CN201889425U - Storage and transportation device in casting system of copper-aluminium composite bars - Google Patents

Abstract

The utility model discloses a storage and transportation device in a casting system of copper-aluminium composite bars, comprising an engine seat, a plurality of layers of transmission chains, a feeding device and a roller way frame, wherein the transmission chains are arranged on the engine seat from top to bottom at intervals and are used for transporting the copper-aluminium composite bars which are distributed horizontally; the feeding device is arranged at the tail end of the upper-layer transmission chain, and is used for moving the copper-aluminium composite bar on the upper-layer transmission chain onto the lower-layer transmission chain; and the roller way frame can be arranged on the engine seat in an up-down lifting manner. In the storage and transportation device, automatic storage and transportation of the copper-aluminium composite bars on transmission rolls and the transmission chains are completed, the labor intensity of workers is reduced, and the working efficiency is increased. Certain cooling time is also given for the copper-aluminium composite bars in the transmission process of the copper-aluminium composite bars on the layers of transmission chains, so that the metallographical structure of the copper-aluminium composite bars is stabilized, and the processing quality of the copper-aluminium composite bars is improved.

Description

Storing and conveying device in the compound row's casting system of copper aluminium

Technical field

The utility model relates to storing and the conveying device in the compound row's casting system of copper aluminium.

Background technology

In the compound row's casting system of existing copper aluminium, after the compound row's casting of copper aluminium is finished, use the storage car charge, by manually being pulled to desired location, compound row carries out subsequent treatment to copper aluminium, and labour intensity is big like this, inefficiency.

Summary of the invention

The purpose of this utility model provides the storing and the conveying device of automation in the compound row's casting system of copper aluminium.

For achieving the above object, the technical solution adopted in the utility model is: storing and conveying device in the compound row's casting system of copper aluminium, comprise support, be disposed on the multilayer driving-chain that is used for the compound row of described copper aluminium that horizontal feed laterally arranges on the described support up and down, the end that is arranged on the described driving-chain in upper strata is used for the compound row of copper aluminium on the driving-chain of described upper strata is moved to pay-off on the described driving-chain of lower floor, but be arranged on to oscilaltion the roller bed frame on the described support, described roller bed frame comprises that below that the top that can rise to the described driving-chain of the superiors is used for the compound row of described copper aluminium that horizontal feed vertically arranges and can drops to described the superiors driving-chain is used for the compound row of described copper aluminium is transferred to a plurality of live-rollers on the described the superiors driving-chain, the described compound row's of copper aluminium who vertically arranges throughput direction and the described compound row's of copper aluminium who laterally arranges throughput direction is perpendicular, described a plurality of live-roller is provided with separately along the described compound row's of copper aluminium who vertically arranges horizontal feed direction, the axial line homogeneous phase of described a plurality of live-rollers is arranged in the same horizontal plane abreast, and it is perpendicular with the described compound row's of copper aluminium who vertically arranges horizontal feed direction, described pay-off comprises fixture, one end is rotated the connector that is provided with by first turning cylinder up and down mutually with described fixture, rotate the compound row of copper aluminium who is provided on the driving-chain end of the described upper strata of support mutually up and down by the other end of second turning cylinder and described connector and be placed to supporting plate on the described lower floor driving-chain then, be used to drive the drives structure that described connector rotates with respect to described fixture, be fixedly installed on first sprocket wheel and second sprocket wheel on described fixture and the described supporting plate respectively, the chain that is in transmission connection mutually with described first sprocket wheel and second sprocket wheel, described first sprocket wheel, axial line on described second sprocket wheel coincides with the axial line of described first turning cylinder and described second turning cylinder respectively, and all extend along the compound row's of described copper aluminium length direction, the described driving-chain of adjacent two layers is provided with on the contrary to the compound row's of described copper aluminium throughput direction, and described supporting plate is arranged on the side of described driving-chain.

