CN221086765U - Conveying device for hot-sheared aluminum bars - Google Patents
Conveying device for hot-sheared aluminum bars Download PDFInfo
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- CN221086765U CN221086765U CN202322735013.0U CN202322735013U CN221086765U CN 221086765 U CN221086765 U CN 221086765U CN 202322735013 U CN202322735013 U CN 202322735013U CN 221086765 U CN221086765 U CN 221086765U
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- XAGFODPZIPBFFR-UHFFFAOYSA-N aluminium Chemical compound [Al] XAGFODPZIPBFFR-UHFFFAOYSA-N 0.000 title claims abstract description 108
- 229910052782 aluminium Inorganic materials 0.000 title claims abstract description 108
- 230000007246 mechanism Effects 0.000 claims abstract description 92
- 238000005096 rolling process Methods 0.000 claims abstract description 10
- 230000007306 turnover Effects 0.000 claims description 19
- 239000000463 material Substances 0.000 claims description 14
- 239000004411 aluminium Substances 0.000 claims description 9
- 230000001174 ascending effect Effects 0.000 claims 1
- 238000010008 shearing Methods 0.000 abstract description 64
- 238000009434 installation Methods 0.000 abstract description 4
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 101001017827 Mus musculus Leucine-rich repeat flightless-interacting protein 1 Proteins 0.000 description 8
- 238000010438 heat treatment Methods 0.000 description 8
- 239000002994 raw material Substances 0.000 description 4
- 230000000903 blocking effect Effects 0.000 description 3
- 238000001125 extrusion Methods 0.000 description 3
- 238000010586 diagram Methods 0.000 description 2
- 230000009471 action Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007547 defect Effects 0.000 description 1
- 230000017525 heat dissipation Effects 0.000 description 1
- 230000006872 improvement Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000008569 process Effects 0.000 description 1
- 230000002035 prolonged effect Effects 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
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- Manufacture And Refinement Of Metals (AREA)
Abstract
The utility model discloses a transport device for hot shearing aluminum bars, which comprises a swing-arranged movable turning plate and a turning plate driving device for driving the movable turning plate to swing sideways; the guide mechanism comprises a chute with one side connected with the movable turning plate and a roller assembly arranged in a rolling way along the chute direction; the ejection mechanism comprises an ejection block positioned at one end of the chute and an ejection driving device for driving the ejection block to move along the direction of the chute; the feeding mechanism comprises a supporting frame positioned at the other end of the chute and a feeding driving device for driving the supporting frame to move laterally. The utility model can be arranged between the hot shearing equipment and the extruder to transport the hot sheared aluminum rod, and can realize the functions of bearing fixation, guiding limit, ejection transportation, feeding installation and the like. In addition, the conveyer adopts the zigzag mode to carry, can adjust according to the production place demand, effectively improves space utilization, satisfies the user demand in different places.
Description
Technical Field
The utility model relates to the technical field of aluminum profile processing equipment, in particular to a conveying device for hot-sheared aluminum bars.
Background
In the extrusion molding process of the aluminum profile, raw material aluminum bars enter a heating furnace to be heated, the heating aluminum bars are cut off by hot shearing equipment, the hot sheared aluminum bars enter an extruder to be molded, and the aluminum bars are extruded into the aluminum profile with the required shape and end face. During the period, because the hot-sheared aluminum bar is long in size, heavy in weight and high in temperature, the hot-sheared aluminum bar can be moved to an extruder to be fed by means of a conveying device.
Patent No. ZL 202321029475.4 discloses a material loading equipment for aluminum product processing, the inside loading roller that is connected with evenly distributed that rotates through the bearing of support, the front side extension end department of loading roller all is equipped with the belt pulley, two adjacent belt pulleys pass through belt drive and connect, the first motor output shaft that support trailing flank right-hand member set up and the loading roller fixed connection of right-hand member, the front and back side right-hand member of support all is equipped with the notch, regular unit sets up in the inside of support, can accomplish the transport material loading work of aluminum product fast and automatically, alleviate personnel's work burden.
