CN114029476A - Automatic ingot casting demolding comprehensive conveying device for antimony ingot production - Google Patents

Abstract

The invention discloses an ingot casting automatic demoulding comprehensive conveying device for antimony ingot production, which comprises a conveying belt arranged on a rack, wherein a hollow operating belt is arranged on the conveying surface of the conveying belt, mold grooves are uniformly arranged on the operating belt, a discharging driven assembly is arranged inside the operating belt, a discharging starting piece is fixedly arranged on the rack, a cover uncovering wheel for opening a mold cover plate, a knocking rod for assisting demoulding, a demoulding detection assembly for detecting demoulding conditions and a material box for collecting antimony ingots are arranged at the end part of the rack on the conveying belt.

Description

Automatic ingot casting demolding comprehensive conveying device for antimony ingot production

Technical Field

The invention relates to the technical field of antimony ingot production equipment, in particular to an ingot casting automatic demoulding comprehensive conveying device for antimony ingot production.

Background

The antimony ingot is mainly used as a hardening agent of the alloy in the industries of metallurgy, storage batteries, military industry and the like, and is also a raw material for producing antimony oxide. In the production process of antimony ingots, antimony water is poured into an ingot casting mold for molding, and then the ingot casting mold is cooled and demoulded. Because the cooled antimony ingot and the ingot mould have larger binding force, when the ingot mould is transported to a demoulding position for demoulding after pouring, the cast antimony ingot is difficult to fall off under the action of gravity, the cast antimony ingot needs to be beaten manually so as to be separated from the ingot mould, and the beating of the beating hammer is not reliable, so that the antimony ingot can not be demoulded, and manual observation and detection are needed. In the production process of the antimony ingots, more manpower is involved, the labor intensity is high, and the demoulding efficiency of the antimony ingots is low.

Disclosure of Invention

The invention aims to solve the problem of low antimony ingot production efficiency in the prior art, and provides an ingot casting automatic demoulding comprehensive conveying device for antimony ingot production, which is used for improving the demoulding efficiency of antimony ingots.

In order to achieve the purpose, the invention adopts the following technical scheme:

the conveying belt is arranged on a rack of the ingot casting automatic demolding comprehensive conveying device for antimony ingot production, a hollow operation belt is arranged on the conveying surface of the conveying belt, the operation belt and the conveying belt move synchronously, a mold groove is arranged on the surface of the operation belt, and a matched mold cover plate is arranged in the mold groove. The conveyer belt can drive the mould groove and remove, realizes carrying out the conveying in mould groove.

Furthermore, a discharge driven assembly is arranged in the operation belt, and a discharge starting piece is fixedly arranged on the rack.

Specifically, the passive subassembly of ejection of compact includes bevel pinion and threaded rod, the internal surface fixed of operation area sets up the threaded rod, threaded rod and bevel pinion pass through threaded connection, the bottom in mould groove sets up at the bottom of the movable mould, operation area and the bottom of the movable mould junction set up the fly leaf, bevel pinion's upper end is through last rotating plate and fly leaf swivelling joint, bevel pinion's lower extreme is through the internal surface swivelling joint of lower rotating plate with the operation area, return spring in setting up between bevel pinion and the lower rotating plate.

Furthermore, the discharge starting part comprises a fixed bevel gear arc plate meshed and matched with the movable bevel gear, and the fixed bevel gear arc plate is coaxially arranged with the conveying wheel at the end part of the conveying belt.

When the conveying belt passes through the fixed bevel gear arc plate in the process of conveying the die groove, the movable bevel gear rotates due to the fixed position of the fixed bevel gear arc plate, and can move along the axial direction of the threaded rod. The movable bevel gear can push the movable plate to move upwards, the movable mold bottom is taken out from the bottom surface of the mold groove, and the movable mold bottom slightly ejects the cast ingot in the mold groove to complete loosening and demolding of the cast ingot.

