CN212862913U - Subway aluminum alloy section bar transfer device - Google Patents

Abstract

The utility model discloses a subway aluminum alloy section material transfer device, which comprises a crossbeam arranged at the upper end of a machine base, wherein the rear side end of the upper surface of the machine base is fixedly connected with the crossbeam, the upper surface of the machine base is connected with a transmission case at the front side end of the crossbeam at equal intervals, a servo motor is fixedly connected in the transmission case, one side wall of the transmission case is fixedly connected with a belt rack, the rear side end of the belt rack is fixedly connected with the crossbeam, the position corresponding to the servo motor in the belt rack is connected with a rotating wheel through a rotating shaft, the rotating shaft of the servo motor is fixedly connected with the rotating wheel through a shaft coupling, the position at the rear side end in the belt rack is connected with a driven wheel through a rotating shaft, a conveying belt is arranged between the rotating wheel and the driven wheel on the belt rack, the upper surface of the crossbeam is connected with transfer rollers at equal intervals, the utility model has the advantages of convenient operation, capability of transferring aluminum alloy sections with different sizes and the like.

Description

Subway aluminum alloy section bar transfer device

Technical Field

The utility model relates to a subway aluminium alloy transports technical field, specifically is a subway aluminium alloy section bar transfer device.

Background

The subway is the track traffic of building fast, big freight volume, electric power traction in the city, along with the development of society, the construction of subway is more and more, and people's life trip is more convenient, in the construction of subway, need transport multiple aluminum alloy ex-trusions of different sizes, and the transport of current subway aluminum alloy ex-trusions is mostly transported through beam gantry crane, but has the operation inconvenient, and intensity of labour is big, can not transport various aluminum alloy ex-trusions of different sizes scheduling problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a subway aluminum alloy section bar transfer device, convenient operation, intensity of labour is little, can transport various aluminum alloy section bars not of uniform size, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a subway aluminum alloy section transfer device comprises a cross beam and a vertical beam which are arranged at the upper end of a machine base, wherein the rear side end of the upper surface of the machine base is fixedly connected with the cross beam, the rear side end of the cross beam is provided with the vertical beam, the cross beam and the vertical beam are of an integrated structure, the upper surface of the machine base is at least provided with four transmission boxes through fixedly connected with supporting rods at equal intervals at the front side end of the cross beam, a servo motor is fixedly connected in each transmission box, a side wall of each transmission box is fixedly connected with a belt frame, the rear side end of each belt frame is fixedly connected with the cross beam, a rotating wheel is connected with the position corresponding to the servo motor through a rotating shaft in each belt frame, the rotating shaft of the servo motor is fixedly connected with the rotating wheel through a shaft coupling, the position at the rear side end in each belt frame is connected with a driven wheel through a rotating shaft, and a conveying belt, the upper surface of crossbeam passes through the connecting rod and the equidistant roller of transporting that is connected with of pivot, the crossbeam upper surface all is connected with two electric telescopic handle lieing in between two transportation rollers, electric telescopic handle is keeping away from the equal fixedly connected with receiving device of the other end of crossbeam.

Further, the frame upper surface all is equipped with photoelectric switch sensor B lieing in between per two transmission cases, the height of conveyer belt is a little higher than the height of transporting the roller.

Furthermore, receiving device is including connecing the flitch, connect the lower surface and the electronic hydraulic telescoping rod fixed connection of flitch, connect being connected with the driven voller through the pivot equidistant between the flitch both sides wall, the end fixedly connected with baffle that connects the flitch, be connected with photoelectric switch sensor A through the connecting piece in the position department that lies in end driven voller on the baffle.

Furthermore, a guide roller is connected to one side wall of the vertical beam facing the transmission case at equal intervals through a connecting piece and a rotating shaft, and the guide roller is vertically arranged.

Compared with the prior art, the beneficial effects of the utility model are that: local ferroaluminum section bar transfer device, respond to the aluminum alloy section bar through photoelectric switch sensor B, when photoelectric switch sensor B senses the aluminum alloy section bar, the servo motor that PLC control corresponds rotates, the transportation is opened automatically, and the servo motor of the required work when can automatic identification aluminum alloy section bar transports, convenient transportation, and can adapt to the aluminum alloy section bar of transporting various sizes, it rotates to make the conveyer belt rotate to drive the rotation wheel through servo motor, with the aluminum alloy section bar to the transportation in the crossbeam direction, promote receiving device through electronic hydraulic telescoping rod and rise, the conveyer belt transports the back in receiving device with the aluminum alloy section bar, the shrink of electronic hydraulic telescoping rod makes the aluminum alloy section bar on the receiving device place the transportation roller, transport the aluminum alloy section bar to place the region through the transportation roller, high durability and convenient operation, low labor intensity.

