Circulation material collecting device
Technical Field
The utility model relates to a production water line subassembly, the circulation material collecting device who can accept appointed quantity material specifically says so.
Background
At present, many commodities on the market are packaged in a packaging box and sold in a set. In the traditional packing method, operators stand at the tail end of the assembly line to receive and count materials, so that more manpower is consumed, the labor cost is higher, and mistakes are easily made. In the prior art, large-scale full-automatic equipment is adopted for automatic material receiving. However, large-scale fully automated equipment is complicated in structure and high in cost.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model is to provide a circulation material collecting device, the manpower that uses this circulation material collecting device to consume is less, is difficult for makeing mistakes, simple structure, and the cost is lower.
In order to solve the problems, the following technical scheme is provided:
the utility model discloses a circulation material collecting device's characteristics are including the frame, have two vertical layout's conveying sprocket in this frame, all are the rotation form cooperation between conveying sprocket and frame, two conveying sprocket's high the same, and become the parallel and arrange side by side between the two, and the cover even has the conveying chain between two conveying sprockets, has the material receiving box along its vertical equipartition on the conveying chain, has the blowing ramp in the frame of conveying chain top. The transmission chain wheel is vertically arranged on the rack, the driving wheel is vertically arranged on the rack on one side of the transmission chain wheel, the driving wheel and the rack are in rotating fit, and a driving mechanism for driving the driving wheel to rotate is arranged on the rack. The driving wheel is provided with a driving rod which extends outwards in the radial direction, and the distance from the driving rod to the outer end to the center of the driving wheel is smaller than the distance from the center of the driving wheel to the center of the driving wheel and larger than the difference between the distance from the center of the driving wheel to the center of the driving wheel and the distance from the shifting block to the center of the driving wheel. One of the conveying chain wheels is coaxially fixed with a driven chain wheel, and a transmission chain is sleeved between the driven chain wheel and the transmission chain wheel.
The conveying chain wheel comprises a fixed shaft and two chain wheel units, the fixed shaft is fixed on the frame, a hollow shaft is sleeved on the fixed shaft, the hollow shaft and the fixed shaft are in rotating fit, the two chain wheel units are fixed on the hollow shaft side by side concentrically, the chain wheel units of the two conveying chain wheels are in one-to-one fit, conveying chains are sleeved between the corresponding chain wheel units of the two conveying chain wheels, and the material receiving boxes are uniformly distributed between the two conveying chains. The driven chain wheel is concentrically fixed on a hollow shaft of a conveying chain wheel.
The outer diameter of the driven chain wheel is smaller than that of the transmission chain wheel.
By adopting the scheme, the method has the following advantages:
because the utility model discloses a circulation material collecting device's frame, there are two conveying sprocket in the frame, it has the conveying chain to overlap between two conveying sprocket, there is the material receiving box along its vertical equipartition on the conveying chain, there is the blowing ramp in the frame of conveying chain top, there is drive sprocket in the frame, there is the action wheel in the frame of drive sprocket one side, there is actuating mechanism in the frame, there is the shifting block along its circumference equipartition on drive sprocket's the wheel face, there is the driving lever that radially outwards stretches out on the action wheel, coaxial fixed has driven sprocket on one of them conveying sprocket, driven sprocket with it has drive chain to overlap between the drive sprocket. When the discharging device is used, the discharging ramp is connected with the production line. The during operation starts drive arrangement and drives the action wheel and rotate, and the action wheel is at the in-process that rotates a week, and the driving lever contacts earlier with the shifting block that is closest to the action wheel, the back separation, and when driving lever and shifting block contact, drive sprocket and rotate certain angle, and then drive conveying sprocket through drive chain and rotate certain angle to the drive is received the magazine and is advanced a definite distance, and behind driving lever and the shifting block separation, the receipts magazine stall, therefore, the action wheel is at the continuous rotation in-process, and the receipts magazine advances at regular time and distance. When receiving materials, the flow line sends quantitative materials into the feeding ramp at regular time, when the flow line sends the materials to the feeding ramp, the material receiving box is in a state of stopping advancing, and the quantitative materials fall into the material receiving box below the feeding ramp through the feeding ramp. In the period of time that the assembly line stops conveying the materials to the emptying ramp, the material receiving boxes are in an operating state, so that the next material receiving box advances to the position below the emptying ramp, and the material receiving is repeated in a circulating and quantitative mode. Adopt this circulation material collecting device to need not manual receipts material, count, the manpower consumption that has significantly reduced has reduced the human cost, and has avoided the problem that artifical count makes mistakes. Meanwhile, compared with large-scale full-automatic equipment, the circulating material receiving device is simple in structure and low in manufacturing cost.