The proposal mentioned in the patent adopts a roller transportation mode, and belongs to one of the most conventional transportation devices at present. However, the device has a simple structure and a single function, can only provide a simple transportation function, has a fixed transportation direction, and can only realize linear transportation and plane movement. For most production sites, the transportation device is often laid in L-shaped, Z-shaped, folded line type and other modes, and is matched with ejection, lifting, limiting and other mechanisms, so that the space utilization rate is improved, and the use requirement can be met.
Disclosure of Invention
The utility model aims to solve the defects in the prior art and provides a conveying device for hot-sheared aluminum bars.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
The utility model provides a conveyer of aluminium bar is cut to heat, includes panel turnover mechanism, guiding mechanism, ejection mechanism and feed mechanism, its characterized in that: the panel turnover mechanism comprises a movable panel turnover arranged in a swinging way and a panel turnover driving device for driving the movable panel turnover to swing laterally; the guide mechanism comprises a chute with one side connected with the movable turning plate and a roller assembly arranged in a rolling way along the chute direction; the ejection mechanism comprises an ejection block positioned at one end of the chute and an ejection driving device for driving the ejection block to move along the direction of the chute; the feeding mechanism comprises a supporting frame positioned at the other end of the chute and a feeding driving device for driving the supporting frame to move laterally.
Preferably, the movable turning plate is of an L-shaped structure, the inner side of the movable turning plate is upwards arranged, and the outer side of the movable turning plate is connected with the turning plate driving device.
Preferably, the side wall of the chute is provided with a guide opening connected with the movable turning plate, and the roller assembly is connected above the inner bottom surface of the chute.
Preferably, a guide plate which is inclined upwards extends outside the sliding groove, and two sides of the guide plate are respectively overlapped with the movable turning plate and the guide opening.
Preferably, the ejection block is suspended above the chute, one side of the ejection block is in a cylindrical structure, and the other side of the ejection block is connected with the ejection driving device.
Preferably, the support frame is U-shaped structure with upward opening, and the support frame is provided with a stop block at one end far away from the chute, and the outer side of the support frame is connected with the feeding driving device.
Preferably, the guide mechanism and the ejection mechanism are respectively provided with two groups, and a transverse pushing mechanism is arranged between the two groups.
Preferably, the transverse pushing mechanism comprises a transverse pushing roller arranged on one side of the chute in a rolling way and a transverse pushing driving device for driving the transverse pushing roller to move laterally.
Preferably, the horizontal pushing roller is connected with a mounting plate on one side far away from the sliding groove, the back surface of the mounting plate is connected with a horizontal pushing driving device, and the side wall of the sliding groove is provided with a pushing opening corresponding to the horizontal pushing roller.
The utility model has the following beneficial effects:
The utility model can be arranged between the hot shearing equipment and the extruder to transport the hot sheared aluminum bars, and can realize the functions of bearing fixation, guiding limit, ejecting transportation, feeding installation and the like by arranging the turning plate mechanism, the guiding mechanism, the ejection mechanism and the feeding mechanism. In addition, the conveyer adopts the zigzag mode to carry, can adjust according to the production place demand, effectively improves space utilization, satisfies the user demand in different places.
Drawings
FIG. 1 is an assembled top view of the transportation device of the present utility model
FIG. 2 is a schematic diagram illustrating the assembly of the transporting device according to the present utility model
FIG. 3 is a top plan view of a transporting device according to the present utility model
FIG. 4 is a second schematic diagram illustrating the assembly of the transporting device according to the present utility model
Description of the drawings: the movable turning plate 1, the turning plate driving device 2, the sliding groove 3, the roller assembly 4, the ejection block 5, the ejection driving device 6, the supporting frame 7, the feeding driving device 8, the guide opening 9, the guide plate 10, the blocking block 11, the horizontal pushing roller 12, the horizontal pushing driving device 13, the mounting plate 14, the material pushing opening 15, the first sliding groove 31, the first ejection block 51, the second sliding groove 32 and the second ejection block 52.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
Referring to fig. 1 to 2, one embodiment provided by the present utility model is:
The utility model provides a conveyer of aluminium bar is cut to heat, includes panel turnover mechanism, guiding mechanism, ejection mechanism and feed mechanism, its characterized in that: the flap mechanism comprises a movable flap 1 arranged in a swinging way and a flap driving device 2 for driving the movable flap 1 to swing sideways; the guiding mechanism comprises a chute 3 with one side connected with the movable turning plate 1 and a roller assembly 4 arranged in a rolling way along the direction of the chute 3; the ejection mechanism comprises an ejection block 5 positioned at one end of the chute 3 and an ejection driving device 6 for driving the ejection block 5 to move along the direction of the chute 3; the feeding mechanism comprises a supporting frame 7 positioned at the other end of the chute 3 and a feeding driving device 8 for driving the supporting frame 7 to move sideways.