Furthermore, the end part of the machine frame on the conveyor belt is provided with a cover uncovering wheel for opening a mould cover plate, a knocking rod for assisting demoulding and a material box for collecting antimony ingots.

Preferably, take off the lid wheel including the revolving stage, get material telescopic link and sucking disc, revolving stage and frame swivelling joint, a plurality of material telescopic links of getting use the rotatory centre of a circle of revolving stage as central ring cloth in the revolving stage, get the tip swivelling joint sucking disc of material telescopic link, the sucking disc is used for absorbing the mould apron, and the revolving stage drives sucking disc and mould apron and leaves the mould groove, accomplishes the die sinking.

Preferably, the knocking rod comprises an outer fixed rod, an inner movable rod, a compression spring and a rotary sleeve, the rotary sleeve is rotatably sleeved on the fixed shaft of the rack, the rotary sleeve is provided with a return torsion spring between the fixed shaft, the outer fixed rod is fixedly connected with the rotary sleeve, the inner fixed rod is hollow inside, one end of the inner movable rod is slidably sleeved inside the outer fixed rod, the compression spring is arranged between the outer fixed rod and the inner movable rod, and the other end of the inner movable rod is provided with a knocking head. After the movable bevel gear at the bottom of the mold groove passes through the fixed bevel gear arc plate, the cast ingot is slightly ejected out, the cast ingot is loosened, the mold groove passes through the knocking rod, and under the driving of the return torsion spring, the knocking rod slides through the outer wall of the previous mold groove and then knocks the next mold groove, so that the cast ingot can be completely demolded.

Preferably, the number of the knocking rods is two, and the two knocking rods are distributed on two sides of the conveyor belt, so that the knocking demolding effect is improved.

In order to detect whether demoulding is successful, a demoulding detection assembly for detecting demoulding conditions is further arranged below the conveying belt of the ingot casting automatic demoulding comprehensive conveying device for antimony ingot production. Preferably, drawing of patterns detection subassembly is including detecting mainboard, test bar, supporting spring, propelling telescopic link, follow-up piece and outer return spring, the test bar symmetry is located and detects the mainboard both ends, sets up distance sensor between two test bars, the tip of test bar and the mainboard swivelling joint that detects, connect through supporting spring between the test bar.

Further, the frame bottom sets up horizontal spout, the follow-up piece passes through spout and frame sliding connection, be connected through promoting the telescopic link between follow-up piece and the detection mainboard, promote the telescopic link and be used for up promoting the detection mainboard, make the test bar carry out in the mould groove. The follow-up telescopic rod is arranged between the follow-up block and the rack, the axis of the follow-up telescopic rod is horizontally arranged, and the follow-up telescopic rod is used for driving the follow-up block to move. The follow-up block can keep the synchronous movement of the detection rod according to the moving state of the die slot.

When the demolding detection assembly is used for detecting, the two detection rods are inserted into the inverted mold groove, and in the process of entering the mold groove, the two detection rods are close to each other due to the fact that the mold groove has a mold drawing angle. When the end parts of the detection rods reach the bottom surface of the die groove and are contacted with each other, the distance sensor detects the distance L between the detection rods, and if the distance L is the same as a set value, demolding is complete; if the distance L is larger than the set value, the demolding is not complete.

The distance sensor is connected with an alarm, and when the incomplete demolding is detected, the alarm gives an alarm to prompt a worker to process.

In order to ensure that the two detection rods can smoothly enter the die groove, the distance between the detection rods is smaller than the width of the die groove.

Preferably, a slide way is arranged between the discharge end of the conveyor belt and the material box and is used for buffering the stripped antimony ingots so that the antimony ingots can slowly enter the material box.

The invention has the beneficial effects that: this conveyer is synthesized with automatic drawing of patterns of ingot casting for antimony ingot production is used for the drawing of patterns after the antimony ingot casting cooling, take off the mould apron of taking off the wheel with the mould groove and open the back, can accomplish the not hard up of antimony ingot after activity bevel gear combines with fixed bevel gear arc board, then carry out supplementary drawing of patterns through knocking the pole, can carry out drawing of patterns effect after the drawing of patterns and detect, avoid because of the incomplete loss that causes of drawing of patterns, whole process is continuous and can realize automatic operation, use manpower sparingly, improve the drawing of patterns efficiency of antimony ingot casting greatly.

