WO2022241916A1 - Transmission mechanism applied in cooking machine - Google Patents

Abstract

Disclosed is a transmission mechanism applied in a cooking machine, comprising a drive motor, a vertical output shaft, a gear box fixed relative to a housing of the drive motor, and a main transmission shaft rotatingly disposed on the gear box. An output end of the drive motor is provided with a worm, a first turbine that matches with the worm being disposed on one side of the screw, and a second turbine that matches with the worm being disposed on the other side of the worm; the first turbine is connected to the main transmission shaft by means of a first transmission mechanism, and the second turbine is connected to the main transmission shaft by means of a second transmission mechanism, such that the first turbine and the second turbine together can drive the main transmission shaft to rotate; and the main transmission shaft and the vertical output shaft are connected to one another by means of a third transmission mechanism. The worm in the transmission mechanism as provided in the present invention is uniformly stressed and is not easily worn down, has relatively low heat generation, and has a long service life.

Description

A transmission mechanism applied to a kitchen machine technical field

The invention relates to the technical field of kitchen machines, in particular to a transmission mechanism applied to kitchen machines.

Background technique

In recent years, food processing machinery, such as kitchen machines, have become more and more popular among consumers. There are many kinds of kitchen machines, which can be used to mince meat, smash fruits, stir and mix flour or other foods, which saves manpower and improves the efficiency of food production, which is very convenient.

The working function of the kitchen machine mainly depends on the structural configuration of its transmission device, but the transmission device of the existing kitchen machine is relatively conventional, and the vertical output shaft is generally driven by a motor-driven gear set, a worm gear mechanism, a belt transmission mechanism, etc. turn. Take a kitchen machine with a worm gear mechanism as an example. The worm is driven in conjunction with a turbine, so only one side of the worm and the turbine is in contact with the force, and its elastic deformation is large, easy to wear, and the force on the worm is uneven, easy to wear. Fatigue deformation; in addition, due to the high friction between the worm and the turbine, it is easy to generate a large amount of heat, which is superimposed on the heat generated by the motor and other moving parts, resulting in extremely high internal temperature of the kitchen machine, even the kitchen machine The interior of the kitchen is equipped with an air cooling system, and the heat will also be transferred to the casing of the kitchen machine, resulting in serious heating of the casing.

Contents of the invention

In view of this, the object of the present invention is to provide a transmission mechanism applied to a kitchen machine, the worm in the transmission mechanism is evenly stressed, not easy to wear, has low heat generation, and has a long service life.

The technical scheme that the present invention adopts for solving its technical problem is:

A transmission mechanism applied to a kitchen machine, comprising a drive motor, a vertical output shaft, a gear box fixed relative to the casing of the drive motor, and a main transmission shaft rotatably arranged on the gear box, the drive motor The output end is provided with a worm, one side of the worm is provided with a first worm gear matched with it, and the other side of the worm is provided with a second worm gear matched with it, and the first worm gear and the main transmission shaft pass through a second worm gear. A transmission mechanism is connected, and the second worm wheel is connected with the main transmission shaft through the second transmission mechanism so that the first worm wheel and the second worm wheel can drive the main transmission shaft to rotate together, and the main transmission shaft and The vertical output shaft is connected through the third transmission mechanism.

Preferably, the first turbine and the second turbine are arranged symmetrically on the left and right sides of the worm.

Preferably, the main transmission shaft is perpendicular to the worm, the main transmission sleeve is provided with a first gear that rotates synchronously with it, and the first transmission mechanism includes a gear that meshes with the first gear. The second gear, the second gear is connected with the first worm gear so that the two can rotate synchronously.

Preferably, the second transmission mechanism includes a third gear that meshes with the first gear, and a fourth gear that meshes with the third gear, and the fourth gear is connected with the second worm gear so that the two can rotate synchronously.

Preferably, the second gear is connected to the first worm gear through a gear shaft, and the fourth gear is connected to the second worm gear through a gear shaft.

