CN105559637A - Transmission structure of motor and rotating shaft and food processing equipment - Google Patents

Abstract

The invention discloses a transmission structure of a motor and a rotating shaft and food processing equipment, and belongs to the technology of household appliances. For certain existing food processing equipment such as a milk foam machine, magnetic transmission or rigid connection transmission is adopted for a motor and a rotating shaft, speed reduction or nonrotation of the rotating shaft can be caused due to the fact that demagnetization is likely to occur in magnetic transmission, and abrasion is likely to occur in rigid connection transmission. According to the transmission structure, an input end sleeve of the rotating shaft is arranged on the rotating output end of the motor in a sleeving mode, a friction transmission part is assembled at the rotating output end of the motor, and the friction transmission part is in contact with the input end sleeve through the centrifugal force and friction force in the rotating process of the rotating output end to drive the input end sleeve to rotate. By means of the structure, the requirement for coaxiality of the rotating shaft and a motor shaft is lowered to the maximum, and thus the phenomenon of abrasion caused by axis deflection of the rotating shaft and the motor shaft is relieved to the maximum. In addition, a water introducing structure is arranged among a housing of the motor, the input end sleeve and a cup body, and thus it is avoided that in case leakage occurs between the rotating shaft and the cup body, liquid flows to the motor, and consequently the motor is damaged.

Description

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

Technical field

The invention belongs to household electrical appliance technology, be specifically related to the motor of domestic electric appliance and the drive mechanism of rotating shaft and concerned foodstuff treatment facility waterproof construction.

Background technology

Existing beverage stirring/bean product such as to grind at the equipment (as assembly for creating milk foam/bean milling machine), usually magnetic drives or rigid connection transmission two kinds of modes are used between its motor and rotating shaft, magnetic drives is on the books in Chinese patent literature CN103505080A, CN104414475A, CN103654399A, rigid connection transmission (by connector 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 cause rotating shaft to differ increasing with motor speed, even may occur the phenomenon that rotating shaft cannot be rotated.Be difficult to during rigid connection transmission ensure rotating shaft and the absolute concentric of motor, when work is rotated, motor and rotating shaft all can produce bias, cause rotating shaft and motor shaft to wear and tear and accelerate; And rotating shaft wearing and tearing can cause rotating shaft sealing bad, thus cause fluid seepage in cup to motor, damage motor; Motor shaft wearing and tearing quickening causes motor performance to decline and service life declines.

Summary of the invention

The technical assignment of the technical problem to be solved in the present invention and proposition overcomes between existing motor and rotating shaft to adopt magnetic drives or the defect caused by rigid connection transmission, provides drive mechanism and the food-handling equipment of a kind of motor and rotating shaft.

For achieving the above object, the drive mechanism of motor of the present invention and rotating shaft, comprises motor, rotating shaft, it is characterized in that:

Described motor has a rotation output;

Described rotating shaft has an input cover;

Described input cover is enclosed within described rotation output;

Described rotation output is equipped with friction transmission part, and described friction transmission part contacts when described rotation output rotates and rotates with described input cover on described input cover.

Optimization technique means as the drive mechanism of motor of the present invention and rotating shaft: described rotation output is evenly distributed with at least two fitting recess of opening towards periphery, described fitting recess has the first supporting surface and the second supporting surface, the friction transmission part of configuration described in one in each described fitting recess 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, when described friction transmission part relies on described first supporting surface, its outer end is positioned at one comparatively on small circumference, when described friction transmission part relies on described second supporting surface, its outer end is positioned at one comparatively on big circumference, the internal diameter of described input cover is less than the described diameter compared with big circumference.

Optimization technique means as the drive mechanism of motor of the present invention and 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 the drive mechanism of motor of the present invention and rotating shaft: the internal diameter that described input overlaps is greater than the described diameter compared with small circumference.

Optimization technique means as the drive mechanism of motor of the present invention and rotating shaft: the interior warp that described input overlaps inwardly diminishes gradually from its port.

Optimization technique means as the drive mechanism of motor of the present invention and rotating shaft: described input overlaps the interior through being greater than the described diameter compared with big circumference of port.

