CN205379224U - Transmission structure and food treatment facility of motor and pivot - Google Patents

Abstract

The utility model discloses a transmission structure and food treatment facility of motor and pivot belongs to the domestic appliance technique, adopts magnetic transmission or rigidly connected transmission between the motor of current some food treatment facilities (if milk bubble machine) and the pivot, and magnetic transmission easily demagnetizes and causes the pivot deceleration or do not change, and the rigidly connected transmission is is easily worn and torn, the utility model discloses a with the input ways of pivot on the rotation output of motor to assemble tendency drive spare on the rotation output of motor, the rotation of input pot head with the help of centrifugal force and frictional force contact at input cover upper band to tendency drive spare when rotating the output rotation. This structure furthest has reduced pivot and the requirement of motor shaft to the axiality to the axle center deviation that furthest has reduced because of pivot and motor shaft produces the phenomenon of wearing and tearing. And, set up water diversion structure between the housing of motor, input pot head and cup, avoid between pivot and the cup just in case when the seepage takes place the liquid flow to the motor and damage the motor.

Description

The drive mechanism of motor and rotating shaft and food-handling equipment

Technical field

This utility model belongs to household electrical appliance technology, is specifically related to the motor of domestic electric appliance and processes equipment waterproof construction with the drive mechanism of rotating shaft and concerned foodstuff.

Background technology

Existing beverage stirring/bean product such as grind at the equipment (such as assembly for creating milk foam/bean milling machine), magnetic drives or rigid connection transmission two ways is generally used between its motor and rotating shaft, magnetic drives is on the books in Chinese patent literature CN103505080A, CN104414475A, CN103654399A, rigid connection transmission (by adapter transmission) on the books in Chinese patent literature CN103505080A.The alnico magnets of magnetic drives there will be demagnetization phenomenon in the case of a high temperature, thus causing that rotating shaft differs increasing with motor speed, in some instances it may even be possible to the phenomenon that rotating shaft cannot rotate occur.Being difficult to ensure that rotating shaft and motor absolute concentric during rigid connection transmission, when work rotates, motor and rotating shaft all can produce bias, cause that rotating shaft is accelerated with motor shaft abrasion；And rotating shaft abrasion can cause that rotating shaft sealing is bad, thus causing that the fluid seepage in cup is to motor, damages motor；Motor shaft abrasion quickening causes motor performance to decline and service life declines.

Utility model content

The technical assignment of the technical problems to be solved in the utility model and proposition is to overcome the defect adopted between existing motor and rotating shaft caused by magnetic drives or rigid connection transmission, it is provided that the drive mechanism of a kind of motor and rotating shaft and food-handling equipment.

For reaching above-mentioned purpose, the drive mechanism of motor of the present utility model and rotating shaft, including motor, rotating shaft, it is characterized in that:

Described motor has a rotation outfan；

Described rotating shaft has an input set；

Described input set is enclosed within described rotation outfan；

Being equipped with friction transmission part on described rotation outfan, described friction transmission part rotates with described input set on described input set in described contact when outfan rotates that rotates.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: described rotating is evenly distributed with the opening at least two fitting recess towards periphery on outfan, described fitting recess has the first supporting surface and the second supporting surface, in each described fitting recess, one described friction transmission part of configuration and described friction transmission part can swing between described first supporting surface and the second supporting surface, the outer end of described friction transmission part extends outside described fitting recess through described opening, described friction transmission part relies on its outer end during described first supporting surface and is positioned at one relatively on small circumference, described friction transmission part relies on its outer end during described second supporting surface and is positioned at one relatively on big circumference；The internal diameter of described input set is less than the diameter of described relatively big circumference.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: described friction transmission part is en plaque and its inner end edge is set to axle portion, the inner of described fitting recess is set to axis hole, and the axle portion of described friction transmission part is positioned at the axis hole of described fitting recess.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: the internal diameter of described input set is more than the diameter of described relatively small circumference.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: the interior warp of described input set inwardly tapers into from its port.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: the interior warp of described input set port is more than the diameter of described relatively big circumference.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: described friction transmission part supports the diameter of its place, outer end circumference in the process moved towards described second supporting surface from described first and becomes larger.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: described friction transmission part is made up of soft material.