The conveying device is arranged at the outlet end of the hot shearing equipment, raw material aluminum bars enter the heating furnace to be heated, the heating aluminum bars are cut off through the hot shearing equipment, the hot sheared aluminum bars are conveyed through the conveying device to enter the extruder to be molded, the conveying device comprises a plate turnover mechanism, a guide mechanism, an ejection mechanism and a feeding mechanism, the conveying device is conveyed in a fold line mode, and the space utilization rate is improved.
The turnover plate mechanism is positioned at the outlet end of the thermal shearing equipment and used for supporting the cut thermal sheared aluminum rod. The plate turnover mechanism comprises a movable plate turnover 1 and a plate turnover driving device 2, wherein the movable plate turnover 1 is arranged in a swinging way, and the movable plate turnover 1 can adopt an L-shaped structure and is axially aligned with a hot shearing aluminum bar. The flap driving device 2 drives the movable flap 1 to swing sideways, and the flap driving device 2 can adopt a hydraulic cylinder driving mode. The transportation device can comprise a frame, the inner side of the movable turning plate 1 is used for supporting the hot shearing aluminum bar, the middle part of the movable turning plate 1 is connected to the frame in a swinging way, the outer side of the movable turning plate 1 is connected with the turning plate driving device 2, and the supported hot shearing aluminum bar rolls to the guiding mechanism after the movable turning plate 1 swings sideways.
The guiding mechanism is positioned at the lateral direction of the plate turnover mechanism and guides the hot-sheared aluminum rod. The guiding mechanism comprises a sliding groove 3 and a roller assembly 4, one side of the sliding groove 3 is connected with the movable turning plate 1, after the movable turning plate 1 swings sideways, the hot-shearing aluminum bar rolls into the sliding groove 3, the width of the sliding groove 3 is larger than the diameter of the hot-shearing aluminum bar, enough space is ensured to accommodate the hot-shearing aluminum bar, and the side wall of the other side of the sliding groove 3 can be upwards extended to be at a certain height, so that the side face of the hot-shearing aluminum bar can be limited. The roller assembly 4 rolls along the direction of the chute 3, the roller assembly 4 comprises a plurality of rollers which roll along the direction of the chute 3, the roller assembly 4 can be arranged on the inner bottom surface of the chute 3, the bottom surface of the hot shearing aluminum bar can be supported, and the hot shearing aluminum bar slides on the sliding surface of the roller assembly 4.
The ejection mechanism is positioned at one end of the guide mechanism and ejects the hot-sheared aluminum bar. The ejection mechanism comprises an ejection block 5 and an ejection driving device 6, wherein the ejection block 5 is positioned at one end of the sliding groove 3 and corresponds to the starting end of the sliding groove 3, and the ejection block 5 can be positioned above the sliding groove 3 and is flush with the end of the hot shearing aluminum bar positioned in the sliding groove 3. The ejection driving device 6 drives the ejection block 5 to move along the direction of the chute 3, the ejection driving device 6 can adopt a hydraulic cylinder driving mode, the driving direction is consistent with the direction of the chute 3, and the ejection block 5 is connected with the ejection driving device 6. The ejection block 5 is abutted against the end part of the hot shearing aluminum bar under the drive of the ejection driving device 6, so that the hot shearing aluminum bar is pushed to slide along the direction of the sliding groove 3.
