CN216991193U - Aluminum alloy section port processing apparatus - Google Patents

Abstract

The utility model discloses an aluminum alloy section port treatment device which comprises a treatment table, a placing rack and a moving plate, wherein a polishing roller is arranged on the moving plate, the moving plate is connected with a synchronous rotating assembly, and the synchronous rotating assembly is used for synchronously driving the polishing roller to perform synchronous polishing treatment; the bottom of the moving plate is connected with the moving piece for driving the moving plate to move to the placing rack; the driving medium, movable plate one side is connected with the driving medium, this aluminum alloy ex-trusions port processing apparatus, synchronous runner assembly starts the back, four rollers of polishing are polished cavity position department in step, it is the same with the cycle to be convenient for keep cavity position department dynamics of polishing, simultaneously through driving medium with synchronous runner assembly's power part transmission to moving member position department, the roller of polishing of being convenient for is progressively close to the aluminum alloy ex-trusions position department of placing on the rack, be favorable to in step polishing the processing in step with aluminum alloy ex-trusions's cavity position department, the efficiency of polishing is improved.

Description

Aluminum alloy section bar port processing apparatus

Technical Field

The utility model relates to the technical field of aluminum alloy section bar processing, in particular to an aluminum alloy section bar port processing device.

Background

The pure aluminum has small density (rho is 2.7g/cm3), is about 1/3 of iron, has low melting point (660 ℃), has high plasticity (delta: 32-40%, psi: 70-90%), is easy to process, can be made into various sections and plates, and has good corrosion resistance; however, pure aluminum has low strength, the sigma b value in an annealing state is about 8kgf/mm2, so the aluminum alloy is not suitable for being used as a structural material, through long-term production practice and scientific experiments, people gradually add alloy elements and apply heat treatment and other methods to strengthen aluminum, so a series of aluminum alloys are obtained, aluminum alloy sections are cut according to requirements after preparation, four cavities distributed in a rectangular shape are formed in the cut aluminum alloy sections, and meanwhile, certain burrs and the like exist in the aluminum alloy section sections at the ports in the cutting process, and the aluminum alloy sections need to be treated by port treatment tools.

When present handling aluminum alloy ex-trusions port, the aluminum alloy ex-trusions that will handle are placed in treatment workbench department, the staff handles the aluminum alloy ex-trusions cutting through adopting cutting equipment, there is certain burr in the port department of the aluminum alloy ex-trusions after the cutting, the staff need carry out cavity department through equipment of polishing to aluminum alloy ex-trusions port department and progressively polish this moment, polish cavity department one by one, make every cavity department polish cycle and dynamics inequality, cause easily under aluminum alloy ex-trusions receives the external force condition, it is thin for position department that more positions of polishing in aluminum alloy ex-trusions port department are less to polish, lead to aluminum alloy ex-trusions stress deformation scheduling problem to appear easily, therefore, we provide an aluminum alloy ex-trusions port processing apparatus.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a port treatment device for an aluminum alloy section, which aims to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the aluminum alloy section port treatment device comprises a treatment table, wherein a placing rack for placing an aluminum alloy section is connected to the treatment table, a movable plate is arranged on the other side of the treatment table, four polishing rollers are arranged on the movable plate, the movable plate is connected with a synchronous rotating assembly, and the synchronous rotating assembly is used for synchronously driving the four polishing rollers to synchronously polish a cavity of the aluminum alloy section; the bottom of the moving plate is connected with a moving piece, and the moving piece is used for driving the moving plate to move to the placing rack; the driving medium, movable plate one side is connected with the driving medium, and driving medium one end is connected with synchronous rotating assembly, the driving medium other end is connected with the moving member, and synchronous rotating assembly drive roller of polishing is polished the cavity and is used for driving the movable plate to be close to and places rack department, is convenient for in step to four port departments of aluminum alloy ex-trusions port department simultaneously polish in step, will equip the removal and be close to aluminum alloy ex-trusions position department.

Preferably, the synchronous rotating assembly comprises a driven gear connected to the outer side of the grinding roller, one end of the grinding roller penetrates through the movable plate, the middle of the movable plate is connected with a main shaft, one end of the main shaft is connected with a driving gear meshed with the driven gears, the other end of the main shaft is connected with a rocking disc, the rocking disc is connected with a rocking rod, the outer side of the main shaft is connected with a transmission piece, the rocking disc is rocked through the rocking rod, and the plurality of driven gears can be driven synchronously to rotate conveniently.