Preferably, but described roller bed frame is arranged on the described support with comprising oscilaltion and supports the bracing frame of described a plurality of live-rollers, described support is provided with and can moves horizontally the ground movable stand, described movable stand is provided with the inclined-plane with respect to the horizontal direction inclination, and support frame as described above is provided with the rolling member that can roll on described inclined-plane.

Further preferably, the outside horizontal-extending in the top on described inclined-plane is formed for the stable loading end that carries described rolling member, and described loading end is formed for accommodating the depressed part of described rolling member bottom to lower recess.

Further preferably, described movable stand is provided with and is used for and the inconsistent limiting section to forbid that this movable stand excessive level moves of described support.

Preferably, end at the described driving-chain of orlop is provided with the material carrying device, described material carrying device comprises fixture, one end is rotated the connector that is provided with by first turning cylinder up and down mutually with described fixture, rotate the supporting plate that is provided for the compound row of copper aluminium on the described orlop driving-chain of the support end by second turning cylinder mutually up and down with the other end of described connector, be used to drive the drives structure that described connector rotates with respect to described fixture, be fixedly installed on first sprocket wheel and second sprocket wheel on described fixture and the described supporting plate respectively, the chain that is in transmission connection mutually with described first sprocket wheel and second sprocket wheel, described first sprocket wheel, axial line on described second sprocket wheel coincides with the axial line of described first turning cylinder and described second turning cylinder respectively, and all extends along the compound row's of described copper aluminium length direction.

Further preferably, described drives structure comprises motor, be sleeved on sprocket wheel on the output shaft of described motor, be sleeved on sprocket wheel on described first turning cylinder, with described motor output shaft on sprocket wheel and the chain that is in transmission connection mutually of the sprocket wheel on described first turning cylinder, one end of described connector and described first turning cylinder are fixed, and are rotating with respect to described fixture and described first sprocket wheel.

Preferably, described storing and conveying device also comprise storage car, are obliquely installed compound row of copper aluminium who is used for receiving on the described supporting plate and the stock guide that imports described storage car with respect to horizontal direction, and described supporting plate is arranged on the outside of described stock guide.

Preferably, every layer of described driving-chain has many, and many described driving-chains match to drive sprocket with many respectively, is provided with separately at the length direction of every layer of described many driving-chain along the compound row of described copper aluminium.

Because the utilization of technique scheme, the utility model compared with prior art has following advantage: after the compound row's casting of copper aluminium is finished, vertically carry by a plurality of live-rollers in the roller bed frame, this moment, a plurality of live-rollers rose to the top of upper strata driving-chain, bracing frame descends then, be with a plurality of live-rollers to descend, drop to the below of upper strata driving-chain, the compound row of copper aluminium who then is positioned on a plurality of live-rollers can drop down onto on the driving-chain of upper strata, the compound row of copper aluminium who laterally arranges by upper strata driving-chain horizontal feed, the copper aluminium of laterally arranging is compound to come when being delivered to upper strata driving-chain terminal, by the supporting plate in the pay-off the compound row of copper aluminium on the driving-chain of upper strata is moved on lower floor's driving-chain, supporting plate is arranged on the side of driving-chain, supporting plate follows connector to do circumferentially to rotate, supporting plate is in some positions of circumferential rotation, the compound row of copper aluminium of upper strata driving-chain end falls on the supporting plate by the transmission of driving-chain, the supporting plate band the compound row of copper aluminium and is done circumferential rotation, turn to the below of lower floor's driving-chain from the top of lower floor's driving-chain, then the compound row of copper aluminium on the supporting plate can drop down onto on lower floor's driving-chain, the compound row of copper aluminium can carry out drive transfer by lower floor's driving-chain, supporting plate is in along with the connector rotating process, first sprocket wheel, second sprocket wheel is by the cooperation of chain, the loading end that has guaranteed to be used on the supporting plate to carry the compound row of copper aluminium is in level all the time, because if there is not first sprocket wheel, second sprocket wheel, supporting plate is the meeting run-off the straight when rotating along with connector, and be provided with first sprocket wheel, second sprocket wheel, first sprocket wheel is fixed, supporting plate chain when rotating can be with second sprocket rotation, corrected the inclination of supporting plate like this, the loading end that has guaranteed supporting plate is in level all the time, avoided supporting plate compound row of copper aluminium in circumferential rotation process to fall down from supporting plate, make supporting plate stably the compound row of copper aluminium on the driving-chain of upper strata to be moved on lower floor's driving-chain, carry by lower floor's driving-chain, to sum up, by this storing and conveying device, finished compound automatic storing and the conveying that comes on live-roller and the driving-chain of copper aluminium, reduced working strength of workers, increased work efficiency.The compound transmission course that comes on the multilayer driving-chain of copper aluminium has also given the compound row of copper aluminium certain cool time, has stablized the compound row's of copper aluminium structure, has promoted the compound row's of copper aluminium crudy.

