CN112167954A

CN112167954A - Automatic rice cooking equipment

Info

Publication number: CN112167954A
Application number: CN202011033677.7A
Authority: CN
Inventors: 傅峰峰; 江志强; 蔡顺发
Original assignee: Guangzhou Fugang Wanjia Intelligent Technology Co Ltd
Current assignee: Guangzhou Fugang Wanjia Intelligent Technology Co Ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2021-01-05

Abstract

The invention discloses automatic rice cooking equipment which can be applied to intelligent kitchen equipment. The automatic rice cooking equipment comprises an automatic rice washing device and a cooking device, wherein a rice outlet of the automatic rice washing device is positioned above a feed inlet of the cooking device, a rice outlet cover for sealing the rice outlet is arranged at the rice outlet, a feed cover for sealing the feed inlet is arranged at the feed inlet, the rice outlet cover and the feed cover are integrated and driven by a driving device, the rice outlet cover and the feed cover are linked, the rice outlet cover opens the rice outlet and the feed cover opens the feed inlet, and the two actions are carried out together; the rice outlet cover closes the rice outlet and the feeding cover closes the feeding hole, and the two actions are carried out together. Go out rice lid and feeding lid linkage, both drive by drive arrangement as a whole, need not to establish two drive arrangement for going out rice lid and feeding lid respectively, reduce the manufacturing cost of device.

Description

Automatic rice cooking equipment

Technical Field

The invention relates to the technical field of automatic cooking equipment, in particular to automatic cooking equipment.

Background

The automatic rice cooking apparatus includes an automatic rice washing device and a cooking device, and the automatic rice washing device transfers rice to the cooking device after washing the rice, thereby realizing automatic rice cooking. Some automatic rice cooking equipment's automatic rice washing device's rice outlet sets up above cooking device's feed inlet, thereby utilizes gravity to drop automatically and realize cooking in cooking device. Some of these automatic rice cooking devices have their automatic rice washing devices and cooking devices independent of each other, and have sealing covers to close the rice outlet and the rice inlet, and control the opening and closing of the corresponding sealing covers by a motor, so that the structure is complicated and the cost is high.

Disclosure of Invention

The technical problem to be solved by the invention is how to reduce the driving device needed in the automatic rice cooking equipment, thereby reducing the cost.

In order to solve the technical problem, the automatic rice cooking equipment comprises an automatic rice washing device and a cooking device, wherein a rice outlet of the automatic rice washing device is positioned above a feed inlet of the cooking device, a rice outlet cover for sealing the rice outlet is arranged at the rice outlet, a feed inlet cover for sealing the feed inlet is arranged at the feed inlet, the rice outlet cover and the feed inlet cover are taken as a whole and are driven by a driving device, the rice outlet cover is linked with the feed inlet cover, and the rice outlet cover opens the rice outlet and the feed inlet cover opens the feed inlet, so that the two actions are carried out together; the rice outlet cover closes the rice outlet and the feeding cover closes the feeding hole, and the two actions are carried out together.

Furthermore, go out rice lid bottom and stretch out downwards and have first bellying, the feeding lid top stretches out upwards and has the second bellying, and drive arrangement drive goes out rice lid and removes to open a rice mouth then the first bellying of going out rice lid promotes the second bellying of feeding lid in order to realize opening the feed inlet together.

Furthermore, the rice outlet cover is a disc, an opening is formed in the non-circle center of the rice outlet cover, the driving device drives the disc to rotate around the circle center so that the opening and the first protruding portion move along the circumference until the opening is aligned with the rice outlet, and the rice outlet is opened; the second boss is located on the path of the first boss for the motion, the opening is pushed by the first boss to move linearly to open the feed inlet in the process of rotating to align the rice outlet, and the disc continues to rotate, so that: on one hand, the opening continues to move along the circumference and is not aligned with the rice outlet any more, so that the disc closes the rice outlet; on the other hand, the first boss continues to move circularly away from the second boss so that the feeding cover automatically resets to close the feeding hole.

Furthermore, the driving device is a motor, a gear ring is arranged on the side edge of the disc, and the motor drives the disc through a driving gear meshed with the disc.

Furthermore, the opening and the first bulge are respectively positioned at two sides of the circle center of the disc and positioned on the same diameter.

The controller detects that the opening rotates to be aligned with the rice outlet through the in-place sensor, and then the driving device stops driving the disc to enable the rice outlet to be kept in an open state.