Preferably, the third transmission mechanism includes an internal gear, a planetary gear and a planetary carrier, the internal gear is fixed to the gear box, the planetary carrier is connected to the lower end of the main transmission shaft and connected to the main transmission shaft Rotating synchronously, the vertical output shaft is pivotally connected to the planetary carrier and can rotate around its own axis, and the planetary gear is sleeved on the vertical output shaft and meshed with the internal gear.

Preferably, the gear box is further provided with a transverse output shaft, and the main transmission shaft is connected with the transverse output shaft through a fourth transmission mechanism to drive the transverse output shaft to rotate.

Preferably, the transverse output shaft is perpendicular to the main transmission shaft, and the fourth transmission mechanism includes a first bevel gear sleeved on the main transmission shaft, and a first bevel gear sleeved on the transverse output shaft. and a second bevel gear meshing with the first bevel gear.

Preferably, the gear box is fixedly provided with a motor mount, and the driving motor is fixedly mounted on the motor mount.

Preferably, the gear box is fixedly connected with a transmission component mounting seat, and the edge of the transmission component mounting seat and/or the edge of the gear box are provided with several heat-insulating rubber particles, and each heat-insulating rubber particle is distributed at intervals , the heat-insulating rubber particles are provided with through holes for threaded fasteners to pass through so that the gear box and the transmission component mounting seat can be installed on the described heat-insulating rubber particles and threaded fasteners kitchen machine.

Preferably, at least one heat-insulating colloid is connected to the transmission component mounting seat through a detachable connection structure.

Preferably, the connection structure includes a C-shaped colloidal seat arranged on the edge of the transmission component mounting seat, and a circumferential clamping groove provided in the middle of the heat-insulating colloid, and the C-shaped colloidal seat snap into the circumferential slot to fix the heat-insulating rubber particles.

Preferably, the tail end of the main shaft of the driving motor extends to the outside of the driving motor, and a heat exhaust fan is connected to the tail end of the main shaft of the driving motor.

The beneficial effects of the present invention are:

1. Both sides of the worm output two turbines at the same time, the force is balanced during work, and it is not easy to be fatigued and deformed, which is beneficial to reduce friction, reduce the wear of the worm and the turbine, and increase the service life. At the same time, there is almost no elastic deformation during the rotation of the worm, the friction between the worm and the turbine is small, and the heat generated is also small, which is beneficial to reduce the overall heat generation of the transmission structure.

2. The C-shaped rubber seat is used to install the heat-insulating rubber particles, which is convenient and quick to install, and it is relatively tight.

3. After installing the heat-insulating rubber particles on the rubber-shaped seat, use screws and other fasteners to pass through the through holes on the heat-insulating rubber particles, and finally tighten the screws on the casing of the kitchen machine, and the machine can be installed. The transmission structure of the invention is fixedly installed. After the installation is completed, the heat-insulating rubber particles not only play the role of installation and fixation, but also play the role of heat insulation, preventing the heat generated by the drive motor and transmission components from being transferred to the casing of the kitchen machine.

Description of drawings

Fig. 1 is a perspective view of the cooperation relationship of the action parts of the present invention;

Fig. 2 is a perspective view of the transmission structure between the drive motor and the main transmission shaft;

Figure 3 is an exploded view when the wind deflector of the driving motor is removed;

Figure 4 is an exploded view when the heat-insulating rubber particles are removed;

Fig. 5 is the structural representation when the present invention is installed on the kitchen machine;

Fig. 6 is an enlarged view of part A in Fig. 5 .

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings.

It should be noted that all directional indications (such as up, down, left, right, front, back...) in the embodiments of the present invention are only used to explain the relative relationship between the components in a certain posture (as shown in the accompanying drawings). When the positional relationship, movement conditions, etc., if the specific posture changes, the directional indication will also change accordingly. In addition, descriptions involving "preferred", "secondary preferred" and the like in the present invention are only for descriptive purposes, and should not be understood as indicating or implying their relative importance or implicitly specifying the quantity of indicated technical features. Thus, features defined as "preferred" and "less preferred" may explicitly or implicitly include at least one of these features.

