CN117182046A - Steel casting cavity remover - Google Patents

Abstract

The invention discloses a steel casting cavity remover, and relates to the technical field of demolding equipment. The invention comprises an objective table, wherein a collecting tank is arranged in the objective table, a filter screen capable of moving back and forth is arranged in the collecting tank, a support is arranged at the top of the objective table, a lifting cylinder is arranged at the top of the support, a separation box is arranged at the telescopic end of the lifting cylinder, a guide rod capable of automatically lifting is arranged at the bottom of the separation box, through holes distributed corresponding to a vibration head are formed in the partition plate, and the radius of each through hole is smaller than the maximum radius of the vibration head. Through setting up the vibrations head at breaking away from box bottom matrix, then control breaks away from the box decline, breaks away from the box and moves vibrations head and press on the steel casting surface, because the guide bar can go up and down, consequently the vibrations head of different positions can go up and down to different positions, vibrations head can be along steel casting surface distribution, and then can with steel casting surface comprehensive contact, smash husky comprehensive.

Description

Steel casting cavity remover

Technical Field

The invention relates to the technical field of demolding equipment, in particular to a steel casting cavity remover.

Background

The sand casting is a casting method for producing castings in a sand mold, steel, iron and most nonferrous alloy castings can be obtained by the sand casting method, the steel castings need to be separated from a casting cavity after the sand casting is finished, and the casting operation is usually manually cleaned after the existing sand box casting is finished, so that sand is compacted before pouring, the cleaning difficulty of staff is increased, and the workload is increased;

in China patent (application number: CN202010792890. X), a sand casting and demolding device for a self-priming pump body is disclosed, which comprises a sand dropping groove, a cope flask and a drag flask; vibration motors are arranged on two sides above the inner wall of the shakeout tank, the output end of each vibration motor is connected with a vibration connecting shaft, and the tail end of each vibration connecting shaft is connected with a filter screen; supporting frames are arranged on two sides above the sand dropping groove, and driving cylinders are arranged at the top ends of the supporting frames; the output end of the driving cylinder is connected with a driving support rod, the tail end of the driving support rod is connected with a pushing plate, and a plurality of sand tamping rods which are uniformly distributed are arranged below the pushing plate.

Compared with the prior art, the patent has the following technical problems in the actual use process:

1. this sand casting shedder through being provided with a plurality of evenly distributed's sand stamping rod below advancing the board, utilizes sand stamping rod to stamp out sand material from cope flask and drag flask in, in the in-service use, because steel casting surface is uneven, the sand stamping rod of same height can't be contacted with the steel casting completely, and sand stamping effect is poor.

2. This sand casting shedder can only be simple smash steel casting surface sand material and fall, can't carry out meticulously cleaning to steel casting surface, and the drawing of patterns quality is poor.

Disclosure of Invention

The invention aims at: the invention provides a steel casting cavity remover, which aims to solve the problems that sand ramming is incomplete and fine cleaning cannot be performed on the surface of a steel casting.

The invention adopts the following technical scheme for realizing the purposes:

the utility model provides a steel casting cavity remover, includes the objective table, the collecting vat has been seted up to the inside of objective table, the inside of collecting vat is provided with the filter screen that can reciprocating motion, the top of objective table is provided with the support, the lift cylinder is installed at the top of support, the flexible end of lift cylinder is installed and is broken away from the box, the bottom that breaks away from the box is provided with the guide bar that can go up and down automatically, the guide bar is the matrix and distributes, the bottom of guide bar all is provided with the vibrations head, adjacent the vibrations head pastes together;

the inside of vibrations head has seted up the spiral hole, the bottom rotation that breaks away from the box is installed the carousel, the bottom of carousel is provided with the spiral bag post, the inside atmospheric pressure of spiral bag post can change, spiral bag post can threaded connection in the spiral hole.

