by base, and is compressed into mounting groove, until driving Motor one drives connector two to rotate so that contiguous block and link slot pairing, contiguous block will be fitted together to entrance in the presence of elastic component Into link slot, the pairing between connector one and connector two is completed, to realize that torsion between the two is transmitted.

It is preferred that, the drive division includes being connected to be used to provide the cylinder to motor casing side driving force in sliding rack One and the support frame on the take-off lever of cylinder one, the gas for providing vertically movable power is provided with support frame as described above Cylinder two, the Calibration Head is installed on the take-off lever of cylinder two.

By above-mentioned technical proposal, cylinder two provides Calibration Head vertical driving force, to facilitate on Calibration Head and motor casing Screwed hole be in and flush state, cylinder one provides driving force of the Calibration Head to motor casing side, to facilitate Calibration Head to be inserted into Screwed hole alignment is completed in screwed hole to enter the state of processing.

It is preferred that, both sides sliding rack on be provided with cylinder three, the take-off lever of the cylinder three and be connected with fixture, institute State the roller for being rotatablely equipped with and being contradicted with motor casing outer wall on fixture.

By above-mentioned technical proposal, when base is run on processing stations, cylinder three will drive fixture to stretch out so that The outer wall of roller and motor casing is contradicted, so as to improve the stability that motor casing is rotated in fixed cover.

It is preferred that, it is provided with cylinder four, the take-off lever of the cylinder four and is connected with for compressing in the sliding rack of both sides In the anchorage clip of motor casing outer wall.

By above-mentioned technical proposal, after Calibration Head completes positioning to screwed hole, the driving anchorage clip cladding of cylinder four and pressure Tightly in the outer wall of motor casing, to carry out the fixation axially and in circumference to motor casing, produced with the position for avoiding screwed hole inclined Move.

It is preferred that, the positioning sleeve for being socketed on rotor axis of electric is connected with the sliding rack of side.

By above-mentioned technical proposal, when base is run on processing stations, sliding rack is moved down is socketed in electricity by positioning sleeve On machine rotor axle, to carry out axial limiting to motor casing, connective stability of the motor casing in fixed cover is improved.

In summary, the utility model having the beneficial effect that in contrast to prior art：

After connector one and the pairing of connector two, in the rotation process of motor casing so that Calibration Head is in drive division In the presence of entered screwed hole from being originally pressed on the outer wall of motor casing to chimeric, the position of screwed hole is determined Position, the alignment precision of such a mode screwed hole is high, to effectively improve production and processing efficiency.

Brief description of the drawings

Fig. 1 is the scheme of installation of embodiment；

Fig. 2 is the structural representation of conveying assembly；

Fig. 3 A are the structural representation of base；

Fig. 3 B are the structural representation of top plate；

Fig. 4 is the enlarged diagram in A portions in Fig. 1；

Fig. 5 is the structural representation of clamping position component；

Fig. 6 is the structural representation that packing ring feeding material component and packing ring shoot component；

Fig. 7 is the structural representation that screw feeding material component and screw shoot component.

Reference：1st, frame；2nd, conveying assembly；201st, roller transport chain；202nd, limit component；203rd, proximity switch； 3rd, packing ring feeding material component；301st, packing ring vibrating disk；302nd, washer blanking passage；4th, packing ring shoots component；401st, packing ring fixed block； 402nd, packing ring shoots hole；403rd, packing ring shoots head；404th, the first cylinder；5th, screw feeding material component；501st, screw vibrating disk；502、 Screw blanking channel；6th, screw shoots component；601st, screw fixed block；602nd, screw shoots hole；603rd, screw shoots head；604、 First motor；605th, the second cylinder；7th, pedestal；8th, base；9th, drive cylinder；10th, top plate；11st, locating dowel；12nd, positioning hole； 13rd, fixed cover；14th, connector one；15th, link slot；16th, motor one；17th, connector two；18th, mounting groove；19th, connect Block；20th, elastic component；21st, stepper motor；22nd, sliding rack；23rd, screw rod；24th, positioning sleeve；25th, cylinder three；26th, fixture；27、 Roller；28th, cylinder four；29th, anchorage clip；30th, Calibration Head；31st, drive division；311st, cylinder one；312nd, support frame；313rd, cylinder Two；314th, fixed block；32nd, cutter head is corrected；33rd, motor two；34th, belt pulley.

Embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

As shown in figure 1, a kind of deep well pump rivet tightening machine clamping position component, the clamping position component is applied to deep-well In pump rivet tightening machine.

The deep well pump rivet tightening machine includes conveying assembly 2, packing ring feeding material component 3, packing ring and shoots component 4, screw feeding Component 5 and screw shoot component 6.

As shown in fig. 6, packing ring feeding material component 3 includes packing ring vibrating disk 301 and is connected to the packing ring of packing ring vibrating disk 301 Blanking channel 302；It is including packing ring fixed block 401, on packing ring fixed block 401 and logical with washer blanking that packing ring shoots component 4 The packing ring that road 302 is communicated shoots hole 402 and shoots hole 402 relatively with packing ring and shot by the packing ring of the first cylinder 404 driving First 403.

As shown in fig. 7, screw feeding material component 5 includes screw vibrating disk 501 and is connected to the screw of screw vibrating disk 501 Blanking channel 502；It is including screw fixed block 601, on screw fixed block 601 and logical with screw blanking that screw shoots component 6 The screw that road 502 is communicated, which shoots hole 602 and shoots the screw that hole 602 is oppositely arranged with screw, shoots first 603, and screw is shot First 603 are driven rotation by the first motor 604, and screw shoots first 603 and driven slip by the second cylinder 605.

After motor casing is transported on processing stations by conveying assembly 2, packing ring is passed through by packing ring by packing ring vibrating disk 301 Blanking channel 302 is transported to packing ring fixed block 314401 and is housed in packing ring and shoots in hole 402, and shooting first 403 by packing ring will Packing ring is pressed into the screwed hole on motor casing；Afterwards, screw is transported to by screw vibrating disk 501 by screw blanking channel 502 Screw fixed block 314601 is simultaneously housed in screw and shot in hole 602, by screw shoot first 603 the second cylinder 605 driving The lower screwed hole that screw is passed through to the screwed hole of motor casing, and screw is tightened on under the driving of the second motor electric motor end cap In.

With reference to shown in Fig. 1 and Fig. 2, the clamping position component in the present embodiment includes crossing provided with base in frame 1, frame 1 Seat 7 and the base 8 on pedestal 7, the conveying assembly 2 include roller transport chain 201, limit component 202 and proximity switch 203, the both sides that roller transport chain 201 is arranged on pedestal 7 are used to contradict to drive base 8 in pedestal 7 with the lower surface of base 8 Operation；Limit component 202 is arranged at the processing stations of pedestal 7, and limit component 202 is used to contradict to limit with the end face of base 8 The run action of base 8 processed；The relative set of proximity switch 203 is at the processing stations of pedestal 7, for whether detecting base 8 On processing stations.

With reference to shown in Fig. 3 A and Fig. 3 B, wherein, some driving gas for being controlled by proximity switch 203 are provided with pedestal 7 It is connected with cylinder 9, the take-off lever of drive cylinder 9 on top plate 10, top plate 10 and some locating dowels 11 is installed, is offered on base 8 Some positioning holes 12 being adapted with locating dowel 11.

Offered on base 8 in mounting hole, mounting hole and be fixed with bearing, be provided with and put for motor casing on the bearing face The fixed cover 13 put, motor casing, which is placed in the fixed cover 13, to be rotated on base 8, be provided with base 8 and bearing inner ring The chimeric connector 1 to drive the rotation of fixed cover 13, connector 1 is located in the lower surface of base 8, in connector one Link slot 15 in link slot 15, the present embodiment is provided with 14 and uses the yi word pattern groove being arranged on connector 1.

Motor 1 is additionally provided with top plate 10, motor 1 is located at the bottom of top plate 10, in top plate 10 also It is rotatably connected on the connector 2 17 that end is connected with the output shaft of motor 1, the end face of connector 2 17 and offers Mounting groove 18, mounting groove 18 uses the contiguous block 19 being provided with T-shaped groove, mounting groove 18 with the pairing of link slot 15, this implementation Contiguous block 19 is adapted with shape, the size of link slot 15 in example, and T fonts are accordingly presented in contiguous block 19.