Furthermore, an outer ring extends out of the top or the bottom of the disc towards the side, a notch is formed in the outer ring, and the controller detects the notch through the in-place sensor so as to determine that the opening rotates to be aligned with the rice outlet.

Further, be equipped with the elasticity that provides the reset force for the feed cover and reset the piece.

Further, the edge of the feeding cover is provided with a sealing strip for sealing the feeding hole.

Further, the rice outlet cover seals the rice outlet.

Go out rice lid and feeding lid linkage, both drive by drive arrangement as a whole, need not to establish two drive arrangement for going out rice lid and feeding lid respectively, reduce the manufacturing cost of device.

Drawings

FIG. 1 is a schematic view showing the construction of an automated rice cooking system;

FIG. 2 is a schematic view of an automatic rice washing device in an automatic rice cooking apparatus in a small depression angle view;

FIG. 3 is a schematic structural view of the automatic rice washing device at a small elevation angle, in which the opening and the first protrusion are respectively located at two sides of the central axis 150, and the distance between the center of the opening and the central axis is greater than the distance between the first protrusion and the central axis;

FIG. 4 is a schematic view of the automatic rice washing device at a small elevation angle, with the rice outlet cover hidden;

FIG. 5 is an exploded view of a disc gear of the automatic rice washing apparatus;

FIG. 6 is a schematic view showing a structure of a cooking means in the automated rice cooking system;

fig. 7 is an enlarged schematic view of a feed port of the cooking apparatus of fig. 6, in which a small dotted circle is a circular motion trace of the first protrusion, a large dotted circle is a circular motion trace of the opening, and a moving direction of the first protrusion and the opening is clockwise.

Reference numerals: 10. an automatic rice washing device; 11. washing the rice drum; 111. a rice inlet; 112. a water inlet; 113. a water outlet; 114. a rice outlet; 12. a water inlet valve; 13. a liquid level sensor; 14. a water outlet valve; 15. a disc gear; 15-1, a chassis; 15-2, an inner disc; 15-3, a wave spring; 150. a central shaft; 151. an opening; 152. a first boss portion; 16. a motor; 17. a driving gear; 18. an outer ring; 181. a notch; 19. an in-position sensor; 20. a cooking device; 21. a feed inlet; 22. a feeding cover; 23. a second boss portion; 30. a rice storage bin; 31. and (5) a rice pumping pipe.

Detailed Description

The automated rice cooking system as shown in fig. 1 includes a rice bin 30, an automatic rice washing device 10, a cooking device 20 located under the automatic rice washing device 10, and a controller electrically connecting the automatic rice washing device 10 and the cooking device 20. As shown in FIG. 2, the automatic rice washing apparatus 10 includes a rice washing tub 11. The rice washing barrel 11 is provided with a rice inlet 111. The rice inlet 111 is connected with the rice storage bin 30 through a rice pumping pipe 31 in figure 1. The bottom of the rice storage bin 30 is provided with a quantitative rice discharging device which is electrically connected with the controller. The quantitative rice discharging device is connected with a rice pumping pipe 31 through a rice pumping pump, so that the rice output by the quantitative rice discharging device is pumped into the rice washing barrel 11.

As shown in FIG. 2, the rice washing drum 11 is provided with a water inlet 112 and a water outlet 113, the water inlet 112 is connected to a faucet (not shown) through a water inlet valve 12 electrically connected to the controller, and the water outlet 113 is connected to a drain pipe (not shown) through a water outlet valve 14 electrically connected to the controller. After the quantitative rice discharging device adds quantitative rice into the rice washing barrel 11, the controller controls the water inlet valve 12 to conduct the water inlet 112 to inject water into the rice washing barrel 11, and the rice is rolled in the rice washing barrel 11 by water flow, so that the rice washing effect is achieved. The outer side wall of the rice washing barrel 11 is provided with a liquid level sensor 13 electrically connected with the controller, and when the liquid level sensor detects that the water level in the rice washing barrel 11 reaches a preset height, the liquid level sensor sends a signal to inform the controller so as to control the water inlet valve 12 to close the water inlet 112 and control the water outlet valve 14 to conduct the water outlet 113 to discharge rice washing water. Under the control of the controller, water is repeatedly injected into the rice washing barrel 11 for a plurality of times, so that the rice is washed clean.

