CN210048086U - Medium-thickness steel plate turnover machine capable of preventing scratch defects - Google Patents

Abstract

The utility model relates to a prevent medium plate turnover machine of fish tail defect, including the trip shaft supporting seat, the both sides top of trip shaft supporting seat rotates respectively and installs corresponding material loading trip shaft and unloading trip shaft, the outside of material loading trip shaft and unloading trip shaft has a plurality of corresponding material loading trip bar and unloading upset thick stick according to equidistant rigid coupling respectively, the bottom of material loading trip bar and unloading upset thick stick with be connected with corresponding actuating cylinder between the both sides bottom of trip shaft supporting seat respectively, it has corresponding material loading registration lever to articulate respectively on the material loading trip bar, it has corresponding unloading locating lever to articulate respectively on the unloading trip bar, the upper surface of material loading registration lever and unloading locating lever rigid coupling respectively has corresponding strip electro-magnet. The utility model discloses a be convenient for adjust, can effectively be applicable to turning over of the steel sheet of various different thickness, and turn over the board efficient fast, effectual advantage.

Description

Medium-thickness steel plate turnover machine capable of preventing scratch defects

Technical Field

The utility model relates to a medium plate turnover machine specifically indicates a prevent medium plate turnover machine of fish tail defect.

Background

The traditional plate turnover machine for the medium steel plate production line has a gap between a steel plate and a clamp during plate turnover, and is difficult to generate relative sliding. It is liable to generate a large noise and at the same time, may cause damage to the surface of the steel sheet. Most of the producers begin to adopt the existing electromagnetic steel plate magnetic plate turnover machine, and the traditional clamp is replaced by the electromagnet to realize the steel plate turnover, so that the problems of noise and steel plate damage are effectively solved. The existing steel plate magnetic plate turnover machine has two types, one type is a magnetic plate turnover machine with a plate turnover arm arranged on one side, when the magnetic plate turnover machine with the plate turnover arm arranged on one side is used for carrying out steel plate turnover operation, a steel plate is adsorbed on an electromagnet on the bottom surface of the plate turnover arm, the plate turnover arm drives the steel plate to turn over by 180 degrees, the steel plate becomes to be located on the top surface of the plate turnover arm, and the height difference exists, so that the lifting driving for the plate turnover arm and a rotation driving mechanism through a corresponding lifting mechanism needs to be added, and the height difference caused by plate turnover is adapted. Not only the production cost is high, but also the efficiency of the turning plate is lower. Therefore, many producers adopt magnetic plate turnover machines with symmetrically arranged plate turnover arms on two sides, wherein the plate turnover arm on one side turns over the adsorbed steel plate by about 90 degrees, and the plate turnover arm on the other side is connected with the plate turnover arm and adsorbed on the other side of the steel plate and drives the steel plate to turn over by the rest angle. However, the magnetic panel turnover machine with the panel turnover arms symmetrically arranged on both sides has a great defect that the panel turnover arms on both sides can smoothly realize the adsorption and conversion of electromagnets on different panel turnover arms to different surfaces of a steel plate in a parallel state, so that the magnetic panel turnover machine with the panel turnover arms symmetrically arranged on both sides can only adapt to the steel plate with fixed thickness, and the application range of the magnetic panel turnover machine is greatly reduced. Consequently, design a section and be convenient for adjust, can effectively be applicable to turning over the board of the steel sheet of various different thickness, and turn over the board efficiency fast, effectual prevent the medium plate steel panel turnover machine of fish tail defect the utility model discloses a research purpose.

SUMMERY OF THE UTILITY MODEL

To the technical problem that above-mentioned prior art exists, the utility model provides a prevent the medium plate turnover machine of fish tail defect, this prevent the medium plate turnover machine of fish tail defect can effectively solve the technical problem that above-mentioned prior art exists.

The technical scheme of the utility model is that:

a medium-thickness steel plate turnover machine capable of preventing scratches comprises a turnover shaft supporting seat, wherein the tops of two sides of the turnover shaft supporting seat are respectively and rotatably provided with a corresponding feeding turnover shaft and a corresponding discharging turnover shaft; the upper surfaces of the feeding turnover rods are provided with corresponding feeding positioning grooves, one ends of the feeding positioning grooves, which are close to the turnover shaft supporting seat, are fixedly connected with corresponding feeding articulated shafts respectively, the feeding articulated shafts are articulated with corresponding feeding positioning rods respectively, and one ends of the feeding positioning rods, which are not articulated with the feeding articulated shafts, are connected to one side of the feeding positioning grooves, which is far away from the turnover shaft supporting seat, through corresponding feeding pushing hydraulic cylinders respectively; the upper surface of the blanking turnover bar is provided with corresponding blanking positioning grooves, one ends of the blanking positioning grooves, which are far away from the turnover shaft supporting seat, are respectively and fixedly connected with corresponding blanking articulated shafts, the blanking articulated shafts are respectively articulated with corresponding blanking positioning rods, and one ends, which are not articulated with the blanking articulated shafts, of the blanking positioning rods are respectively connected to one sides, which are close to the turnover shaft supporting seat, of the blanking positioning grooves through corresponding blanking pushing hydraulic cylinders; and the upper surfaces of the feeding positioning rod and the discharging positioning rod are respectively and fixedly connected with corresponding strip-shaped electromagnets.