It is provided with mounting groove 18 for providing elastic component 20 of the contiguous block 19 to the side elastic force of link slot 15, the present embodiment Middle elastic component 20 is elastic spring, and the quantity of spring element is provided with two, and two elastic components 20 are respectively positioned at mounting groove 18 Both sides.

With reference to shown in Fig. 1 and Fig. 4, wherein, the both sides of frame 1 are provided with stepper motor 21 and are connected to stepper motor 21 The screw rod 23 of output shaft, is threaded with sliding rack 22 on screw rod 23, and two side slips of sliding rack 22 are connected in frame 1, Therefore, sliding rack 22 can be slided up and down under stepper motor 21, the driving of screw rod 23 along frame 1；Above-mentioned packing ring feeding material component 3rd, packing ring, which shoots component 4, screw feeding material component 5 and screw and shoots component 6, is arranged in sliding rack 22.

The positioning sleeve 24 for being socketed on rotor axis of electric is connected with side sliding rack 22.

Both sides sliding rack 22 on be provided with cylinder 3 25, the take-off lever of cylinder 3 25 and be connected with fixture 26, it is fixed The roller 27 contradicted with motor casing outer wall is rotatablely equipped with part 26；Cylinder 4 28, cylinder are provided with both sides sliding rack 22 4 28 are located at the lower section of cylinder 3 25, and the anchorage clip for being pressed in motor casing outer wall is connected with the take-off lever of cylinder 4 28 29, it is adapted with the shape of motor casing after two pairings of anchorage clip 29, and anchorage clip 29 uses quality of rubber materials, to improve fastening Frictional force between folder 29 and motor casing outer wall.

With reference to shown in Fig. 1 and Fig. 5, Calibration Head 30 is provided with sliding rack 22 and for driving Calibration Head 30 and motor Screwed hole on shell flushes and is pressed in the drive division 31 on motor casing outer wall.

Drive division 31 include be connected in sliding rack 22 be used for provide to motor casing side driving force cylinder 1, with And the support frame 312 on the take-off lever of cylinder 1, the gas for providing vertically movable power is provided with support frame 312 Cylinder 2 313, wherein, fixed block 314 is connected with the take-off lever of cylinder 2 313, Calibration Head 30 is rotationally connected with fixed block 314 On, one end of Calibration Head 30 protrudes from fixed block 314 and correction cutter head 32 is provided with its end.

Motor 2 33 is also associated with support frame 312, the output shaft of motor 2 33 is connected by belt pulley 34 In the other end of Calibration Head 30 to drive Calibration Head 30 to rotate.Motor 2 33 can drive correction cutter head 32 in fixed block 314 Upper to rotate, in screwed hole alignment, Calibration Head 30 extend into timing in the screwed hole of motor casing, and correction cutter head 32 can be by motor casing Burr edge in upper screwed hole is weeded out.

And the end face of correction cutter head 32 is provided with the conical surface；The setting of the conical surface, compresses in correction cutter head 32 and contradicts in electricity When on the outer wall of casing, the first arc surface with motor casing outer wall of the conical surface of correction cutter head 32 end is contradicted, so as to avoid motor casing When rotating, correction cutter head 32 causes the damage of motor casing outer wall.

The course of work：

Motor casing is placed in the fixed cover 13, base 8 is conveyed by roller transport chain 201, base 8 is transported to processing When on station, limit component 202 will be contradicted on the end face of base 8, and now, proximity switch 203 detects base 8 and arrived Position, control drive cylinder 9, motor 1, stepper motor 21 start；

First, drive cylinder 9 drives the motion upwards of top plate 10, and the grafting of locating dowel 11 on top plate 10 is entered into positioning The positioning to base 8 is realized in hole 12, and the connector 1 on the connector 2 17 on top plate 10 and base 8 is contradicted；

Now, after the drive of stepper motor 21 sliding rack 22 is moved down, positioning sleeve 24 is socketed on rotor axis of electric and carried out axially It is spacing；

