CN201394635Y - Hydraulic motor turnover device for non-ferrous metal continuous casting units - Google Patents

Abstract

A hydraulic motor turnover device for non-ferrous metal continuous casting units is disclosed, wherein a propulsion sleeve 8 is fixed on the end portion of a piston rod of a propulsion cylinder 6, a gear wheel shaft 9 is provided with a left bearing group 10 which realizes axial location with a bearing cover 14 through a sleeve 11 and a sleeve 18, a clamping disk location shaft 15 is installed between the gear wheel shaft 9 and a clamping disk 13, and is fixed on the right end of a left gear wheel shaft 9, a hydraulic motor 5 is fixed on a case body 7, the power end is connected with a shaft 4, a gear wheel 3 is installed on the shaft 4, the right end of the shaft 4 is provided with a bearing group which is located with a bearing end cover 19 through a sleeve 20, a gear wheel 2 is installed on a shaft 1, the shaft 1 and the shaft 4 are connected through a synchronizing shaft 22, a propulsion sleeve 34 is fixed on the end portion of a piston rod of a propulsion cylinder 36, a gear wheelshaft 33 is provided with a bearing group 32 which realizes axial location with a bearing cover 29 through a sleeve 26 and a sleeve 31, a clamping disk location shaft 28 is installed between the gearwheel shaft 33 and a clamping disk 30, and is fixed on the left end of the gear wheel shaft 33 through a screw 27, a gear wheel 38 is installed on a shaft 37, the left end of the shaft 37 is providedwith a bearing group which is located with a bearing end cover 25 through a sleeve 24, a gear wheel 39 is installed on a shaft 40 which is connected with the shaft 1 through the synchronizing shaft 22, the clamping disk 13 and the clamping disk 30 are coaxial, and a photoelectric switch 12 is installed on a left case body 7.

Description

The hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group

Technical field

The utility model relates to aluminum ingot continuous-casting machine group, zinc ingot metal continuous casting unit, magnesium alloy ingot continuous casting unit ingot casting special overturn device.

Background technology

The non-ferrous ingot turning device mainly is made up of two structure identical mechanism that are symmetrical in carrier chain in the prior art, wherein promote clamp mechanism clamping ingot casting by clamping cylinder, ingot casting is carried out in position 180 ° upset by switching mechanism around the upset axis, by a haulage gear ingot casting that is reversed is moved a segment distance then, with previous ingot casting overlap joint.Its weak point is: the upset synchronism of two mechanisms that is symmetrical in conveyer belt is relatively poor, draws the efficient that has reduced whole production line after the upset, and upset and traction are easy to generate the phenomenon of mutual interference.

Summary of the invention

The purpose of this utility model provides a kind of hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group.

The utility model is the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group, be arranged symmetrically in the both sides of cooling conveyer, be connected by bolt group and cooling conveyer frame, advance cylinder 6 to be fixed on the left box body 7 on the left side in left side by the bolt group, a left side advances cover 8 to be fixed on the end that a left side advances cylinder 6 piston rods by being threaded, left bearing group 10 is housed on the left gear axle 9, by left first sleeve 11, a left side second sleeve 18, left bearing lid 14 is realized axial location, left side clamping disk(-sc) locating shaft 15 is contained between left gear axle 9 and the left clamping disk(-sc) 13, be fixed on the right-hand member of left gear axle 9 by first screw 16, a left side advances cover 8, left gear axle 9, left bearing group 10, a left side first sleeve 11, a left side second sleeve 18, left bearing lid 14, left side clamping disk(-sc) 13, left side clamping disk(-sc) locating shaft 15 can advance the piston rod move left and right of cylinder 6 with a left side; Hydraulic motor 5 is fixed on the left box body 7 by the bolt group, power end links to each other with first 4, first gear 3 is contained on first 4, first 4 right-hand member is equipped with bearing group by a left side the 3rd sleeve 20 and left bearing end cap 19 location, second gear 2 is contained on second 1, second 1 right-hand member is equipped with one group of bearing and is contained on the left box body 7 by bearing (ball) cover, and second 1 links to each other by synchronizing shaft 22 with the 3rd 40; On the right side, the right cylinder 36 that advances is fixed on the right case 35 by the bolt group, the right cover 34 of advancing is fixed on the right end that advances cylinder 36 piston rods by being threaded, right bearing group 32 is housed on the right gear axle 33, by right first sleeve 26, right second sleeve 31, right bearing lid 29 is realized axial location, right clamping disk(-sc) locating shaft 28 is contained between right gear axle 33 and the right clamping disk(-sc) 30, be fixed on the left end of right gear axle 33 by second screw 27, the right cover 34 that advances, right gear axle 33, right bearing group 32, right first sleeve 26, right second sleeve 31, right bearing lid 29, right clamping disk(-sc) 30, right clamping disk(-sc) locating shaft 28 can advance the piston rod move left and right of cylinder 36 with the right side, second gear 38 is contained on the 4th 37, the 4th 37 left end is equipped with bearing group by right the 3rd sleeve 24 and right bearing end cap 25 location, the 3rd gear 39 is contained on the 3rd 40, the 3rd 40 left end is equipped with one group of bearing and is contained on the left box body 7 by bearing (ball) cover, and the 3rd 40 links to each other by synchronizing shaft 22 with second 1.Left side clamping disk(-sc) 13 is coaxial with right clamping disk(-sc) 30; Optoelectronic switch 12 is installed on the left box body 7.

