A kind of footwear material circulating conveyor
Technical field:
The utility model relates to technical field of shoe making, in particular to a kind of footwear material circulating conveyor.
Background technology:
In technical field of shoe making, the need of production of some types of shoes is through sewing processing, and such as, interior li of the flap of sports footwear, heel parts and the combination of sports footwear main body need to process through sewing.By traditional processing mode, interior li of above-mentioned flap, heel parts is by the manual feeding of workman, and on sewing machine, carries out sewing processing by workman.For batch manufacturing, the mode of production of manual feeding is unfavorable for the raising of work efficiency, and the labour intensity of workman also can not get alleviating.
Utility model content:
The technical matters that the utility model solves: during shoemaking is produced, workman is obtained by manual mode and the shoe components such as to arrange in flap, heel parts li, and is sent on sewing machine and carries out sewing processing, is unfavorable for the raising of work efficiency, and the labour intensity of workman also can not get alleviating.
The technical solution of the utility model is as follows:
A kind of footwear material circulating conveyor, comprises base plate, material fetching mechanism, loading mechanism, feeding track, driver train and cyclic conveyor structure; Described material fetching mechanism and feeding track are positioned on base plate, and described material fetching mechanism comprises translation system, jacking system and handgrip, and described feeding track is positioned at the sidepiece of material fetching mechanism; The sidepiece of described base plate is provided with cyclic conveyor structure, described cyclic conveyor structure is provided with bar shaped sheave, described bar shaped sheave is provided with arc groove and bar-shaped trough, described driver train is provided with rotor wheel, described rotor wheel is taken turns by circular arc and small column forms, and connected by connecting portion between described circular arc wheel and small column, described rotor wheel is connected to motor, described circular arc wheel and arc groove engagement, described small column and bar-shaped trough engagement; Described loading mechanism is fixed on cyclic conveyor structure, this device comprises array loading mechanism, described loading mechanism can rotate along with bar shaped sheave, described loading mechanism of often organizing comprises loading plate and charge frame, described loading plate and charge frame are and are horizontally disposed with, described charge frame is connected to cyclic conveyor structure by strut bar, and the described quantity often organizing the strut bar of loading mechanism is two.
According to technique scheme, when charge frame rotates the handgrip extremely just to material fetching mechanism, the circular arc wheel of rotor wheel engages with the arc groove of bar shaped sheave, oad due to both unanimously can not cause the rotation of bar shaped sheave, thus charge frame also keeps static by circular arc wheel with the period of arc groove engagement rotation, and the loading plate on charge frame is transferred to feeding track place by handgrip cocoa, start to engage with bar-shaped trough when circular arc wheel and arc groove depart from the small column simultaneously that comes, bar shaped sheave is driven to rotate (simultaneously loading mechanism also will along with rotation), the handgrip of material fetching mechanism keeps static and is in initial position all the time this moment, when small column engages complete with bar-shaped trough, next group loading mechanism also will arrive the just right position of handgrip, when circular arc wheel engages again with arc groove, the handgrip loading plate again captured on another charge frame completes the transmission work of second loading plate, transferable next all loading plates are to complete the work of the footwear material passed on loading plate and so forth, and simultaneously operative employee only need install loading plate additional at some fixed position places and footwear material can make loading plate and footwear material automatically be transferred on feeding track in charge frame.
By technique scheme, automatically achieve the feeding of the shoe components such as flap, interior li of heel parts, improve process velocity, reduce human cost.
Illustrate as to the one of the handgrip in technique scheme and loading plate annexation, the end of described handgrip is provided with card column, and described card column is cylindrical column, and the quantity of described card column is two; Described loading plate is provided with card column hole near one end of handgrip, and the quantity in described card column hole is two, and described card column can stretch in card column hole.Material fetching mechanism transports footwear material on loading plate by capturing and transport loading plate, the card column of the handgrip of material fetching mechanism can engage with the card column hole of loading plate, until both engaged after handgrip translation loading plate is transported to feeding track place, so complete the transport work to loading plate.
Illustrate as to the one of the charge frame in technique scheme, be provided with overhead gage and lower baffle plate in described charge frame, form material containing board slot between described overhead gage and lower baffle plate, described loading plate can slide in material containing board slot.Loading plate can slide between upper lower baffle plate, when workman loads footwear material in charge frame, footwear material can be placed on loading plate, then be pushed in charge frame by loading plate, and loading plate translation can be skidded off charge frame when handgrip captures loading plate.
As the explanation to the cyclic conveyor structure in technique scheme, described cyclic conveyor structure comprises annular base, sliding shoe and bar shaped sheave, described annular base top has the sliding tray of track type, described sliding shoe is also track type, described sliding shoe can slide in sliding tray, described bar shaped sheave is track type, and described bar shaped sheave is fixed on sliding shoe.Described loading mechanism comprises two strut bars, and described strut bar is fixed on the matrix of round pie, and described matrix is fixed on sliding shoe.Described sliding shoe is that flexible material can slide in annular base, and described bar-shaped trough human relations are all fixedly connected with sliding shoe with loading mechanism, and when motor drives bar shaped sheave to rotate, the charge frame of loading mechanism is also along with movement.
As the explanation to the feeding track in technique scheme, described feeding track is made up of the baffle plate that two are vertically arranged, the top of described two baffle plates is provided with gap, gap between described two baffle plates can transport loading plate, and described feeding track, handgrip, loading plate and charge frame are on same linear position.
As further illustrating the driver train in technique scheme, the below of described motor is provided with motor cabinet, and described motor cabinet is made up of the straight plate that two pieces are vertically set up.
