CN219468926U - Transfer device after aluminum alloy hub blank solid melting treatment - Google Patents

Abstract

The utility model discloses a transfer device after aluminum alloy hub blank solid melting treatment, which comprises a frame, a production line roller, a lifting table and a conveying device, wherein the frame comprises a bottom plate and a frame, the top of the frame is provided with a lifting motor, the lifting motor is connected with the lifting table and a balancing weight through a lifting chain, the conveying device is arranged on the lifting table and comprises a conveying motor, a plurality of conveying chain frames and a conveying chain, the conveying motor is linked with the conveying chain, and the conveying chain frames are matched with the production line roller. The transfer device after the aluminum alloy hub blank solid melting treatment has the advantages of simple structure, less parts, low failure rate, reliable performance, simple maintenance and repair, small occupied area, contribution to the arrangement of production lines, improvement of the utilization efficiency of warehouse space, strong practicality, capability of loading hubs of various sizes, low energy consumption, reduction of running cost, convenience and flexibility in use, reduction of manpower consumption and improvement of the transfer efficiency of the hubs.

Description

Transfer device after aluminum alloy hub blank solid melting treatment

Technical Field

The utility model relates to the field of aluminum alloy hub blank production, in particular to a transfer device after aluminum alloy hub blank solid melting treatment.

Background

In the production process of aluminum alloy hubs, hub blanks discharged from a solid melting position are required to be received and transferred, the existing aluminum alloy hub production field lacks special equipment for receiving and transferring aluminum alloy hub blanks, hub transfer equipment used in actual production lacks standardized management, the equipment can meet the receiving and transferring work of the aluminum alloy hub blanks, but the equipment has no uniformity in design, has the problems of low efficiency, high failure rate and low automation degree, brings great burden to subsequent maintenance and management work, and the equipment used in each factory does not have the general advantages due to the lack of uniformity, and is high in maintenance cost. The automatic aluminum alloy hub blank transferring device is simple in structure and operation, production efficiency is improved, and labor intensity of staff is effectively reduced.

At present, the aluminum alloy hub receiving and transferring device has the problems of design diversification and complexity in actual production work and low transferring speed after aluminum alloy hub blank solid melting treatment, such as a hub transfer line conveying device described by a document number CN201420786239.1, and structurally adopts a long and narrow space design, so that the problem of overlarge occupation of unidirectional space exists. Still have the structural design of other equipment and also have space utilization not high and too complicated problem, spare part is many and break down easily, cause equipment operational reliability low, maintenance operation consuming time hard, and the occupation space of equipment is great moreover, is unfavorable for the rationalization application in storehouse space.

Disclosure of Invention

The utility model aims to provide a transfer device for aluminum alloy hub blanks after solid melting treatment, which aims to solve the problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the utility model provides a move and carry device after solid processing that melts of aluminum alloy wheel hub blank, includes frame, assembly line roller, elevating platform and conveyor, the assembly line roller with the frame location is arranged, the frame includes bottom plate and frame, elevator motor is installed at the frame top, elevator motor through the lift chain with elevating platform and balancing weight are connected, conveyor installs on the elevating platform, conveyor includes conveyor motor, a plurality of conveyor chain frame and conveyor chain, conveyor motor with conveyor chain linkage, conveyor chain frame with conveyor chain is one-to-one, conveyor chain frame with assembly line roller adaptation, conveyor chain frame with the roller space position of assembly line roller is corresponding.

Preferably, the frame is welded on the bottom plate, a guide groove, a front guide sliding bar and a rear guide sliding bar are arranged on the frame, and the balancing weight is in sliding fit with the guide groove.

Preferably, the lifting motor and the conveying motor are respectively provided with a lifting gearbox and a conveying gearbox, the lifting gearbox is connected with a roll shaft, the roll shaft is in running fit with the top of the frame through a bearing with a seat, the roll shaft is matched with the lifting chain through a lifting sprocket, and two ends of the lifting chain are respectively connected with the lifting table and the balancing weight.

Preferably, the lifting platform comprises a lifting platform main body and a supporting frame, wherein the supporting frame is welded on the upper portion of the lifting platform main body, the supporting frame is connected with one end of the lifting chain, a rear guide pulley is arranged at the rear end of the supporting frame, and the rear guide pulley is in sliding fit with the rear guide sliding strip.