Drawings
FIG. 1 is a schematic structural view of the recycling receiving device of the present invention;
fig. 2 is a sectional view taken along line a-a of fig. 1 (the drive chain is omitted).
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
As shown in fig. 1 and 2, the utility model discloses a circulation material collecting device includes frame 1, has two vertical arrangement's conveying sprocket 6 in this frame 1, all is the cooperation of rotating form between conveying sprocket 6 and frame 1, and two conveying sprocket 6 highly the same, and the two becomes parallel and arranges side by side, and the cover even has conveying chain 7 between two conveying sprocket 6, has material receiving box 9 along its vertical equipartition on conveying chain 7, has blowing ramp 8 on the frame 1 of conveying chain 7 top. There is vertical arrangement's drive sprocket 2 in the frame 1, has vertical arrangement's action wheel 10 in the frame 1 of drive sprocket 2 one side, all is the cooperation of form of rotation between drive sprocket 2 and action wheel 10 and the frame 1, has in the frame 1 to be used for driving action wheel 10 pivoted actuating mechanism. The wheel surface of the transmission chain wheel 2 is uniformly provided with shifting blocks 3 along the circumferential direction, the distances from the shifting blocks 3 to the circle center of the transmission chain wheel 2 are equal, the driving wheel 10 is provided with a shifting rod 11 which extends outwards in the radial direction, and the distance from the shifting rod 11 to the outer end to the circle center of the driving wheel 10 is smaller than the distance from the circle center of the transmission chain wheel 2 to the circle center of the driving wheel 10 and larger than the difference between the distance from the circle center of the transmission chain wheel 2 to the circle center of the driving wheel 10 and the distance from the shifting blocks 3 to the. One of the conveying chain wheels 6 is coaxially fixed with a driven chain wheel 5, and a transmission chain 4 is sleeved between the driven chain wheel 5 and the transmission chain wheel 2.
Conveying sprocket 6 includes fixed axle 63 and two sprocket unit 61, and fixed axle 63 fixes in frame 1, and the cover has hollow shaft 62 on the fixed axle 63, is the cooperation of rotating form between hollow shaft 62 and fixed axle 63, and two sprocket unit 61 are fixed on hollow shaft 62 side by side with one heart, is the cooperation of one-to-one form between two conveying sprocket 6's sprocket unit 61, and all overlap between two conveying sprocket 6's the corresponding sprocket unit 61 and have been linked to carry chain 7, the equipartition of receipts magazine 9 is between two conveying chain 7. The driven sprocket 5 is concentrically fixed to a hollow shaft 62 of a conveyor sprocket 6.
The outer diameter of the driven chain wheel 5 is smaller than that of the transmission chain wheel 2.
When in use, the emptying ramp 8 is connected with the production line. During operation, start drive arrangement and drive action wheel 10 and rotate, action wheel 10 is rotating the in-process of a week, driving lever 11 contacts earlier with the shifting block 3 that is closest to action wheel 10, the back separation, when driving lever 11 contacts with shifting block 3, drive sprocket 2 and rotate certain angle, and then drive conveying sprocket 6 through drive chain 4 and rotate certain angle, thereby drive receipts magazine 9 and advance the certain distance, driving lever 11 and shifting block 3 after the separation, receipts magazine 9 stall, therefore, action wheel 10 is at the continuous rotation in-process, receipts magazine 9 advances at regular interval. When receiving materials, the flow line sends quantitative materials into the feeding ramp 8 at regular time, when the flow line sends the materials to the feeding ramp 8, the material receiving box 9 is in a state of stopping advancing, and the quantitative materials fall into the material receiving box 9 below the feeding ramp 8 through the feeding ramp 8. In the time when the production line stops conveying the materials to the emptying ramp 8, the material receiving boxes 9 are in the running state, so that the next material receiving box 9 advances to the position below the emptying ramp 8, and the circulation quantitative material receiving is realized in such a reciprocating mode.