CN103860048A - Magnetic automatic agitating vessel - Google Patents

Abstract

The invention relates to a beverage blending vessel in a catering service industry, in particular to a magnetic automatic agitating vessel. The magnetic automatic agitating vessel comprises a cylindrical barrel located on the upper surface of a circular disc base; an arc-surface-shaped connection body is simultaneously connected with the cylindrical barrel and the circular disc base; the magnetic automatic agitating vessel further comprises a swinging rod, a transition connection rod, a double-faced rack, cylindrical gears, a rotary shaft, a tension spring, a driving magnetic impeller and a driven magnetic impeller to form an operation movement piece; in the operation process, only a rectangular handle needs to be held by a thumb and an index finger of one hand; a middle finger, a ring finger and a little finger are overlapped on a ripple anti-sliding rubber sleeve of the swinging rod to do finger tensioning or finger loosening movement; the resetting effect of the tension spring is combined so as to covert swinging movement of the swinging rod to linear reciprocating movement of the double-faced rack and further drive the two symmetrically-arranged cylindrical gears to do anticlockwise rotation and clockwise rotation; the driving magnetic impeller and the driven magnetic impeller are used for separating the bottom plane of the barrel and correspond to each other so as to easily realize contact-free agitation of blending beverages.

Description

A kind of magnetic force automatic stirring vessel

Technical field

The present invention relates to the allotment drink vessel of food and restaurant service industry, relate in particular to a kind of magnetic force automatic stirring vessel.

Background technology

Along with the raising of people's living standard, now a lot of people like having milk tea, coffee, fruit juice etc. allotment drink, after brewing, need to stir with spoon, milk tea, coffee etc. are dissolved completely, in the process stirring, the collision of spoon and cup makes a noise, and sometimes water too completely one stir also can spill next.When liquid (as coffee) in people want stirred vessel, or because of darker at the bottom of bottle, at the bottom of common spoon can't reach bottle, need to liquid be stirred by objects such as stirring rod, cause and cannot stir if can not find utilizable object.

Particularly for food and restaurant service industry and family and unit in the time giving a banquet, for example to add allotment drink to numerous eaters with the large vessel of deployed allotment drink simultaneously, lifting on the other hand vessel, another hand is taken over eater's tableware, again can not vacate a hand takes the stirring apparatus such as spoon to remove to stir the allotment drink of easy precipitation, and the stirring apparatus such as spoon are shelved and get back to be repeatedly used also extremely unhygienic outside.Put equally the shared mug allotment drink on dining table; if it is also extremely unhygienic that every eater stirs with chopsticks separately or the diffluence of spoon wheel the allotment drink having precipitated conveniently, the granular solids allotment drink that people often can be found to the last overwhelming majority awkwardly can remain in bottom vessel not out.This trifle thing hang-up all food and restaurant service industry waiter and housewife and reception personnels of unit of all times that always puzzling, various countries scientific research personnel also has a large amount of research reports, but does not all find one solution easily.

The necessary external power supply of existing electric mixing cup, complex structure, if also cause and cannot use in there is no energy support.A structure for disclosed jar, comprises cup, bowl cover and handle, offers circular hole in bowl cover center, and a swingle sees through circular hole and inserts cup, is provided with horizontal handle on swingle top, and bottom is provided with horizontal agitating plate.When use, user holds the horizontal handle at swingle top, then rotation, and the horizontal agitating plate of driven rotary bar bottom rotates the object of cup inside is stirred.(Baidu's patent search " jar " application number/patent No.: 200720012857).Its weak point is that stirring operation must carry out on bowl cover, closes and opens the actions such as bowl cover and can make troubles.

Implementation of the present invention is as follows:

A kind of magnetic force automatic stirring vessel, cylindrical tube is positioned at above disc base, the cancave cambered surface of cambered surface connector is connected with the described cylindrical simplified and external arc of disc base simultaneously, on upper connecting cross beam between the upper end of rectangle handle and described cambered surface connector, there is fork detent, on the lower connecting cross beam between the lower end of rectangle handle and described cambered surface connector, have fork groove, described cambered surface connector is provided with a lug groove on the convex globoidal between described upper connecting cross beam and described lower connecting cross beam, base upper recess surface on described disc base is close to described cylindrical shell baseplane, in base upper recess surface, there is lower disk chamber, base concave surface on described disc base has two gear cylindrical cavities, has lumen pore step to communicate with described lower disk chamber on each gear cylindrical cavity, between gear cylindrical cavity described in two, having a base through slot to pass through communicates, in each described gear cylindrical cavity, there is a roller gear to be connected with transmission of rotary axis by flat key, there are respectively the second shaft part and the first shaft part in the keyway both sides of rotating shaft, the first shaft part is also extended with the unloaded section of axle and axle spline segment successively, on the first described shaft part, interference fit clutch shaft bearing endoporus, clutch shaft bearing cylindrical coordinates with described lumen pore step transition, on the second shaft part, interference fit the second brearing bore, end cap stepped hole interference fits on the second bearing top circle and bearing (ball) cover, step cylindrical on bearing (ball) cover and described gear cylindrical cavity interference fits, bearing (ball) cover is fixed on described base concave surface by 3 to 6 bolts of cover, the described base through slot the two-sided rack that is being slidably matched, the both sides spur rack of the two-sided rack is meshed with described roller gear simultaneously, between tooth bar through hole on the two-sided rack and tooth bar bearing pin, rotary sliding is connected, and the riveted joint of tooth bar bearing pin two ends is fixed on the connecting rod jag through hole of described transition connecting rod, between the connecting rod aperture of the transition connecting rod other end and pitman pin, rotary sliding is connected, and the riveted joint of pitman pin two ends is fixed on the fork pin-and-hole of fork side wall lower ends of swing arm, described swing arm upper end has fork locating hole to pass through described fork groove to be connected with described fork alignment pin rotary sliding, and rivet on the dowel hole of the fork detent described in being fixed at fork alignment pin two ends, described fork sidewall is also riveted and is fixed with extension spring untie-sell between fork alignment pin and pitman pin, tension spring one termination is hooked in extension spring untie-sell, another termination of tension spring is hooked in the extension spring rationed marketing on described lug groove, as improvement: be sliding combined with initiatively magnetic force impeller on described axle spline segment, on axle spline segment outer end, have axle snap ring to block initiatively magnetic force impeller, initiatively there is an initiatively magnetic pole at magnetic force impeller two ends, on described cylindrical shell baseplane, axial symmetry is furnished with two boss cylinder axis, passive magnetic force impeller described in each boss cylinder axis is being slidably matched, it is corresponding with described active magnetic pole that passive magnetic force impeller two ends have a passive magnetic pole isolating described simplified baseplane, and described cylindrical tube (10) and described boss cylinder axis (19) are non-magnetic austenitic stainless steel material, and its chemical component weight ratio is: Cr:17～19%, Ni:7～9%, Mn≤1%, Cu:1.2～1.4%, Al≤0.05%, Si≤0.5%, C:0.06～0.08%, N≤0.4%, P:0.03～0.05%, S:0.02～0.04%, V:0.2～0.4%, surplus is iron and inevitable impurity.

As further improvement: described cylindrical simplified cylindrical is provided with 2 to 4 upper screw lugs, on described disc base periphery, there is screw inserts at the bottom of 2 to be positioned at a port of described base through slot upper and lower; It is corresponding with described upper screw lug that described cambered surface connector is provided with 2 to 4 through holes of topping bar more than described lower connecting cross beam, and described through hole and the described lug groove of topping bar staggers mutually; Described cambered surface connector is corresponding with described end screw inserts to be arranged with 2 through holes of getting out of a predicament or an embarrassing situation at described lower connecting cross beam; 4 to 6 attachment screws 11 are respectively through through hole and get out of a predicament or an embarrassing situation through hole and described upper screw lug and the described end screw inserts screw thread secure fit of topping bar, and getting out of a predicament or an embarrassing situation described in two is provided with handle groove and described base through slot positive alignment between through hole.

As further improvement: described cylindrical simplified and described boss cylinder axis is nonmagnetic material, and the body diameter of cylindrical tube is 112 to 128 millimeters, and the height of cylindrical tube is 210 to 220 millimeters; The body diameter of boss cylinder axis is 1 to 3 millimeter, and the boss disk diameter of boss cylinder axis bottom is 5 to 7 millimeters, and boss disc height is 1 to 3 millimeter; Central shaft distance between two boss cylinder axis is 56 to 58 millimeters.