Description of drawings

Accompanying drawing 1 is looked schematic diagram for master of the present utility model, and wherein support and double-deck driving-chain have all adopted the length omissive representation;

Accompanying drawing 2 is a schematic top plan view of the present utility model, and wherein support and double-deck driving-chain have all adopted the length omissive representation;

Accompanying drawing 3 is looked schematic diagram for the right side of the present utility model.

The specific embodiment

Further set forth the utility model below in conjunction with accompanying drawing.

Shown in Fig. 1-3, storing and conveying device in the compound row's casting system of copper aluminium, comprise support 1, be disposed on the double-deck driving-chain 2 on the support 1 up and down, the end that is arranged on upper strata driving-chain 2 is used for the compound row of copper aluminium on the upper strata driving-chain 2 is moved to pay-off 16 on lower floor's driving-chain 2, but be arranged on to oscilaltion the roller bed frame 4 on the support 1, the storage car (not shown), be obliquely installed the stock guide 17 that the compound row of copper aluminium who is used for receiving on the pay-off 16 imports storage car then with respect to horizontal direction, double-deck driving-chain 2 is used for the compound row of copper aluminium that horizontal feed is laterally arranged, every layer of driving-chain 2 has many, many driving-chains 2 match to drive sprocket 3 with many respectively, and many driving-chains 2 are provided with separately along the compound row's of copper aluminium length direction.Double-deck driving-chain 2 driving-chain 2 at the middle and upper levels is opposite with the horizontal feed direction of lower floor driving-chain 2, but roller bed frame 4 is arranged on the bracing frame 6 on the support 1 with comprising oscilaltion, be arranged on a plurality of live-rollers 5 on the bracing frame 6, a plurality of live-rollers 5 when rising, can rise to upper strata driving-chain 2 above, be used for the compound row of copper aluminium that horizontal feed is vertically arranged, when descending, can drop to upper strata driving-chain 2 below, be used for the compound row of copper aluminium on the live-roller 5 is transferred to upper strata driving-chain 2, the compound row of copper aluminium on the realization roller bed frame 4 is to the conveying of driving-chain 2, the compound row's of copper aluminium who laterally arranges on the compound row's of copper aluminium who vertically arranges on the live-roller 5 throughput direction and driving-chain 2 throughput direction is perpendicular, the compound row's of copper aluminium that a plurality of live-rollers 5 are arranged along the longitudinal horizontal feed direction is provided with separately, the axial line homogeneous phase of a plurality of live-rollers 5 is arranged in the same horizontal plane abreast, and it is perpendicular with the compound row's of copper aluminium who vertically arranges horizontal feed direction, after the compound row's casting of copper aluminium is finished, vertically carry by a plurality of live-rollers 5 in the roller bed frame 4, this moment, a plurality of live-rollers 5 rose to the top of upper strata driving-chain 2, bracing frame 6 descends then, be with a plurality of live-rollers 5 to descend, drop to the below of upper strata driving-chain 2, the compound row of copper aluminium who then is positioned on a plurality of live-rollers 5 can drop down onto on the upper strata driving-chain 2, the compound row of copper aluminium who laterally arranges by upper strata driving-chain 2 horizontal feed, the copper aluminium of laterally arranging is compound to come when being delivered to upper strata driving-chain 2 terminal, by pay-off 16 the compound row of copper aluminium on the upper strata driving-chain 2 is moved on lower floor's driving-chain 2, as shown in Figure 1, pay-off 16 comprises fixture 10, one end is rotated the connector 11 that is provided with by first turning cylinder up and down mutually with fixture 10, rotate the supporting plate 12 