Preferably, the driving medium is including connecting the first driving band in the main shaft outside, first driving band both ends are connected with first flywheel respectively, and one of them first flywheel cup joints in the main shaft outside, another be connected with the dwang on the first flywheel, and the dwang is connected with the movable plate, dwang one end is connected with first helical gear, and is connected with the second helical gear in the first helical gear outside, the second helical gear outside is connected with the roller bearing, and the roller bearing both ends are connected with the support of being connected with the movable plate, the second drive belt has been cup jointed in the roller bearing outside, and second drive belt both ends are connected with the second flywheel respectively, one of them the second flywheel is connected in the roller bearing outside, and another second flywheel is connected with the movable member, and the intermeshing effect of first helical gear and second helical gear is favorable to changing the transmission direction.

Preferably, the moving member is including connecting the drive roller on one of them second flywheel, the movable plate bottom has been seted up and has been led to the groove, and the drive roller both ends are connected in the cell wall that leads to the groove respectively, be connected with the moving gear on the drive roller, be connected with the rack on the treatment bench, and move gear and rack intermeshing, movable plate bottom both ends are connected with respectively and remove the wheel, be equipped with two spacing grooves on the treatment bench, and two remove the wheel and connect respectively at the spacing inslot portion, remove the mutual matching of wheel and spacing groove and correspond, are favorable to removing the removal of wheel.

Preferably, the grinding roller is inside to be the cavity structure, and the roller internal connection that polishes has the pulling rod, pulling rod one end is connected with inflation umbrella piece, pulling rod one end is connected with the magnet board, and polishes the one end that is close to the magnet board and be connected with the metal sheet, through the mutual adsorption of magnet board and metal sheet, is favorable to pushing out certain distance with the pulling rod.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the aluminum alloy section is placed at the position of the placing rack, the four polishing rollers are opposite to the position of the port of the aluminum alloy section, the four polishing rollers begin to polish the four cavity positions synchronously in the process of starting the synchronous rotating assembly, so that the polishing force and period at the four cavity positions are kept to be the same, meanwhile, the power part of the synchronous rotating assembly is transmitted to the position of the moving member through the transmission member, the polishing rollers are convenient to gradually approach the position of the aluminum alloy section on the placing rack, synchronous polishing treatment is favorably carried out on the four cavity positions of the aluminum alloy section synchronously, the polishing efficiency is improved, the polishing period and force are favorably kept, and the aluminum alloy section is prevented from deforming.

2. According to the scheme, the pulling rod is inserted into the four polishing rollers, and the expansion umbrella block is arranged at one end of the pulling rod, so that polishing waste materials in the cavity can be synchronously pulled out and treated after polishing is finished.

Drawings

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

FIG. 2 is a schematic view of another angle structure of the present invention;

FIG. 3 is a schematic view of the structure of the grinding roll of the present invention connected to a pulling rod;

FIG. 4 is a schematic illustration of the exploded structure of FIG. 3;

fig. 5 is an enlarged structural diagram of a region a in fig. 2.

In the figure: 1-a treatment station; 2-placing a rack; 3, moving the board; 4-grinding roller; 5-a synchronous rotating assembly; 6-a moving part; 7-a transmission member; 41-pulling the rod; 42-expansion umbrella block; 43-magnet plate; 44-a metal plate; 51-a driven gear; 52-a main shaft; 53-a drive gear; 54-rocking disc; 55-a teeter lever; 61-a drive roller; 62-through groove; 63-a moving gear; 64-a rack; 65-moving wheels; 66-a limiting groove; 71-a first drive belt; 72-a first flywheel; 73-rotating rods; 74-a first bevel gear; 75-a second bevel gear; 76-a roller; 77-a scaffold; 78-a second drive belt; 79-second flywheel.

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. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: the utility model relates to an aluminum alloy section port processing device, which solves the problem that the prior aluminum alloy section port can not be synchronously polished, and the design of the scheme comprises a processing table 1, the treatment table 1 is connected with a placing table frame 2 for placing aluminum alloy sections, the placing table frame 2 is provided with the aluminum alloy sections, meanwhile, in order to avoid the situation that the aluminum alloy section moves in the polishing process, binding equipment such as a binding belt and the like is connected between the aluminum alloy section and the placing rack 2, so that the aluminum alloy section is conveniently and stably placed at the position of the placing rack 2, and the other side of the treatment table 1 is provided with a movable plate 3, the movable plate 3 is provided with four grinding rollers 4, the movable plate 3 is connected with a synchronous rotating assembly 5, the synchronous rotating assembly 5 is used for synchronously driving the four grinding rollers 4 to synchronously grind the cavity of the aluminum alloy section; the moving piece 6 is connected to the bottom of the moving plate 3, and the moving piece 6 is used for driving the moving plate 3 to move to the placing rack 2; the movable plate 3 comprises a transmission part 7, one side of the movable plate 3 is connected with the transmission part 7, one end of the transmission part 7 is connected with the synchronous rotating assembly 5, the other end of the transmission part 7 is connected with the moving part 6, and the synchronous rotating assembly 5 drives the polishing roller 4 to polish the cavity so as to drive the movable plate 3 to be close to the placement rack 2.