Optimization technique means as the drive mechanism of motor of the present invention and rotating shaft: described friction transmission part becomes large from described first supporting surface gradually to the diameter of its place, outer end circumference in the process of described second supporting surface movement.

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

Optimization technique means as the drive mechanism of motor of the present invention and rotating shaft: described input cover, by the end of Screw assembly in described rotating shaft, is tightened when the rotation direction of described screw thread is suitable for described electric machine rotation.

For achieving the above object, food-handling equipment of the present invention, comprise base and the cup being placed on described base can be sat, motor is provided with in described base, the bottom of described cup is equipped with rotating shaft, be provided with seal 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 output;

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

Described input cover is enclosed within described rotation output;

Described rotation output is equipped with friction transmission part, and described friction transmission part contacts when described rotation output rotates and rotates with described input cover on described input cover.

Optimization technique means as food-handling equipment of the present invention: described rotation output is evenly distributed with at least two fitting recess of opening towards periphery, described fitting recess has the first supporting surface and the second supporting surface, the friction transmission part of configuration described in one in each described fitting recess 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, when described friction transmission part relies on described first supporting surface, its outer end is positioned at one comparatively on small circumference, when described friction transmission part relies on described second supporting surface, its outer end is positioned at one comparatively on big circumference, the internal diameter of described input cover is less than the described diameter compared with big circumference.

Optimization technique means as food-handling equipment of the present invention: 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, 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 invention: the internal diameter of described input cover is greater than the described diameter compared with small circumference.

Optimization technique means as food-handling equipment of the present invention: the interior warp of described input cover inwardly diminishes gradually from its port.

Optimization technique means as food-handling equipment of the present invention: described input overlaps the interior through being greater than the described diameter compared with big circumference of port.

Optimization technique means as food-handling equipment of the present invention: described friction transmission part becomes large from described first supporting surface gradually to the diameter of its place, outer end circumference in the process of described second supporting surface movement.

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

Optimization technique means as food-handling equipment of the present invention: described input cover, by the end of Screw assembly in described rotating shaft, is tightened when the rotation direction of described screw thread is suitable for described electric machine rotation.

Optimization technique means as food-handling equipment of the present invention: described motor is assemblied in described base by the case surrounding 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 being communicated with described annular groove through described breach.

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

Optimization technique means as food-handling equipment of the present invention: the top of described case is provided with the recess be positioned at inside described inner ring limit, described input cover stretches to described recess isolates described annular groove and described rotation output.

Optimization technique means as food-handling equipment of the present invention: conflict in the bottom of described cup in the upper end of described outer annular edge, described input cover has centrifugal pan, maintain 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 invention has the beneficial effects as follows: by the input cover of rotating shaft is enclosed within the rotation output of motor, and friction transmission part is assembled on the rotation output of motor, friction transmission part rotates with input cover by centrifugal force and frictional contact when rotating output and rotating on input cover.This structure decreases rotating shaft and motor shaft to greatest extent to the requirement of axiality, thus the axle center deviation decreased to greatest extent because of rotating shaft and motor shaft and produce the phenomenon of wearing and tearing.And, motor case, between input cover with cup, drawing water structure is set, to avoid between rotating shaft and cup just in case liquid flows on motor and damages motor when there is seepage.

Accompanying drawing explanation

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

Fig. 2 is the end face structure schematic diagram of rotation output of the present invention;

Fig. 3 rotation output of the present invention assembles friction transmission part and the position view of friction transmission part when two kinds of duties;

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

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 invention;

Number in the figure illustrates:

01-base: 11-is by compressing switch;

02-cup: 21-electric heating device;

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

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

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

06-drainage channel.

Detailed description of the invention

Below in conjunction with Figure of description, the present invention will be further described.

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

This food-handling equipment, be characterized in that the drive mechanism that have employed motor of the present invention and rotating shaft is (in view of the drive mechanism of this motor and rotating shaft has all been included in food-handling equipment of the present invention, in order to avoid repeating, the no longer independent drive mechanism to motor and rotating shaft is explained), the complete expression of the drive mechanism of this motor and rotating shaft in FIG, is expressed more clear by partial structurtes in Fig. 5.