Drawings

FIG. 1 is a schematic view showing the structure of the end of a conveyor belt of the integrated demold conveyor;

FIG. 2 is a schematic structural view of the movable bevel gear of the integrated demolding conveying device;

FIG. 3 is a schematic structural view of the demoulding comprehensive transmission device when a movable bevel gear is combined with a fixed bevel gear arc plate;

FIG. 4 is a schematic structural view of the knocking rod of the integrated demoulding conveying device;

fig. 5 is a schematic structural view of the demolding detection assembly of the integrated demolding conveying device.

In the figure: 1. a conveyor belt; 2. an operating belt; 3. a mold slot; 4. a mold cover plate; 5. uncovering the cover wheel; 6. a knock bar; 7. a slideway; 8. a material box; 9. a movable bevel gear; 10. fixing the bevel gear arc plate; 11. a threaded rod; 12. a demolding detection assembly; 21. a movable plate; 31. a movable mold bottom; 51. a rotating table; 52. taking a telescopic rod; 53. a suction cup; 61. an outer fixing rod; 62. an inner movable rod; 63. a compression spring; 64. rotating the sleeve; 65. a fixed shaft; 91. an inner return spring; 92. an upper rotating plate; 93. a lower rotating plate; 121. detecting a main board; 122. a detection lever; 123. a support spring; 124. propelling the telescopic rod; 125. a follower block; 126. follow-up telescopic link.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1, a conveyor belt 1 is arranged on a rack of the ingot casting automatic demoulding comprehensive conveyor for antimony ingot production, a hollow operation belt 2 is arranged on the conveying surface of the conveyor belt 1, the operation belt 2 and the conveyor belt 1 move synchronously, and a mold groove 3 is arranged on the surface of the operation belt 2. The conveyer belt 1 can drive the mould groove 3 to move, and the mould groove 3 is conveyed.

Furthermore, the inside of the operation belt 2 is provided with a discharging driven assembly, and a discharging starting piece is fixedly arranged on the rack.

Specifically, referring to fig. 2 and 3, the passive discharging assembly includes a movable bevel gear 9 and a threaded rod 11, the threaded rod 11 is fixedly arranged on the inner surface of the operating band 2, the threaded rod 11 is in threaded connection with the movable bevel gear 9, the bottom of the mold cavity 3 is provided with a movable mold bottom 31, a movable plate 21 is arranged at the joint of the operating band 2 and the movable mold bottom 31, the upper end of the movable bevel gear 9 is rotatably connected with the movable plate 21 through an upper rotating plate 92, the lower end of the movable bevel gear 9 is rotatably connected with the inner surface of the operating band 2 through a lower rotating plate 93, and an inner return spring 91 is arranged between the movable bevel gear 9 and the lower rotating plate 93.

Further, the discharge starting piece comprises a fixed bevel gear arc plate 10 meshed and matched with the movable bevel gear 9, and the fixed bevel gear arc plate 10 is coaxially arranged with the conveying wheel at the end part of the conveying belt 1. In order to ensure that the movable bevel gear 9 and the fixed bevel arc plate 10 can be meshed with each other, the side surface of the operating belt 2 is provided with a channel for the fixed bevel arc plate 10 to pass through.

Referring to fig. 3, when the movable bevel gear 9 passes through the fixed bevel arc plate 10 during the process of conveying the mold slot 3, the movable bevel gear 9 rotates due to the fixed bevel arc plate 10, and the movable bevel gear 9 can move along the axial direction of the threaded rod 11, which is the setting of the present invention that the movable bevel gear 9 moves toward the mold slot 3. The movable bevel gear 9 can push the movable plate 21 to move upwards, the movable mold bottom 31 is taken out from the bottom surface of the mold groove 3, the movable mold bottom 31 slightly ejects the cast ingot 13 in the mold groove 3, and loosening and demolding of the cast ingot 13 are completed.