As further improvement: the active magnetic pole described in every is the fan-shaped cylinder that shape is identical with described passive magnetic pole, and the height of fan-shaped cylinder is 5 to 7 millimeters, and the inside radius of fan-shaped cylinder is 14 to 16 millimeters, and the outer radius of fan-shaped cylinder is 20 to 22 millimeters.

As further improvement: described fork sidewall between extension spring untie-sell and pitman pin also interference fit have ripple anti-slip rubber cover.

The invention has the beneficial effects as follows:

1. magnetically-actuated, contactless isolating seal, not contact food of outside each Motor execution parts, passive magnetic force impeller and boss cylinder axis are slidably matched and conveniently unload cleaning, and special health is secure, when operation, only need hold rectangle handle with singlehanded thumb and forefinger, use remaining middle finger, the ripple anti-slip rubber that the third finger and little finger of toe ride over swing arm puts to be made fastening finger or unclamps finger movement, the reset response of associating tension spring, the straight line that is the two-sided rack by the rotation conversion of motion of swing arm by transition connecting rod moves back and forth, then drive two symmetrically arranged Cylinder Gear crop rotations be rotated counterclockwise and turn clockwise, on axle spline segment, being sliding combined with initiatively the active magnetic pole at magnetic force impeller two ends and the passive magnetic pole of simplified baseplane, to isolate simplified baseplane corresponding, easily realize the contactless stirring to allotment drink, the two-sided rack drives two roller gears to do rotating simultaneously, make two passive magnetic poles that axial symmetry on cylindrical shell baseplane arranges in allotment drink, more easily produce vortex and improve and stir benefit being stirred.

2. between each fixed part, structure is distinct, and the fork detent of upper connecting cross beam and the fork groove of lower connecting cross beam echo and play a role up and down; 4 to 6 attachment screws 11 are respectively through through hole and get out of a predicament or an embarrassing situation through hole and upper screw lug and the end screw inserts screw thread secure fit of topping bar, two get out of a predicament or an embarrassing situation between through hole, be provided with handle groove with base through slot apart from aiming at; Substantive syndeton between each moving component guarantees that movement locus is accurate, the straight line that to have set up especially transition connecting rod be the two-sided rack by the rotation conversion of motion of swing arm moves back and forth, roller gear is connected with transmission of rotary axis by flat key, there are respectively the second shaft part and the first shaft part in the keyway both sides of rotating shaft, and the first shaft part is also extended with the unloaded section of axle and axle spline segment successively; On axle spline segment, be sliding combined with initiatively magnetic force impeller, have axle snap ring to block initiatively magnetic force impeller on axle spline segment outer end, initiatively there is an initiatively magnetic pole at magnetic force impeller two ends; Installation cooperation structure between each fixed part and each moving component is clear definite, fork sidewall is also riveted and is fixed with extension spring untie-sell between fork alignment pin and pitman pin, tension spring one termination is hooked in extension spring untie-sell, and another termination of tension spring is hooked in the extension spring rationed marketing on lug groove; On the first shaft part, interference fit clutch shaft bearing endoporus, clutch shaft bearing cylindrical coordinates with lumen pore step transition, on the second shaft part, interference fit the second brearing bore, end cap stepped hole interference fits on the second bearing top circle and bearing (ball) cover, step cylindrical on bearing (ball) cover and gear cylindrical cavity interference fits, bearing (ball) cover is fixed on base concave surface by 3 to 6 bolts of cover; On simplified baseplane, axial symmetry is furnished with two boss cylinder axis, each boss cylinder axis passive magnetic force impeller that is being slidably matched, and passive magnetic force impeller two ends have a passive magnetic pole isolating cylindrical shell baseplane and initiatively magnetic pole is corresponding.

3. the nonmagnetic material of cylindrical tube and boss cylinder axis adopts austenitic stainless steel cold-rolled plate, this austenitic stainless steel cold-rolled plate has nonferromagnetic substance and the surface finish performance of comprehensive improvement, makes it be specially adapted to the Food industry vessel harsher to polishability requirement.

Above-mentioned substantive design feature has realized between each moving component and with respect to the precise displacement of each fixed part, has had compared with the prior art significant progress, and result of use is satisfactory, has solved people and has thirsted for the problem solving always.

Accompanying drawing explanation

Fig. 1 is that the present invention crosses cylindrical simplified 10 and the profile of tension spring 70 axial lines.