that is provided with by second turning cylinder mutually up and down with the other end of connector 11, be used to drive the drives structure 15 that connector 11 rotates with respect to fixture 10, be fixedly installed on first sprocket wheel 13 and second sprocket wheel 14 on fixture 10 and the supporting plate 12 respectively, the chain 20 that is in transmission connection mutually with first sprocket wheel 13 and second sprocket wheel 14, the compound row of copper aluminium that supporting plate 12 is used on driving-chain 2 ends of support upper strata is placed to lower floor's driving-chain 2 then, supporting plate 12 is arranged on the outside of driving-chain 2, certainly, supporting plate 12 also can be arranged on the inboard of driving-chain 2, first sprocket wheel 13, axial line on second sprocket wheel 14 coincides with the axial line of first turning cylinder and second turning cylinder respectively, and all extend along the compound row's of copper aluminium length direction, as shown in Figure 2.Drives structure 15 comprises motor 18, be sleeved on sprocket wheel 19 on the output shaft of motor 18, be sleeved on sprocket wheel 21 on first turning cylinder, with motor 18 output shafts on sprocket wheel 19 and the chain (not shown) that is in transmission connection mutually of the sprocket wheel 21 on first turning cylinder, one end and first turning cylinder of connector 11 are fixed, and are rotating with respect to the fixture 10 and first sprocket wheel 13.Like this, motor 18 is being with sprocket wheel 19 rotations, by chain drive, sprocket wheel 21 on first turning cylinder rotates, make connector 11 rotate with respect to fixture 10, supporting plate 12 on connector 11 ends and then connector 11 is done circumferentially to rotate, supporting plate 12 is in some positions of circumferential rotation, as shown in Figure 1, the compound row of copper aluminium of upper strata driving-chain 2 ends falls on the supporting plate 12 by the transmission of driving-chain 2, supporting plate 12 is being with the compound row of copper aluminium to do circumferential rotation, turn to the below of lower floor's driving-chain 2 from the top of lower floor's driving-chain 2, then the compound row of copper aluminium on the supporting plate 12 can drop down onto on lower floor's driving-chain 2, the compound row of copper aluminium can carry out drive transfer by lower floor's driving-chain 2, supporting plate 12 is in along with connector 11 rotating process, first sprocket wheel 13, second sprocket wheel 14 is by the cooperation of chain 20, the loading end that has guaranteed to be used on the supporting plate 12 to carry the compound row of copper aluminium is in level all the time, because if there is not first sprocket wheel 13, second sprocket wheel 14, supporting plate 12 is the meeting run-off the straight when rotating along with connector 11, and be provided with first sprocket wheel 13, second sprocket wheel 14, first sprocket wheel 13 is fixed, supporting plate 12 chain when rotating can be with second sprocket wheel 14 to rotate, corrected the inclination of supporting plate 12 like this, the loading end that has guaranteed supporting plate 12 is in level all the time, avoided supporting plate 12 compound row of copper aluminium in circumferential rotation process to fall down, made supporting plate 12 stably the compound row of copper aluminium on the upper strata driving-chain 2 to be moved on lower floor's driving-chain 2 from supporting plate 12.If piled the compound row of copper aluminium on lower floor's driving-chain 2, then motor 18 counter-rotatings, supporting plate 12 is arranged on the outside of stock guide 17, the compound row of copper aluminium on the supporting plate 12 on the upper strata driving-chain 2 of carrying can move to the below of stock guide 17 from the top of stock guide 17, then the compound row of copper aluminium on the supporting plate 12 can drop down onto on the stock guide 17, stock guide 17 is obliquely installed with respect to horizontal direction, and then stock guide 17 can roll downwards along the inclined-plane, drops down onto in the storage car.