Optimization technique means as motor of the present utility model Yu the drive mechanism of rotating shaft: described input set is by the Screw assembly end in described rotating shaft, and the rotation direction of described screw thread is tightened when being suitable to described electric machine rotation.

For reaching above-mentioned purpose, food-handling equipment of the present utility model, including base and the cup being placed on described base can be sat, it is provided with motor in described base, the bottom of described cup is equipped with rotating shaft, being provided with sealing member between described rotating shaft and cup, the upper end of described rotating shaft is positioned at described cup, it is characterized in that:

Described motor has a rotation outfan；

Described rotating shaft has one and is positioned at input set on the downside of described cup；

Described input set is enclosed within described rotation outfan；

Being equipped with friction transmission part on described rotation outfan, described friction transmission part rotates with described input set on described input set in described contact when outfan rotates that rotates.

Optimization technique means as food-handling equipment of the present utility model: described rotating is evenly distributed with the opening at least two fitting recess towards periphery on outfan, described fitting recess has the first supporting surface and the second supporting surface, in each described fitting recess, one described friction transmission part of configuration and described friction transmission part can swing between described first supporting surface and the second supporting surface, the outer end of described friction transmission part extends outside described fitting recess through described opening, described friction transmission part relies on its outer end during described first supporting surface and is positioned at one relatively on small circumference, described friction transmission part relies on its outer end during described second supporting surface and is positioned at one relatively on big circumference；The internal diameter of described input set is less than the diameter of described relatively big circumference.

Optimization technique means as food-handling equipment of the present utility model: described friction transmission part is en plaque and its inner end edge is set to axle portion, and the inner of described fitting recess is set to axis hole, and the axle portion of described friction transmission part is positioned at the axis hole of described fitting recess.

Optimization technique means as food-handling equipment of the present utility model: the internal diameter of described input set is more than the diameter of described relatively small circumference.

Optimization technique means as food-handling equipment of the present utility model: the interior warp of described input set inwardly tapers into from its port.

Optimization technique means as food-handling equipment of the present utility model: the interior warp of described input set port is more than the diameter of described relatively big circumference.

Optimization technique means as food-handling equipment of the present utility model: described friction transmission part supports the diameter of its place, outer end circumference in the process moved towards described second supporting surface from described first and becomes larger.

Optimization technique means as food-handling equipment of the present utility model: described friction transmission part is made up of soft material.

Optimization technique means as food-handling equipment of the present utility model: described input set is by the Screw assembly end in described rotating shaft, and the rotation direction of described screw thread is tightened when being suitable to described electric machine rotation.

Optimization technique means as food-handling equipment of the present utility model: described motor is assemblied in described base by surrounding the case of described motor, the top of described case is provided with annular groove, described annular groove offers breach, and the outer wall of described case is provided with the drainage trough connecting described annular groove through described breach.

Optimization technique means as food-handling equipment of the present utility model: described annular groove by being located at the internal ring limit at described case top, outer annular edge is formed.

Optimization technique means as food-handling equipment of the present utility model: the top of described case is provided with the recess inside described internal ring limit, described input set stretches to described recess by described annular groove and the isolation of described rotation outfan.

Optimization technique means as food-handling equipment of the present utility model: conflict in the bottom of described cup in the upper end of described outer annular edge, described input set has centrifugal pan, maintaining gap between the bottom of described centrifugal pan and described cup as drainage channel, the edge of described centrifugal pan is positioned at the top of described annular groove.

