The converging device of cylindrical shape tin can
Technical field
The utility model belongs to the load transfer device field of food, is specifically related to a kind of converging device of cylindrical shape tin can.
Background technology
In the bulk transport process of existing tin can, often there is different tin cans to be from many machining paths, converge together and just can proceed to down one packaging process.On existing manufacturing line, junction is not provided with converging device usually, and because tin can self exists inertia, and the speed that tin can flows into is often relatively rapider, will form tin can overstock stacking phenomenon at junction.In this case, usual needs manually go arrangement one time, then lower packaging process together can just be carried out, such overwork flow process not only reduces work efficiency, also delay the time of launch greatly, in addition, because tin can collides mutually when collecting, the outside face of tin can be caused to damage, affect the packaging quality of tin can.
Utility model content
What the utility model solved is, and junction is not provided with converging device that to cause cylindrical shape tin can to overstock stacking, thus adds overwork flow process, causes inefficiency, the problem of delay product introduction time.
In order to solve the problems of the technologies described above, the utility model provides following technical scheme: the converging device of cylindrical shape tin can, comprise conveyer belt, flow into chute group and interflow chute, described conveyer belt is evenly provided with division board, the diameter of the spacing between adjacent separator plates and cylindrical shape tin can matches, described inflow chute group is tip chute side by side, its chute mouth is located at the side of conveyer belt, opposite side corresponding on conveyer belt is fixed with check plate, interflow chute is arranged along the transporting direction of cylindrical shape tin can, cylindrical shape tin can between adjacent separator plates can flow into interflow chute, the bottom face part at the inflow entrance place of interflow chute is unsettled, the cross-sectional plane size of its unsettled size and division board matches.
In this programme, conveyer belt is evenly provided with division board, inflow chute group is tip chute side by side, its chute mouth is located at the side of conveyer belt, cylindrical shape tin can under gravity, when to slide into conveyer belt in two adjacent separator plates from inflow chute, because opposite side corresponding on conveyer belt is fixed with check plate, cylindrical shape tin can not due to inertia when sliding on conveyer belt, landing from conveyer belt, interflow chute is arranged along the transporting direction of cylindrical shape tin can, and the cylindrical shape tin can on conveyer belt between adjacent separator plates can flow into interflow chute, the diameter of the spacing between adjacent separator plates and cylindrical shape tin can matches, make cylindrical shape tin can when being transferred to interflow chute, move more steady, the bottom face part at the inflow entrance place of interflow chute is unsettled, the cross-sectional plane size of its unsettled size and division board matches, when cylindrical shape tin can is transported to the notch of interflow chute, cylindrical shape tin can landing in two adjacent separator plates is to collaborating chute, be transported to down one packaging process, division board continues circulatory motion from the overhead positions of the bottom face of inflow entrance, next cylindrical shape tin can is transferred to the notch of interflow chute again, iterative cycles like this, namely the interflow of batch cylindrical shape tin can is achieved.
Further, also comprise label pressure lever apparatus, described label pressure lever apparatus comprises push rod, sleeve, cylinder, and described push rod is located at sleeve inner, and push rod connects cylinder, described sleeve is provided with opening, the side of sleeve is provided with tape handler, and tape handler is communicated with the opening on sleeve, and described sleeve is located at directly over the chute inflow entrance of interflow, described tape handler is connected with stepping motor, and sleeve is fixed in frame.Cylindrical shape tin can needs to label on baling line, existing most employing is manual labels, fully can not realize the automation of producing, directly over the chute inflow entrance of interflow, label pressure lever apparatus is set, label is put on a moving belt, by step motor control tape handler, label on belt conveyor can be delivered in sleeve, now, stepping motor stops, cylinder drives push rod vertical downward movement, label in sleeve is pressed onto in the outside wall surface of circle tube tank head box, repeat aforesaid operations, thus the cylindrical shape tin can making inflow collaborate in chute can be labelled, save operation, improve efficiency.
Further, described push rod comprises cutting somebody's hair of quality of rubber materials, described cross-sectional plane of cutting somebody's hair is for semicircle, to cut somebody's hair employing quality of rubber materials, cylindrical shape tin can deformation in compression can not be made, the cross-sectional plane of cutting somebody's hair, for semicircle, make to cut somebody's hair and can better fit with the outer wall of cylindrical shape tin can, not easily drop after label is adjacent to.
Further, the length scale of described check plate is identical with the overall width size flowing into chute group notch, guarantees that check plate can block simultaneously and slides into cylindrical shape tin can conveyer belt from flowing into chute.
Further, the lower end of described interflow chute is provided with the storehouse casket depositing superfluous cylindrical shape tin can, when in the chute of interflow, cylindrical shape tin can occurs stacking, cylindrical shape tin can continue circulatory motion with division board, and storehouse casket is used for depositing the cylindrical shape tin can rotated temporarily.
Accompanying drawing explanation
Fig. 1 is the structural representation of the converging device embodiment 1 of the utility model cylindrical shape tin can;
Fig. 2 is the schematic diagram of the converging device embodiment 2 of the utility model cylindrical shape tin can.