The relative prior art of the utility model, its beneficial effect is both not increase mechanism's complexity, do not increase under the condition of cost again, realized the ingot casting upset easily, guaranteed when ingot casting is produced one of key link piling accurately, reliable, effectively improved the security performance of casting unit simultaneously.

The utility model uses cylinder and hydraulic motor as power source, realize ingot casting clamping, upset, controlled the rhythm of ingot casting upset fully, avoided the upset synchronism relatively poor, upset and traction are easy to generate the phenomenon of mutual interference, have improved the security and the reliability of ingot casting upset effectively.Finally help realizing casting continuously the automation of unit, improve the production efficiency of continuous casting unit, saved investment for the user simultaneously.

Description of drawings

Fig. 1 is the structure diagram of the invention, and Fig. 2 is the left view of Fig. 1.

Specific implementation

As Fig. 1, shown in Figure 2, the utility model is the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group, be arranged symmetrically in the both sides of cooling conveyer, be connected by bolt group and cooling conveyer frame, advance cylinder 6 to be fixed on the left box body 7 on the left side in left side by the bolt group, a left side advances cover 8 to be fixed on the end that a left side advances cylinder 6 piston rods by being threaded, left bearing group 10 is housed on the left gear axle 9, by left first sleeve 11, a left side second sleeve 18, left bearing lid 14 is realized axial location, left side clamping disk(-sc) locating shaft 15 is contained between left gear axle 9 and the left clamping disk(-sc) 13, be fixed on the right-hand member of left gear axle 9 by first screw 16, a left side advances cover 8, left gear axle 9, left bearing group 10, a left side first sleeve 11, a left side second sleeve 18, left bearing lid 14, left side clamping disk(-sc) 13, left side clamping disk(-sc) locating shaft 15 can advance the piston rod move left and right of cylinder 6 with a left side; Hydraulic motor 5 is fixed on the left box body 7 by the bolt group, power end links to each other with first 4, first gear 3 is contained on first 4, first 4 right-hand member is equipped with bearing group by a left side the 3rd sleeve 20 and left bearing end cap 19 location, second gear 2 is contained on second 1, second 1 right-hand member is equipped with one group of bearing and is contained on the left box body 7 by bearing (ball) cover, and second 1 links to each other by synchronizing shaft 22 with the 3rd 40; On the right side, the right cylinder 36 that advances is fixed on the right case 35 by the bolt group, the right cover 34 of advancing is fixed on the right end that advances cylinder 36 piston rods by being threaded, right bearing group 32 is housed on the right gear axle 33, by right first sleeve 26, right second sleeve 31, right bearing lid 29 is realized axial location, right clamping disk(-sc) locating shaft 28 is contained between right gear axle 33 and the right clamping disk(-sc) 30, be fixed on the left end of right gear axle 33 by second screw 27, the right cover 34 that advances, right gear axle 33, right bearing group 32, right first sleeve 26, right second sleeve 31, right bearing lid 29, right clamping disk(-sc) 30, right clamping disk(-sc) locating shaft 28 can advance the piston rod move left and right of cylinder 36 with the right side, second gear 38 is contained on the 4th 37, the 4th 37 left end is equipped with bearing group by right the 3rd sleeve 24 and right bearing end cap 25 location, the 3rd gear 39 is contained on the 3rd 40, the 3rd 40 left end is equipped with one group of bearing and is contained on the left box body 7 by bearing (ball) cover, and the 3rd 40 links to each other by synchronizing shaft 22 with second 1.Left side clamping disk(-sc) 13 is coaxial with right clamping disk(-sc) 30; Optoelectronic switch 12 is installed on the left box body 7.