Furthermore, the end part of the conveyor belt 1 of the frame is provided with a cover uncovering wheel 5 for opening the mould cover plate 4, a knocking rod 6 for assisting demoulding and a material box 8 for collecting antimony ingots.

In this embodiment, it includes revolving stage 51, gets material telescopic link 52 and sucking disc 53 to take cover wheel 5, revolving stage 51 and frame swivelling joint, a plurality of material telescopic links 52 of getting use the rotatory centre of a circle of revolving stage 51 to encircle cloth in revolving stage 51 as the centre, get the tip swivelling joint sucking disc 53 of material telescopic link 52, sucking disc 53 is used for absorbing mould apron 4, and revolving stage 51 drives sucking disc 53 and mould apron 4 and leaves mould groove 3, accomplishes the die sinking.

Referring to fig. 4, the knocking rod 6 includes an outer fixing rod 61, an inner movable rod 62, a compression spring 63 and a rotating sleeve 64, the rotating sleeve 64 is rotatably sleeved on a fixing shaft 65 of the rack, the rotating sleeve 64 is provided with a return torsion spring between the fixing shaft 65, the rotating sleeve 64 is fixedly connected with the outer fixing rod 61, the outer fixing rod 61 is hollow inside, one end of the inner movable rod 62 is slidably sleeved inside the outer fixing rod 61, the compression spring 63 is provided between the outer fixing rod 61 and the inner movable rod 62, and the other end of the inner movable rod 62 is provided with a knocking head. After the movable bevel gear 9 at the bottom of the mold groove 3 passes through the fixed bevel gear arc plate 10, the cast ingot 13 is slightly ejected out, the cast ingot 13 is loosened, the mold groove 3 passes through the knocking rod 6, and under the driving of the return torsion spring, the knocking rod 6 slides through the outer wall of the previous mold groove 3 and then knocks the next mold groove 3, so that the cast ingot 13 can be completely demolded.

In this embodiment, the number of the knocking rods 6 is two, and the two knocking rods 6 are distributed on two sides of the conveyor belt 1, so that the knocking demolding effect is improved.

In order to detect whether demoulding is successful or not, a demoulding detection component 12 for detecting demoulding conditions is further arranged below the conveyor belt 1 of the ingot automatic demoulding comprehensive conveying device for antimony ingot production. Referring to fig. 5, the demolding detection assembly 12 includes a detection main plate 121, detection rods 122, a support spring 123, a pushing telescopic rod 124, a follower block 125 and an outer return spring 126, the detection rods 122 are symmetrically located at two ends of the detection main plate 121, a distance sensor is disposed between the two detection rods 122, the end portions of the detection rods 122 are rotatably connected with the detection main plate 121, and the detection rods 122 are connected with each other through the support spring 123.

Further, the bottom of the rack is provided with a horizontal sliding groove, the follower block 125 is connected with the rack in a sliding manner through a sliding groove, the follower block 125 is connected with the detection main board 121 through a pushing telescopic rod 124, and the pushing telescopic rod 124 is used for pushing the detection main board 121 upwards, so that the detection rod 122 is arranged in the mold groove 3. A follow-up telescopic rod 126 is horizontally arranged between the follow-up block 125 and the frame, and the follow-up telescopic rod 126 is used for driving the follow-up block 125 to move. The follower block 125 can maintain the synchronous movement of the detection lever 122 according to the moving state of the mold chase 3.

When the demolding detection assembly 12 of the invention is used for detection, the two detection rods 122 are inserted into the inverted mold groove 3, and in the process of entering the mold groove 3, the two detection rods 122 are close to each other due to the existence of the mold drawing angle of the mold groove 3. When the end parts of the detection rods 122 reach the bottom surface of the mold groove 3 and contact with each other, the distance sensor detects the distance L between the detection rods 122, and if the distance L is the same as a set value, demolding is complete; if the distance L is larger than the set value, the demolding is not complete.