Transmit the compound row of copper aluminium on lower floor's driving-chain 2, as shown in Figure 1, when the compound row of copper aluminium being sent to lower floor's driving-chain 2 terminal, the end of lower floor's driving-chain 2 is provided with material carrying device 16, this material carrying device 16 is identical with the structure of pay-off 16 above-mentioned, be used for the compound row of copper aluminium on lower floor's driving-chain 2 is moved to desired location, material carrying device 16 comprises fixture 10, one end is rotated the connector 11 that is provided with by first turning cylinder up and down mutually with fixture 10, rotate the supporting plate 12 that is provided for the compound row of copper aluminium on support orlop driving-chain 2 ends by second turning cylinder mutually up and down with the other end of connector 11, be used to drive the drives structure 15 that connector 11 rotates with respect to fixture 10, be fixedly installed on first sprocket wheel 13 and second sprocket wheel 14 on fixture 10 and the supporting plate 12 respectively, the chain 20 that is in transmission connection mutually with first sprocket wheel 13 and second sprocket wheel 14, first sprocket wheel 13, axial line on second sprocket wheel 14 coincides with the axial line of first turning cylinder and described second turning cylinder respectively, and all extends along the compound row's of copper aluminium length direction.The structure of drives structure 15 also with pay-off 16 above-mentioned in drives structure 15 identical, so do not give unnecessary details at this.

Mention above, bracing frame 6 can carry out oscilaltion, and in Fig. 3, support 1 is provided with and can moves horizontally ground movable stand 7, and movable stand 7 is provided with the inclined-plane 8 with respect to the horizontal direction inclination, and bracing frame 6 is provided with the rolling member 9 that can roll on inclined-plane 8.The moving horizontally of movable stand 7 be with inclined-plane 8 also occurred level move, then the scroll-up/down of rolling member 9 on inclined-plane 8 realized moving up and down of bracing frame 6.The outside horizontal-extending in 8 top on the inclined-plane is formed for the stable loading end that carries rolling member 9, and this loading end is formed for accommodating the depressed part of rolling member 9 bottoms to lower recess.Be housed in by rolling member 9 in the depressed part of loading end, make bracing frame 6 can stably be in higher position, the a plurality of live-rollers 5 of this moment on the bracing frame 6 compound row of horizontal feed copper aluminium stably, if make the compound row of copper aluminium on a plurality of live-rollers 5 drop down onto on the driving-chain 2, then mobile movable stand 7, the below that makes rolling member 9 be rolled into inclined-plane 8 gets final product.Movable stand 7 is provided with and is used for and support 1 inconsistent limiting section to forbid that these movable stand 7 excessive level move.By limiting section, define the moving range of movable stand 7.

To sum up,, finished compound automatic storing and the conveying that comes on live-roller and the driving-chain of copper aluminium, reduced working strength of workers, increased work efficiency by this storing and conveying device.The compound transmission course that comes on the multilayer driving-chain of copper aluminium has also given the compound row of copper aluminium certain cool time, has stablized the compound row's of copper aluminium structure, has promoted the compound row's of copper aluminium crudy.

Claims (8)