As shown in Figure 1, rotating shaft 04 is assemblied in cup 02 by two axle sleeves 42; Motor 03 has a rotation output 31, rotates output and rotate during machine operation; Rotating shaft 04 has an input be positioned on the downside of cup 02 and overlaps 43 in order to obtain moment of torsion from motor along with rotation; Input cover 43 is enclosed within and rotates on output 31; Rotate on output 31 and be equipped with friction transmission part 05(see Fig. 3), friction transmission part 05 contact when rotating output 31 and rotating is rotated with input cover on input cover 43.Therefore, even if the rotation output of motor and the input of rotating shaft overlap definitely not coaxial, also can, by friction transmission part from Row sum-equal matrix, rotating shaft and motor be avoided to produce the phenomenon of wearing and tearing because of axle center deviation.

Concrete, in order to simplify structure and be convenient to input cover dock with rotation output and be separated, see Fig. 2, rotate on output 31 and be evenly distributed with at least two fitting recess 312 of opening 311 towards periphery, fitting recess 312 has the first supporting surface 313 and the second supporting surface 314, a configuration friction transmission part 05 in each fitting recess 312 and friction transmission part can swing and be limited in an effective work activities scope between the first supporting surface 313 and the second supporting surface 314, 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 comparatively 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 comparatively on big circumference 5R, the internal diameter 43d of input cover is less than the diameter (see Fig. 3) compared with big circumference 5R, ensures to rotate the outer end of friction transmission part when output rotates and can contact fully on input cover.And the second described supporting surface 314, then can rely on to provide enough torques to rotate to drive input to overlap to input cover for friction transmission part 05 provides.

In order to make friction transmission part 05 at centrifugal force or/and dexterous actions under the effect of frictional force, friction transmission part 05 is in en plaque and its inner end edge is 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 output 31, if the outer end of friction transmission part 05 does not have contact input cover in initial state, then friction transmission part is forced to swing from the first supporting surface 313 to the second supporting surface 314 because rotating the centrifugal force produced, once the outer end contact input cover 43 of friction transmission part, then under the rubbing action of input cover, the more sufficient contact input cover of friction transmission part 05 is forced again to rotate in order to transmit.

Also for ease of and be convenient to input cover dock with rotation output and be separated, the internal diameter 43d of input cover is greater than the diameter (see Fig. 3) compared with small circumference 5R.Or the interior of input cover inwardly diminishes (see Fig. 5) through 43d gradually from its port.Above-mentioned two kinds of situations all can allow friction transmission part avoid the obstacle overlapped input when being enclosed within by input cover and rotating on output.For the latter, better selection is the interior diameter through being greater than compared with big circumference of input cover port.

In order to avoid friction transmission part is out of shape impaired in transpose process, friction transmission part 05 becomes large from the first supporting surface gradually to the diameter of its place, outer end circumference in the process of the second supporting surface movement.

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, is squeezed and crumple to such an extent as to can not transmit rotation reliably when transmitting and rotating in order to avoid friction transmission part.Also hard material can be selected during concrete enforcement.

Input cover 43, by the end of Screw assembly in rotating shaft 04, is tightened when the rotation direction of screw thread is suitable for electric machine rotation, avoids rotating shaft to loosen.

Between rotating shaft and cup, there is seepage in order to avoid contingency and cause flow direction motor and damage motor, see Fig. 4-6, motor is assemblied in base 01 by the case 32 surrounding 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 being communicated with annular groove through breach 322.When having liquid from cup during seepage, 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 inner ring limit 324 at case top, outer annular edge 325 formed.The top of case 32 is provided with the recess 326 be positioned at inside inner ring limit 324, and input cover 43 stretches to recess 326 isolates annular groove 321 and rotation output 31.Thus avoid the flow direction of seepage to rotate output (motor).

