CN211355032U

CN211355032U - Novel reinforced rice bin

Info

Publication number: CN211355032U
Application number: CN201921833717.9U
Authority: CN
Inventors: 刘昌钧
Original assignee: Kunshan Shaoheng Automation Equipment Co ltd
Current assignee: Kunshan Shaoheng Automation Equipment Co ltd
Priority date: 2020-07-07
Filing date: 2020-07-07
Publication date: 2020-08-28
Anticipated expiration: 2030-07-07

Abstract

In order to solve the problem that the rice cooker needs to add rice more troublesome and make mistakes easily when cooking rice, the utility model provides a novel reinforced rice bin, it includes: a hopper-shaped rice bin 1; the method is characterized in that: the both sides relative position of connecting pipe 18 is equipped with first connector 183 and second connector 184 respectively, novel reinforced rice bin still include ration pivot 2, ration pivot 2 includes quantitative groove 21, connecting rod 22 and power unit, ration pivot 2 alternates inside connecting pipe 18 through first connector 183 and second connector 184, be equipped with one or more ration groove 21 on the ration pivot 2, connecting rod 22 is located the center pin direction of ration pivot 2, power unit can drive the connecting rod 22 of ration pivot 2 and rotate along the center pin direction, in rotatory process, ration groove 21 can link up respectively with first through-hole 181 and second through-hole 182.

Description

Novel reinforced rice bin

Technical Field

The utility model relates to a mechanical automation technical field, it is comparatively concrete, involve a novel reinforced rice bin.

Background

At present, when rice is cooked by an electric cooker on the market, a user needs to add rice for cooking, the rice is usually added by a measuring cup or other measuring tools, a certain amount of rice is taken out of a rice bin and then put into the electric cooker, the processes are manually operated, no automatic equipment exists, furthermore, when the specific required rice amount is determined, the rice is directly determined by determining the rice using several times of the measuring tools, if the user does not concentrate, the user easily forgets to add the rice using several times of the measuring tools, so that more rice or less rice can be added, if the user does not cook frequently, the error of the level can be generated, the error can not be found basically, if more rice is added, most directly results in the waste of food, and if the rice is added less, the rice is likely to be eaten by people after a meal.

SUMMERY OF THE UTILITY MODEL

In view of this, need the manual work to add rice more troublesome, and the problem of making mistakes easily when cooking rice in order to solve above rice cooker, the utility model provides a novel reinforced rice bin, it sets up automatic material conveying device through the rice bin lower part that is normal, with the entrance of rice cooker of automatic addition after the rice quantification processing, not only can realize adding rice to the rice cooker automatically, can also realize the ration simultaneously and add rice, avoided the manual work to add the problem that makes mistakes easily of rice, liberated ordinary people user's both hands for the user can vacate more time and enjoy in life.

A novel reinforced rice bin, which comprises: the hopper-shaped rice bin 1 comprises a side wall, a first opening 15 and a second opening 16, wherein the second opening 16 is positioned at the bottom of the side wall, the first opening 15 is positioned at the top of the side wall or on the side wall, the second opening 16 is connected with the upper end of a rice guiding channel 17, the lower end of the rice guiding channel 17 is connected with a connecting pipe 18, a first through hole 181 and a second through hole 182 are formed in the connecting pipe 18, the first through hole 181 is positioned at the upper part of the connecting pipe 18, the second through hole 182 is positioned at the lower part of the connecting pipe 18, and rice in the hopper-shaped rice bin 1 can enter the rice guiding channel 17 through the second opening 16 and then enter the first through hole 181; the method is characterized in that: the opposite positions of the two sides of the connecting pipe 18 are respectively provided with a first connecting port 183 and a second connecting port 184, the novel rice charging bin further comprises a quantitative rotating shaft 2, the quantitative rotating shaft 2 comprises a quantitative groove 21, a connecting rod 22 and a power mechanism, the quantitative rotating shaft 2 is inserted into the connecting pipe 18 through the first connecting port 183 and the second connecting port 184, one or more quantitative grooves 21 are arranged on the quantitative rotating shaft 2, the connecting rod 22 is positioned in the central axis direction of the quantitative rotating shaft 2, the power mechanism can drive the connecting rod 22 of the quantitative rotating shaft 2 to rotate along the central axis direction, the quantitative groove 21 is respectively communicated with the first through hole 181 and the second through hole 182 in the rotating process, when the quantitative groove 21 is communicated with the first through hole 181, rice is transferred from the hopper-shaped rice bin 1 and stored in the quantitative groove 21, when the quantitative groove 21 is communicated with the second through hole 182, the rice is completely poured out from the quantitative groove 21, the rice cooker is located below the measuring well 21, and the rice poured out of the measuring well 21 is transferred to the rice cooker by gravity.

Further, the side walls of the hopper-shaped rice bin 1 comprise a first side wall 11, a second side wall 12, a third side wall 13 and a fourth side wall 14, the first side wall 11 is connected with the second side wall 12, the second side wall 12 is connected with the third side wall 13, the third side wall 13 is connected with the fourth side wall 14, the fourth side wall 14 is connected with the first side wall 11 to form a circumference, the first opening 15 is formed by the top edges of the first side wall 11, the second side wall 12, the third side wall 13 and the fourth side wall 14, the second opening 16 is formed by the bottom edges of the first side wall 11, the second side wall 12, the third side wall 13 and the fourth side wall 14, and the circumference of the first opening 15 is larger than that of the second opening 16. By adopting the structure with the large upper part and the small lower part, the rice can slide downwards along the side wall of the hopper-shaped rice bin 1.