Referring to Fig. 1 to Fig. 6, the present invention proposes a transmission mechanism applied to a kitchen machine, including a drive motor 1, a vertical output shaft 2, a gear box 3 fixed to the shell of the drive motor 1, and a gear box rotatably arranged on the The main transmission shaft 4 of the box 3, the output end of the driving motor 1 is provided with a worm 5, one side of the worm 5 is provided with a first worm gear 6 matched with it, and the other side of the worm 5 is provided with a second worm gear 7 matched with it, The first turbine 6 is connected with the main transmission shaft 4 through a first transmission mechanism. The integral transmission ratio of worm screw 5, first turbine 6, the first transmission mechanism is equal to the overall transmission ratio of worm screw 5, second turbine 7, second transmission mechanism, so that first turbine 6 and second turbine 7 can be driven together The main transmission shaft 4 rotates. The main transmission shaft 4 is connected with the vertical output shaft 2 through the third transmission mechanism.

Specifically, both the first turbine 6 and the second turbine 7 are arranged inside the gear box 3 . The first turbine 6 and the second turbine 7 are symmetrically arranged on the left and right sides of the worm 5. The various parameters of the first turbine 6 and the second turbine 7 are the same. The speed is equal.

In the present invention, two turbines are output from both sides of the worm 5 at the same time, and the force is balanced during operation, and it is not easy to be fatigued and deformed, which is beneficial to reduce friction, reduce wear of the worm and the turbine, and increase the service life. At the same time, there is almost no elastic deformation during the rotation of the worm, the friction between the worm and the turbine is small, and the heat generated is also small, which is beneficial to reduce the overall heat generation of the transmission structure.

In a preferred solution of the present invention, the main transmission shaft 4 is perpendicular to the worm 5, the main transmission shaft 4 is provided with a first gear 8 that rotates synchronously with it, and the first transmission mechanism includes a second gear that meshes with the first gear 8 9. The second gear 9 is connected with the first turbine 6 so that the two can rotate synchronously.

In a preferred solution of the present invention, the second transmission mechanism includes a third gear 10 meshing with the first gear 8 and a fourth gear 11 meshing with the third gear 10, the fourth gear 11 is connected with the second turbine 7 so that the two can rotate synchronously. Pass through a gear transmission between the first turbine 6 and the first gear 8, pass power between the second turbine 7 and the first gear 8 through two gears, make the original first turbine 6 and the second turbine 7 of reverse rotation When power is transmitted to the first gear 8, the first gear 8 can be driven to rotate in the same direction.

Optionally, the second gear 9 is connected to the first turbine 6 through a gear shaft, and the fourth gear 11 is connected to the second turbine 7 through a gear shaft.

In some solutions of the present invention, the first transmission mechanism and the second transmission structure can also adopt such a structural form, such as canceling the first gear 8, the second gear 9 is connected with the main transmission shaft 4 through a synchronous belt mechanism, and the second The four gears 11 are also connected with the main transmission shaft 4 by a synchronous belt mechanism.

In a preferred solution of the present invention, in a preferred solution of the present invention, the third transmission mechanism includes an internal gear 12, a planetary gear 13 and a planetary carrier 14, the internal gear 12 is fixed with the gear box 3, and the planetary carrier 14 is connected It is located at the lower end of the main transmission shaft 4 and rotates synchronously with the main transmission shaft 4. The vertical output shaft 2 is pivotally connected to the planet carrier 14 and can rotate around its own axis. The planetary gear 13 is sleeved on the vertical output shaft 2 and connected with the internal gear 12 meshes. Adopting such a transmission structure between the main transmission shaft 4 and the vertical output shaft 2 can achieve a large transmission ratio in a small space, and the deceleration effect is obvious; at the same time, the vertical output shaft 2 revolves around the main transmission shaft 4 At the same time, it rotates around its own axis, which is very suitable for complex tasks such as kneading dough.