Preferably, the elevating platform main part rear portion is through a plurality of connecting plates and horizontal pole welding, install the leading pulley on the horizontal pole, the leading pulley with leading pulley sliding fit, the connecting plate is all through flanged vertical bearing and shaft coupling normal running fit, the locking is connected with a plurality of driving gears on the shaft coupling, a plurality of driven gears have all been installed on the conveyor chain frame, the driving gear with driven gear all with conveyor chain cooperation, the shaft coupling with the transmission case is connected, conveyor chain synchronous rotation.

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

the device can solve the problem of slow transfer after the aluminum alloy hub blank is subjected to solid melting treatment, has the advantages of simple structure, fewer parts, low failure rate, reliable performance, simple maintenance and repair, small occupied area, contribution to the arrangement of a production line, improvement of the utilization efficiency of warehouse space, strong practicability, capability of loading hubs of various sizes, low energy consumption, reduction of running cost, convenience and flexibility in use, reduction of manpower consumption and improvement of the transfer efficiency of the hubs.

Drawings

Fig. 1 is a schematic perspective view of the present utility model.

Fig. 2 is a rear view of fig. 1.

Fig. 3 is a front view of the present utility model.

Fig. 4 is a rear view of fig. 3.

In the figure: 1. the lifting platform comprises a bottom plate, 2, a frame, 3, a conveying motor, 4, a conveying gearbox, 5, a lifting platform main body, 6, a supporting frame, 7, a lifting chain, 8, a lifting motor, 9, a lifting gearbox, 10, a roll shaft, 11, a bearing with a seat, 12, a lifting sprocket, 13, a guide groove, 14, a balancing weight, 15, a hub blank, 16, a pipeline roller, 17, a conveying chain, 18, a conveying chain frame, 19, a front pulley, 20, a coupling, 21, a flanged vertical bearing, 22, a cross rod, 23, a connecting plate, 24, a rear pulley, 25, a driving gear, 26, a driven gear, 27, a rear pulley, 28 and a front pulley.

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. 1-4, the present utility model provides a technical solution: the utility model provides an aluminum alloy wheel hub blank carries device after solid melting processing, which comprises a frame, assembly line roller 16, elevating platform and conveyor, assembly line roller 16 and frame positioning arrangement, the frame includes bottom plate 1 and frame 2, elevating motor 8 has been installed at frame 2 top, elevating motor 8 is connected with elevating platform and balancing weight 14 through elevating chain 7, conveyor installs on the elevating platform, conveyor includes conveyor motor 3, a plurality of conveyor chain frame 18 and conveyor chain 17, conveyor motor 3 and conveyor chain 17 linkage, conveyor chain frame 18 and conveyor chain 17 are in one-to-one correspondence, conveyor chain frame 18 and assembly line roller 16 adaptation, conveyor chain frame 18 and assembly line roller 16's roller gap position corresponds, frame 2 welds on bottom plate 1, be provided with guide slot 13 on frame 2, preceding leading slider 28 and back slider 27, balancing weight 14 and guide slot 13 sliding fit, elevating motor 8 and conveyor motor 3 are furnished with elevating gearbox 9 and conveying gearbox 4 respectively, elevating gearbox 9 and roller shaft 10 pass through seat bearing 11 and frame 2 top rolling fit, conveyor chain 10 and elevating gear 12 and elevating platform 7 and 6 leading slider 24 and elevating slider 2 sliding connection support frame body 24 are equipped with, leading slider 24 and elevating slider 2 sliding support frame 24 are equipped with, leading slider 2 and leading slider 24 and trailing slider 24 are equipped with, leading slider 24 and trailing slider 19 are connected to leading slider 2 and trailing slider 19 and trailing slider end portion are equipped with respectively, the connecting plate 23 is in running fit with the shaft coupling 20 through the flanged vertical bearing 21, a plurality of driving gears 25 are connected to the shaft coupling 20 in a locking mode, a plurality of driven gears 26 are arranged on the conveying chain frame 18, the driving gears 25 and the driven gears 26 are matched with the conveying chain 17, and the shaft coupling 20 is connected with the conveying gearbox 4.