The two sides of the turnover shaft supporting seat are fixedly connected with a plurality of corresponding positioning bearing seats respectively, and the feeding turnover shaft and the discharging turnover shaft are connected to the two sides of the turnover shaft supporting seat in a rotating mode through corresponding supporting bearings and the positioning bearing seats in a matched mode.

And the driving hydraulic cylinder, the feeding pushing hydraulic cylinder and the discharging pushing hydraulic cylinder are all connected to an external hydraulic control system.

The utility model has the advantages that:

when the plate turning operation is carried out, the strip-shaped electromagnet on the feeding positioning rod is electrified and respectively adsorbed on the bottom surface of steel, then the driving hydraulic cylinder at the feeding end acts to drive the feeding turnover rod to turn up by 90 degrees, in the process, the feeding pushes the piston column of the hydraulic cylinder to stretch out, and the feeding positioning rod is driven to turn up by a certain angle to enable the steel plate to be inclined clockwise; in the process of the action of the driving hydraulic cylinder at the feeding end, the driving hydraulic cylinder at the discharging end simultaneously acts to drive the discharging overturning lever to upwards overturn by 90 degrees, in the process, the discharging pushes the piston column of the hydraulic cylinder to extend out to drive the discharging positioning rod to outwards overturn by an angle consistent with that of the feeding positioning rod, the strip-shaped electromagnets on the discharging positioning rod are electrified and respectively adsorbed on the top surface of steel, and then the strip-shaped electromagnets on the feeding positioning rod are powered off; after the steel adsorption conversion is completed, the driving hydraulic cylinder at the feeding end and the driving hydraulic cylinder at the discharging end reset respectively, and meanwhile, the feeding pushing hydraulic cylinder and the discharging pushing hydraulic cylinder are also reset completely, so that the steel plate turning operation can be completed smoothly, and the plate turning operation can be performed again after the steel after the plate turning operation is completed is output. The clearance between the feeding positioning rod and the blanking positioning rod can be controlled by adjusting the piston column stretching amount of the feeding pushing hydraulic cylinder and the blanking pushing hydraulic cylinder, so that the device is suitable for turning plates of steel plates with different thicknesses. And promote the control that pneumatic cylinder and unloading promoted the pneumatic cylinder through the material loading, can effectively make the steel sheet adsorb the conversion to the steel sheet different faces under the state that slopes forward clockwise, promoted the stability of adsorbing the conversion greatly, ensure the utility model discloses a practicality. Realized being convenient for adjust, can effectively be applicable to turning over the board of the steel sheet of various different thickness, and turned over the board efficient, effectual advantage.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a usage state diagram of the present invention.

Detailed Description

To facilitate understanding of those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples:

referring to fig. 1-2, a medium plate turnover machine capable of preventing scratches comprises a turnover shaft support base 1, wherein the tops of two sides of the turnover shaft support base 1 are respectively and rotatably provided with a corresponding feeding turnover shaft 2 and a corresponding discharging turnover shaft 3, the outer sides of the feeding turnover shaft 2 and the discharging turnover shaft 3 are respectively and fixedly connected with a plurality of corresponding feeding turnover rods 4 and discharging turnover rods 5 at equal intervals, corresponding driving hydraulic cylinders 6 are respectively connected between the bottoms of the feeding turnover rods 4 and the discharging turnover rods 5 and the bottoms of two sides of the turnover shaft support base 1, piston rods of the driving hydraulic cylinders 6 are respectively hinged to the bottoms of the corresponding feeding turnover rods 4 and the corresponding discharging turnover rods 5, and cylinder bodies of the driving hydraulic cylinders 6 are respectively hinged to the bottoms of two sides of the turnover shaft support base 1; the upper surfaces of the feeding turnover rods 4 are provided with corresponding feeding positioning grooves, one ends of the feeding positioning grooves, which are close to the turnover shaft supporting seat 1, are fixedly connected with corresponding feeding articulated shafts 7 respectively, the feeding articulated shafts 7 are articulated with corresponding feeding positioning rods 8 respectively, and one ends of the feeding positioning rods 8, which are not articulated with the feeding articulated shafts 7, are connected to one side of the feeding positioning grooves, which is far away from the turnover shaft supporting seat 1, through corresponding feeding pushing hydraulic cylinders 9 respectively; the upper surface of the blanking turnover bar 5 is provided with corresponding blanking positioning grooves, one ends of the blanking positioning grooves, which are far away from the turnover shaft supporting seat 1, are respectively and fixedly connected with corresponding blanking articulated shafts 10, the blanking articulated shafts 10 are respectively articulated with corresponding blanking positioning rods 11, and one ends, which are not articulated with the blanking articulated shafts 10, of the blanking positioning rods 11 are respectively connected to one sides, which are close to the turnover shaft supporting seat 1, of the blanking positioning grooves through corresponding blanking pushing hydraulic cylinders 12; the upper surfaces of the feeding positioning rod 8 and the discharging positioning rod 11 are respectively fixedly connected with corresponding strip-shaped electromagnets 13.