In order to smoothly the liquid of seepage be drawn the position of failure to the safe side, avoid other position of the flow direction base of seepage and damage other structure (as the electric heating device 21 during assembly for creating milk foam, electronic control device as by compressing switch 11 etc.), conflict in the bottom of cup 02 in the upper end of outer annular edge 325, input cover 43 has centrifugal pan 431, maintain 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, the leak fluid being thrown toward surrounding, and finally to be drained through breach 322, drainage trough 323 by outer annular edge 325 centralized collection in annular groove 321.

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

Claims (22)

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

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

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

Described input cover (43) is enclosed within described rotation output (31);

Described rotation output (31) is equipped with friction transmission part (05), and described friction transmission part (05) contacts when described rotation output rotates and rotates with described input cover on described input cover (43).

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

Described rotation output (31) is evenly distributed with at least two fitting recess (312) of opening (311) towards periphery, described fitting recess (312) has the first supporting surface (313) and the second supporting surface (314), the friction transmission part (05) of configuration described in one in each described fitting recess (312) 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 comparatively on small circumference (5r), when described friction transmission part (05) relies on described second supporting surface (314), its outer end is positioned at one comparatively on big circumference (5R),

The diameter of comparatively big circumference (5R) described in the internal diameter (43d) of described input cover is less than.

3. the drive mechanism of motor according to claim 2 and rotating shaft, it is characterized in that: described friction transmission part (05) is in en plaque and its inner end edge is 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. the drive mechanism of motor according to claim 2 and rotating shaft, is characterized in that: the diameter of comparatively small circumference (5r) described in the internal diameter (43d) of described input cover is greater than.

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

6. the drive mechanism of motor according to claim 5 and rotating shaft, is characterized in that: described input overlaps the interior through being greater than the described diameter compared with big circumference of port.

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

8. the drive mechanism of motor according to claim 2 and 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 cover (43), by the end of Screw assembly in described rotating shaft 04, is tightened when the rotation direction of described screw thread is suitable for described electric machine rotation.

10. food-handling equipment, comprise base (01) and the cup (02) being placed on described base can be sat, motor (03) is provided with in described base (01), the bottom of described cup (02) is equipped with rotating shaft (04), seal (41) 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 output (31);

Described rotating shaft (04) has the input cover (43) that is positioned at described cup (02) downside;

Described input cover (43) is enclosed within described rotation output (31);

Described rotation output (31) is equipped with friction transmission part (05), and described friction transmission part (05) contacts when described rotation output rotates and rotates with described input cover on described input cover (43).

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

Described rotation output (31) is evenly distributed with at least two fitting recess (312) of opening (311) towards periphery, described fitting recess (312) has the first supporting surface (313) and the second supporting surface (314), the friction transmission part (05) of configuration described in one in each described fitting recess (312) 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 comparatively on small circumference (5r), when described friction transmission part (05) relies on described second supporting surface (314), its outer end is positioned at one comparatively on big circumference (5R),

The diameter of comparatively big circumference (5R) described in the internal diameter (43d) of described input cover is less than.

12. food preparation electrical equipment according to claim 11, it is characterized in that: described friction transmission part (05) is in en plaque and its inner end edge is 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 equipments according to claim 11, is characterized in that: the diameter of comparatively small circumference (5r) described in the internal diameter (43d) of described input cover is greater than.

14. food-handling equipments according to claim 11, is characterized in that: the interior warp (43d) of described input cover inwardly diminishes gradually from its port.

15. food-handling equipments according to claim 14, is characterized in that: described input overlaps the interior through being greater than the described diameter compared with big circumference of port.

16. food-handling equipments according to claim 11, is characterized in that: described friction transmission part becomes large from described first supporting surface gradually to the diameter of its place, outer end circumference in the process of described second supporting surface movement.

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

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

19. food-handling equipments according to claim 10, it is characterized in that: described motor (03) is assemblied in described base (01) by the case (32) surrounding 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) being communicated with described annular groove (321) through described breach (322).

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

21. food-handling equipments according to claim 20, it is characterized in that: the top of described case (32) is provided with the recess (326) being positioned at described inner ring limit (325) inner side, described input cover (43) stretches to described recess (326) isolates described annular groove (321) and described rotation output (31).

22. food-handling equipments 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 cover (43) has centrifugal pan (431), maintain 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).