Further, the gear box 3 is also provided with a transverse output shaft 15 , and the main transmission shaft 4 is connected with the transverse output shaft 15 through a fourth transmission mechanism to drive the transverse output shaft 15 to rotate. Horizontal output shaft 15 and longitudinal output shaft can be used in different occasions to process different foods respectively, and classification is special-purpose, and it is very convenient to use.

In a preferred solution of the present invention, the transverse output shaft 15 is perpendicular to the main transmission shaft 4, and the fourth transmission mechanism includes a first bevel gear 16 sleeved on the main transmission shaft 4, and a bevel gear sleeved on the transverse output shaft 15. And the second bevel gear 17 meshing with the first bevel gear 16. The transmission is carried out by two bevel gears, the transmission is stable, and it is beneficial to reduce the length and width of the entire transmission mechanism, and the overall structure is compact.

Referring to FIG. 3 , the gear box 3 is fixedly provided with a motor mount 19 , and the drive motor 1 is fixedly mounted on the motor mount 19 .

Referring to Figures 4 to 6, as a further improvement of the present invention, the gear box 3 is fixedly connected with the transmission component mounting seat 20, and the edge of the transmission component mounting seat 20 is provided with several heat-insulating rubber particles 21 at intervals, or the gear box 3 Several heat-insulating rubber particles 21 are provided at intervals on the edge, or several heat-insulating rubber particles 21 are provided on the edge of the transmission component mounting seat 20 and the edge of the gear box 3 . Each heat-insulating rubber particle 21 is distributed at intervals, and the heat-insulating rubber particle 21 is provided with a through hole 211 for threaded fasteners to pass through, so that the gear box 3 and the transmission component mounting seat 20 can pass through the heat-insulating rubber particle 21 and the screw thread. The fasteners are installed on the kitchen machine.

Among them, the solution in which several heat-insulating rubber particles 21 are provided on the edge of the transmission component mounting seat 20 and the edge of the gear box 3 is the best solution. In this solution, some heat-insulating rubber particles 21 are connected to the transmission component mounting seat 20 through a detachable connection structure. Some heat insulating rubber particles 21 are connected with the gear box 3 through a detachable connection structure.

In a preferred solution of the present invention, the connection structure between the heat insulating rubber particles 21 and the transmission part mounting seat 20 includes a C-shaped rubber particle seat 22 arranged on the edge of the transmission part mounting seat 20, and a C-shaped rubber particle seat 22 arranged on the heat insulating rubber particle The circumferential clamping groove 212 in the middle of 21, the opening of the C-shaped colloidal particle seat 22 is smaller than the diameter at the circumferential clamping groove 212. The heat-insulating rubber particles 21 are fixed by snapping the C-shaped rubber particle seat 22 into the circumferential slot 212 . The connection structure between the heat insulating rubber particles 21 and the gear box 3 is the same as the above structure. In this solution, after the heat-insulating rubber particles 21 are installed on the C-shaped rubber particle seat 22, screws and other fasteners are used to pass through the through holes 211 on the heat-insulating rubber particles 21, and finally the screws are tightened on the kitchen machine shell On the body 25, the fixed installation can be completed. After the installation is completed, the heat-insulating rubber particles not only play the role of installation and fixation, but also play the role of heat insulation, preventing the heat generated by the drive motor and transmission parts from being transferred to the shell 25 of the kitchen machine, and combined with the air cooling in the kitchen machine. The system can specifically dissipate heat on the transmission structure of the present invention.

In order to improve the heat dissipation capability, the tail end of the main shaft of the driving motor 1 extends to the outside of the driving motor, and the tail end of the main shaft of the driving motor is connected with a heat exhaust fan 23 .

The above are only preferred embodiments of the present invention, and are not intended to limit the patent scope of the present invention. Under the inventive concept of the present invention, the equivalent structural transformation made by using the description of the present invention and the contents of the accompanying drawings, or directly or indirectly used in other All relevant technical fields are included in the patent protection scope of the present invention.

