Automatic decline blind dual output controller
Technical field
The utility model relates to household articles technical field, particularly relates to a kind of decline blind dual output controller automatically.
Background technology
Along with the extensive use of household shading product blind, automatically decline blind dual output controller generally adopts and singly exports control at present, double control spool take-up simultaneously, turn over leaf function, therefore just produce a problem: be exactly blind when declining, take-up is synchronous with turning over leaf, and while produce friction, because the existence of frictional force time this just makes blind decline, can not decline smoothly.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of decline blind dual output controller automatically, this automatic decline shutter blind winder controls controller can when controlling blind and declining, spool is independent of each other with turning over the two-part drives structure of impeller, thus realizes blind and turn over leaf with automatically declining and be independent of each other.
For solving the problems of the technologies described above, the automatic decline blind dual output controller that the utility model provides comprises control headstock, controller enclosing cover, turn over leaf output shaft, clutch, transmission mechanism, describedly turn over leaf output shaft and clutch is all arranged on described control headstock, described transmission mechanism respectively with turn over leaf output shaft and clutch is connected, described clutch is connected with winder, described clutch comprises clutch joint, clutch sheave, ball and fixed cap, described ball is arranged in clutch sheave, described fixed cap is by described clutch sheave and turn over leaf output shaft and be fixed on described control headstock, described transmission mechanism comprises sprocket wheel, planet carrier, four are installed in the inner and planetary gear be assembled together with described sprocket wheel of planet carrier, gear output shaft and turn over leaf driven wheel, described clutch sheave outer round surface being provided with one can for the helical groove of described steel ball motion, the one end of turning over leaf driven wheel described in described clutch sheave is close offers one or four square holes, the described leaf driven wheel output shaft that turns over offers the square axis corresponding with described four square hole sizes with one end that described clutch sheave coordinates, described turning on leaf driven wheel offers about one four square holes run through, the square axis of described gear output shaft coordinates with described four square holes turning over leaf driven wheel, coordinate with four square holes of described clutch sheave simultaneously, the described leaf output shaft that turns over is separate from described clutch and controlled by different output shafts, describedly turn over leaf driven wheel and describedly turn over leaf output shaft and the described leaf driven wheel that turns over cooperatively interacts, form a road to export, described clutch sheave is meshed together by described ball and described clutch output shaft, form another road to export.
Preferably, planetary gear described in each and gear output shaft near gear one end fits together with, described in turn over leaf driven wheel and distribute along gear output shaft neighboring.
Preferably, turn over described in leaf output shaft deviate from described in turn over impeller one end on offer several teeth coordinated with described gear.
Preferably, described fixed cap is semi-circular cylindrical, one end is equiped with the baffle plate offering upper and lower two through holes in the middle of, one end that described joint deviates from gear is assembled together through lower through-hole and described shutter blind winder, described in turn over leaf output shaft and pass upper through hole away from one end of described gear and the described impeller that turns over is assembled together.
Preferably, described clutch sheave is provided with some active engaging tooths, described clutch joint is provided with some driven engaging tooths, described active engaging tooth and driven engaging tooth are arranged on clutch sheave two end faces relative with clutch joint respectively, together with described active engaging tooth engages each other with described driven engaging tooth.
After adopting said structure, when using automatic decline blind dual output controller to control blind decline, by turning over the motion of impeller described in described gear and the described conjugate control turning over impeller output shaft, the motion controlling shutter blind winder is engaged by described clutch sheave and described joint, realize spool to be independent of each other with turning over impeller two parts drive mechanism, thus realize blind turn over leaf with automatically decline.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model decline blind dual output controller automatically;
Fig. 2 is the three-dimensional assembly diagram of the utility model decline blind dual output controller automatically;
Detailed description of the invention
In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only for explaining the utility model, and be not used in restriction the utility model.
