The specific embodiment
In conjunction with Fig. 1 to Fig. 6, the utility model is described further:
A kind of feeding-distribution device, device comprises the first path 10 and the alternate path 20 of oblique layout, described the first path 10 is staggered form setting with alternate path 20 integral body, the charging aperture 21 of alternate path 20 is between the charging aperture 11 and conveyer belt 50 of the first path 10, the discharging opening 12 of the first path 10 is positioned at the below of the charging aperture 21 of alternate path 20, and the discharging opening 22 of alternate path 20 is positioned at the below of the charging aperture 11 of the first path 10.
Shown in Fig. 1 and Fig. 2, integral body is first passage 10 and the second channel 20 that diagonal cross arranges, the charging aperture 21 of alternate path 20 is between the charging aperture 11 and conveyer belt F of the first path 10, when until the flat conveyer belt F that throws of material when upper, the nozzle G that is arranged in the scavenger system at second channel 20 charging aperture 21 places, top position can blow charging aperture 11 positions to second channel 20 by the flat substandard products for the treatment of sorting material of throwing, in the material storing box of discharging opening 22 lower ends of substandard products material along second channel 20 landings to second channel 20, treat that finished product in sorting material is flat and throw charging aperture 11 positions to first passage 10, on conveyer belt E on the separation system again that discharging opening 12 belows of finished product materials along first passage 10 landings to first passage 10 arrange, due to the first passage 10 of this sorting unit and the discharging opening 12 of second channel 20, 22 corresponding belows that are arranged on the charging aperture 21 of second channel 20 and the charging aperture 11 of first passage 10 respectively, can will treat that the finished product in sorting material is oppositely transferred to again on the conveyer belt E of separation system, the conveyer belt E of separation system again now can be arranged on the below of material conveyor belt F, therefore can make the separating structure of color selector be positioned at vertical direction layout, reduced the length that look selects conveying mechanism, and then the space that takies of the width that reduces color selector, also convenient to dividing for the first time the finished product materials of choosing to carry out sorting again, to improve the quality of finished product materials.
Further, shown in Fig. 3, described the first path 10 and the width dislocation arranged crosswise of alternate path 20 along conveyer belt F, several first paths 10 and alternate path 20 are set like this, its charging aperture 11,21 can reliably be accepted the material for the treatment of sorting that conveyer belt F derives, and adapts to the conveyer belt F use of different in width, at utmost improves the efficiency of sub-material, also make material blanking unimpeded, avoid the generation of clogging simultaneously.
Further, concrete feeding-distribution device design, shown in Fig. 2, described feeding-distribution device comprise that angle formula arranges before, squab panel 30, 40 and its large openend upwards, left, right two ends arrange end plate 50, before, squab panel 30, 40 with left, the end plate 50 at right two ends encloses bucket-shaped chamber, dividing plate 60 is set in bucket-shaped chamber bucket-shaped chamber isolation is become to the charging aperture 11 of the first path 10 and the charging aperture 21 of alternate path 20, the large bottom of bucket-shaped chamber opening is little, be exactly specifically first, second channel 10, 20 charging aperture 11, 21 place, position sizes are large, front and back coaming plate 30, the size at 40 crossover location places is less, can reliable and stablely accept the material for the treatment of sorting like this, central dividing plate 60 can be separated by the substandard products material of the finished product materials of first passage 10 charging apertures 11 and second channel 20 charging apertures 21, to avoid substandard products material, scurry into the phenomenon in finished product materials, affect the quality of finished product materials.
Further, by reference to the accompanying drawings 2, 4, shown in 5, before described, squab panel 30, postpone separately and be furnished with the discharging opening 12 of plate body and the first path 10 and the suitable formation first that connects of the discharging opening of alternate path 20 22 in 40 bottom, two stock guides 70, 80, the bottom margin of the first stock guide 70 is positioned at again the top of the conveyer belt E of separation system, so just the first stock guide 70 can be accepted to the sliding fallen finished product materials delivery of first passage 10 charging aperture 11 to conveyer belt E, to reach the object of again finished product materials being carried out sorting, the second stock guide 80 is accepted the sliding fallen substandard products material of second channel 20 charging aperture 21, and substandard products material is transferred in the material storing box of color selector outside.