The feeding mechanism is located the guiding mechanism other end, corresponds the side direction of extruder, carries out the material loading to hot shearing aluminium bar, removes it to the extruder in. The feeding mechanism comprises a supporting frame 7 and a feeding driving device 8, wherein the supporting frame 7 is positioned at the other end of the sliding groove 3 and corresponds to the tail end of the sliding groove 3, the supporting frame 7 can be of a U-shaped structure with an upward opening, the inner side of the supporting frame 7 is contacted with the outer side of the hot-shearing aluminum rod, and the diameter of the inner side of the supporting frame 7 is larger than or equal to that of the hot-shearing aluminum rod, so that the hot-shearing aluminum rod is prevented from shaking in the supporting frame 7. The feeding driving device 8 drives the supporting frame 7 to move laterally, the feeding driving device 8 can adopt a hydraulic cylinder driving mode, and the feeding driving device 8 is connected with the side wall of the supporting frame 7. The hot shearing aluminum bar moves into the supporting frame 7 along the guide mechanism, and the supporting frame 7 moves the hot shearing aluminum bar to the lateral direction under the drive of the feeding driving device 8 until the hot shearing aluminum bar enters the material cavity of the extruder.
Working principle:
1) Raw material aluminum bars enter a heating furnace to be heated, the heating aluminum bars are cut off through hot shearing equipment, the hot sheared aluminum bars enter a conveying device, and the movable turning plate 1 supports the hot sheared aluminum bars.
2) The movable turning plate 1 swings sideways, the hot shearing aluminum bar rolls into the chute 3, and the ejection block 5 pushes the hot shearing aluminum bar to slide until the hot shearing aluminum bar enters the supporting frame 7 to be fixed.
3) The supporting frame 7 moves sideways, the hot-sheared aluminum rod is sent into a material cavity of the extruder, the extruder is loaded with the hot-sheared aluminum rod, the hot-sheared aluminum rod exits the conveying device, and the extruder performs extrusion molding.
The utility model can be arranged between the hot shearing equipment and the extruder to transport the hot sheared aluminum bars, and can realize the functions of bearing fixation, guiding limit, ejecting transportation, feeding installation and the like by arranging the turning plate mechanism, the guiding mechanism, the ejection mechanism and the feeding mechanism. In addition, the conveyer adopts the zigzag mode to carry, can adjust according to the production place demand, effectively improves space utilization, satisfies the user demand in different places.
In this embodiment, as an preference, the movable flap 1 has an L-shaped structure, the inner side of the movable flap 1 is disposed upward, and the outer side of the movable flap 1 is connected with the flap driving device 2.
The movable turning plate 1 is of an L-shaped structure, the inner side of the movable turning plate 1 corresponds to the concave surface of the L-shaped structure and is used for supporting hot-sheared aluminum bars, and the outer side of the movable turning plate 1 corresponds to the convex surface of the L-shaped structure and is used for connecting the frame and the turning plate driving device 2. The inner side of the movable turning plate 1 is upwards arranged, the width of two side walls of the movable turning plate 1 is larger than or equal to the diameter of the hot-shearing aluminum bar, and the length of the movable turning plate 1 is larger than or equal to the length of the hot-shearing aluminum bar, so that enough space is ensured to accommodate the hot-shearing aluminum bar. The middle part of the movable turning plate 1 corresponds to the included angle of the L-shaped structure, the middle part of the movable turning plate 1 can be connected with the frame in a swinging way, and the swinging direction of the movable turning plate 1 is the lateral direction of the movable turning plate. The outer side of the movable turning plate 1 is connected with the turning plate driving device 2, and the telescopic end of the turning plate driving device 2 can be connected with the outer side of the movable turning plate 1, the movable turning plate 1 swings sideways under the driving of the turning plate driving device 2, and the hot shearing aluminum bar on the movable turning plate 1 rolls into the chute 3 along the side wall of the movable turning plate 1.
In this embodiment, preferably, a guiding opening 9 engaged with the movable flap 1 is provided on the side wall of the chute 3, and the roller assembly 4 is connected above the inner bottom surface of the chute 3.
The guiding opening 9 is positioned on the side wall of the sliding groove 3 facing the movable turning plate 1 and is of a strip-shaped groove structure with an upward opening, and is arranged along the direction of the sliding groove 3. The width of the guiding opening 9 is larger than or equal to that of the movable turning plate 1, and the guiding opening 9 corresponds to the position of the movable turning plate 1. The roller assembly 4 is connected above the inner bottom surface of the chute 3, and is arranged along the direction of the chute 3, and the sliding surface of the roller assembly 4 is lower than the bottom of the guide opening 9. After the movable turning plate 1 swings sideways, the side wall of the movable turning plate 1 is lapped in the guide opening 9, the hot shearing aluminum bar rolls along the side wall of the movable turning plate 1, and enters the chute 3 through the guide opening 9, and the roller assembly 4 supports the hot shearing aluminum bar.