Fig. 2 is the A-A profile in Fig. 1.

Fig. 3 is the B-B cutaway view in Fig. 1.

Fig. 4 is the C-C profile in Fig. 1.

Fig. 5 is the D-D profile of Fig. 1.

Fig. 6 is the state diagram that the swing arm 30 in Fig. 1 drives tension spring 70 and the two-sided rack 50.

Fig. 7 is the two-sided rack 50 in Fig. 2 in drawing the state diagram of position outward.

Fig. 8 is the E-E profile in Fig. 7.

Below in conjunction with drawings and Examples, the invention will be further described:

In Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5 and Fig. 8, a kind of magnetic force automatic stirring vessel, cylindrical simplified 10 are positioned at above disc base 80, the cancave cambered surface of cambered surface connector 22 is connected with the external arc of disc base 80 with described cylindrical tube 10 simultaneously, on upper connecting cross beam 41 between the upper end of rectangle handle 20 and described cambered surface connector 22, there is fork detent 49, on the lower connecting cross beam 42 between the lower end of rectangle handle 20 and described cambered surface connector 22, have fork groove 48, described cambered surface connector 22 is provided with a lug groove 27 on the convex globoidal between described upper connecting cross beam 41 and described lower connecting cross beam 42, base upper recess surface 81 on described disc base 80 is close to described simplified baseplane 16, in base upper recess surface 81, there is lower disk chamber 89, base concave surface 84 on described disc base 80 has two gear cylindrical cavities 86, has lumen pore step 87 to communicate with described lower disk chamber 89 on each gear cylindrical cavity 86, between gear cylindrical cavity 86 described in two, having a base through slot 85 to pass through communicates, in each described gear cylindrical cavity 86, there is a roller gear 65 to be in transmission connection by flat key 66 and rotating shaft 60, there are respectively the second shaft part 67 and the first shaft part 61 in the keyway both sides of rotating shaft 60, the first shaft part 61 is also extended with the unloaded section 62 of axle and axle spline segment 63 successively, on the first described shaft part 61, interference fit clutch shaft bearing 71 endoporus, clutch shaft bearing 71 cylindricals and described lumen pore step 87 interference fits, on the second shaft part 67, interference fit the second bearing 72 endoporus, end cap stepped hole 76 interference fits on the second bearing 72 cylindricals and bearing (ball) cover 79, step cylindrical 78 on bearing (ball) cover 79 and described gear cylindrical cavity 86 interference fits, bearing (ball) cover 79 is fixed on described base concave surface 84 by 3 to 6 bolts of cover, described base through slot 85 the two-sided rack 50 that is being slidably matched, the both sides spur rack 56 of the two-sided rack 50 is meshed with described roller gear 65 simultaneously, between tooth bar through hole 54 on the two-sided rack 50 and tooth bar bearing pin 55, rotary sliding is connected, and the 55 two ends riveted joints of tooth bar bearing pin are fixed on the connecting rod jag through hole 45 of described transition connecting rod 40, between the connecting rod aperture 43 of transition connecting rod 40 other ends and pitman pin 44, rotary sliding is connected, and pitman pin 44 two ends riveted joints are fixed on the fork pin-and-hole 34 of fork sidewall 31 lower ends of swing arm 30, described swing arm 30 upper ends have fork locating hole 32 to pass through described fork groove 48 to be connected with described fork alignment pin 33 rotary slidings, and rivet on the dowel hole 23 of the fork detent 49 described in being fixed at fork alignment pin 33 two ends, described fork sidewall 31 is also riveted and is fixed with extension spring untie-sell 88 between fork alignment pin 33 and pitman pin 44, tension spring 70 1 terminations are hooked in extension spring untie-sell 88, tension spring 70 another terminations are hooked in the extension spring rationed marketing 99 on described lug groove 27, as improvement: be sliding combined with initiatively magnetic force impeller 92 on described axle spline segment 63, on axle spline segment 63 outer ends, have axle snap ring 96 to block initiatively magnetic force impeller 92, initiatively there is an initiatively magnetic pole 93 at magnetic force impeller 92 two ends, on described cylindrical shell baseplane 16, axial symmetry is furnished with two boss cylinder axis 19, passive magnetic force impeller 91 described in each boss cylinder axis 19 is being slidably matched, it is corresponding with described active magnetic pole 93 that passive magnetic force impeller 91 two ends have a passive magnetic pole 94 isolating described cylindrical shell baseplane 16, and described cylindrical tube (10) and described boss cylinder axis (19) are non-magnetic austenitic stainless steel material, and its chemical component weight ratio is: Cr:17～19%, Ni:7～9%, Mn≤1%, Cu:1.2～1.4%, Al≤0.05%, Si≤0.5%, C:0.06～0.08%, N≤0.4%, P:0.03～0.05%, S:0.02～0.04%, V:0.2～0.4%, surplus is iron and inevitable impurity.