As shown in Figure 1 and Figure 2, after the cooling conveyer chain is delivered to the upset station with aluminium ingot 17 to be flipped, a left side that is fixed on the left box body 7 advances the cylinder 6 and the right side that is fixed on the right case 35 to advance cylinder 36 to begin action simultaneously under the control of PLC, and the drive left side propelling cover 8 and the right side advance and overlap 34 relative motions respectively.Left side at the hydraulic motor turning device, a left side advances cover 8 to advance the piston rod of cylinder 6 to be connected by a screw thread and a left side, left bearing group 10 is by left first sleeve 11, left second sleeve 18, left bearing lid 14 location, left side clamping disk(-sc) 13 is connected by the right-hand member of first screw 16 and left clamping disk(-sc) locating shaft 15 with left gear axle 9, makes can advance under the drive of cylinder 6 to the right by left clamping disk(-sc) 13 on a left side (or left) moves; Right side at the hydraulic motor turning device, the right cover 34 that advances is connected with the right piston rod of cylinder 36 that advances by screw thread, right bearing group 32 is by right second sleeve 31, right first sleeve 26, right bearing lid 29 location, right clamping disk(-sc) 30 is connected by the left end of second screw 27 and right clamping disk(-sc) locating shaft 28 and right gear axle 33, make to advance under the drive of cylinder 36 left by right clamping disk(-sc) 30 on the right side (or to the right) moves, realize clamping (or loosening) aluminium ingot.Clamp rear hydraulic motor (5) action will move with transmission of power to the first spools 4 on, first 4 right-hand member is equipped with bearing, by right the 3rd sleeve 20 and left bearing end cap 19 location, be contained in first gear 3 on first 4 and 9 engagements of left gear axle and axially can slippage, first gear 3 meshes with second gear 2 again simultaneously, realize the shunt transmission of motion and power: the one tunnel is that left gear axle 9 drives left clamping disk(-sc) 13 motions, another road is that second gear 2 drives second 1 motion, by left universal drive shaft 21, synchronizing shaft 22 and right universal drive shaft 23 will move and three 40 of transmission of power to the, the 3rd gear 39 on the 3rd 40 will move with the engagement that is contained in the 4th gear 38 on the 4th 37 and transmission of power arrives right gear axle 33 by being contained at last, the 4th gear 38 and right gear axle 33 axially can slippages, the 4th 37 left end is equipped with pair of bearings, by right the 3rd sleeve 24 and right bearing end cap 25 location, right gear axle 33 drives right clamping disk(-sc) 30 and clockwise rotates 180 ° synchronously with left clamping disk(-sc) 13 under the control of optoelectronic switch 12, realizes the upset of aluminium ingot 17.

As shown in Figure 2, the aluminium ingot 41 that upset is good still drops on and continues to move to next station on the cooling conveyer chain.

As shown in Figure 1 and Figure 2, aluminium ingot to be flipped 17 clamped backs clockwise rotate with left clamping disk(-sc) 13 and right clamping disk(-sc) 30, its horizontal velocity is identical with the horizontal velocity of cooling conveyer chain, good aluminium ingot 41 is fallen the original position of cooling conveyer chain to guarantee upset, also has certain buffer gap when aluminium ingot falls and between chain.

As shown in Figure 1, left clamping disk(-sc) 13 and right clamping disk(-sc) 30 symmetric arrangement, each clamping disk(-sc) is separated by 180 ° and is evenly equipped with two groups of projectioies.The be separated by physical dimension of 180 ° of every group of uniform projectioies of each clamping disk(-sc) is: long 198mm, the high 10mm of wide 5mm, spacing 58mm.