Cylinder 2 313 provides the vertical driving force of Calibration Head 30, to cause Calibration Head 30 and screwed hole on motor casing mutually neat Flat, cylinder 1 provides the laterally driven power of Calibration Head 30, to cause Calibration Head 30 to contradict on the outer wall of motor casing；

The driving fixture 26 of cylinder 3 25, which stretches out, causes roller 27 to contradict the folder for completing motor casing on the outer wall of motor casing Tightly；

Secondly, the drive connection of motor 1 first 2 17 is rotated enters until the contiguous block 19 on connector 2 17 is chimeric Into the link slot 15 in connector 1, after contiguous block 19 and the pairing of link slot 15, motor casing will be by motor 1 Driving is rotated；

If motor casing is in rotation process, the screwed hole on motor casing is directed at the Calibration Head 30 of both sides, and Calibration Head 30 is driving In entering screwed hole from be originally pressed on the outer wall of motor casing to being fitted together in the presence of dynamic portion 31, by motor casing screwed hole It is positioned on position to be processed,

Wherein, correction cutter head 32 can weed out the burr in motor casing screwed hole；

Finally, Calibration Head 30 resets in the presence of drive division 31, and cylinder 3 25 resets, the driving anchorage clip 29 of cylinder 4 28 It is pressed on the outer wall of motor casing, the circumference to motor casing is fixed to carry out the installment work of packing ring, screw.

Described above is only exemplary embodiment of the present utility model, not for limitation protection model of the present utility model Enclose, protection domain of the present utility model is determined by appended claim.

Claims (6)

1. a kind of deep well pump rivet tightening machine clamping position component, including frame (1), it is characterized in that：It is horizontal in the frame (1) It is equipped with pedestal (7) and the base (8) on pedestal (7), the base (8) and is rotatably connected to for placing motor The fixed cover (13) of shell, the base (8) is provided with the connector one (14) being connected with fixed cover (13), the connector one (14) link slot (15) is provided with；

It is provided with the pedestal (7) on drive cylinder (9), the take-off lever of the drive cylinder (9) and is connected with top plate (10), institute State motor one (16) is provided with top plate (10) and be connected with the output shaft of motor one (16) and be rotatablely installed in Contiguous block with link slot (15) pairing is installed on the connector two (17) on top plate (10), the connector two (17) (19)；

The both sides of the frame (1) are provided with the sliding rack (22) that can be slided up and down along frame (1), the sliding rack (22) and set There is Calibration Head (30) and for driving Calibration Head (30) to be flushed with the screwed hole on motor casing and being pressed in motor casing outer wall Drive division (31).

2. deep well pump rivet tightening machine clamping position component according to claim 1, it is characterized in that：The connector two (17) mounting groove (18) is offered on end face, the contiguous block (19) is contained in the mounting groove (18), the mounting groove (18) it is provided with for providing elastic component (20) of the contiguous block (19) to link slot (15) side elastic force.

3. deep well pump rivet tightening machine clamping position component according to claim 1, it is characterized in that：The drive division (31) including being connected in sliding rack (22) is used to provide to the cylinder one (311) of motor casing side driving force and located at gas Support frame (312) on the take-off lever of cylinder one (311), support frame as described above is provided with for providing vertically movable power on (312) Cylinder two (313), the Calibration Head (30) is installed on the take-off lever of cylinder two (313).

4. deep well pump rivet tightening machine clamping position component according to claim 1, it is characterized in that：Both sides sliding rack (22) on be provided with cylinder three (25), the take-off lever of the cylinder three (25) and be connected with fixture (26), the fixture (26) roller (27) contradicted with motor casing outer wall is rotatablely equipped with.

5. deep well pump rivet tightening machine clamping position component according to claim 1, it is characterized in that：Both sides sliding rack (22) it is provided with cylinder four (28), the take-off lever of the cylinder four (28) and is connected with for being pressed in motor casing outer wall on Anchorage clip (29).

6. deep well pump rivet tightening machine clamping position component according to claim 1, it is characterized in that：Side sliding rack (22) positioning sleeve (24) for being socketed on rotor axis of electric is connected with.