CN214779050U - Automatic blanking device - Google Patents

Abstract

The utility model discloses an automatic unloader for the automatic unloading of strip material, including transmission structure, lower flitch, transmission structure includes the action wheel, from driving wheel and transmission band, the transmission band is around establishing between the action wheel and from the driving wheel, lower flitch links up with transmission structure, transmission band area face is provided with material holding tank, the shape of material holding tank and the outline shape adaptation of strip material, the slope of lower flitch sets up downwards, the downward sunken breach that forms of unloading flitch top side, the upper portion of transmission device's tip is arranged in breach department and is made material transmitted to on the lower flitch. The transmission belt transmits the strip-shaped materials to enable the strip-shaped materials to move from the space below the lower blanking plate to the space above the lower blanking plate, and then the strip-shaped materials continue to move to the two ends of the strip-shaped materials to be in contact with the blanking surfaces on the two sides of the gap. The transmission band continues to move along the arc direction, and at the moment, the two ends of the strip-shaped material are abutted by the blanking surfaces to enable the strip-shaped material to leave the transmission band. The automatic blanking device is simple in structure, low in production cost and high in blanking speed.

Description

Automatic blanking device

Technical Field

The utility model belongs to the unloader field, in particular to automatic unloader.

Background

In order to improve the production efficiency, the industrial production of the existing products mostly adopts a full-automatic production and processing assembly line. In the production and processing of the production line, the blanking speed is high, and the processing and production efficiency of the material can be greatly improved. Most of the existing automatic blanking devices adopt complex structures such as manipulators and the like to carry out automatic blanking, and although the automatic blanking is realized, the blanking devices have complex structures and high production cost; and when the strip-shaped material is produced and processed, the blanking speed of the existing blanking structure is not fast enough, so that the strip-shaped material is not beneficial to high-efficiency production and processing.

Disclosure of Invention

In order to solve the problems, the utility model aims to provide an automatic blanking device, simple structure, low in production cost makes things convenient for batch production, wide application.

Another object of the utility model is to provide an automatic unloader, unloading speed piece, unloading back material is neat, the follow-up processing production of being convenient for.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

the utility model provides an automatic unloader for the automatic unloading of strip material, including transmission structure, lower flitch, transmission structure includes the action wheel, from driving wheel and transmission band, the transmission band is around establishing between the action wheel and from the driving wheel, the tip of unloading board and transmission structure links up, transmission band area face is provided with material holding tank, the shape of material holding tank and the outline shape adaptation of strip material, the slope of unloading board sets up downwards, the sunken breach that forms downwards of unloading board top side, the upper portion of transmission device's tip is arranged in breach department and is made material transmitted to the unloading board on. When the cylindrical strip-shaped material is discharged, the lower part of the material containing groove can be set to be in a semi-arc shape, so that the cylindrical strip-shaped material is in contact with the arc-shaped lower part of the material containing groove after the cylindrical strip-shaped material is placed in the material containing groove. But the material holding tank on the transmission structure interval evenly sets up. When the transmission band is continuously transmitted, the strip-shaped material is transmitted to the automatic blanking station. When the upper part of the end part of the transmission device is arranged at the notch, part of the end part of the transmission device protrudes out of the plane of the notch. The length of the strip-shaped material is larger than the bandwidth of the transmission belt, and the two ends of the strip-shaped material protrude out of the two sides of the transmission belt when the strip-shaped material is transmitted to the automatic blanking station by the transmission belt. The upper surfaces of the blanking plates on two sides of the notch form a blanking surface. The strip-shaped material is conveyed to the lower material plate, namely: the transmission belt transmits the strip-shaped materials to enable the strip-shaped materials to move from the space below the lower blanking plate to the space above the lower blanking plate, and then the strip-shaped materials continue to move to the two ends of the strip-shaped materials to be in contact with the blanking surfaces on the two sides of the gap. The shape of the transmission band at the end part of the transmission device is arc-shaped, when the strip-shaped material is transmitted to the blanking plate, the transmission band continues to move along the arc direction, and at the moment, the two ends of the strip-shaped material are supported by the blanking surface to enable the strip-shaped material to leave the transmission band.

The strip-shaped material feeding device is arranged below the lower material plate, the material feeding device is communicated with the lower portion of the lower material plate, and the length of the strip-shaped material is larger than the width of the notch on two sides below the primary contact point of the strip-shaped material and the lower material plate. After the strip-shaped materials are conveyed to the blanking plate, the conveying belt continues to move along the arc direction, two ends of the strip-shaped materials are abutted by the blanking surface to enable the strip-shaped materials to leave the conveying belt, the strip-shaped materials slide downwards along the inclination of the blanking surface from the first contact point, and slide to the container through the blanking plate, so that automatic blanking is realized.

Furthermore, the height of the top side of the blanking plate is lower than that of the top side of the transmission belt, the notch is rectangular, and the length of the strip-shaped material is greater than the width of the two sides of the notch. The notch is regular in shape, the strip-shaped materials are stressed uniformly when sliding on two sides of the notch, and the strip-shaped materials can be kept neat when sliding down.