The beneficial effects of the utility model are: by being enclosed within the rotation outfan of motor by the input set of rotating shaft, and on the rotation outfan of motor, assembling friction transmission part, friction transmission part rotates with input set by centrifugal force and frictional contact when rotating outfan and rotating on input overlaps.This structure decreases rotating shaft and the motor shaft requirement to axiality to greatest extent, thus decreasing the phenomenon producing abrasion because of the axle center deviation of rotating shaft and motor shaft to greatest extent.And, at the case of motor, between input set and cup, drawing water structure is set, it is to avoid between rotating shaft and cup, during contingency generation seepage, liquid stream damages motor to motor.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of motor of the present utility model and the drive mechanism of rotating shaft；

Fig. 2 is the end face structure schematic diagram of rotation outfan of the present utility model；

Fig. 3 assembles friction transmission part and the friction transmission part position view when two kinds of duties on rotation outfan of the present utility model；

Fig. 4 is the structural representation of food-handling equipment of the present utility model；

Fig. 5 is the K portion enlarged drawing in Fig. 4；

Fig. 6 is the axonometric drawing of the motor surrounded by case in food-handling equipment of the present utility model；

Number in the figure illustrates:

01-base: 11-is by compressing switch；

02-cup: 21-electric heating device；

03-motor: 31-rotates outfan: 311-opening, 312-fitting recess, 313-the first supporting surface, 314-the second supporting surface, 315-axis hole；32-case: 321-annular groove, 322-breach, 323-drainage trough, 324-internal ring limit, 325-outer annular edge, 326-recess；

04-rotating shaft: 41-sealing member；42-axle sleeve；43-input set: the internal diameter of 43d-input set, 431-centrifugal pan, 44-agitator；

05-friction transmission part: 5r-is small circumference relatively, 5R-is big circumference relatively, 51-axle portion；

06-drainage channel.

Detailed description of the invention

Below in conjunction with Figure of description, this utility model is described further.

Show a case profit of the present utility model as shown in Figure 4, it is a kind of structure of a kind of beverage mixing plant, it shows as a kind of assembly for creating milk foam, it includes base 01 and can sit the cup 02(inner bag being placed on base), motor 03 it is provided with in base 01, axle sleeve 42(bearing is passed through in the bottom of cup 02) it is equipped with rotating shaft 04, being provided with sealing member 41 between rotating shaft 04 and cup 02 prevents the fluid seepage in cup, the upper end of rotating shaft 04 agitator can be changed to destructor when being positioned at cup 02 and be equipped with agitator 44(for other food-handling equipment such as bean milling machine).Common, cup can connect rotating shaft and together sit and be placed in base or take off from base.

This food-handling equipment, it is characterized in have employed the motor of the present utility model drive mechanism with rotating shaft (in view of the drive mechanism of this motor Yu rotating shaft has been integrally incorporated in food-handling equipment of the present utility model, in order to avoid repeating, no longer individually the drive mechanism of motor Yu rotating shaft is explained), the complete expression of the drive mechanism of this motor and rotating shaft in FIG, is expressed relatively sharp by partial structurtes in Fig. 5.

As it is shown in figure 1, rotating shaft 04 is assemblied in cup 02 by two axle sleeves 42；Motor 03 has a rotation outfan 31, rotates outfan and rotate during motor work；Rotating shaft 04 have one be positioned at input set 43 on the downside of cup 02 in order to from motor obtain moment of torsion and along with rotation；Input set 43 is enclosed within rotation outfan 31；Rotate and outfan 31 be equipped with friction transmission part 05(referring to Fig. 3), friction transmission part 05 contact when rotating outfan 31 and rotating is overlapped at input and is rotated with input set on 43.Therefore, even if the outfan that rotates of motor overlaps definitely not coaxial with the input of rotating shaft, it is also possible to by friction transmission part from Row sum-equal matrix, it is to avoid rotating shaft and motor produce the phenomenon of abrasion because of axle center deviation.