When the device in this scheme of use, place pending aluminium alloy ex-trusions and place 2 position departments in the rack, and fix aluminium alloy ex-trusions and place rack 2, four grinding roller 4 face four cavity position departments of aluminium alloy ex-trusions this moment, when the staff is through handing established synchronous rotating assembly 5, four grinding roller 4 begin to rotate along four cavity position departments and polish the processing this moment, after synchronous rotating assembly 5's power part passes through driving medium 7 transmission to moving member 6, moving plate 3 is progressively close to and places rack 2 this moment, four grinding roller 4 are close to simultaneously and place four cavity position departments of aluminium alloy ex-trusions on the rack 2, rotate the processing of polishing, the effect of synchronous processing of polishing has been realized, the different condition of cycle of polishing and dynamics that appear in the polishing process has been avoided, guarantee the efficiency of polishing.

In the scheme, the synchronous rotating assembly 5 comprises a driven gear 51 connected to the outer side of a grinding roller 4, one end of the grinding roller 4 penetrates through a movable plate 3, the middle of the movable plate 3 is connected with a main shaft 52, one end of the main shaft 52 is connected with a driving gear 53 meshed with a plurality of driven gears 51, the other end of the main shaft 52 is connected with a rocking disc 54, the rocking disc 54 is connected with a rocking rod 55, the outer side of the main shaft 52 is connected with a transmission piece 7, the grinding roller 4 is internally of a cavity structure, a pulling rod 41 is connected with the inner part of the grinding roller 4, one end of the pulling rod 41 is connected with an expansion umbrella block 42, one end of the pulling rod 41 is connected with a magnet plate 43, one end of the grinding rod, close to the magnet plate 43, is connected with a metal plate 44, when the device is used for grinding aluminum alloy section bars to be processed, a worker holds the rocking rod 55 by hand to enable the rocking disc 54 to start to rotate, because the rocking disc 54 is fixedly connected to the main shaft 52, the main shaft 52 starts to rotate, and because one end of the main shaft 52 is connected with the driving gear 53, and the driving gear 53 and the driven gear 51 fixedly connected to the outside of the grinding roller 4 are engaged with each other, so that the driving gear 53 synchronously drives the plurality of driven gears 51 to rotate, the four grinding rollers 4 grind the cavity position of the aluminum alloy section, after the grinding is finished, the worker can stop rotating the rocking rod 55 at this time, and push the magnet plate 43, so that the expansion umbrella block 42 at one end of the pulling rod 41 protrudes out of the cavity of the grinding roller 4, the cavity of the aluminum alloy section is opened, meanwhile, the magnet plate 43 and the metal plate 44 are mutually adsorbed, after polishing, the staff carries out the reversal back for four grinding roller 4 begin to break away from aluminum alloy ex-trusions cavity position department, pulls out the waste material of polishing simultaneously through inflation umbrella piece 42.

