CN219116770U - Automatic classification sheet collecting device for oblique seam silicon steel sheet transverse cutting - Google Patents

Abstract

The utility model discloses an automatic sorting and collecting device for transverse cutting of oblique-joint silicon steel sheets, which comprises a sorting roller way arranged at the tail end of a discharging roller way, wherein the tail end of the sorting roller way is provided with a deflection roller, the deflection roller is opposite to the oblique trimming of the oblique-joint silicon steel sheets, both sides of the sorting roller way are provided with material guide plates, and the lower end of each material guide plate is provided with a collecting frame for storing a material sheet stack. According to the utility model, the inclined guide roller is arranged, so that the inclined guide roller is in sliding fit with the inclined edge of the inclined seam silicon steel sheet, the opposite inclined seam silicon steel sheet is respectively and eccentrically guided to the sheet collecting frames on the two sides, automatic sorting and arrangement are realized, and convenience is provided for sorting and collecting and arrangement of the inclined seam silicon steel sheet production.

Description

Automatic classification sheet collecting device for oblique seam silicon steel sheet transverse cutting

Technical Field

The utility model relates to the technical field of silicon steel sheet production equipment, in particular to an automatic sorting and collecting device for oblique joint silicon steel sheet transverse cutting.

Background

At present, for transverse cutting processing of the oblique seam silicon steel sheets, in order to improve the effective utilization rate of silicon steel strips and reduce waste of materials, alternative oblique cutting processing is adopted in most cases, namely, the processed oblique seam silicon steel sheets are reversely arranged between adjacent sheets, manual sorting and sorting are generally needed after the sheets are collected, and the processing is troublesome.

Disclosure of Invention

The utility model aims to: in order to overcome the defects in the prior art, the utility model provides the automatic sorting and collecting device for the transverse cutting of the oblique-seam silicon steel sheets, which is beneficial to the sliding fit of the oblique guide roller and the oblique trimming of the oblique-seam silicon steel sheets by arranging the oblique guide roller, and the inverted oblique-seam silicon steel sheets are respectively deflected to the collecting frames at the two sides, so that the automatic sorting and collecting are realized, and the convenience is provided for the sorting and collecting of the production of the oblique-seam silicon steel sheets.

The technical scheme is as follows: in order to achieve the above purpose, the automatic sorting and collecting device for the transverse cutting of the oblique-joint silicon steel sheets comprises a sorting roller way arranged at the tail end of a discharging roller way, wherein the tail end of the sorting roller way is provided with a deflection roller, the deflection roller is opposite to the oblique trimming of the oblique-joint silicon steel sheets, two sides of the sorting roller way are respectively provided with a material guide plate, and the lower end of the material guide plate is provided with a collecting frame for storing a material sheet stack.

Further, the width of the classifying roller way is smaller than that of the oblique joint silicon steel sheet.

Further, the classification roller way is arranged at the center line of the oblique joint silicon steel sheet along the length direction of the oblique joint silicon steel sheet.

Further, the material guiding plate is obliquely arranged downwards.

Further, the film collecting frame comprises a first supporting plate and a second supporting plate which are arranged perpendicular to each other.

Further, the first backup pad is for homonymy the stock guide parallel arrangement, first backup pad fixed connection is in the expansion link's the expansion end, the expansion link is for the flexible setting of spacing terminal surface of base, spacing terminal surface and homonymy the stock guide parallel arrangement.

Further, the second support plate is arranged in a sliding mode along the guide rail, the guide rail is fixedly connected to the base, and the guide rail is vertically arranged relative to the limiting end face on the same side.

The beneficial effects are that: according to the automatic sorting and collecting device for the transverse cutting of the oblique-seam silicon steel sheets, the oblique guide rollers are arranged, so that the non-homodromous silicon steel sheets can be automatically sorted onto the collecting frames on two sides by utilizing the characteristic that the oblique trimming directions of the non-homodromous oblique-seam silicon steel sheets are opposite, the relative height positions of the upper end faces of the material sheet stacks can be automatically adjusted, the material sheet stacks are ensured to be relatively orderly, the whole automatic sorting and collecting process is further realized, and convenience is provided for sorting and collecting stages of transverse cutting production of the oblique-seam silicon steel sheets.

Drawings

FIG. 1 is a top view structure diagram of an automatic sorting and collecting device in the scheme;

fig. 2 is a side view structural diagram of the automatic sorting and film collecting device in the scheme.

Detailed Description

The utility model will be further described with reference to the accompanying drawings.

The automatic sorting and collecting device for transverse cutting of the oblique-seam silicon steel sheets, as shown in the attached drawings 1-2, comprises a sorting roller way 2 arranged at the tail end of a discharging roller way 1, wherein a deflection roller 7 is arranged at the tail end of the sorting roller way 2, the deflection roller 7 is opposite to the oblique trimming of the oblique-seam silicon steel sheets 6, two sides of the sorting roller way 2 are respectively provided with a material guide plate 3, and a collecting frame 5 for storing material sheet stacks 4 is arranged at the lower end of the material guide plates 3.

The processed oblique seam silicon steel sheets are conveyed to the sorting roller way by the discharging roller way, along with the continuous pushing of the sorting roller way, the oblique trimming edge of the silicon steel sheet at the forefront contacts with the deflection roller and slides relative to the deflection roller, and as the directions of the adjacent silicon steel sheets on the production line are different, namely the oblique directions of the oblique trimming edges contacting with the deflection roller are different, the non-same-direction silicon steel sheets are respectively deflected to the sheet collecting frames at two sides, so that the same-direction silicon steel sheets are stacked together, the sorting and sorting are automatically completed, the manual investment in the sorting and sheet collecting and sorting stage can be reduced, and convenience is provided for sorting and sheet collecting and sorting of the production of the oblique seam silicon steel sheets.