nullConcrete，In order to simplify structure and be easy to input set is docked with rotating outfan and separated，Referring to Fig. 2，Rotate and outfan 31 is evenly distributed with the opening 311 at least two fitting recess 312 towards periphery，Fitting recess 312 has the first supporting surface 313 and the second supporting surface 314，In each fitting recess 312, one friction transmission part 05 of configuration and friction transmission part can swing between the first supporting surface 313 and the second supporting surface 314 and be limited in an effective work activities scope，The outer end of friction transmission part 05 extends outside fitting recess through opening，When friction transmission part 05 relies on the first supporting surface 313, (friction transmission part that solid line shown in Fig. 4 represents) its outer end is positioned at one relatively on small circumference 5r、When friction transmission part relies on the second supporting surface, (friction transmission part that dotted line shown in Fig. 4 represents) its outer end is positioned at one relatively on big circumference 5R；The internal diameter 43d of the input set diameter (referring to Fig. 3) less than relatively big circumference 5R, it is ensured that rotate the outer end of friction transmission part when outfan rotates and can contact fully on input overlaps.And the second described supporting surface 314, then can provide for friction transmission part 05 and rely on to provide enough torques to drive input set to rotate to input set.

So that friction transmission part 05 at centrifugal force or/and dexterous actions under the effect of frictional force, friction transmission part 05 in en plaque and its inner end edge be set to axle portion 51, the inner of fitting recess 312 is set to axis hole 315, and the axle portion 51 of friction transmission part is positioned at the axis hole 315 of fitting recess.As shown in Figure 3, when friction transmission part 05 rotates along with rotation outfan 31, if the outer end of friction transmission part 05 is not in contact with input set in initial state, then the centrifugal force because rotating generation forces friction transmission part to swing from the first supporting surface 313 to the second supporting surface 314, once the outer end contact input set 43 of friction transmission part, then force the more sufficient contact input set of friction transmission part 05 in order to transmit rotation under the rubbing action of input set again.

Same for the ease of input set is docked with rotating outfan and separates, the internal diameter 43d of the input set diameter (referring to Fig. 3) more than relatively small circumference 5R.Or, the interior of input set inwardly tapers into (referring to Fig. 5) through 43d from its port.Above two situation all can allow friction transmission part avoid the obstacle to input set when being enclosed within by input set and rotating on outfan.For the latter, selection more preferably is the interior warp diameter more than relatively big circumference of input set port.

In order to avoid friction transmission part deforms impaired in transposition process, friction transmission part 05 supports the diameter of its place, outer end circumference in the process moved towards the second supporting surface from first and becomes larger.

Especially, in order to increase the adjustment capability of friction transmission part, friction transmission part is made up of soft material, and the existence of the second supporting surface is more necessary, in order to avoid friction transmission part transmission rotate time be squeezed and crumple to such an extent as to rotation can not be transmitted reliably.Hard material can also be selected when being embodied as.

Input set 43 passes through Screw assembly in the end of rotating shaft 04, and the rotation direction of screw thread is tightened when being suitable to electric machine rotation, it is to avoid rotating shaft loosens.

In order to avoid just in case there is seepage between rotating shaft and cup and causing that liquid flow direction motor damages motor, referring to Fig. 4-6, motor is assemblied in base 01 by surrounding the case 32 of motor, case is generally Split type structure, as assembled so that in motor is enclosed in by upper and lower two parts, the top of case 32 is provided with annular groove 321, and annular groove 321 offers breach 322, and the outer wall of case is provided with the drainage trough 323 connecting annular groove through breach 322.When there being liquid seepage from cup, this annular groove can be collected the liquid of seepage and be drained by drainage trough.

Further, annular groove 321 by being located at the internal ring limit 324 at case top, outer annular edge 325 is formed.The top of case 32 is provided with the recess 326 inside internal ring limit 324, and input set 43 stretches to recess 326 isolates annular groove 321 with rotating outfan 31.Thus avoiding the liquid of seepage to flow to rotate outfan (motor).