The distance sensor in this embodiment is connected the alarm, and when detecting the drawing of patterns is incomplete, the alarm sends out the police dispatch newspaper, and the suggestion staff handles.

In order to ensure that the two detection rods 122 can smoothly enter the interior of the mold slot 3, the distance between the detection rods 122 is smaller than the width of the mold slot 3.

And a slide way 7 is arranged between the discharge end of the conveyor belt 1 and the material box 8 and is used for buffering the stripped antimony ingots so that the antimony ingots can slowly enter the material box 8.

The working process of the ingot casting automatic demoulding comprehensive conveying device for antimony ingot production in the embodiment is as follows:

the method comprises the following steps: the conveying belt 1 drives the mold groove 3 to pass through the cover uncovering wheel 5, and the suction disc 53 can pick up the mold cover plate 4 on the mold groove 3 to complete mold opening of the mold groove 3.

Step two: after the mold slot 3 is opened, the movable bevel gear 9 passes through the fixed bevel arc plate 10, the movable bevel gear 9 rotates due to the fixed position of the fixed bevel arc plate 10, the movable bevel gear 9 can move along the axial direction of the threaded rod 11, and the movable bevel gear 9 moves towards the direction close to the mold slot 3. The movable bevel gear 9 can push the movable plate 21 to move upwards, the movable mold bottom 31 is taken out from the bottom surface of the mold groove 3, the movable mold bottom 31 slightly ejects the cast ingot 13 in the mold groove 3, and loosening and demolding of the cast ingot 13 are completed.

Step three: after the movable bevel gear 9 at the bottom of the mold groove 3 passes through the fixed bevel gear arc plate 10, the cast ingot 13 is slightly ejected out, the cast ingot 13 is loosened, and the movable bevel gear 9 is spirally returned under the action of the inner return spring 91;

the knocking rod 6 knocks the existing mold groove 3 after sliding through the previous mold groove 3, so that the ingot 13 can be completely demolded, and the ingot 13 leaves the mold groove 3 and enters the material box 8 through the slide 7.

Step four: after the ingot 13 is demolded, the mold groove 3 passes through the demolding detection assembly 12, the telescopic rod 124 is pushed to push the detection main board 121 upwards, the detection rod 122 is inserted into the inverted mold groove 3, and in the process of entering the mold groove 3, because the mold groove 3 has a mold drawing angle, the two detection rods 122 are close to each other. When the end parts of the detection rods 122 reach the bottom surface of the mold groove 3 and contact with each other, the distance sensor detects the distance L between the detection rods 122, and if the distance L is the same as a set value, demolding is complete; if the distance L is larger than a set value, the demolding is not complete, and an alarm gives an alarm to prompt a worker to process.

Step five: after the demolding detection is completed, both the pushing telescopic rod 124 and the following telescopic rod 126 act to return the detection main plate 121 to the original position, and then the outer return spring 126 returns the detection assembly 12 to the original position relation to prepare for the detection of the next mold slot 3.

In order to realize that the antimony ingot is automatically separated from the die groove 3, the die groove 3 and the die cover plate 4 can be electromagnetically attracted, so that the die groove 3 and the die cover plate 4 can be conveniently combined and separated. The die cover plate 4 and the die groove 3 are both provided with an electromagnetic block and a battery for supplying electric energy to the electromagnetic block, and the battery is used for forming attraction between the die cover plate 4 and the die groove 3.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (7)

1. Conveyer is synthesized with automatic drawing of patterns of ingot casting to antimony ingot production, including setting up conveyer belt (1) in the frame and evenly distributed mould groove (3) on conveyer belt (1), its characterized in that, the conveying surface of conveyer belt (1) sets up hollow operation area (2), and operation area (2) are in between conveyer belt (1) and mould groove (3), the inside of operation area (2) sets up the passive subassembly of ejection of compact, and the fixed ejection of compact starting part that sets up in the frame, the frame in the tip setting of conveyer belt (1) be used for opening taking off of mould apron (4) cover wheel (5), supplementary drawing of patterns strike pole (6), drawing of patterns detection component (12) that are used for detecting the drawing of patterns situation and workbin (8) that are used for collecting the antimony ingot.