Further, the inside sliding connection who breaks away from the box has the roof, the roof with break away from and be provided with the top spring between the box inner bottom, the internally mounted who breaks away from the box has the second cam through motor drive, the second cam with the roof is contacted mutually, the inside of roof is provided with coupling mechanism, coupling mechanism can be connected with the guide bar, the inside of collecting vat is provided with the baffle, the baffle is located the below of filter screen, the through-hole that distributes corresponding with the vibrations head has been seted up to the inside of baffle, the radius of through-hole is less than the biggest radius of vibrations head.

Further, coupling mechanism is including setting up the cover board on the roof, the jack has been seted up to the inside of cover board, the guide bar passes the jack, the transmission chamber has been seted up to the inner wall of jack, the internally mounted in transmission chamber has the electro-magnet, the inside sliding connection in transmission chamber has the draw-in lever, the draw-in lever can receive magnetic attraction, the draw-in lever with be provided with thrust spring between the electro-magnet, the draw-in groove has been seted up to the outside linearity of guide bar, the draw-in lever can the joint in the draw-in groove.

Further, the second cams are provided with four groups, a transmission shaft is connected between the second cams on the same side, the outer sides of the two groups of transmission shafts are provided with transmission belt wheels, and the two groups of transmission belt wheels are in transmission connection through a transmission belt.

Further, the top of breaking away from the box is installed and is adjusted the cylinder, the spiral bag post through the trachea with adjust the cylinder and be connected, adjust the inside sliding connection of cylinder and have the piston board, the outside rotation of piston board is installed and can automatic pivoted adjusting screw, adjust the outside of cylinder and be provided with adjusting nut, adjusting screw with adjusting nut threaded connection.

Further, the inside of adjusting screw has seted up the shaft hole, break away from the top rotation of box and install the drive shaft through motor drive, the drive shaft is pegged graft in the shaft hole, the outside of drive shaft is provided with the shaft key, shaft key sliding connection is in the shaft hole.

Further, a spring inner core is arranged in the spiral bag column.

Further, the spout has been seted up to the inner wall of collecting vat, the outside of filter screen is provided with the slipframe, slipframe sliding connection is in the spout, the slipframe with be provided with buffer spring between the objective table, the top rotation of objective table is installed and is passed through motor drive's first cam, first cam with the slipframe is contacted mutually in the top.

Further, the outside of objective table has been seted up the installation screw hole, the inside grafting of spout has the mounting panel, the mounting hole that corresponds the distribution with the installation screw hole has been seted up in the outside of mounting panel, the one end fixed connection that the sliding frame was kept away from to buffer spring is on the mounting panel.

The beneficial effects of the invention are as follows:

1. according to the invention, the vibrating heads are arranged at the bottom of the separation box in a matrix mode, then the separation box is controlled to descend, the separation box drives the vibrating heads to press on the surface of the steel casting, and as the guide rods can lift, the vibrating heads at different positions can lift to different positions, and the vibrating heads can be distributed along the surface of the steel casting, so that the vibrating heads can be in comprehensive contact with the surface of the steel casting, and the sand ramming is comprehensive.

2. According to the invention, the guide rod is controlled to ascend, the guide rod drives the vibration head, the vibration head passes through the spiral hole and is opposite to the spiral bag column, at the moment, the spiral bag column passes through the spiral hole and extends to the outer side of the vibration head, the spiral bag column can be contacted with the surface of the steel casting, then the filter screen is controlled to reciprocate, and the filter screen drives the steel casting to reciprocate relative to the spiral bag column, so that the surface of the steel casting can be thoroughly cleaned, and the demolding quality is high.

3. According to the invention, the structural strength of the spiral bag column is controlled by controlling the air pressure in the spiral bag column, so that the cleaning strength can be controlled, and the method is suitable for different sand casting environments.

Drawings

FIG. 1 is a schematic overall view of the present invention;

FIG. 2 is a schematic view of a stage of the present invention;

FIG. 3 is a schematic view of a screen according to the present invention;

FIG. 4 is a schematic view of a breakout box according to the present invention;

FIG. 5 is a schematic cross-sectional view of a knock-out box of the present invention;

FIG. 6 is a schematic view of a lifter plate of the present invention;

FIG. 7 is a schematic cross-sectional view of a bushing of the present invention;

FIG. 8 is a schematic view of a vibrating head according to the present invention;

fig. 9 is a schematic cross-sectional view of a vibrating head according to the present invention.