Refer to Fig. 1, Fig. 1 is the structural representation of the utility model decline blind dual output controller automatically, in the present embodiment, automatic decline blind dual output controller comprises control headstock 16, controller enclosing cover 15, turn over leaf output shaft 13, clutch 12, transmission mechanism 11, described leaf output shaft 13 and the clutch 12 of turning over all is arranged on and controls on headstock 16, described transmission mechanism 11 respectively with turn over leaf output shaft 13 and clutch 12 is connected, described clutch 12 links together with winder, described clutch 12 comprises clutch joint 124, clutch sheave 122, ball 125 and fixed cap 123, ball 125 is arranged in clutch sheave 12, fixed cap 123 is by described clutch sheave 122 and turn over leaf output shaft 13 and be fixed on and control on headstock, described transmission mechanism comprises sprocket wheel 112, planet carrier 113, four are installed in the inner and planetary gear 117 be assembled together with described sprocket wheel 112 of planet carrier, gear output shaft 114, turn over leaf driven wheel 118, described gear output shaft 114 is assembled together with the described leaf driven wheel 118 that turns over, the described leaf output shaft 13 that turns over is separate from described clutch 12 and controlled by different output shafts, described clutch sheave 122 outer round surface being provided with one can for the helical groove of described steel ball motion.
Turn over leaf driven wheel 117 and adopt that more than 1:3's turn over leaf driven wheel reducing gear, in this example preferential be 1:3 turn over leaf driven wheel reducing gear.
Clutch 12 also comprises several balls 125, fixed cap 123, fixed cap 123 is in semi-circular cylindrical, one end is equiped with the baffle plate offering upper and lower two through holes in the middle of, one end that clutch joint 124 deviates from gear 121 is assembled together through lower through-hole and described shutter blind winder, turns over leaf output shaft 13 away from described one end of turning over leaf driven wheel 118 through upper through hole and turn over impeller and be assembled together.Clutch sheave 122 offers one or four square holes near the end face turning over leaf driven wheel 118, and it is the square matched with described four square holes that gear output shaft 114 deviates from the one end of turning over leaf driven wheel 118.
Turn over leaf output shaft 13 deviate from described in turn over impeller one end on offer several and the described tooth turning over leaf driven wheel 121 and coordinate.
Clutch sheave 122 outer round surface being provided with one can for the spiral slot of described ball moving, and the inner side on fixed cap 123 edge is provided with deep-slotted chip breaker corresponding to spiral slot described in, and the half that ball 125 and described spiral slot deviate from is installed in deep-slotted chip breaker.
Clutch sheave 122 is provided with some active engaging tooths, clutch joint 124 is provided with some driven engaging tooths, initiatively engaging tooth is arranged on clutch sheave 122 two end faces relative with clutch joint 124 with driven engaging tooth respectively, together with initiatively engaging tooth engages each other with driven engaging tooth.
Please composition graphs 2, Fig. 2 is the three-dimensional assembly diagram of the utility model decline blind dual output controller automatically again, the gear 118 be fixed on gear output shaft 114 engages with the tooth turning over leaf output shaft 114, complete the gear output shaft 114 output torque first via to export, the moment loading of output turns on impeller, for controlling the angle adjustment of blade at winder by planetary gear speed reducing mechanism by this output, when gear output shaft 114 drives clutch sheave 122 to a square rotation, under the effect of steel ball, the active engaging tooth of clutch sheave 122 is engaged all the time with the driven engaging tooth of joint, thus the second tunnel realizing gear output shaft output torque exports, by the connection of clutch joint 124 with winder, drive winder rotates, realize the rising of blade, when gear output shaft 114 moves round about, under the effect of ball 125, clutch sheave 122 moves to the direction contrary with clutch joint 124, the active engaging tooth of clutch sheave is separated with the driven engaging tooth of joint, clutch joint 124 is made not have the input of moment, blade is under the effect of deadweight, automatic decline.
When using automatic decline blind dual output controller 10 to control blind decline, the motion of impeller is turned over by turning over leaf driven wheel 118 and the conjugate control turning over impeller output shaft 13, the motion controlling shutter blind winder is engaged by clutch sheave 122 and clutch joint 124, realize winder to be independent of each other with turning over impeller two parts drive mechanism, thus realize blind turn over leaf with automatically decline.
Should be understood that; these are only preferred embodiment of the present utility model; can not therefore limit the scope of the claims of the present utility model; every utilize the utility model manual and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.