Detailed description of the invention
Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail:
Embodiment 1
As shown in Figure 1, the converging device of cylindrical shape tin can, comprise conveyer belt 1, flow into chute group 2 and interflow chute 3, conveyer belt 1 is evenly provided with division board 4, the diameter of the spacing between adjacent separator plates 4 and cylindrical shape tin can matches, inflow chute group 2 is tip chute side by side, its chute mouth is located at the side of conveyer belt 1, opposite side corresponding on conveyer belt 1 is fixed with check plate 5, interflow chute 3 is arranged along the transporting direction of cylindrical shape tin can, cylindrical shape tin can between adjacent separator plates 4 can flow into interflow chute 3, the bottom face part at the inflow entrance place of interflow chute 3 is unsettled, the cross-sectional plane size of its unsettled size and division board 4 matches, the length scale of check plate 5 is identical with the overall width size flowing into chute 2 notch, and the lower end of interflow chute 3 is provided with the storehouse casket depositing superfluous cylindrical shape tin can.
In the present embodiment, conveyer belt 1 is evenly provided with division board 4, inflow chute group 2 is tip chute side by side, its chute mouth is located at the side of conveyer belt 1, cylindrical shape tin can under gravity, when to slide into conveyer belt 1 in two adjacent separator plates 4 from inflow chute 2, because opposite side corresponding on conveyer belt 1 is fixed with check plate 5, cylindrical shape tin can not due to inertia when sliding on conveyer belt 1, landing from conveyer belt 1, interflow chute 3 is arranged along the transporting direction of cylindrical shape tin can, and the cylindrical shape tin can on conveyer belt 1 between adjacent separator plates 4 can flow into interflow chute 3, the diameter of the spacing between adjacent separator plates 4 and cylindrical shape tin can matches, make cylindrical shape tin can when being transferred to interflow chute 3, move more steady, the bottom face part at the inflow entrance place of interflow chute 3 is unsettled, the cross-sectional plane size of its unsettled size and division board 4 matches, when cylindrical shape tin can is transported to the notch of interflow chute 3, cylindrical shape tin can landing in two adjacent separator plates 4 is to interflow chute 3, be transported to down one packaging process, division board 4 continues circulatory motion from the overhead positions of the bottom face of inflow entrance, next cylindrical shape tin can is transferred to the notch of interflow chute 3 again, iterative cycles like this, namely the interflow of batch cylindrical shape tin can is achieved.In addition, the length scale of described check plate 5 is identical with the overall width size flowing into chute group 2 notch, guarantees that check plate 5 can block simultaneously and slides into cylindrical shape tin can conveyer belt 1 from flowing into chute 2; The lower end of interflow chute 3 is provided with the storehouse casket depositing superfluous cylindrical shape tin can, and when in the chute 3 of interflow, cylindrical shape tin can occurs stacking, cylindrical shape tin can continue circulatory motion with division board 4, and storehouse casket is used for depositing the cylindrical shape tin can rotated temporarily.
Embodiment 2
As shown in Figure 2, the converging device of the cylindrical shape tin can described in the present embodiment, its structure is substantially the same manner as Example 1, difference is: also comprise label pressure lever apparatus, described label pressure lever apparatus comprises push rod 6, sleeve 7, cylinder 8, it is inner that push rod 6 is located at sleeve 7, push rod 6 connects cylinder 8, sleeve 7 is provided with opening 9, the side of sleeve 7 is provided with tape handler 10, tape handler 10 is communicated with the opening 9 on sleeve 7, sleeve 7 is located at directly over chute 3 inflow entrance of interflow, tape handler 10 is connected with stepping motor 11, what push rod 6 comprised quality of rubber materials cuts somebody's hair 12, cut somebody's hair 12 cross-sectional plane for semicircle, described sleeve 7 is fixed in frame.
The principle of said structure is such: cylindrical shape tin can needs to label on baling line, existing most employing is manual labels, fully can not realize the automation of producing, directly over chute 3 inflow entrance of interflow, label pressure lever apparatus is set, label is put on a moving belt, by stepping motor 11 control cincture transmission device 10, make the label on belt conveyor can be delivered in sleeve 7, now, stepping motor 11 stops, cylinder 8 drives push rod 6 vertical downward movement, label in sleeve 7 is pressed onto in the outside wall surface of circle tube tank head box, repeat aforesaid operations, thus the cylindrical shape tin can making inflow collaborate in chute 3 can be labelled, save operation, improve efficiency.The off time that cylinder 8 works adopts electromagnetic valve to control.
In addition, 12 employing quality of rubber materials of cutting somebody's hair, can not make cylindrical shape tin can deformation in compression, cut somebody's hair 12 cross-sectional plane for semicircle, make to cut somebody's hair and 12 can better to fit with the outer wall of cylindrical shape tin can, not easily drop after label is adjacent to.
Above-described is only preferred implementation of the present utility model; should be understood that; for a person skilled in the art; under the prerequisite not departing from the utility model structure; some distortion and improvement can also be made; these also should be considered as protection domain of the present utility model, and these all can not affect effect and the practical applicability of the utility model enforcement.