Reference numerals: 1. an objective table; 2. a collection tank; 3. a partition plate; 4. a first cam; 5. installing a threaded hole; 6. a sliding frame; 7. a filter screen; 8. a mounting plate; 9. a buffer spring; 10. a mounting hole; 11. a bracket; 12. a lifting cylinder; 13. disengaging the case; 14. a guide rod; 15. a vibrating head; 16. a spiral bag column; 17. a spring inner core; 18. a turntable; 19. a spiral hole; 20. a top plate; 21. a top spring; 22. a second cam; 23. a transmission shaft; 24. a transmission belt wheel; 25. a sleeve plate; 26. an electromagnet; 27. a clamping rod; 28. a thrust spring; 29. a clamping groove; 30. adjusting a cylinder; 31. a piston plate; 32. adjusting a screw; 33. a drive shaft.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

As shown in fig. 1-9, a steel casting cavity remover comprises an objective table 1, wherein a collecting tank 2 is arranged in the objective table 1, a filter screen 7 capable of moving back and forth is arranged in the collecting tank 2, a support 11 is arranged at the top of the objective table 1, a lifting cylinder 12 is arranged at the top of the support 11, a separation box 13 is arranged at the telescopic end of the lifting cylinder 12, guide rods 14 capable of automatically lifting are arranged at the bottom of the separation box 13, the guide rods 14 are distributed in a matrix, vibration heads 15 are arranged at the bottom of the guide rods 14, and adjacent vibration heads 15 are attached together;

the inside of the vibration head 15 is provided with a spiral hole 19, the bottom of the separation box 13 is rotatably provided with a rotary table 18, the bottom of the rotary table 18 is provided with a spiral bag column 16, the air pressure inside the spiral bag column 16 can be changed, and the spiral bag column 16 can be in threaded connection in the spiral hole 19.

When the sand box and the steel casting are placed on the filter screen 7, then the lifting cylinder 12 is controlled to operate, the lifting cylinder 12 drives the separation box 13 to descend, the separation box 13 drives the vibration head 15 to press on sand, at the moment, the guide rod 14 is controlled to lift, the guide rod 14 drives the vibration head 15 to smash sand which is not adhered to the steel casting, meanwhile, the filter screen 7 is controlled to reciprocate, the filter screen 7 drives the sand box to move relative to the vibration head 15, so that the sand in the sand box can be vibrated to fall, the tamping effect of the vibration head 15 can be improved, and after the sand which is not adhered to the steel casting is smashed, the sand box is taken down;

at this time, the surface of the steel casting is uneven, so that the bonded sand on the surface is complex in structure, at this time, the lifting cylinder 12 is controlled to continuously descend, the lifting cylinder 12 drives the separation box 13 to descend, the separation box 13 drives the vibrating heads 15 to descend, meanwhile, the guide rods 14 at different positions are controlled to ascend and descend at different heights, and because the vibrating heads 15 are distributed in a matrix, a plurality of groups of vibrating heads 15 can be attached along the shape of the surface of the steel casting, at this time, the guide rods 14 are controlled to ascend and descend, the guide rods 14 drive the vibrating heads 15 to smash the sand bonded on the surface of the steel casting, the smash-down is comprehensive, the sand-down effect is good, meanwhile, the air pressure in the spiral bag column 16 is controlled to be increased, the spiral bag column 16 can give larger knocking force to the vibrating heads 15, the spiral bag column 16 can not revolve out along the spiral holes 19, the guide rods 14 can be compressed or stretched when the spiral bag column 16 is ensured, the sand is stable to smash, and the filter screen 7 is not moved when the sand is smash, and the vibrating heads 15 can not collide with the surface of the steel casting is ensured;