Drawings

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

FIG. 2 is a partial top view of the present invention;

fig. 3 is a top view of the receiving device of the present invention.

In the figure: the automatic feeding device comprises a base 1, a cross beam 2, a vertical beam 3, a transmission case 4, a belt frame 5, a conveyor belt 6, a rotating wheel 7, a transfer roller 8, a material receiving device 9, a material receiving plate 91, a driven roller 92, photoelectric switch sensors A and 94 baffle plates, an electric hydraulic telescopic rod 10, a guide roller 11, a photoelectric switch sensor B12 and a servo motor 13.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Example one

Referring to fig. 1-3, the present invention provides a technical solution: a metro aluminum alloy profile transfer device comprises a cross beam 2 and a vertical beam 3 which are arranged at the upper end of a machine base 1, wherein the cross beam 2 is fixedly connected to the rear side end of the upper surface of the machine base 1, the vertical beam 3 is arranged at the rear side end of the cross beam 2, the cross beam 2 and the vertical beam 3 are of an integrated structure, the upper surface of the machine base 1 is fixedly connected with at least four transmission boxes 4 at the front side end of the cross beam 2 through supporting rods in an equidistant manner, servo motors 13 are fixedly connected in the transmission boxes 4, a side wall of each transmission box 4 is fixedly connected with a belt frame 5, the rear side end of each belt frame 5 is fixedly connected with the cross beam 2, a rotating wheel 7 is connected with the position corresponding to each servo motor 13 in each belt frame 5 through a rotating shaft, the rotating shaft of each servo motor 13 is fixedly connected with the rotating wheel 7 through a coupler, and the position at the rear side end in each belt frame 5 are connected with a, the belt frame 5 is provided with a conveyor belt 6 between a rotating wheel 7 and a driven wheel, the upper surface of a cross beam 2 is connected with transfer rollers 8 at equal intervals through a connecting rod and a rotating shaft, the upper surface of the cross beam 2 is connected with two electric telescopic rods 10 between the two transfer rollers 8, the other ends of the electric telescopic rods 10 far away from the cross beam 2 are fixedly connected with material receiving devices 9, a base 1 is provided with a PLC (programmable logic controller) which is electrically connected with an external power supply, a transfer roller driving motor, a servo motor 13 and the electric hydraulic telescopic rods 10 are electrically connected with the PLC, the servo motor 13 drives the rotating wheel 7 to rotate to enable the conveyor belt 6 to rotate, aluminum alloy sections are transported to the direction of the cross beam 2, the material receiving devices 9 are pushed to ascend through the electric hydraulic telescopic rods 10, after the conveyor belt 6 transports the aluminum alloy sections into the material receiving devices 9, the electric hydraulic telescopic rods 10 shrink to enable the aluminum alloy sections on the, the aluminum alloy section is transferred to the placement area through the transfer roller 8, so that the operation is convenient, and the labor intensity is low.

Further, 1 upper surface of frame all is equipped with photoelectric switch sensor B12 being located between per two transmission case 4, conveyer belt 6 highly be higher than the height of transporting roller 8 a little, photoelectric switch sensor B12 is connected with the PLC controller electricity, when drive belt 6 is placed to aluminum alloy ex-trusions, respond to aluminum alloy ex-trusions through photoelectric switch sensor B12, when aluminum alloy ex-trusions is sensed to photoelectric switch sensor B12, the servo motor 13 that PLC control corresponds rotates, the transportation is opened automatically, and the servo motor 13 of required work when can the automatic identification aluminum alloy ex-trusions transport, it is convenient to transport, and can transport various aluminum alloy ex-trusions of different sizes.