As further improvement: described cylindrical tube 10 cylindricals are provided with 2 to 4 upper screw lugs 12, on described disc base 80 peripheries, there is screw inserts 82 at the bottom of 2 to be positioned at a port of described base through slot 85 upper and lower; It is corresponding with described upper screw lug 12 that described cambered surface connector 22 more than 42 is provided with 2 to 4 through holes 21 of topping bar at described lower connecting cross beam, and the described through hole 21 of topping bar staggers mutually with described lug groove 27; Described cambered surface connector 22 is corresponding with described end screw inserts 82 to be arranged with 2 through holes 28 of getting out of a predicament or an embarrassing situation at described lower connecting cross beam 42; 4 to 6 attachment screws 11 are respectively through through hole 21 and get out of a predicament or an embarrassing situation through hole 28 and described upper screw lug 12 and the described end screw inserts 82 screw thread secure fit of topping bar, and getting out of a predicament or an embarrassing situation described in two is provided with handle groove 25 and described base through slot 85 positive alignments between through hole 28.

As further improvement: described cylindrical tube 10 and described boss cylinder axis 19 are nonmagnetic material, and cylindrical simplified 10 body diameter is 112 to 128 millimeters, and cylindrical simplified 10 height is 210 to 220 millimeters; The body diameter of boss cylinder axis 19 is 1 to 3 millimeter, and boss disk 18 diameters of boss cylinder axis 19 bottoms are 5 to 7 millimeters, and boss disk 18 is highly 1 to 3 millimeter; Central shaft distance between two boss cylinder axis 19 is 56 to 58 millimeters.

As further improvement: described boss cylinder axis 19 is nonmagnetic material, and the body diameter of boss cylinder axis 19 is 1 to 3 millimeter, and boss disk 18 diameters of boss cylinder axis 19 bottoms are 5 to 7 millimeters, and boss disk 18 is highly 1 to 3 millimeter.

As further improvement: described fork sidewall 31 between extension spring untie-sell 88 and pitman pin 44 also interference fit have ripple anti-slip rubber cover 36.

In embodiment:

Cylindrical simplified 10 and described boss cylinder axis 19 be non-magnetic austenitic stainless steel material, its chemical component weight ratio is: Cr:18%, Ni:8%, Mn:0.8%, Cu:1.3%, Al:0.04%, Si:0.04%, C:0.07%, N:0.3%, P:0.04%, S:0.03%, V:0.3%, surplus is iron and inevitable impurity.

Above-mentioned austenitic stainless steel cold-rolled plate, by following manufacture method, comprising: continuous casting steel billet is heated to 1100～1300 ℃; 1000～1250 ℃ of roughing temperature; 950～1100 ℃ of finishing temperatures; Cooling fast; Coiling temperature is below 700 ℃; Be rolled into the hot rolled plate of required specification; 950～1200 ℃ of hot rolled plate annealing temperatures; Adopt the continuous acid-washing technique scale removal of broken phosphorus one ball blast one electrolysis～nitration mixture pickling; Cold rolling total reduction is more than 50%; 950～1200.C carries out continuous annealing, or carries out perhydro bright annealing at 950～1200 ℃.This austenitic stainless steel cold-rolled plate has nonferromagnetic substance and the surface finish performance of comprehensive improvement, makes it be specially adapted to the Food industry vessel harsher to polishability requirement.