after the shakeout is finished, controlling the air pressure inside the spiral bag column 16 to be reduced, at the moment, the spiral bag column 16 can be screwed out along the spiral hole 19, then controlling the guide rod 14 to ascend, the guide rod 14 ascends relative to the spiral bag column 16, at the moment, the spiral bag column 16 is screwed out along the spiral hole 19, the spiral bag column 16 passes through the spiral hole 19 to extend to the outer side of the vibration head 15, the spiral bag column 16 can be in contact with the surface of the steel casting, then controlling the filter screen 7 to reciprocate, and the filter screen 7 drives the steel casting to reciprocate relative to the spiral bag column 16, so that the surface of the steel casting can be thoroughly cleaned, and the demolding quality is high.

As shown in fig. 5 and 6, in some embodiments, a top plate 20 is slidably connected to the inside of the separation box 13, a top spring 21 is disposed between the top plate 20 and the inner bottom of the separation box 13, a second cam 22 driven by a motor is mounted in the separation box 13, the second cam 22 is in contact with the top plate 20, a connecting mechanism is disposed in the top plate 20 and can be connected with the guide rod 14, a partition plate 3 is disposed in the collecting tank 2, the partition plate 3 is located below the filter screen 7, through holes distributed corresponding to the vibration heads 15 are formed in the partition plate 3, and the radius of each through hole is smaller than the maximum radius of the vibration head 15.

When the sand is required to be smashed, the connecting mechanism is disconnected with the guide rod 14, then the lifting cylinder 12 is controlled to operate, the lifting cylinder 12 drives the separation box 13 to descend, the separation box 13 drives the vibration heads 15 to press on the sand materials, the vibration heads 15 can be automatically distributed along the surface of the steel casting because the spiral bag column 16 gives a certain limiting force to the vibration heads 15, at the moment, the connecting mechanism is controlled to be connected with the guide rod 14, the second cam 22 is controlled to rotate when the sand is smashed, the top plate 20 slides up and down under the action of the top spring 21 and the second cam 22, the top plate 20 drives the guide rod 14 to move up and down through the connecting mechanism, the guide rod 14 drives the vibration heads 15 to knock on the sand materials, and the sand can be smashed without setting a drive to each guide rod 14, so that the sand smashing is compact in structure;

when the spiral bag column 16 needs to be controlled to stretch out, the filter screen 7 and the steel casting are taken down, then the lifting cylinder 12 is controlled to operate, the lifting cylinder 12 drives the separation box 13 to descend, the separation box 13 drives the vibration head 15 to descend, the vibration head 15 is pressed on the partition plate 3, the lifting cylinder 12 is continuously controlled to operate, the vibration head 15 ascends relative to the spiral bag column 16 under the action of the partition plate 3, the spiral bag column 16 stretches out along the through hole, and the control is convenient.

As shown in fig. 7 and 8, in some embodiments, the connection mechanism includes a sleeve plate 25 disposed on the top plate 20, a jack is formed in the sleeve plate 25, the guide rod 14 passes through the jack, a transmission cavity is formed in an inner wall of the jack, an electromagnet 26 is mounted in the transmission cavity, a clamping rod 27 is slidably connected in the transmission cavity, the clamping rod 27 can be attracted by magnetic force, a thrust spring 28 is disposed between the clamping rod 27 and the electromagnet 26, a clamping groove 29 is linearly formed in an outer side of the guide rod 14, and the clamping rod 27 can be clamped in the clamping groove 29.

By controlling the electromagnet 26 to be powered off, the push spring 28 pushes the clamping rod 27 to be clamped in the clamping groove 29, and the clamping rod 27 enables the guide rod 14 to be connected with the top plate 20, so that the control is convenient.

As shown in fig. 5, in some embodiments, the second cams 22 are provided with four groups, the transmission shafts 23 are connected between the second cams 22 on the same side, the outer sides of the two groups of transmission shafts 23 are provided with transmission pulleys 24, and the two groups of transmission pulleys 24 are in transmission connection through a transmission belt.