Further, as two passage specific embodiments, shown in Fig. 5 and 6, cross section is set for rolling over the first pipe 90 of shape or arc between described front coaming plate 30 and dividing plate 60, the first pipe upper end of 90 is communicated in the chamber between squab panel 40 and dividing plate 60 and is communicated with the charging aperture 11 of the first path 10, postpone and be connected on the plate face of the first stock guide 70 in the lower end of the first pipe 90, cross section is set for rolling over the second pipe 100 of shape or arc between squab panel 40 and dividing plate 60, the second pipe upper end of 100 is communicated in the chamber between front coaming plate 30 and dividing plate 60 and is communicated with the charging aperture 21 of alternate path 20, postpone and be connected on the plate face of the second stock guide 80 in the lower end of the second pipe 100, after being derived by conveyer belt F discharge end of sorting, substandard products material blows to the front coaming plate 30 and the chamber between dividing plate 60 of the second pipe 100 upper ends, and on the second pipe 100 landing to the second stock guides 80, finished product materials is flat throws to the squab panel 40 and the chamber between dividing plate 60 of the first pipe upper end, and on landing to the first stock guide 70 of the first pipe 90, thereby finished product materials delivery is carried out to sorting again to the conveyer belt E of separation system again.
Further, the specific embodiment as the first pipe 90, the first described pipe 90 comprises the first tube wall 91 and the second tube wall 92, described the first tube wall 91 is a gusset, two walls of described gusset are obliquely installed, shown in Fig. 6, described the second tube wall 92 is two thin plates, the vertical two wall lower edge that are arranged on gusset of described two thin plates, the plate face of the lower edge of two described thin plates and the first stock guide 70 is affixed, on described dividing plate 60, be provided with through hole A, shown in Fig. 5, on described front coaming plate 30, be provided with through hole B, shown in Fig. 4, the upper surface of described the first pipe 90 and the through hole A hole wall of dividing plate 60 are fitted and connected, the through hole B hole wall of its lower surface and front coaming plate 30 is fitted and connected, so just reached into the first pipe 90, finished product materials can be along on the first pipe 90 landing to the first stock guides 70.
Closer, the specific embodiment as the second pipe 100, in conjunction with Fig. 6, the second described pipe 100 comprises the first tube wall 101, described the first tube wall 101 is for being arranged on the gusset on squab panel 40, two wall lower limbs of described gusset and the plate face of squab panel 40 are connected, on the upper surface of the first tube wall 101 and dividing plate 60, being provided with through hole C hole wall is fitted and connected, the through hole D hole wall arranging on the other end of the first tube wall 101 and squab panel 40 is fitted and connected, the gusset of the first described tube wall 101 is arranged between squab panel 40 and dividing plate 60, gusset has formed the dividing plate between first passage 10 feeding mouths 11, the tilting two side of gusset is convenient to material to be sent in the first pipe 90, and in fact, two adjacent sidewalls of the first pipe 90 of adjacent setting, formed a sidewall of the second pipe 100, in conjunction with Fig. 4 and 6, front coaming plate 30 has formed another sidewall of the second pipe 100, substandard products material carries out in the second pipe 100 along the feeding mouth 21 at the place, upper end of the second pipe 100, enter the through hole C arranging on dividing plate 60, and then in the through hole D arranging on squab panel 40, thereby substandard products material is sent on the second stock guide 80.
Further, the vertical striker plate 41 that is provided with in upper end-face edge place of described squab panel 40, the upper end-face edge place of described dividing plate 60 is provided with adjustable plate 61, described adjustable plate 61 forms hinged cooperation with dividing plate 60, the side plate face of described adjustable plate 61 and one end of support 62 are connected, described support 62 is L-shaped, the other end of support 62 is provided with bar hole 621, and this end is connected by the plate face of bolt and end plate 50, in conjunction with Fig. 2 and Fig. 4, by the adjustable adjustable plate 61 of the bar hole 621 on support 62, be different angles from dividing plate 60, thereby before adjustable, squab panel 30, 40 with left, the end plate 50 at right two ends encloses the size of bucket-shaped chamber opening, and then adjustable first, second channel 10, 20 feeding mouths 11, 21 size.
Finally, shown in Fig. 2, the vertical flange that is provided with in both sides of the edge of described first and second stock guide 70,80, on described flange, be covered with first, second cover plate 71,81, first, second stock guide 70,80 can be enclosed to semi-enclosed pipeline like this, can avoid the phenomenon that jumps and from the material of the first pipe 90 and the second pipe 100 derivation.