In order to smoothly the liquid of seepage to be drawn the position of failure to the safe side, the liquid avoiding seepage flows to other position of base and damages other structure (if the electric heating device 21 during as assembly for creating milk foam, electronic control device are as by compressing switch 11 etc.), conflict in the bottom of cup 02 in the upper end of outer annular edge 325, input set 43 has centrifugal pan 431, maintaining gap between the bottom of centrifugal pan 431 and cup 02 as drainage channel 06, the edge of centrifugal pan 431 is positioned at the top of annular groove 321.Therefore, when there being fluid seepage, first the liquid of seepage flow to centrifugal pan 431 through drainage channel 06, around being thrown toward under the effect of centrifugal pan centrifugal force, it is thrown toward the leak fluid of surrounding by outer annular edge 325 centralized collection in annular groove 321, and finally drains through breach 322, drainage trough 323.

Primary and foremost purpose of the present utility model is in that the drive mechanism of motor and the rotating shaft providing food-handling equipment, other structure in liquid damage motor that primary and foremost purpose of the present utility model is in that to provide a kind of drawing water structure to avoid seepage and pedestal, therefore, saying from the technical problems to be solved in the utility model, its clear complete describing realizes the technical scheme of purpose.

Claims (22)

1. motor and the drive mechanism of rotating shaft, including motor (03), rotating shaft (04), is characterized in that:

Described motor (03) has a rotation outfan (31)；

Described rotating shaft (04) has an input set (43)；

Described input set (43) is enclosed within described rotation outfan (31)；

Being equipped with friction transmission part (05) on described rotation outfan (31), described friction transmission part (05) rotates with described input set on described input set (43) in described contact when outfan rotates that rotates.

2. motor according to claim 1 and the drive mechanism of rotating shaft, is characterized in that:

nullDescribed rotation outfan (31) is evenly distributed with the opening (311) at least two fitting recess (312) towards periphery，Described fitting recess (312) has the first supporting surface (313) and the second supporting surface (314)，In each described fitting recess (312), one described friction transmission part (05) of configuration and described friction transmission part can swing between described first supporting surface and the second supporting surface，The outer end of described friction transmission part (05) extends described fitting recess (312) outward through described opening (311)，When described friction transmission part (05) relies on described first supporting surface (313), its outer end is positioned at one relatively on small circumference (5r)、When described friction transmission part (05) relies on described second supporting surface (314), its outer end is positioned at one relatively on big circumference (5R)；

The internal diameter (43d) of described input set is less than the diameter of described relatively big circumference (5R).

3. the drive mechanism of motor according to claim 2 and rotating shaft, it is characterized in that: described friction transmission part (05) in en plaque and its inner end edge be set to axle portion (51), the inner of described fitting recess (312) is set to axis hole (315), and the axle portion (51) of described friction transmission part is positioned at the axis hole (315) of described fitting recess.

4. motor according to claim 2 and the drive mechanism of rotating shaft, is characterized in that: the internal diameter (43d) of described input set is more than the diameter of described relatively small circumference (5r).

5. motor according to claim 2 and the drive mechanism of rotating shaft, is characterized in that: the interior warp (43d) of described input set inwardly tapers into from its port.

6. motor according to claim 5 and the drive mechanism of rotating shaft, is characterized in that: the interior warp of described input set port is more than the diameter of described relatively big circumference.

7. motor according to claim 2 and the drive mechanism of rotating shaft, is characterized in that: described friction transmission part (05), supports the diameter of its place, outer end circumference in the process moved towards described second supporting surface from described first and becomes larger.

8. motor according to claim 2 and the drive mechanism of rotating shaft, is characterized in that: described friction transmission part (05) is made up of soft material.

9. the drive mechanism of motor according to claim 1 and rotating shaft, is characterized in that: described input set (43) is by the Screw assembly end in described rotating shaft 04, and the rotation direction of described screw thread is tightened when being suitable to described electric machine rotation.