Further, the material receiving device 9 includes a material receiving plate 91, the lower surface of the material receiving plate 91 is fixedly connected with an electric hydraulic telescopic rod 10, driven rollers 92 are connected between two side walls of the material receiving plate 91 at equal intervals through rotating shafts, a baffle 94 is fixedly connected to the tail end of the material receiving plate 91, a photoelectric switch sensor a93 is connected to the position, located at the tail end driven roller 92, on the baffle 94 through a connecting piece, a photoelectric switch sensor B12 is electrically connected with a PLC controller, when an aluminum alloy profile is sensed by a photoelectric switch sensor B12, the electric hydraulic telescopic rod 10 extends to push the material receiving plate 91 to rise, so that the driven roller 92 and the conveyor belt 6 are located at the same height, the aluminum alloy profile conveyed by the conveyor belt 6 enters the material receiving plate 91 through the driven roller 92, and when the photoelectric switch sensor a93 arranged on the material receiving plate 91 detects the aluminum alloy profile, on the aluminium alloy ex-trusions that electronic hydraulic telescoping rod 10 shrink will connect on the flitch 91 place the transportation roller 8, transport the aluminium alloy ex-trusions through transporting roller 8 and place the region, servo motor 13 automatic shutdown work, and transport the smoothness.

Further, erect and be connected with guide roll 11 at a lateral wall towards transmission case 4 through connecting piece and pivot equidistant on the roof beam 3, just guide roll 11 is vertical setting, prevents through guide roll 11 that aluminum alloy ex-trusions from dropping at the in-process of transporting.

When in use: place fashioned aluminum alloy ex-trusions on conveyer belt 6, when photoelectric switch sensor B12 senses aluminum alloy ex-trusions, the servo motor 13 that PLC control corresponds rotates, the transportation is opened automatically, and simultaneously, electronic hydraulic telescoping rod 10 extends and promotes and connects flitch 91 to rise, make driven voller 92 and conveyer belt 6 be located same height, the aluminum alloy ex-trusions that conveyer belt 6 was carried and is passed through driven voller 92 and get into in connecing flitch 91, when the photoelectric switch sensor A93 that is equipped with on connecing flitch 91 detects aluminum alloy ex-trusions, servo motor 13 stop work, the aluminum alloy ex-trusions that electronic hydraulic telescoping rod 10 shrink will connect on flitch 91 are placed and are transported on the roller 8, transport aluminum alloy ex-trusions through transporting roller 8 and place.

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 invention, the scope of which is defined in the appended claims and their equivalents.

Claims (4)

1. The utility model provides a subway aluminum alloy section bar transfer device, is including setting up in frame upper end crossbeam and erecting the roof beam, its characterized in that: the rear side end fixedly connected with crossbeam of frame upper surface, the rear side end of crossbeam is equipped with perpendicular roof beam, the crossbeam is as an organic whole structure with perpendicular roof beam, four transmission boxes are no less than through the equidistant fixedly connected with of bracing piece to the preceding side end that is located the crossbeam of frame upper surface, equal fixedly connected with servo motor in the transmission box, the equal fixedly connected with belt frame of a lateral wall of transmission box, the rear side end and the crossbeam fixed connection of belt frame, the position department that is located corresponding servo motor in the belt frame is connected with the turning wheel through the pivot, and servo motor's pivot passes through shaft coupling and turning wheel fixed connection, the position department that is located the rear side end in the belt frame is connected with from the driving wheel through the pivot, be equipped with the conveyer belt on the belt frame between turning wheel and the driven wheel, the upper surface of crossbeam is connected with the roller through connecting rod and pivot equidistance, the crossbeam upper surface all is connected with two electric telescopic handle lieing in between two transportation rollers, electric telescopic handle is keeping away from the equal fixedly connected with receiving device of the other end of crossbeam.

2. The metro aluminum alloy profile transfer device according to claim 1, characterized in that: the frame upper surface all is equipped with photoelectric switch sensor B lieing in between per two transmission cases, the height that highly is higher than the transportation roller of conveyer belt is a little.

3. The metro aluminum alloy profile transfer device according to claim 1, characterized in that: the receiving device comprises a receiving plate, the lower surface of the receiving plate is fixedly connected with an electric hydraulic telescopic rod, driven rollers are connected between two side walls of the receiving plate at equal intervals through rotating shafts, a baffle is fixedly connected to the tail end of the receiving plate, and a photoelectric switch sensor A is connected to the position, located on the tail end driven roller, of the baffle through a connecting piece.

4. The metro aluminum alloy profile transfer device according to claim 1, characterized in that: the vertical beam is connected with guide rollers at equal intervals on one side wall facing the transmission case through connecting pieces and rotating shafts, and the guide rollers are vertically arranged.

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