In this embodiment, preferably, a guide plate 10 inclined upward extends outside the chute 3, and both sides of the guide plate 10 overlap with the movable flap 1 and the guide opening 9, respectively.
The guide plate 10 is arranged outside the chute 3, can be integrally arranged with the chute 3 or separately arranged, has a planar structure, can be provided with a limit flange extending upwards from the edge, and has the width greater than or equal to the width of the movable turning plate 1. The guide plate 10 is arranged obliquely upwards from the outer side of the chute 3, and it is understood that the installation position of the movable turning plate 1 is higher than the guide opening 9, and the guide plate 10 is inclined downwards from the movable turning plate 1 to the guide opening 9. One side of the guide plate 10 is overlapped with the movable turning plate 1, and the other side of the guide plate 10 is overlapped with the guide opening 9. After the movable turning plate 1 swings sideways, the side wall of the movable turning plate 1 is lapped on the guide plate 10, and the hot shearing aluminum bar rolls along the guide plate 10 under the action of dead weight and enters the chute 3 through the guide opening 9.
In this embodiment, preferably, the ejector block 5 is suspended above the chute 3, one side of the ejector block 5 is in a cylindrical structure, and the other side of the ejector block 5 is connected with the ejector driving device 6.
The ejection block 5 corresponds to the initial end of the chute 3, the ejection block 5 is suspended above the chute 3 and higher than the sliding surface of the roller assembly 4, and the ejection block 5 is axially aligned with the hot shearing aluminum bar. One side of the ejection block 5 is of a cylindrical structure, the contact surface of the ejection block 5 and the hot shearing aluminum bar is of a circular ring shape, the outer diameter of the ejection block 5 is smaller than or equal to the diameter of the hot shearing aluminum bar, and the middle of the ejection block 5 is hollowed out, so that the contact heat dissipation with the hot shearing aluminum bar is facilitated. The other side of the ejection block 5 is connected with the ejection driving device 6, and the telescopic end of the ejection driving device 6 can be connected with the ejection block 5. Under the drive of the ejection driving device 6, the ejection block 5 is abutted against the end part of the hot shearing aluminum bar, so that the hot shearing aluminum bar is pushed to slide along the direction of the sliding groove 3.
In this embodiment, as a preferable example, the supporting frame 7 has a U-shaped structure with an upward opening, the supporting frame 7 is provided with a blocking block 11 at one end far away from the chute 3, and the outer side of the supporting frame 7 is connected with the feeding driving device 8.
The support frame 7 corresponds to the tail end of the chute 3, is of a U-shaped structure with an upward opening, and the diameter of the inner side of the support frame 7 is larger than or equal to that of the hot shearing aluminum rod, so that the hot shearing aluminum rod is prevented from shaking in the support frame 7. The supporting frame 7 and the hot shearing aluminum bar are coaxially arranged, so that the hot shearing aluminum bar can smoothly enter the supporting frame 7 after being transported through the sliding groove 3 and the roller assembly 4. The support frame 7 is being kept away from spout 3 one end and is equipped with the blocking piece 11, blocks the piece 11 and is fixed the setting, can be with the frame connection, blocks the piece 11 and can be cylindrical structure, and with the coaxial setting of hot shearing aluminium bar, after the hot shearing aluminium bar got into support frame 7, blocks the piece 11 and contradicts spacingly to the hot shearing aluminium bar tip. The support frame 7 outside is connected with material loading drive arrangement 8, because feed mechanism needs to remove the hot cut aluminium bar to the extruder in, and support frame 7 can be the side direction that sets up at the extruder, and material loading drive arrangement 8's flexible end is kept away from extruder one side with support frame 7 and is connected, and under material loading drive arrangement 8's drive, support frame 7 moves to the side direction, and the hot cut aluminium bar gets into the material intracavity of extruder.
Referring to fig. 3 to 4, in the present embodiment, preferably, two sets of the guide mechanism and the ejection mechanism are provided, respectively, and a lateral pushing mechanism is provided between the two sets.