As shown in fig. 4, the bottom of the rice washing barrel 11 is provided with a rice outlet 114. The bottom of the rice washing barrel 11 is provided with a disc gear 15 as shown in figure 3, which is used as a rice outlet cover for closing the rice outlet 114. The disc gear 15 is fixed below the bottom of the rice washing barrel 11 through the central shaft 150 shown in fig. 4, and the disc gear 15 can be clamped below the bottom of the rice washing barrel 11 because the bottom end of the central shaft 150 is larger than the upper end. The automatic rice washing apparatus 10 includes a motor 16 which drives a disc gear 15 through a driving gear 17 engaged with the disc gear 15. The disc gear 15 is provided with an opening 151 matched with the rice outlet 114 at a non-center position, and the motor 16 drives the disc gear 15 to rotate around the central shaft 150 so as to enable the opening 151 to move along the circumference until the opening 151 is aligned with the rice outlet 114, thereby opening the rice outlet 114. In order to seal the rice outlet 114, as shown in FIG. 5, the disc gear 15 includes a bottom plate 15-1 and an inner plate 15-2, the top of the bottom plate 15-1 is recessed to form a cavity, the inner plate 15-2 is mounted in the cavity, and an opening 151 penetrates through the bottom plate 15-1 and the inner plate 15-2. The wave spring 15-3 which provides upward pressing force for the inner disc 15-2 is arranged in the concave cavity, so that the inner disc 15-2 is pressed at the bottom of the rice washing barrel 11 to achieve the effect of sealing the rice outlet 114.

As shown in fig. 3, a first protrusion 152 protrudes downward from the bottom of the disc gear 15. As shown in fig. 6, the top of the cooking apparatus 20 is provided with a feed opening 21 at a position opposite to the rice outlet 114. A feeding cover 22 for closing the feeding hole 21 is arranged at the feeding hole 21. The edge of the feed cover 22 is provided with a sealing strip to seal the feed opening 21. The top of the feeding cover 22 is protruded upward with a second protrusion 23. The opening 151 and the first boss 152 move circularly with the rotation of the disc gear 15. The circular motion path of the opening 151 is a dotted large circle shown in fig. 7, and the circular motion path of the first boss 152 is a dotted small circle shown in fig. 7. The first protrusion 152 and the opening 151 are respectively located on both sides of the central shaft 150 and located on the same diameter. The initial position of the first boss 152 is located at the rightmost end a1 of the dashed small circle, and the initial position of the opening 151 is located at the leftmost end B1 of the dashed large circle. The second boss 23 is located on the circular motion path of the first boss 152. When the motor 16 drives the disc gear 15 to rotate, the first protrusion 152 rotates clockwise along the small dotted circle from the initial position a1, thereby pushing the second protrusion 23 to move linearly to the left to open the feed opening 21. At the same time, the opening 151 rotates clockwise from the initial position B1 along the dotted large circle. As shown in FIG. 2, an outer ring 18 extends laterally from the top of the disc gear 15, and the outer ring 18 is provided with a notch 181. The left side of the rice washing barrel 11 is provided with a position sensor 19 which is electrically connected with the controller at the corresponding position of the outer ring 18. The notch 181 and the opening 151 are respectively located at two sides of the central shaft 150, and when the opening 151 moves to align with the rice outlet 114, the notch 181 just moves to the in-position sensor 19. As a simple alternative, the outer ring 18 may instead extend laterally at the bottom of the carousel gear 15. The controller detects the position of the notch 181 by the position sensor 19 to detect whether the opening 151 is moved to be aligned with the rice outlet 114. When the position sensor 19 detects the notch 181, it indicates that the first protrusion 152 moves to the leftmost end a2 of the small circle of the dotted line, the second protrusion 23 is pushed to the dotted line position shown in fig. 7, the feed opening 21 is opened to the maximum, and the opening 151 moves to B2, and just aligns with the rice outlet 114 to open the rice outlet 114, and the controller causes the motor 16 to suspend the driving of the circular gear 15, so as to maintain the rice outlet 114 in the open state, so that the rice in the rice washing drum 11 falls into the feed opening 21 below and then falls into the cooking device 20. The left side of the feed cap 22 is provided with a spring as an elastic return member. After rice is discharged, the motor 16 is started again to drive the disc gear 15 to rotate clockwise continuously, and then: on the one hand, the opening 151 is no longer aligned with the rice outlet 114 and closes the rice outlet 114; on the other hand, the first protrusion 152 moves clockwise along the dotted small circle from the leftmost end of the dotted small circle, and leaves the second protrusion 23, so that the second protrusion 23 automatically returns under the action of the spring to close the feed opening 21 again. After the feeding cover 22 is automatically reset, the cooking device 20 is started to cook.