The passive subassembly of ejection of compact includes movable bevel gear (9) and threaded rod (11), the internal surface fixed of operation area (2) sets up threaded rod (11), threaded rod (11) pass through threaded connection with movable bevel gear (9), the bottom of mould groove (3) sets up movable mould end (31), operation area (2) and the bottom of the movable mould (31) junction set up fly leaf (21), the upper end of movable bevel gear (9) is through last rotating plate (92) and fly leaf (21) swivelling joint, the lower extreme of movable bevel gear (9) is through the internal surface swivelling joint of lower rotating plate (93) with operation area (2), set up interior return spring (91) between movable bevel gear (9) and lower rotating plate (93).

The discharging starting piece comprises a fixed bevel gear arc plate (10) meshed and matched with the movable bevel gear (9), and the fixed bevel gear arc plate (10) is coaxially arranged with a conveying wheel at the end part of the conveying belt (1).

2. The automatic ingot casting demolding comprehensive conveying device for antimony ingot production according to claim 1, wherein the cover uncovering wheel (5) comprises a rotating table (51), material taking telescopic rods (52) and suckers (53), the rotating table (51) is rotatably connected with the machine frame, the material taking telescopic rods (52) are annularly distributed on the rotating table (51) by taking the rotating circle center of the rotating table (51) as the center, and the end portions of the material taking telescopic rods (52) are rotatably connected with the suckers (53).

3. The automatic ingot demolding comprehensive conveying device for antimony ingot production as claimed in claim 1 or 2, wherein the knocking rod (6) comprises an outer fixing rod (61), an inner movable rod (62), a compression spring (63) and a rotating sleeve (64), the rotating sleeve (64) is rotatably sleeved on a fixing shaft (65) of the rack, a return torsion spring is arranged between the rotating sleeve (64) and the fixing shaft (65), the rotating sleeve (64) is fixedly connected with the outer fixing rod (61), the outer fixing rod (61) is hollow inside, one end of the inner movable rod (62) is slidably sleeved inside the outer fixing rod (61), the compression spring (63) is arranged between the outer fixing rod (61) and the inner movable rod (62), and the other end of the inner movable rod (62) is provided with a knocking head.

4. The automatic ingot demolding comprehensive conveying device for antimony ingot production is characterized in that the number of the knocking rods (6) is two, and the two knocking rods (6) are distributed on two sides of the conveying belt (1).

5. The automatic ingot demolding comprehensive conveying device for antimony ingot production according to claim 3, wherein the demolding detection assembly (12) comprises a detection main plate (121), detection rods (122), a supporting spring (123), a pushing telescopic rod (124), a follow-up block (125) and an outer return spring (126), the detection rods (122) are symmetrically located at two ends of the detection main plate (121), a distance sensor is arranged between the two detection rods (122), and the end portions of the detection rods (122) are rotatably connected with the detection main plate (121);

detect and connect through supporting spring (123) between pole (122), the frame bottom sets up horizontal spout, follow-up block (125) are through spout and frame sliding connection, follow-up block (125) and detect and be connected through propelling telescopic link (124) between mainboard (121), set up between follow-up block (125) and the frame that the axis level set up be follow-up telescopic link (126).

6. The automatic ingot demolding comprehensive conveying device for antimony ingot production is characterized in that the distance between the detection rods (122) is smaller than the width of the mold groove (3).

7. The automatic ingot demolding comprehensive conveying device for antimony ingot production is characterized in that a slide way (7) is arranged between the discharge end of the conveying belt (1) and the material box (8).

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