10. food-handling equipment, including base (01) and the cup (02) being placed on described base can be sat, motor (03) it is provided with in described base (01), the bottom of described cup (02) is equipped with rotating shaft (04), sealing member (41) it is provided with between described rotating shaft (04) and cup (02), the upper end of described rotating shaft (04) is positioned at described cup (02), it is characterized in that:

Described motor (03) has a rotation outfan (31)；

Described rotating shaft (04) has an input set (43) being positioned at described cup (02) downside；

Described input set (43) is enclosed within described rotation outfan (31)；

Being equipped with friction transmission part (05) on described rotation outfan (31), described friction transmission part (05) rotates with described input set on described input set (43) in described contact when outfan rotates that rotates.

11. food-handling equipment according to claim 10, it is characterized in that:

nullDescribed rotation outfan (31) is evenly distributed with the opening (311) at least two fitting recess (312) towards periphery，Described fitting recess (312) has the first supporting surface (313) and the second supporting surface (314)，In each described fitting recess (312), one described friction transmission part (05) of configuration and described friction transmission part can swing between described first supporting surface and the second supporting surface，The outer end of described friction transmission part (05) extends described fitting recess (312) outward through described opening (311)，When described friction transmission part (05) relies on described first supporting surface (313), its outer end is positioned at one relatively on small circumference (5r)、When described friction transmission part (05) relies on described second supporting surface (314), its outer end is positioned at one relatively on big circumference (5R)；

The internal diameter (43d) of described input set is less than the diameter of described relatively big circumference (5R).

12. food-handling equipment according to claim 11, it is characterized in that: described friction transmission part (05) in en plaque and its inner end edge be set to axle portion (51), the inner of described fitting recess (312) is set to axis hole (315), and the axle portion (51) of described friction transmission part is positioned at the axis hole (315) of described fitting recess.

13. food-handling equipment according to claim 11, it is characterized in that: the internal diameter (43d) of described input set is more than the diameter of described relatively small circumference (5r).

14. food-handling equipment according to claim 11, it is characterized in that: the interior warp (43d) of described input set inwardly tapers into from its port.

15. food-handling equipment according to claim 14, it is characterized in that: the interior warp of described input set port is more than the diameter of described relatively big circumference.

16. food-handling equipment according to claim 11, it is characterized in that: described friction transmission part supports the diameter of its place, outer end circumference in the process moved towards described second supporting surface from described first and becomes larger.

17. food-handling equipment according to claim 11, it is characterized in that: described friction transmission part is made up of soft material.

18. food-handling equipment according to claim 10, it is characterized in that: described input set (43) is by the Screw assembly end in described rotating shaft (04), and the rotation direction of described screw thread is tightened when being suitable to described electric machine rotation.

19. food-handling equipment according to claim 10, it is characterized in that: described motor (03) is assemblied in described base (01) by surrounding the case (32) of described motor, the top of described case (32) is provided with annular groove (321), described annular groove (321) offers breach (322), and the outer wall of described case (32) is provided with the drainage trough (323) connecting described annular groove (321) through described breach (322).

20. food-handling equipment according to claim 19, it is characterized in that: described annular groove (321) by being located at the internal ring limit (324) at described case top, outer annular edge (325) is formed.

21. food-handling equipment according to claim 20, it is characterized in that: the top of described case (32) is provided with the recess (326) of described internal ring limit (325) inner side, described input set (43) stretches to described recess (326) by described annular groove (321) and the isolation of described rotation outfan (31).

22. food-handling equipment according to claim 20, it is characterized in that: the upper end of described outer annular edge (325) is conflicted in the bottom of described cup (02), described input set (43) has centrifugal pan (431), maintaining gap between described centrifugal pan (431) and the bottom of described cup (02) as drainage channel (06), the edge of described centrifugal pan (431) is positioned at the top of described annular groove (321).