Accompanying drawing illustrates:
Below in conjunction with accompanying drawing, the utility model is described further:
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the footwear material circulating conveyor structural representation only containing one group of loading mechanism;
Fig. 3 is the structural representation observing gained from the right abaft of Fig. 2;
Fig. 4 is the structural representation of the top view gained from Fig. 2;
Fig. 5 is the forward observation resulting structures schematic diagram from Fig. 2;
Fig. 6 is the a-quadrant structure for amplifying schematic diagram in Fig. 2;
Fig. 7 is the B region structure for amplifying schematic diagram in Fig. 3;
Fig. 8 is the detonation configuration schematic diagram of cyclic conveyor structure and driver train.
Detailed description of the invention:
Composition graphs 1 to Fig. 5, comprises base plate 10, material fetching mechanism 20, loading mechanism 30, feeding track 40, driver train 50 and cyclic conveyor structure 60; Described material fetching mechanism 20 and feeding track 40 are positioned on base plate 10, and described material fetching mechanism 20 comprises translation system 22, jacking system 23 and handgrip 21, and described feeding track 40 is positioned at the sidepiece of material fetching mechanism 20; The sidepiece of described base plate 10 is provided with cyclic conveyor structure 60;
Composition graphs 8, described cyclic conveyor structure 60 is provided with bar shaped sheave 63, described bar shaped sheave 63 is provided with arc groove 630 and bar-shaped trough 631, described driver train 50 is provided with rotor wheel 51, described rotor wheel 51 is made up of circular arc wheel 510 and small column 512, and connected by connecting portion 511 between described circular arc wheel 510 and small column 512, described rotor wheel 51 is connected to motor 52, described circular arc wheel 510 and arc groove 630 engage, and described small column 512 and bar-shaped trough 631 engage; Described loading mechanism 30 is fixed on cyclic conveyor structure 60;
Composition graphs 1, this device comprises array loading mechanism 30, described loading mechanism 30 can rotate along with bar shaped sheave 63, described loading mechanism 30 of often organizing comprises loading plate 33 and charge frame 31, described loading plate 33 and charge frame 31 are and are horizontally disposed with, described charge frame 31 is connected to cyclic conveyor structure 60 by strut bar 32, and the described quantity often organizing the strut bar 32 of loading mechanism 30 is two.
Composition graphs 6, the end of described handgrip 21 is provided with card column 210, and described card column 210 is cylindrical column, and the quantity of described card column 210 is two; Described loading plate 33 is provided with card column hole 330 near one end of handgrip 21, and the quantity in described card column hole 330 is two, and described card column 210 can stretch in card column hole 330.
Composition graphs 7, is provided with overhead gage 311 and lower baffle plate 312 in described charge frame 31, form material containing board slot 310 between described overhead gage 311 and lower baffle plate 312, and described loading plate 33 can slide in material containing board slot 310.
Composition graphs 8, described cyclic conveyor structure 60 comprises annular base 61, sliding shoe 62 and bar shaped sheave 63, described annular base 61 top has the sliding tray 610 of track type, described sliding shoe 62 is also track type, described sliding shoe 62 can slide in sliding tray 610, described bar shaped sheave 63 is track type, and described bar shaped sheave 63 is fixed on sliding shoe 62.Described loading mechanism 30 comprises two strut bars 32, and described strut bar 32 is fixed on the matrix 33 of round pie, and described matrix 33 is fixed on sliding shoe 62.
Composition graphs 1 and Fig. 2, described feeding track 40 is made up of the baffle plate that two are vertically arranged, the top of described two baffle plates is provided with gap, and the gap between described two baffle plates can transport loading plate 33, and described feeding track 40, handgrip 21, loading plate 33 and charge frame 31 are on same linear position.
Composition graphs 3 and Fig. 8, the below of described motor 52 is provided with motor cabinet 53, and described motor cabinet 53 is made up of the straight plate that two pieces are vertically set up.
In practical operation, when charge frame 31 rotates the handgrip 21 extremely just to material fetching mechanism 20, the circular arc wheel 510 of rotor wheel 51 engages with the arc groove 630 of bar shaped sheave 63, oad due to both unanimously can not cause the rotation of bar shaped sheave 63, thus charge frame 31 also keeps static by circular arc wheel 510 with the period of arc groove 630 engagement rotation, and the loading plate 33 on charge frame 31 can be transferred to feeding track 40 place by handgrip 21, start to engage with bar-shaped trough 631 when circular arc wheel 510 and arc groove 630 depart from the small column 512 simultaneously that comes, bar shaped sheave 63 is driven to rotate (simultaneously loading mechanism 30 also will along with rotation), the handgrip 21 of material fetching mechanism 20 keeps static and is in initial position all the time this moment, when small column 512 engages complete with bar-shaped trough 631, next group loading mechanism 30 also will arrive the just right position of handgrip 21, when circular arc wheel 510 engages again with arc groove 630, handgrip 21 loading plate 33 again captured on another charge frame 31 completes the transmission work of second loading plate 33, transferable next all loading plates 33 are to complete the work of the footwear material passed on loading plate 33 and so forth, and simultaneously operative employee only need install loading plate 33 additional at some fixed position places and footwear material can make loading plate 33 and footwear material automatically be transferred on feeding track 40 in charge frame 31.
Above content is only better embodiment of the present utility model, for those of ordinary skill in the art, according to thought of the present utility model, all will change in specific embodiments and applications, this description should not be construed as restriction of the present utility model.