In partial application scenes, the transportation path needs to be prolonged and adjusted so as to adapt to the use requirements of different places, and a transverse pushing mechanism can be added to be used in cooperation with a guiding mechanism and an ejection mechanism. The guiding mechanism is sequentially connected with the ejection mechanism, two groups of guiding mechanisms are respectively arranged, a transverse pushing mechanism is arranged between the two groups of guiding mechanisms, the transverse pushing mechanism provides a transverse conveying function, and the conveying direction of the hot-sheared aluminum bars can be changed. For ease of understanding, the following description is divided into a first guide mechanism (including the first slide groove 31), a first ejection mechanism (including the first ejection block 51), a second guide mechanism (including the second slide groove 32), and a second ejection mechanism (including the second ejection block 52). The conventional paving mode of the conveying device is that the turning plate mechanism, the first guiding mechanism, the first ejection mechanism and the feeding mechanism are sequentially connected. The improved laying mode of the conveying device is that the turning plate mechanism, the first guide mechanism, the first ejection mechanism, the transverse pushing mechanism, the second guide mechanism, the second ejection mechanism and the feeding mechanism are sequentially connected, so that the conveying path is further changed.
In this embodiment, the lateral pushing mechanism preferably includes a lateral pushing roller 12 provided on one side of the chute 3 in a rolling manner, and a lateral pushing driving device 13 for driving the lateral pushing roller 12 to move laterally.
The transverse pushing mechanism comprises a transverse pushing roller 12 and a transverse pushing driving device 13, the transverse pushing roller 12 is arranged on one side of the first chute 31 in a rolling way and corresponds to the tail end of the first chute 31, the transverse pushing roller 12 and the hot shearing aluminum bar are arranged in the same direction, the length of the transverse pushing roller 12 is greater than or equal to that of the hot shearing aluminum bar, and the surface of the transverse pushing roller 12 is ensured to be in rolling contact with the surface of the hot shearing aluminum bar. The lateral pushing driving device 13 drives the lateral pushing roller 12 to move laterally, the lateral pushing driving device 13 can adopt a hydraulic cylinder driving mode, and the lateral pushing roller 12 moves laterally under the driving of the lateral pushing driving device 13 so as to be in rolling contact with the hot shearing aluminum bar and push the hot shearing aluminum bar to roll towards the second chute 32.
In this embodiment, preferably, the lateral pushing roller 12 is connected with a mounting plate 14 at a side far away from the chute 3, the back of the mounting plate 14 is connected with a lateral pushing driving device 13, and a pushing opening 15 corresponding to the lateral pushing roller 12 is provided on the side wall of the chute 3.
The horizontal pushing roller 12 is rotatably connected with the mounting plate 14, the mounting plate 14 is located at one side far away from the first chute 31, and as a supporting component of the horizontal pushing roller 12, the back surface of the mounting plate 14 is connected with the horizontal pushing driving device 13, or the telescopic end of the mounting plate 14 and the horizontal pushing driving device 13 can be connected. The first slide is provided with a pushing opening 15 near the side wall of the tail end, the pushing opening 15 penetrates through the side walls of the two sides of the first slide groove 31 and is of an elongated groove-shaped structure with an upward opening, and the pushing opening is formed along the direction of the first slide groove 31. The sliding surface of the roller assembly 4 is flush with the bottom of the pushing port 15. The width of the pushing opening 15 is larger than or equal to that of the horizontal pushing roller 12, and the pushing opening 15 corresponds to the horizontal pushing roller 12 in position. The horizontal pushing roller 12 enters the first chute 31 from the material pushing opening 15 at one side, and rolls out from the material pushing opening 15 at the other side for hot shearing aluminum bars in the chute 3. After the transverse pushing mechanism is added to the conveying device, the working principle is as follows:
1) Raw material aluminum bars enter a heating furnace to be heated, the heating aluminum bars are cut off through hot shearing equipment, the hot sheared aluminum bars enter a conveying device, and the movable turning plate 1 supports the hot sheared aluminum bars.
2) The movable turning plate 1 swings sideways, the hot shearing aluminum bar rolls into the first chute 31, and the first ejection block 51 pushes the hot shearing aluminum bar to slide until the hot shearing aluminum bar is aligned with the horizontal pushing roller 12.