Further, the inclination angle of the blanking plate ranges from 30 degrees to 60 degrees. The strip-shaped material can be supported by the blanking plate to be separated from the conveying belt and can quickly slide along the blanking plate.

The utility model has the advantages that: compared with the prior art, the automatic blanking device has the advantages of simple structure, low production cost, convenient batch production and wide application; the blanking speed block ensures that the material is neat after blanking, and is convenient for subsequent processing and production.

Drawings

Fig. 1 is an overall schematic view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to achieve the above purpose, the technical scheme of the utility model is as follows:

referring to fig. 1, the utility model provides an automatic unloader for the automatic unloading of cylinder strip material 3, including transmission structure 4, unloading board 1, material container 2, transmission structure 4 includes the action wheel, from driving wheel and transmission band 41, transmission band 41 is around establishing at the action wheel and from between the driving wheel, unloading board 1 links up with transmission structure 4's tip, transmission band 41 area is provided with material holding tank 411, the shape of material holding tank 411 and the outline shape adaptation of strip material 3, unloading board 1 slope sets up downwards, unloading board 1 top side undercut forms breach 11, breach 11 department is arranged in on the upper portion of transmission device's tip makes the material transmitted to unloading board 1. The material container 2 is arranged below the blanking plate 1, and the material container 2 is communicated with the lower part of the blanking plate 1. The material holding tank 411 lower part sets up to half circular arc, makes cylinder strip material 3 arrange material holding tank 411 back cylinder strip material 3 and the laminating contact of material holding tank 411 arc lower part in. The material receiving slots 411 of the conveying structure 4 may be uniformly spaced. While the conveyor belt 41 continues to convey, the cylindrical strip-shaped material 3 is conveyed to the automatic blanking station. When the upper part of the end of the transfer device is placed at the notch 11, part of the end protrudes out of the plane of the notch 11. The length of the cylindrical strip-shaped material 3 is larger than the bandwidth of the transmission belt 41, and when the cylindrical strip-shaped material 3 is transmitted to the automatic blanking station by the transmission belt 41, two ends of the cylindrical strip-shaped material 3 protrude out of two sides of the transmission belt 41. The upper surfaces of the blanking plates 1 on both sides of the notch 11 form blanking surfaces 12. The cylindrical strip 3 is transferred to the blanking plate 1 by: the conveyer belt 41 conveys the cylindrical strip-shaped material 3 to enable the cylindrical strip-shaped material 3 to move from the space below the lower blanking plate 1 to the space above the blanking plate 1, and the rear cylindrical strip-shaped material 3 continues to move until the two ends of the cylindrical strip-shaped material 3 are in contact with the blanking surfaces 12 on the two sides of the gap 11. The shape of the transmission belt 41 at the end of the transmission device is circular arc, when the cylindrical strip-shaped material 3 is transmitted to the blanking plate 1, the transmission belt 41 continues to move along the circular arc direction, and at the moment, two ends of the cylindrical strip-shaped material 3 are abutted by the blanking surface 12, so that the cylindrical strip-shaped material 3 leaves the transmission belt 41. At this time, the cylindrical strip-shaped material 3 slides downwards along the blanking surface 12 from the initial contact point in an inclined manner, and slides to the container 2 through the blanking plate 1, so that automatic blanking is realized.

The height of the top side of the blanking plate 1 is lower than that of the top side of the transmission band 41, the gap 11 is rectangular, and the length of the cylindrical strip-shaped material 3 is larger than the width of two sides of the gap 11. The shape of the gap 11 is regular, the cylindrical strip-shaped materials 3 are stressed uniformly when sliding on two sides of the gap 11, and the plurality of cylindrical strip-shaped materials 3 can be kept neat when sliding down.

The inclined angle of the blanking plate 1 is 45 degrees. The cylindrical strip-shaped material 3 can be supported by the blanking plate 1 to leave the conveying belt 41 and can quickly slide along the blanking plate 1.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modifications, equivalents and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (4)

1. The utility model provides an automatic unloader for the automatic unloading of strip material, includes transmission structure, lower flitch, and transmission structure includes the action wheel, follows driving wheel and transmission band, and the transmission band is around establishing between the action wheel and following driving wheel, and the tip of unloading board and transmission structure links up its characterized in that: the transmission band tape surface is provided with material holding tank, the shape of material holding tank and the overall shape adaptation of strip material, and the lower flitch slope sets up downwards, and lower flitch top side undercut forms the breach, and breach department makes material transmitted to the lower flitch on is arranged in to the upper portion of transmission device's tip.

2. The automatic blanking device of claim 1, wherein: the strip-shaped material feeding device is arranged below the blanking plate, the material feeding device is communicated with the lower portion of the blanking plate, and the length of the strip-shaped material is larger than the width of the notch on two sides below the primary contact point of the strip-shaped material and the blanking plate.

3. The automatic blanking device of claim 2, wherein: the height of the top side of the blanking plate is lower than that of the top side of the transmission belt, the notch is rectangular, and the length of the strip-shaped material is greater than the width of the two sides of the notch.

4. The automatic blanking device of claim 3, wherein: the range of the inclination angle of the blanking plate is 30-60 degrees.

Images