Claims (5)

1, the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group, be arranged symmetrically in the both sides of cooling conveyer, be connected by bolt group and cooling conveyer frame, it is characterized in that advancing cylinder (6) to be fixed on the left box body (7) by the bolt group on the left side in left side, a left side advances cover (8) to be fixed on the end that a left side advances cylinder (6) piston rod by being threaded, left bearing group (10) is housed on the left gear axle (9), by left first sleeve (11), a left side second sleeve (18), left bearing lid (14) is realized axial location, left side clamping disk(-sc) locating shaft (15) is contained between left gear axle (9) and the left clamping disk(-sc) (13), be fixed on the right-hand member of left gear axle (9) by first screw (16), a left side advances cover (8), left gear axle (9), left bearing group (10), a left side first sleeve (11), a left side second sleeve (18), left bearing lid (14), left side clamping disk(-sc) (13), left side clamping disk(-sc) locating shaft (15) can advance the piston rod move left and right of cylinder (6) with a left side; Hydraulic motor (5) is fixed on the left box body (7) by the bolt group, power end links to each other with first (4), first gear (3) is contained on first (4), the right-hand member of first (4) is equipped with bearing group by a left side the 3rd sleeve (20) and left bearing end cap (19) location, second gear (2) is contained on second (1), the right-hand member of second (1) is equipped with one group of bearing and is contained on the left box body (7) by bearing (ball) cover, and second (1) links to each other by synchronizing shaft (22) with the 3rd (40); On the right side, the right cylinder (36) that advances is fixed on the right case (35) by the bolt group, the right cover (34) that advances is fixed on the right end that advances cylinder (36) piston rod by being threaded, right bearing group (32) is housed on the right gear axle (33), by right first sleeve (26), right second sleeve (31), right bearing lid (29) is realized axial location, right clamping disk(-sc) locating shaft (28) is contained between right gear axle (33) and the right clamping disk(-sc) (30), be fixed on the left end of right gear axle (33) by second screw (27), the right cover (34) that advances, right gear axle (33), right bearing group (32), right first sleeve (26), right second sleeve (31), right bearing lid (29), right clamping disk(-sc) (30), right clamping disk(-sc) locating shaft (28) can advance the piston rod move left and right of cylinder (36) with the right side, second gear (38) is contained on the 4th (37), the left end of the 4th (37) is equipped with bearing group by right the 3rd sleeve (24) and right bearing end cap (25) location, the 3rd gear (39) is contained on the 3rd (40), the left end of the 3rd (40) is equipped with one group of bearing and is contained on the left box body (7) by bearing (ball) cover, and the 3rd (40) link to each other by synchronizing shaft (22) with second (1); Left side clamping disk(-sc) (13) is coaxial with right clamping disk(-sc) (30); Optoelectronic switch (12) is installed on the left box body (7).

2, the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group according to claim 1, after it is characterized in that the cooling conveyer chain is delivered to the upset station with aluminium ingot to be flipped (17), the right side that is fixed on the left side propelling cylinder (6) on the left box body (7) and is fixed on the right case (35) advances cylinder (36) to begin action simultaneously under the control of PLC, driving a left side respectively advances the cover (8) and the right side to advance cover (34) motion, make left clamping disk(-sc) (13) to the right, or be moved to the left, right clamping disk(-sc) (30) left, or move right, realization is to the clamping of aluminium ingot (17), or loosens; Clamp rear hydraulic motor (5) action will move with transmission of power to the first spool (4) on, be contained in first gear (3) and left gear axle (9) engagement on first (4), mesh with second gear (2) again simultaneously, realize the shunt transmission of motion and power, drive left clamping disk(-sc) (13) and right clamping disk(-sc) (30) clockwise rotates 180 ° synchronously under the control of optoelectronic switch (12), realize the upset of aluminium ingot (17).

3, the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group according to claim 1, it is characterized in that the clamped back of aluminium ingot to be flipped (17) clockwise rotates with left clamping disk(-sc) (13) and right clamping disk(-sc) (30), its horizontal velocity is identical with the horizontal velocity of cooling conveyer chain, good aluminium ingot (41) is fallen the original position of cooling conveyer chain to guarantee upset, also has certain buffer gap when aluminium ingot falls and between chain.

4, the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group according to claim 1 is characterized in that left clamping disk(-sc) (13) and right clamping disk(-sc) (30) symmetric arrangement, and each clamping disk(-sc) is separated by 180 ° and is evenly equipped with two groups of projectioies.

5, the hydraulic motor turning device that is used for the non-ferrous metal continuous casting machine group according to claim 1 is characterized in that the be separated by physical dimension of 180 ° of every group of uniform projectioies of each clamping disk(-sc) is: long 198mm, the high 10mm of wide 5mm, spacing 58mm.

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