The linkage mode of the embodiment is as follows: the feeding cover 21 is driven to move linearly by driving the disc gear 15 as a rice outlet cover to rotate, so that the feeding hole 21 and the rice outlet 114 are opened together. In other embodiments, the rice discharging cover is changed to adopt the same structure as the feeding cover 22 and is driven by a linear motor, and the linkage mode under the structure has two types, wherein one type of linkage mode is as follows: the linear motor drives the rice outlet cover and the feeding cover 22 to move linearly simultaneously, specifically, an output shaft of the linear motor is connected with a vertical shaft, two ends of the vertical shaft can respectively clamp the first protruding portion 152 and the second protruding portion 23, and the vertical shaft moves forwards when the output shaft of the linear motor extends, so that the first protruding portion 152 and the second protruding portion 23 are pushed, the rice outlet cover and the feeding cover 22 move leftwards, and the rice outlet 114 and the feeding hole 21 are opened. Another linkage mode can also be changed: the linear motor directly drives the feeding cover 22 to move linearly to open the feeding hole 21, and the second boss 23 of the feeding cover 22 clamps the first boss 152 of the rice outlet cover, so as to drive the rice outlet cover to move linearly to open the rice outlet 114.

Claims

1. The utility model provides an automatic equipment of cooking, is including automatic rice device and the culinary art device of washing, and the play rice mouth of automatic rice device of washing is located the feed inlet top of culinary art device, and play rice mouth department is equipped with the play rice lid that is used for sealing a rice mouth, and feed inlet department is equipped with the feed cover that is used for sealing the feed inlet, characterized by: the rice outlet cover and the feeding cover are integrated and driven by the driving device, the rice outlet cover is linked with the feeding cover, and the rice outlet cover opens the rice outlet and the feeding cover opens the feeding hole, so that the two actions are carried out together; the rice outlet cover closes the rice outlet and the feeding cover closes the feeding hole, and the two actions are carried out together.

2. The automated rice cooking system according to claim 1, wherein: go out rice lid bottom and stretch out downwards and have first bellying, the feeding lid top stretches out upwards and has the second bellying, and drive arrangement drive goes out rice lid and removes to open and go out rice mouth then the first bellying of rice lid promotes the second bellying of feeding lid in order to realize opening the feed inlet together.

3. The automated rice cooking system according to claim 2, wherein: the rice outlet cover is a disc, an opening is formed in the non-circle center of the rice outlet cover, the driving device drives the disc to rotate around the circle center so that the opening and the first boss move along the circumference until the opening is aligned with the rice outlet, and the rice outlet is opened; the second boss is located on the path of the first boss for the motion, the opening is pushed by the first boss to move linearly to open the feed inlet in the process of rotating to align the rice outlet, and the disc continues to rotate, so that: on one hand, the opening continues to move along the circumference and is not aligned with the rice outlet any more, so that the disc closes the rice outlet; on the other hand, the first boss continues to move circularly away from the second boss so that the feeding cover automatically resets to close the feeding hole.

4. The automated rice cooking system according to claim 3, wherein: the driving device is a motor, a gear ring is arranged on the side edge of the disc, and the motor drives the disc through a driving gear meshed with the disc.

5. The automated rice cooking system according to claim 3, wherein: the opening and the first bulge are respectively positioned at two sides of the circle center of the disc and positioned on the same diameter.

6. The automated rice cooking system according to claim 3, wherein: the controller detects that the opening rotates to be aligned with the rice outlet through the in-place sensor, and the driving device stops driving the disc to enable the rice outlet to be kept in an open state.

7. The automated rice cooking system according to claim 6, wherein: an outer ring extends out of the top or the bottom of the disc towards the side, a notch is formed in the outer ring, and the controller detects the notch through the in-place sensor so as to determine that the opening rotates to be aligned with the rice outlet.

8. The automated rice cooking system according to claim 3, wherein: be equipped with the elasticity that provides the restoring force for the feed cover and reset.

9. The automated rice cooking system according to claim 1, wherein: the edge of the feeding cover is provided with a sealing strip for sealing the feeding hole.

10. The automated rice cooking system according to claim 1, wherein: the rice outlet cover seals the rice outlet.