As a preferred embodiment, the width of the sorting table 2 is smaller than the width of the oblique-joint silicon steel sheet 6; the classifying roller way 2 is arranged at the center line of the inclined joint silicon steel sheet 6 along the length direction of the inclined joint silicon steel sheet 6; the material guide plate 3 is obliquely arranged downwards.

Because the oblique seam silicon steel sheets produced after cutting are of isosceles trapezoid structures with an angle of 45 degrees, gravity center offset exists in the width direction, the silicon steel sheets are biased to one side with a longer bottom edge and are just driven by a biasing wheel to move to one side with the longer bottom edge, and a track with the width smaller than the width of the silicon steel sheets is adopted as a classification track, so that after the silicon steel sheets have a tendency of being biased to any side under the action of the biasing wheel, the silicon steel sheets can quickly slide to a sheet collecting frame in the direction under the action of gravity center offset; the classification track is ensured to be positioned at the center line of the silicon steel sheet in the length direction, so that the deflection to two sides can be ensured to have the same effect; in addition, the guide plates on two sides are obliquely and downwards arranged, so that the silicon steel sheet can be ensured to rapidly slide onto the sheet collecting frame along with the guide plates, the sheet collecting efficiency is improved, and meanwhile, the damage to the silicon steel sheet is avoided.

The film collecting frame 5 comprises a first supporting plate 5-1 and a second supporting plate 5-2 which are mutually perpendicular; the first supporting plate 5-1 is arranged in parallel relative to the material guide plate 3 on the same side, the first supporting plate 5-1 is fixedly connected to the movable end of the telescopic rod 9, the telescopic rod 9 is arranged in telescopic manner relative to the limiting end face 10-1 of the base 10, and the limiting end face 10-1 is arranged in parallel with the material guide plate 3 on the same side; the second supporting plate 5-2 is slidably arranged along the guide rail 8, the guide rail 8 is fixedly connected to the base 10, and the guide rail 8 is vertically arranged relative to the limiting end face 10-1 on the same side.

The two mutually perpendicular supporting plate structures are adopted to form a bucket-shaped structure with an angle of 90 degrees, one side end face supports the wider side face of the silicon steel sheet, and the other side end face just supports the edge of one side of the long bottom edge, so that the stability of a tablet stack in the tablet collecting process can be ensured, and the tidy tablet collecting can be ensured; the telescopic rod can drive the sheet collecting frame to move relative to the end face of the material guide plate, the supporting end face of the first supporting plate is flush with the material guide end face of the material guide plate through the telescopic rod at first, along with continuous sheet collecting, the material sheet pair is thickened gradually, the telescopic rod can be contracted through the telescopic rod, so that the silicon steel sheet located on the uppermost layer is always kept in a state flush with the material guide end face of the material guide plate, the problem that the orderly collection of the material sheet after the thickness of the material sheet stack is thickened is avoided, and finally, the material sheet stack of the silicon steel sheet on the sheet collecting frame is collected and packaged only through manpower or a machine, so that the sheet collecting frame is convenient.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present utility model, and such modifications and adaptations are intended to be comprehended within the scope of the utility model.

Claims (7)

1. Automatic classifying and collecting device for transverse cutting of oblique seam silicon steel sheets is characterized in that: including setting up in the terminal classification roll table (2) of ejection of compact roll table (1), the end of classification roll table (2) is provided with off-set deflector roll (7), off-set deflector roll (7) are just to the slope side cut setting of oblique seam silicon steel sheet (6), the both sides of classification roll table (2) all are provided with stock guide (3), stock guide (3) lower extreme is provided with and is used for depositing receipts film frame (5) of tablet heap (4).

2. The automatic sorting and collecting device for transverse cutting of oblique-joint silicon steel sheets according to claim 1, wherein the automatic sorting and collecting device is characterized in that: the width of the classifying roller way (2) is smaller than that of the inclined joint silicon steel sheet (6).

3. The automatic sorting and collecting device for transverse cutting of oblique-joint silicon steel sheets according to claim 2, wherein the automatic sorting and collecting device is characterized in that: the classifying roller way (2) is arranged at the center line of the inclined seam silicon steel sheet (6) along the length direction of the inclined seam silicon steel sheet (6).

4. An automatic sorting and collecting device for transverse cutting of oblique-joint silicon steel sheets according to claim 3, which is characterized in that: the material guide plate (3) is obliquely arranged downwards.

5. The automatic sorting and collecting device for transverse cutting of the oblique-joint silicon steel sheets, as set forth in claim 4, is characterized in that: the film collecting frame (5) comprises a first supporting plate (5-1) and a second supporting plate (5-2) which are arranged perpendicular to each other.

6. The automatic sorting and collecting device for transverse cutting of the oblique-joint silicon steel sheets, as set forth in claim 5, is characterized in that: the first support plate (5-1) is arranged in parallel to the material guide plate (3) on the same side, the first support plate (5-1) is fixedly connected to the movable end of the telescopic rod (9), the telescopic rod (9) is arranged in a telescopic manner relative to the limiting end face (10-1) of the base (10), and the limiting end face (10-1) is arranged in parallel to the material guide plate (3) on the same side.

7. The automatic sorting and collecting device for transverse cutting of the oblique-joint silicon steel sheets, as set forth in claim 6, is characterized in that: the second supporting plate (5-2) is arranged in a sliding mode along the guide rail (8), the guide rail (8) is fixedly connected to the base (10), and the guide rail (8) is vertically arranged relative to the limiting end face (10-1) on the same side.

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