Cambered surface connector 22 and rectangle handle 20 and upper connecting cross beam 41 thereof and lower connecting cross beam 42 are an overall structure.On cylindrical tube 10 cylinder outer walls, be welded with 3 upper screw lugs 12, the thickness of cylindrical simplified 10 simplified baseplane 16 is 0.5 millimeter.It is corresponding with the through hole 21 of topping bar that cylindrical tube 10 cylindricals are provided with 3 upper screw lugs 12, and 5 attachment screws 11 are respectively through through hole 21 and get out of a predicament or an embarrassing situation through hole 28 and upper screw lug 12 and the end screw inserts 82 screw thread secure fit of topping bar.Distance between the central shaft of two rotating shafts 60 is 57 millimeters, and bearing (ball) cover 79 is fixed on described base concave surface 84 by 4 bolts of cover 77.The body diameter of boss cylinder axis 19 is 2 millimeters, and boss disk 18 diameters of boss cylinder axis 19 bottoms are 6 millimeters, and boss disk 18 is highly 2 millimeters.Initiatively the height of the fan-shaped cylinder of magnetic pole 93 and passive magnetic pole 94 is 6 millimeters, and the inside radius of fan-shaped cylinder is 15 millimeters, and the outer radius of fan-shaped cylinder is 21 millimeters.The body diameter of cylindrical tube 10 is 115 millimeters, and the height of cylindrical tube 10 is 215 millimeters.The interference fit on extension spring pin-and-hole 29 of determining of lug groove 27 is loaded onto extension spring rationed marketing 99, and when swing arm 30 is when parallel with cambered surface connector 22, fork sidewall 31 has extension spring pin-and-hole 37 interference fit extension spring untie-sell 88 on perpendicular to extension spring rationed marketing 99 positions.

Assembling process:

1. the interior each moving component assembling of disc base 80:

Roller gear 65 endoporus are connected with rotating shaft 60 cylindrical interference fits by flat key 66.On the first shaft part 61, interference fit clutch shaft bearing 71 endoporus, and on the second shaft part 67, interference fit the second bearing 72 endoporus.Clutch shaft bearing 71 cylindricals and lumen pore step 87 interference fits, make axle spline segment 63 be positioned among lower disk chamber 89 through after lumen pore step 87; End cap stepped hole 76 interference fits on described the second bearing 72 cylindricals and bearing (ball) cover 79, step cylindrical 78 on bearing (ball) cover 79 is fixed on described base concave surface 84 with described gear cylindrical cavity 86 interference fits, 3 to 6 bolts of cover by bearing (ball) cover 79;

Then, axle spline segment 63 coordinates with described active magnetic force impeller 92, on axle spline segment 63 outer ends, have axle snap ring 96 to block initiatively magnetic force impeller 92, it is corresponding with described passive magnetic pole 94 that active magnetic force impeller 92 two ends have an active magnetic pole 93 isolating described cylindrical shell baseplane 16; The both sides spur rack 56 of the two-sided rack 50 is meshed with described roller gear 65 simultaneously.

2. rectangle handle 20 each functional unit assembling on the whole:

Fork locating hole 32 one end of swing arm 30 are arranged in fork detent 49 after passing through described fork groove 48, the dowel hole 23 that fork alignment pin 33 passes through a side is connected with fork locating hole 32 rotary slidings afterwards, and the rear riveted joint of dowel hole 23 that fork alignment pin 33 passes through opposite side is again fixed on dowel hole 23 collar extensions; The fork pin-and-hole 34 that pitman pin 44 passes through a side is connected with connecting rod aperture 43 rotary slidings of transition connecting rod 40 one end afterwards, and the rear riveted joint of fork pin-and-hole 34 that pitman pin 44 passes through opposite side is again fixed on fork pin-and-hole 34 collar extensions; The fork pin-and-hole 34 that pitman pin 44 passes through a side is connected with connecting rod aperture 43 rotary slidings of transition connecting rod 40 one end afterwards, and the rear riveted joint of fork pin-and-hole 34 that pitman pin 44 passes through opposite side is again fixed on fork pin-and-hole 34 collar extensions.

3. cylindrical simplified 10 are positioned at disc base 80 and assemble with cambered surface connector 22 above:

3 upper screw lugs 12 on cylindrical tube 10 are corresponding with the through hole 21 of topping bar on cambered surface connector 22, on disc base 80 peripheries, have at the bottom of 2 screw inserts 82 corresponding with the through hole 28 of getting out of a predicament or an embarrassing situation on cambered surface connector 22, handle groove 25 also allows the tooth bar through hole 54 on the two-sided rack 50 pass through handle groove 25 with 85 positive alignments of base through slot; 5 attachment screws 11 are respectively through through hole 21 and get out of a predicament or an embarrassing situation through hole 28 and upper screw lug 12 and the end screw inserts 82 screw thread secure fit of topping bar.