1. storing and the conveying device in the compound row's casting system of copper aluminium, it is characterized in that: comprise support, be disposed on the multilayer driving-chain that is used for the compound row of described copper aluminium that horizontal feed laterally arranges on the described support up and down, the end that is arranged on the described driving-chain in upper strata is used for the compound row of copper aluminium on the driving-chain of described upper strata is moved to pay-off on the described driving-chain of lower floor, but be arranged on to oscilaltion the roller bed frame on the described support, described roller bed frame comprises that below that the top that can rise to the described driving-chain of the superiors is used for the compound row of described copper aluminium that horizontal feed vertically arranges and can drops to described the superiors driving-chain is used for the compound row of described copper aluminium is transferred to a plurality of live-rollers on the described the superiors driving-chain, the described compound row's of copper aluminium who vertically arranges throughput direction and the described compound row's of copper aluminium who laterally arranges throughput direction is perpendicular, described a plurality of live-roller is provided with separately along the described compound row's of copper aluminium who vertically arranges horizontal feed direction, the axial line homogeneous phase of described a plurality of live-rollers is arranged in the same horizontal plane abreast, and it is perpendicular with the described compound row's of copper aluminium who vertically arranges horizontal feed direction, described pay-off comprises fixture, one end is rotated the connector that is provided with by first turning cylinder up and down mutually with described fixture, rotate the compound row of copper aluminium who is provided on the driving-chain end of the described upper strata of support mutually up and down by the other end of second turning cylinder and described connector and be placed to supporting plate on the described lower floor driving-chain then, be used to drive the drives structure that described connector rotates with respect to described fixture, be fixedly installed on first sprocket wheel and second sprocket wheel on described fixture and the described supporting plate respectively, the chain that is in transmission connection mutually with described first sprocket wheel and second sprocket wheel, described first sprocket wheel, axial line on described second sprocket wheel coincides with the axial line of described first turning cylinder and described second turning cylinder respectively, and all extend along the compound row's of described copper aluminium length direction, the described driving-chain of adjacent two layers is provided with on the contrary to the compound row's of described copper aluminium throughput direction, and described supporting plate is arranged on the side of described driving-chain.

2. storing according to claim 1 and conveying device, it is characterized in that: but described roller bed frame is arranged on the described support with comprising oscilaltion and supports the bracing frame of described a plurality of live-rollers, described support is provided with and can moves horizontally the ground movable stand, described movable stand is provided with the inclined-plane with respect to the horizontal direction inclination, and support frame as described above is provided with the rolling member that can roll on described inclined-plane.

3. storing according to claim 2 and conveying device, it is characterized in that: the outside horizontal-extending in the top on described inclined-plane, be formed for the loading end of the described rolling member of stable carrying, described loading end is formed for accommodating the depressed part of described rolling member bottom to lower recess.

4. storing according to claim 2 and conveying device is characterized in that: described movable stand is provided with and is used for and the inconsistent limiting section to forbid that this movable stand excessive level moves of described support.

5. storing according to claim 1 and conveying device, it is characterized in that: the end at the described driving-chain of orlop is provided with the material carrying device, described material carrying device comprises fixture, one end is rotated the connector that is provided with by first turning cylinder up and down mutually with described fixture, rotate the supporting plate that is provided for the compound row of copper aluminium on the described orlop driving-chain of the support end by second turning cylinder mutually up and down with the other end of described connector, be used to drive the drives structure that described connector rotates with respect to described fixture, be fixedly installed on first sprocket wheel and second sprocket wheel on described fixture and the described supporting plate respectively, the chain that is in transmission connection mutually with described first sprocket wheel and second sprocket wheel, described first sprocket wheel, axial line on described second sprocket wheel coincides with the axial line of described first turning cylinder and described second turning cylinder respectively, and all extends along the compound row's of described copper aluminium length direction.

6. storing and conveying device according to claim 1 or 5, it is characterized in that: described drives structure comprises motor, be sleeved on sprocket wheel on the output shaft of described motor, be sleeved on sprocket wheel on described first turning cylinder, with described motor output shaft on sprocket wheel and the chain that is in transmission connection mutually of the sprocket wheel on described first turning cylinder, one end of described connector and described first turning cylinder are fixed, and are rotating with respect to described fixture and described first sprocket wheel.

7. storing according to claim 1 and conveying device, it is characterized in that: described storing and conveying device also comprise storage car, are obliquely installed compound row of copper aluminium who is used for receiving on the described supporting plate and the stock guide that imports described storage car with respect to horizontal direction, and described supporting plate is arranged on the outside of described stock guide.

8. storing according to claim 1 and conveying device, it is characterized in that: every layer of described driving-chain has many, many described driving-chains match to drive sprocket with many respectively, are provided with separately at the length direction of every layer of described many driving-chain along the compound row of described copper aluminium.

Images