The top plate 20 is uniformly stressed and stably lifted through the arrangement of the four groups of second cams 22, and the four groups of second cams 22 can synchronously rotate under the same driving through the arrangement of the driving belt wheels 24 and the driving shaft 23, so that the structure is compact.

As shown in fig. 5, in some embodiments, an adjusting cylinder 30 is mounted at the top of the detachment box 13, the spiral bag column 16 is connected with the adjusting cylinder 30 through an air pipe, a piston plate 31 is slidably connected inside the adjusting cylinder 30, an adjusting screw 32 capable of automatically rotating is rotatably mounted at the outer side of the piston plate 31, an adjusting nut is disposed at the outer side of the adjusting cylinder 30, and the adjusting screw 32 is in threaded connection with the adjusting nut.

By controlling the rotation of the adjusting screw 32, the adjusting screw 32 drives the piston plate 31 to slide along the adjusting cylinder 30 under the action of the adjusting nut, and the air pressure inside the plurality of groups of spiral bag columns 16 can be changed simultaneously through the adjusting cylinder 30, so that the control is convenient.

As shown in fig. 5, in some embodiments, the adjusting screw 32 is internally provided with a shaft hole, the top of the disengaging box 13 is rotatably provided with a driving shaft 33 driven by a motor, the driving shaft 33 is inserted in the shaft hole, and the outer side of the driving shaft 33 is provided with a shaft key which is slidably connected in the shaft hole.

By controlling the driving shaft 33 to rotate, the driving shaft 33 drives the adjusting screw 32 to rotate through the shaft key, the adjusting screw 32 drives the piston plate 31 to slide along the adjusting cylinder 30 under the action of the adjusting nut, the air pressure inside the plurality of groups of spiral bag columns 16 can be changed simultaneously through the adjusting cylinder 30, the adjusting screw 32 slides relative to the driving shaft 33, and the driving is stable under the action of the shaft key.

As shown in fig. 9, in some embodiments, the inner portion of the spiral bag column 16 is provided with a spring inner core 17, and by the arrangement of the spring inner core 17, not only the shape of the spiral bag column 16 can be ensured, the stability of the spiral bag column can be improved, but also the buffering force provided by the spiral bag column 16 can be increased.

As shown in fig. 1-3, in some embodiments, a chute is formed on the inner wall of the collecting tank 2, a sliding frame 6 is disposed on the outer side of the filter screen 7, the sliding frame 6 is slidably connected in the chute, a buffer spring 9 is disposed between the sliding frame 6 and the objective table 1, a first cam 4 driven by a motor is rotatably installed on the top of the objective table 1, and the first cam 4 is in contact with the sliding frame 6.

By controlling the first cam 4 to rotate, the sliding frame 6 slides reciprocally under the action of the buffer spring 9 and the first cam 4, and the sliding frame 6 drives the filter screen 7 to slide reciprocally.

As shown in fig. 1-3, in some embodiments, an installation threaded hole 5 is provided on the outer side of the objective table 1, an installation plate 8 is inserted into the interior of the chute, an installation hole 10 distributed corresponding to the installation threaded hole 5 is provided on the outer side of the installation plate 8, and one end of the buffer spring 9 away from the sliding frame 6 is fixedly connected to the installation plate 8.

Through this design, can be with filter screen 7 quick follow the top of baffle 3 and shift out, filter screen 7 change simultaneously is convenient.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (9)

1. The utility model provides a steel casting cavity remover, includes objective table (1), its characterized in that, collecting vat (2) has been seted up to the inside of objective table (1), the inside of collecting vat (2) is provided with filter screen (7) that can reciprocating motion, the top of objective table (1) is provided with support (11), lift cylinder (12) are installed at the top of support (11), break away from box (13) are installed to the flexible end of lift cylinder (12), the bottom that breaks away from box (13) is provided with guide bar (14) that can go up and down voluntarily, guide bar (14) are the matrix and distribute, the bottom of guide bar (14) all is provided with vibrations head (15), adjacent vibrations head (15) paste together;

spiral hole (19) have been seted up to the inside of vibrations head (15), the carousel (18) are installed in the bottom rotation of breaking away from box (13), the bottom of carousel (18) is provided with spiral bag post (16), the inside atmospheric pressure of spiral bag post (16) can change, spiral bag post (16) can threaded connection in spiral hole (19).