4. functional unit and moving component splicing:

The connecting rod jag through hole 45 that tooth bar bearing pin 55 passes through transition connecting rod 40 1 sides is connected with tooth bar through hole 54 rotary slidings afterwards, and the connecting rod jag through hole 45 rear riveted joints that tooth bar bearing pin 55 passes through opposite side are again fixed on connecting rod jag through hole 45 collar extensions.

5. totally splicing:

Tension spring 70 1 terminations are hooked in extension spring untie-sell 88, and tension spring 70 another terminations are hooked in the extension spring rationed marketing 99 on described lug groove 27; Hold rectangle handle 20 with singlehanded thumb and forefinger, ride over remaining middle finger, the third finger and little finger of toe on the ripple anti-slip rubber cover 36 of swing arm 30 and make fastening finger or unclamp finger movement, under the reset response effect of associating tension spring 70, whether the straight line that to check by transition connecting rod 40 be the two-sided rack 50 by the rotation conversion of motion of swing arm 30 moves back and forth, then drive two symmetrically arranged roller gears 65 be rotated counterclockwise and turn clockwise normal.Finally two passive magnetic force impellers 91 are contained in respectively to two boss cylinder axis 19, again hold rectangle handle 20 with singlehanded thumb and forefinger, ride over remaining middle finger, the third finger and little finger of toe on the ripple anti-slip rubber cover 36 of swing arm 30 and make fastening finger or unclamp finger movement, check that whether two passive magnetic force impellers 91 normally realize synchronous rotating, assemble complete.

In Fig. 6 and Fig. 7, when use, only need inject and allocate in right amount drink to cylindrical simplified 10, one hand just can the good mixing effect of convenient acquisition.

Claims (5)

1. magnetic force automatic stirring vessel, comprise that cylindrical tube (10) is positioned at disc base (80) above, the cancave cambered surface of cambered surface connector (22) is connected with the external arc of disc base (80) with described cylindrical tube (10) simultaneously, on upper connecting cross beam (41) between the upper end of rectangle handle (20) and described cambered surface connector (22), there is fork detent (49), on lower connecting cross beam (42) between the lower end of rectangle handle (20) and described cambered surface connector (22), there is fork groove (48), described cambered surface connector (22) is provided with a lug groove (27) on the convex globoidal between described upper connecting cross beam (41) and described lower connecting cross beam (42), also comprise that swing arm (30), transition connecting rod (40), the two-sided rack (50), roller gear (65), rotating shaft (60), tension spring (70) and active magnetic force impeller (92) and passive magnetic force impeller (91) form operational movement part, base upper recess surface (81) on described disc base (80) is close to described cylindrical shell baseplane (16), in base upper recess surface (81), there is lower disk chamber (89), base concave surface (84) on described disc base (80) has two gear cylindrical cavities (86), has lumen pore step (87) to communicate with described lower disk chamber (89) on each gear cylindrical cavity (86), between gear cylindrical cavity (86) described in two, having a base through slot (85) to pass through communicates, in each described gear cylindrical cavity (86), there is a roller gear (65) to be in transmission connection by flat key (66) and rotating shaft (60), there are respectively the second shaft part (67) and the first shaft part (61) in the keyway both sides of rotating shaft (60), the first shaft part (61) is also extended with the unloaded section of axle (62) and axle spline segment (63) successively, the upper interference fit of described the first shaft part (61) clutch shaft bearing (71) endoporus, clutch shaft bearing (71) cylindrical and described lumen pore step (87) interference fits, the upper interference fit of the second shaft part (67) the second bearing (72) endoporus, end cap stepped hole (76) interference fits on the second bearing (72) cylindrical and bearing (ball) cover (79), step cylindrical (78) on bearing (ball) cover (79) and described gear cylindrical cavity (86) interference fits, bearing (ball) cover (79) is fixed on described base concave surface (84) by 3 to 6 bolts of cover, described base through slot (85) the two-sided rack (50) that is being slidably matched, the both sides spur rack (56) of the two-sided rack (50) is meshed with described roller gear (65) simultaneously, between tooth bar through hole (54) on the two-sided rack (50) and tooth bar bearing pin (55), rotary sliding is connected, and the riveted joint of tooth bar bearing pin (55) two ends is fixed on the connecting rod jag through hole (45) of described transition connecting rod (40), between the connecting rod aperture (43) of transition connecting rod (40) other end and pitman pin (44), rotary sliding is connected, and the riveted joint of pitman pin (44) two ends is fixed on the fork pin-and-hole (34) of fork sidewall (31) lower end of swing arm (30), described swing arm (30) upper end has fork locating hole (32) to pass through described fork groove (48) to be connected with described fork alignment pin (33) rotary sliding, and rivet on the dowel hole (23) of the fork detent (49) described in being fixed at fork alignment pin (33) two ends, described fork sidewall (31) is also riveted and is fixed with extension spring untie-sell (88) between fork alignment pin (33) and pitman pin (44), tension spring (70) one terminations are hooked in extension spring untie-sell (88), another termination of tension spring (70) is hooked in the extension spring rationed marketing (99) on described lug groove (27), it is characterized in that: on described axle spline segment (63), be sliding combined with initiatively magnetic force impeller (92), on axle spline segment (63) outer end, there is snap ring for axle (96) to block initiatively magnetic force impeller (92), initiatively there is an initiatively magnetic pole (93) at magnetic force impeller (92) two ends, the upper axial symmetry in described cylindrical shell baseplane (16) is furnished with two boss cylinder axis (19), passive magnetic force impeller (91) described in each boss cylinder axis (19) is being slidably matched, it is corresponding with described active magnetic pole (93) that passive magnetic force impeller (91) two ends have a passive magnetic pole (94) isolating described cylindrical shell baseplane (16), and described cylindrical simplified (10) and described boss cylinder axis (19) are non-magnetic austenitic stainless steel material, and its chemical component weight ratio is: Cr:17～19%, Ni:7～9%, Mn≤1%, Cu:1.2～1.4%, Al≤0.05%, Si≤0.5%, C:0.06～0.08%, N≤0.4%, P:0.03～0.05%, S:0.02～0.04%, V:0.2～0.4%, surplus is iron and inevitable impurity.