The two sides of the turnover shaft supporting seat 1 are fixedly connected with a plurality of corresponding positioning bearing seats 14 respectively, and the feeding turnover shaft 2 and the discharging turnover shaft 3 are connected to the two sides of the turnover shaft supporting seat 1 in a rotating mode through corresponding supporting bearings and the positioning bearing seats 14 in a matched mode.

The driving hydraulic cylinder 6, the feeding pushing hydraulic cylinder 9 and the discharging pushing hydraulic cylinder 12 are all connected to an external hydraulic control system (not identified).

When the plate turning operation is carried out, firstly, the strip-shaped electromagnet 13 on the feeding positioning rod 8 is electrified and respectively adsorbed on the bottom surface of steel, then the driving hydraulic cylinder 6 positioned at the feeding end acts to drive the feeding overturning rod 4 to turn up by 90 degrees, in the process, the feeding pushes the piston column of the hydraulic cylinder 9 to stretch out, and the feeding positioning rod 8 is driven to turn up by a certain angle to enable the steel plate to be inclined clockwise; in the process of the action of the driving hydraulic cylinder 6 at the feeding end, the driving hydraulic cylinder 6 at the discharging end simultaneously acts to drive the discharging turnover lever 5 to turn up by 90 degrees, in the process, the discharging pushes the piston column of the hydraulic cylinder 12 to extend out to drive the discharging positioning rod 11 to turn up by an angle consistent with that of the feeding positioning rod 8, the strip-shaped electromagnets 13 on the discharging positioning rod 11 are electrified and respectively adsorbed on the top surface of steel, and then the strip-shaped electromagnets 13 on the feeding positioning rod 8 are powered off; after the steel adsorption conversion is completed, the driving hydraulic cylinder 6 at the feeding end and the driving hydraulic cylinder 6 at the discharging end reset respectively, and meanwhile, the feeding pushing hydraulic cylinder 9 and the discharging pushing hydraulic cylinder 12 reset completely, so that the steel plate turning operation can be completed smoothly, and after the steel plate is turned, the plate turning operation can be performed again.

The above is only the preferred embodiment of the present invention, and all the equivalent changes and modifications made within the scope of the claims of the present invention should belong to the scope of the present invention.

Claims (3)

1. A medium-thickness steel plate turnover machine capable of preventing scratches comprises a turnover shaft supporting seat, wherein the tops of two sides of the turnover shaft supporting seat are respectively and rotatably provided with a corresponding feeding turnover shaft and a corresponding discharging turnover shaft; the method is characterized in that: the upper surfaces of the feeding turnover rods are provided with corresponding feeding positioning grooves, one ends of the feeding positioning grooves, which are close to the turnover shaft supporting seat, are fixedly connected with corresponding feeding articulated shafts respectively, the feeding articulated shafts are articulated with corresponding feeding positioning rods respectively, and one ends of the feeding positioning rods, which are not articulated with the feeding articulated shafts, are connected to one side of the feeding positioning grooves, which is far away from the turnover shaft supporting seat, through corresponding feeding pushing hydraulic cylinders respectively; the upper surface of the blanking turnover bar is provided with corresponding blanking positioning grooves, one ends of the blanking positioning grooves, which are far away from the turnover shaft supporting seat, are respectively and fixedly connected with corresponding blanking articulated shafts, the blanking articulated shafts are respectively articulated with corresponding blanking positioning rods, and one ends, which are not articulated with the blanking articulated shafts, of the blanking positioning rods are respectively connected to one sides, which are close to the turnover shaft supporting seat, of the blanking positioning grooves through corresponding blanking pushing hydraulic cylinders; and the upper surfaces of the feeding positioning rod and the discharging positioning rod are respectively and fixedly connected with corresponding strip-shaped electromagnets.

2. The medium plate turnover machine capable of preventing scratch defects of claim 1, wherein: the two sides of the turnover shaft supporting seat are fixedly connected with a plurality of corresponding positioning bearing seats respectively, and the feeding turnover shaft and the discharging turnover shaft are connected to the two sides of the turnover shaft supporting seat in a rotating mode through corresponding supporting bearings and the positioning bearing seats in a matched mode.

3. The medium plate turnover machine capable of preventing scratch defects of claim 1, wherein: and the driving hydraulic cylinder, the feeding pushing hydraulic cylinder and the discharging pushing hydraulic cylinder are all connected to an external hydraulic control system.

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