Claims (10)

A transmission mechanism applied to kitchen machines, characterized in that it comprises a drive motor (1), a vertical output shaft (2), a gear box (3) fixed relative to the casing of the drive motor (1), and a rotating Set on the main transmission shaft (4) of the gear box (3), the output end of the drive motor (1) is provided with a worm (5), and one side of the worm (5) is provided with a first A turbine (6), the other side of the worm (5) is provided with a second turbine (7) matched with it, and the first turbine (6) is connected to the main transmission shaft (4) through a first transmission mechanism , the second turbine (7) is connected to the main transmission shaft (4) through a second transmission mechanism so that the first turbine (6) and the second turbine (7) can drive the main transmission shaft together (4) Rotate, the main transmission shaft (4) and the vertical output shaft (2) are connected through the third transmission mechanism. A transmission mechanism applied to kitchen machines according to claim 1, characterized in that, the first worm gear (6) and the second worm gear (7) are symmetrically arranged on the left and right sides of the worm (5) side. A transmission mechanism applied to kitchen machines according to claim 2, characterized in that, the main transmission shaft (4) is perpendicular to the worm (5), and the main transmission shaft (4) covers There is a first gear (8) that rotates synchronously with it, and the first transmission mechanism includes a second gear (9) that meshes with the first gear (8), and the second gear (9) is in contact with the first gear (8). The first turbine (6) is connected so that the two can rotate synchronously. A transmission mechanism applied to kitchen machines according to claim 3, characterized in that, the second transmission mechanism includes a third gear (10) meshing with the first gear (8), and a third gear (10) meshing with the first gear (8). The third gear (10) meshes with the fourth gear (11), and the fourth gear (11) is connected with the second worm gear (7) so that the two can rotate synchronously. A transmission mechanism applied to a kitchen machine according to claim 1, wherein the third transmission mechanism comprises an internal gear (12), a planetary gear (13) and a planetary carrier (14), and the internal gear (12) is fixed with the gear box (3), the planet carrier (14) is connected to the lower end of the main transmission shaft (4) and rotates synchronously with the main transmission shaft (4), and the vertical output shaft (2) pivotally connected to the planet carrier (14) and can rotate around its own axis, the planet gear (13) is sheathed on the vertical output shaft (2) and connected to the internal gear (12) engage. A transmission mechanism applied to a kitchen machine according to claim 1, characterized in that, said gear box (3) is fixedly provided with a motor mount (19), and said drive motor (1) is fixedly mounted on The motor mount (19). A transmission mechanism applied to kitchen machines according to claim 1, characterized in that, the gear box (3) is fixedly connected with a transmission component mounting seat (20), and the transmission component mounting seat (20) The edge portion and/or the edge portion of the gear box (3) are provided with several heat-insulating rubber particles (21), and each heat-insulating rubber particle (21) is distributed at intervals, and the heat-insulating rubber particles (21) are provided with Through holes (211) for threaded fasteners to pass through, so that the gear box (3) and the transmission component mounting seat (20) can be installed on the described gear box (3) and the transmission component mounting seat (20) kitchen machine. The transmission mechanism applied to kitchen machines according to claim 7, characterized in that at least one heat-insulating rubber particle (21) is connected to the transmission component mounting seat (20) through a detachable connection structure. A transmission mechanism applied to kitchen machines according to claim 8, characterized in that, the connection structure includes a C-shaped colloid seat (22) arranged on the edge of the transmission component mounting seat (20), and The circumferential clamping groove (212) arranged in the middle of the heat-insulating colloid (21), the C-shaped colloidal seat (22) is clamped into the circumferential clamping groove (212) so that the insulation The thermocolloid (21) is fixed. A transmission mechanism applied to a kitchen machine according to claim 1, wherein the tail end of the main shaft of the driving motor (1) extends to the outside of the driving motor, and the tail end of the main shaft of the driving motor is connected with Exhaust fan (23).

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