Working principle: when the transfer device is used after the solid melting treatment of the aluminum alloy hub blank, because the solid melting treatment furnace is a continuous roller table without a material frame, the hub outlet is divided into 4 layers, the device can be lifted to a proper position to catch the hub from each layer, a chain transfer device is adopted, when the solid melting treatment of the hub blank 15 is finished, firstly, the lifting motor 8 is started, the lifting motor 8 drives the lifting chain 7 to work through the roller shaft 10 to lift the lifting table main body 5 to the same height as the layer of the solid melting treatment furnace from which the hub blank 15 is to be sent out, so that the hub blank 15 is sent out to the position of the lifting table main body 5, the balancing weight 14 plays a role of balancing the weight of the lifting table to reduce the working energy consumption of the lifting motor 8, then the conveying motor 3 is started again, the conveying motor 3 drives the conveying gearbox 4 to drive the shaft coupling 20 to rotate, the shaft coupling 20 drives the conveying chain 17 to synchronously rotate through the driving gear 25, in this way, the hub blanks 15 are sent out to the conveying chain 17, the hub blanks 15 are received above the lifting table under the drive of the conveying chain 17, when the hub blanks 15 are fully arranged in a row, the lifting motor 8 drives the roller shafts 10 to rotate, meanwhile, the lifting chain gears 12 at the two ends of the roller shafts 10 rotate, the lifting chain 7 enables the balancing weights 14 to move upwards, the supporting frame 6 and the lifting frame main body 5 drop downwards to be close to the pipeline roller 16, the pipeline roller 16 is in a moving and rotating state, the conveying chain 17 corresponds to the gap position of the rotating roller of the pipeline roller 16, so that the conveying chain 17 can drop below the rotating roller of the pipeline roller 16 through the gap of the pipeline roller 16, when the conveying chain 17 drops below the rotating roller of the pipeline roller 16, the hub blanks 15 can drop on the pipeline roller 16, when the hub blank 15 leaves the assembly line roller, the lifting chain 7 is driven by the lifting motor 8 to lift the lifting frame main body 5, and the hub blank from other layers is received, so that the operation of transferring the hub blank 15 to the assembly line roller 16 after the solid melting treatment is automatically completed in a repeated manner, and the assembly line roller takes the hub blank away to be sent to the next process.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein 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 a move and carry device after solid processing of melting of aluminum alloy wheel hub blank, includes frame, assembly line roller (16), elevating platform and conveyor, its characterized in that: the assembly line roller (16) with frame positioning arrangement, the frame includes bottom plate (1) and frame (2), elevator motor (8) have been installed at frame (2) top, elevator motor (8) through elevating chain (7) with elevating platform and balancing weight (14) are connected, conveyor installs on the elevating platform, conveyor includes conveyor motor (3), a plurality of conveyor chain frame (18) and conveyor chain (17), conveyor motor (3) with conveyor chain (17) linkage, conveyor chain frame (18) with conveyor chain (17) are one-to-one, conveyor chain frame (18) with assembly line roller (16) adaptation, conveyor chain frame (18) with the runner clearance position of assembly line roller (16) corresponds.

2. The transfer device after aluminum alloy hub blank solid melting treatment according to claim 1, wherein: the frame (2) is welded on the bottom plate (1), a guide groove (13), a front guide sliding bar (28) and a rear guide sliding bar (27) are arranged on the frame (2), and the balancing weight (14) is in sliding fit with the guide groove (13).

3. The transfer device after aluminum alloy hub blank solid melting treatment according to claim 2, wherein: lifting motor (8) and conveying motor (3) are equipped with respectively lift gearbox (9) and carry gearbox (4), lift gearbox (9) are connected with roller (10), roller (10) through take seat bearing (11) with frame (2) top normal running fit, roller (10) through lift sprocket (12) with lift chain (7) cooperation, lift chain (7) both ends respectively with elevating platform with balancing weight (14) are connected.

4. The transfer device after aluminum alloy hub blank solid melting treatment according to claim 3, wherein: the lifting platform comprises a lifting platform main body (5) and a supporting frame (6), wherein the supporting frame (6) is welded on the upper portion of the lifting platform main body (5), the supporting frame (6) is connected with one end of a lifting chain (7), a rear guide pulley (24) is arranged at the rear end of the supporting frame (6), and the rear guide pulley (24) is in sliding fit with the rear guide pulley (27).

5. The transfer device after aluminum alloy hub blank solid melting treatment according to claim 4, wherein: the lifting platform is characterized in that the rear part of the lifting platform body (5) is welded with the cross rod (22) through a plurality of connecting plates (23), a front guide pulley (19) is arranged on the cross rod (22), the front guide pulley (19) is in sliding fit with the front guide pulley (28), the connecting plates (23) are all in rotating fit with the shaft coupling (20) through flanged vertical bearings (21), a plurality of driving gears (25) are connected to the shaft coupling (20) in a locking mode, a plurality of driven gears (26) are arranged on the conveying chain frame (18), the driving gears (25) and the driven gears (26) are matched with the conveying chain (17), and the shaft coupling (20) is connected with the conveying gearbox (4).