Further the transmission member 7 comprises a first transmission belt 71 connected to the outer side of the main shaft 52, two ends of the first transmission belt 71 are respectively connected with a first flywheel 72, one of the first flywheels 72 is sleeved on the outer side of the main shaft 52, the other first flywheel 72 is connected with a rotating rod 73, the rotating rod 73 is connected with the movable plate 3, one end of the rotating rod 73 is connected with a first helical gear 74, the outer side of the first helical gear 74 is connected with a second helical gear 75, the outer side of the second helical gear 75 is connected with a roller 76, two ends of the roller 76 are connected with a bracket 77 connected with the movable plate 3, the outer side of the roller 76 is sleeved with a second transmission belt 78, two ends of the second transmission belt 78 are respectively connected with a second flywheel 79, one of the second flywheels 79 is connected to the outer side of the roller 76, the other second flywheel 79 is connected with the moving member 6, the moving member 6 comprises a driving roller 61 connected with one of the second flywheels 79, the bottom of the moving plate 3 is provided with a through groove 62, two ends of the driving roller 61 are respectively connected with the groove walls of the through groove 62, the driving roller 61 is connected with a moving gear 63, the processing table 1 is connected with a rack 64, the moving gear 63 is meshed with the rack 64, two ends of the bottom of the moving plate 3 are respectively connected with moving wheels 65, the processing table 1 is provided with two limiting grooves 66, the two moving wheels 65 are respectively connected inside the limiting grooves 66, the main shaft 52 starts to rotate in the process that a worker shakes the shaking rod 55, so that the first flywheel 72 is driven by the first transmission belt 71, meanwhile, the other first flywheel 72 is fixedly connected to the outer side of the rotating rod 73, so that the first bevel gear 74 and the second bevel gear 75 start to rotate, and the second flywheel 75 is fixedly connected to the outer side of the rolling shaft 76, so that the rotation of the rolling shaft 76 is driven to the driving roller 61 by the second flywheel 79, because the movable gear 63 is fixedly connected to the outer side of the driving roller 61, and simultaneously because the movable gear 63 is meshed with the rack 64, the movable plate 3 moves along the direction of the rack 64, so that the four polishing rollers 4 start to be close to the cavity of the aluminum alloy section for polishing, and after polishing is finished, a worker rotates in the reverse direction, so that the movable plate 3 gradually gets away from the cavity of the aluminum alloy section.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. The utility model provides an aluminum alloy ex-trusions port processing apparatus, includes treatment table (1), be connected with on treatment table (1) place rack (2) of placing aluminum alloy ex-trusions, and treatment table (1) opposite side is equipped with movable plate (3), its characterized in that: the movable plate (3) is provided with four grinding rollers (4), the movable plate (3) is connected with a synchronous rotating assembly (5), and the synchronous rotating assembly (5) is used for synchronously driving the four grinding rollers (4) to synchronously grind the cavity of the aluminum alloy section;

the moving piece (6) is connected to the bottom of the moving plate (3), and the moving piece (6) is used for driving the moving plate (3) to move to the placing rack (2);

the movable plate polishing device comprises a transmission part (7), wherein one side of the movable plate (3) is connected with the transmission part (7), one end of the transmission part (7) is connected with a synchronous rotating assembly (5), the other end of the transmission part (7) is connected with a moving part (6), and the synchronous rotating assembly (5) drives a polishing roller (4) to polish a cavity so as to drive the movable plate (3) to be close to the place of the rack (2).

2. The aluminum alloy profile port treatment device according to claim 1, wherein: synchronous rotating assembly (5) is including connecting driven gear (51) in the grinding roller (4) outside, grinding roller (4) one end is passed movable plate (3), and movable plate (3) intermediate junction has main shaft (52), main shaft (52) one end is connected with driving gear (53) with a plurality of driven gear (51) intermeshing, and main shaft (52) other end is connected with wobble disc (54), be connected with on wobble disc (54) and shake pole (55), main shaft (52) outside is connected with driving medium (7).

3. The aluminum alloy profile port treatment device according to claim 2, wherein: the transmission piece (7) comprises a first transmission belt (71) connected to the outer side of the main shaft (52), two ends of the first transmission belt (71) are respectively connected with a first flywheel (72), one of the first flywheels (72) is sleeved on the outer side of the main shaft (52), the other one of the first flywheels (72) is connected with a rotating rod (73), the rotating rod (73) is connected with the movable plate (3), one end of the rotating rod (73) is connected with a first helical gear (74), the outer side of the first helical gear (74) is connected with a second helical gear (75), the outer side of the second helical gear (75) is connected with a roller (76), two ends of the roller (76) are connected with a support (77) connected with the movable plate (3), the outer side of the roller (76) is sleeved with a second transmission belt (78), two ends of the second transmission belt (78) are respectively connected with a second flywheel (79), one of the second flywheel (79) is connected to the outer side of the roller (76), and the other second flywheel (79) is connected with the moving member (6).

4. The aluminum alloy profile port treatment device of claim 3, wherein: moving member (6) are including connecting drive roller (61) on one of them second flywheel (79), logical groove (62) have been seted up to movable plate (3) bottom, and drive roller (61) both ends are connected in the cell wall that leads to groove (62) respectively, be connected with moving gear (63) on drive roller (61), be connected with rack (64) on processing platform (1), and moving gear (63) and rack (64) intermeshing, movable plate (3) bottom both ends are connected with respectively and remove wheel (65), be equipped with two spacing grooves (66) on processing platform (1), and two remove wheel (65) and connect respectively inside spacing groove (66).

5. The aluminum alloy profile port treatment device according to claim 2, wherein: the grinding roller (4) is internally provided with a cavity structure, the grinding roller (4) is internally connected with a pulling rod (41), one end of the pulling rod (41) is connected with an expansion umbrella block (42), one end of the pulling rod (41) is connected with a magnet plate (43), and one end of the grinding rod close to the magnet plate (43) is connected with a metal plate (44).

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