2. The steel casting cavity remover according to claim 1, characterized in that a top plate (20) is slidably connected to the inside of the removing box (13), a top spring (21) is arranged between the top plate (20) and the bottom inside the removing box (13), a second cam (22) driven by a motor is arranged inside the removing box (13), the second cam (22) is in contact with the top plate (20), a connecting mechanism is arranged inside the top plate (20), the connecting mechanism can be connected with a guide rod (14), a partition plate (3) is arranged inside the collecting tank (2), the partition plate (3) is located below the filter screen (7), through holes distributed corresponding to the vibrating heads (15) are formed inside the partition plate (3), and the radius of each through hole is smaller than the maximum radius of each vibrating head (15).

3. The steel casting cavity remover according to claim 2, characterized in that the connecting mechanism comprises a sleeve plate (25) arranged on the top plate (20), a jack is formed in the sleeve plate (25), the guide rod (14) penetrates through the jack, a transmission cavity is formed in the inner wall of the jack, an electromagnet (26) is mounted in the transmission cavity, a clamping rod (27) is slidably connected in the transmission cavity, the clamping rod (27) can be attracted by magnetic force, a thrust spring (28) is arranged between the clamping rod (27) and the electromagnet (26), a clamping groove (29) is linearly formed in the outer side of the guide rod (14), and the clamping rod (27) can be clamped in the clamping groove (29).

4. A steel casting cavity remover according to claim 3, characterized in that the second cams (22) are provided with four groups, a transmission shaft (23) is connected between the second cams (22) on the same side, the outer sides of the two groups of transmission shafts (23) are provided with transmission pulleys (24), and the two groups of transmission pulleys (24) are in transmission connection through a transmission belt.

5. The steel casting cavity remover according to claim 1, characterized in that an adjusting cylinder (30) is mounted at the top of the removing box (13), the spiral bag column (16) is connected with the adjusting cylinder (30) through an air pipe, a piston plate (31) is slidably connected inside the adjusting cylinder (30), an adjusting screw (32) capable of automatically rotating is rotatably mounted on the outer side of the piston plate (31), an adjusting nut is arranged on the outer side of the adjusting cylinder (30), and the adjusting screw (32) is in threaded connection with the adjusting nut.

6. The steel casting cavity remover according to claim 5, characterized in that the inside of the adjusting screw (32) is provided with a shaft hole, the top of the removing box (13) is rotatably provided with a driving shaft (33) driven by a motor, the driving shaft (33) is inserted in the shaft hole, the outer side of the driving shaft (33) is provided with a shaft key, and the shaft key is slidably connected in the shaft hole.

7. A steel casting cavity remover according to claim 1, characterized in that the inside of the screw capsule column (16) is provided with a spring core (17).

8. The steel casting cavity remover according to claim 1, characterized in that a chute is formed in the inner wall of the collecting tank (2), a sliding frame (6) is arranged on the outer side of the filter screen (7), the sliding frame (6) is slidably connected in the chute, a buffer spring (9) is arranged between the sliding frame (6) and the objective table (1), a first cam (4) driven by a motor is rotatably arranged at the top of the objective table (1), and the first cam (4) is in contact with the sliding frame (6).

9. The steel casting cavity remover according to claim 8, wherein the outer side of the objective table (1) is provided with a mounting threaded hole (5), the inside of the chute is inserted with a mounting plate (8), the outer side of the mounting plate (8) is provided with mounting holes (10) distributed corresponding to the mounting threaded hole (5), and one end, far away from the sliding frame (6), of the buffer spring (9) is fixedly connected to the mounting plate (8).