3) The horizontal pushing roller 12 moves sideways, the hot shearing aluminum bar rolls into the second chute 32, and the second ejection block 52 pushes the hot shearing aluminum bar to slide until the hot shearing aluminum bar enters the supporting frame 7 to be fixed.
4) The supporting frame 7 moves sideways, the hot-sheared aluminum rod is sent into a material cavity of the extruder, the extruder is loaded with the hot-sheared aluminum rod, the hot-sheared aluminum rod exits the conveying device, and the extruder performs extrusion molding.
The foregoing description of the preferred embodiments of the present utility model is not intended to be limiting, but rather, it will be apparent to those skilled in the art that the foregoing description of the preferred embodiments of the present utility model can be modified or equivalents can be substituted for some of the features thereof, and any modification, equivalent substitution, improvement or the like that is within the spirit and principles of the present utility model should be included in the scope of the present utility model.
Claims (9)
1. The utility model provides a conveyer of aluminium bar is cut to heat, includes panel turnover mechanism, guiding mechanism, ejection mechanism and feed mechanism, its characterized in that: the panel turnover mechanism comprises a movable panel turnover arranged in a swinging way and a panel turnover driving device for driving the movable panel turnover to swing laterally; the guide mechanism comprises a chute with one side connected with the movable turning plate and a roller assembly arranged in a rolling way along the chute direction; the ejection mechanism comprises an ejection block positioned at one end of the chute and an ejection driving device for driving the ejection block to move along the direction of the chute; the feeding mechanism comprises a supporting frame positioned at the other end of the chute and a feeding driving device for driving the supporting frame to move laterally.
2. The transport device for hot sheared aluminum rods according to claim 1, wherein: the movable turning plate is of an L-shaped structure, the inner side of the movable turning plate is upwards arranged, and the outer side of the movable turning plate is connected with the turning plate driving device.
3. The transport device for hot sheared aluminum rods according to claim 2, wherein: the side wall of the chute is provided with a guide opening connected with the movable turning plate, and the roller assembly is connected above the inner bottom surface of the chute.
4. A transport device for hot sheared aluminum rods according to claim 3, wherein: the outside of the chute extends to form a guide plate which is inclined upwards, and two sides of the guide plate are respectively overlapped with the movable turning plate and the guide opening.
5. The transport device for hot sheared aluminum rods according to claim 1, wherein: the ejection block is suspended above the chute, one side of the ejection block is of a cylindrical structure, and the other side of the ejection block is connected with the ejection driving device.
6. The transport device for hot sheared aluminum rods according to claim 1, wherein: the support frame is the ascending U-shaped structure of opening, and the support frame is equipped with the block in keeping away from spout one end, and the support frame outside is connected with material loading drive arrangement.
7. The transport device for hot sheared aluminum rods according to claim 1, wherein: the guide mechanism and the ejection mechanism are respectively provided with two groups, and a transverse pushing mechanism is arranged between the two groups.
8. The transport device for hot sheared aluminum rods according to claim 7, wherein: the transverse pushing mechanism comprises a transverse pushing roller arranged on one side of the chute in a rolling way and a transverse pushing driving device for driving the transverse pushing roller to move laterally.
9. The transport device for hot sheared aluminum rods according to claim 8, wherein: the horizontal pushing roller is connected with a mounting plate on one side far away from the sliding groove, the back surface of the mounting plate is connected with a horizontal pushing driving device, and the side wall of the sliding groove is provided with a pushing opening corresponding to the horizontal pushing roller.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322735013.0U CN221086765U (en) | 2023-10-12 | 2023-10-12 | Conveying device for hot-sheared aluminum bars |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322735013.0U CN221086765U (en) | 2023-10-12 | 2023-10-12 | Conveying device for hot-sheared aluminum bars |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221086765U true CN221086765U (en) | 2024-06-07 |
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ID=91314923
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322735013.0U Active CN221086765U (en) | 2023-10-12 | 2023-10-12 | Conveying device for hot-sheared aluminum bars |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221086765U (en) |
-
2023
- 2023-10-12 CN CN202322735013.0U patent/CN221086765U/en active Active
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