2. a kind of magnetic force automatic stirring vessel according to claim 1, it is characterized in that: described cylindrical tube (10) cylindrical is provided with 2 to 4 upper screw lugs (12) on described disc base (80) periphery, having screw inserts (82) at the bottom of 2 to be positioned at a port of described base through slot (85) upper and lower; It is corresponding with described upper screw lug (12) that described cambered surface connector (22) is provided with 2 to 4 through holes (21) of topping bar more than described lower connecting cross beam (42), and the described through hole of topping bar (21) staggers mutually with described lug groove (27); Described cambered surface connector (22) is corresponding with described end screw inserts (82) to be arranged with 2 through holes of getting out of a predicament or an embarrassing situation (28) at described lower connecting cross beam (42); 4 to 6 attachment screws 11 are respectively through through hole (21) and the through hole of getting out of a predicament or an embarrassing situation (28) and described upper screw lug (12) and described end screw inserts (82) the screw thread secure fit of topping bar, and are provided with handle groove (25) and described base through slot (85) positive alignment between the through hole of getting out of a predicament or an embarrassing situation (28) described in two.

3. a kind of magnetic force automatic stirring vessel according to claim 1, is characterized in that: the body diameter of cylindrical simplified (10) is 112 to 128 millimeters, the height of cylindrical tube (10) is 210 to 220 millimeters; The body diameter of boss cylinder axis (19) is 1 to 3 millimeter, and boss disk (18) diameter of boss cylinder axis (19) bottom is 5 to 7 millimeters, and boss disk (18) is highly 1 to 3 millimeter; Central shaft distance between two boss cylinder axis (19) is 56 to 58 millimeters.

4. a kind of magnetic force automatic stirring vessel according to claim 1, it is characterized in that: the active magnetic pole (93) described in every is the identical fan-shaped cylinder of shape with described passive magnetic pole (94), the height of fan-shaped cylinder is 5 to 7 millimeters, the inside radius of fan-shaped cylinder is 14 to 16 millimeters, and the outer radius of fan-shaped cylinder is 20 to 22 millimeters.

5. a kind of magnetic force automatic stirring vessel according to claim 1, is characterized in that: described described fork sidewall (31) is gone back interference fit between extension spring untie-sell (88) and pitman pin (44) ripple anti-slip rubber cover (36).

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