Further, the power mechanism is a combination structure of the motor 31 and the speed reducer 32, a rotating shaft of the motor 31 is connected with an input end of the speed reducer 32, and an output shaft 321 of the speed reducer 32 is connected with the connecting rod 22.

Further, the inside of the connecting rod 22 is a hollow structure, and the output shaft 321 of the speed reducer 32 is inserted into the hollow inside of the connecting rod 22 and fixed.

Further, a connecting sleeve 4 is arranged outside the connecting rod 22, a first fixing surface 41 and a second fixing surface 42 are respectively arranged at two ends of an opening of the connecting sleeve 4, the first fixing surface 41 is fixed on the side wall of the speed reducer 32, the second fixing surface 42 is fixed on a flange outside the first connecting port 183 of the connecting pipe 18 through screws, a flange piece 185 is arranged outside the second connecting port 184, and the flange piece 185 is fixed on the second connecting port 184 through screws.

Furthermore, the novel rice bin for charging also comprises a shell 6, and the bucket-shaped rice bin 1, the quantitative rotating shaft 2 and the power mechanism are wrapped in the shell 6 to play a certain protection role; the shell 6 comprises a bottom plate 61, a bucket-shaped fixing piece 5 is fixed on the upper surface of the bottom plate 61, the bucket-shaped fixing piece 5 comprises a bucket-shaped funnel 51 and a plane fixing block 52, the lower opening of the bucket-shaped funnel 51 is matched with the opening of the plane fixing block 52, and the plane fixing block 52 is fixed on the bottom plate 61 through screws; the connection pipe 18 is placed in the upper opening of the hopper-shaped funnel 51.

Further, a fixing block 7 is arranged on the lower surface of the bottom plate 61 of the shell 6, the fixing block 7 comprises a first fixing foot 71 and a second fixing foot 72, an air cylinder 9 is fixed at one end of the first fixing foot 71 and one end of the second fixing foot 72, a rice adding channel 8 is fixedly connected to a push head 91 of the air cylinder 9, an upper opening of the rice adding channel 8 is just positioned below an opening of the plane fixing block 52, an opening 81 of the rice adding channel 8 is just positioned above an opening of the electric cooker, the push head 91 of the air cylinder 9 can drive the rice adding channel to move up and down, and rice can be transferred from the hopper-shaped rice bin 1 to the electric cooker more smoothly.

Further, the upper part of the housing 6 further includes an upper cover 62, and the upper cover 62 can be opened and closed, and when the upper cover 62 is opened, rice can be loaded into the hopper-shaped rice bin 1 through the first opening 15 from the outside.

Further, the number of the quantitative grooves 21 is two, and the quantitative grooves are respectively a first quantitative groove and a second quantitative groove, the first quantitative groove and the second quantitative groove are located at the axial axis symmetric position, and the quantitative grooves 21 are semi-cylindrical.

The utility model discloses a novel reinforced rice bin's theory of operation as follows: the motor 31 drives the quantitative rotating shaft 2 to rotate, when the quantitative groove 21 is communicated with the first through hole 181, the rice is transferred from the hopper-shaped rice bin 1 and stored in the quantitative groove 21, when the quantitative groove 21 is communicated with the second through hole 182, the rice is completely poured out of the quantitative groove 21 and enters the rice adding passage 8 through the opening of the plane fixed block 52, and the push head 91 of the air cylinder 9 drives the rice adding passage 8 to move downwards to the upper part of the opening of the electric cooker, so that the rice is transferred into the electric cooker. The amount of rice can be controlled by controlling the number of turns of the motor 31.

Drawings

Fig. 1 is a structural schematic diagram of the novel rice feeding bin.

Fig. 2 is a structural schematic diagram of the novel rice feeding bin.

Fig. 3 is a left side view of the novel rice feeding bin.

Fig. 4 is a schematic diagram of the internal structure of the novel rice bin after the shell is removed.

Fig. 5 is an explosion diagram of the internal structure of the novel charging rice bin after the shell is removed.

Fig. 6 is a structural schematic view of the hopper-shaped rice bin.

Fig. 7 is a structural schematic view of the hopper-shaped rice bin.

Fig. 8 is an explosion diagram of the transmission structure of the novel rice bin.

Fig. 9 is a schematic view of the internal structure of the novel rice bin after the shell is removed.

Fig. 10 is a schematic diagram of the internal structure of the novel rice bin after the shell is removed.

The drawings are described in detail below with reference to specific embodiments.

Detailed Description

Specific embodiment example 1:

as shown in fig. 1, 2, 6 and 7, is a structural schematic diagram of the novel charging rice bin; as shown in fig. 3, is a left view of the novel rice bin; as shown in fig. 4, 5, 9 and 10, the internal structure of the novel charging rice bin after the shell is removed is schematically illustrated; fig. 8 is an explosion diagram of the transmission structure of the novel rice bin. A novel reinforced rice bin, which comprises: the hopper-shaped rice bin 1 comprises a side wall, a first opening 15 and a second opening 16, wherein the second opening 16 is positioned at the bottom of the side wall, the first opening 15 is positioned at the top of the side wall or on the side wall, the second opening 16 is connected with the upper end of a rice guiding channel 17, the lower end of the rice guiding channel 17 is connected with a connecting pipe 18, a first through hole 181 and a second through hole 182 are formed in the connecting pipe 18, the first through hole 181 is positioned at the upper part of the connecting pipe 18, the second through hole 182 is positioned at the lower part of the connecting pipe 18, and rice in the hopper-shaped rice bin 1 can enter the rice guiding channel 17 through the second opening 16 and then enter the first through hole 181; the method is characterized in that: the opposite positions of the two sides of the connecting pipe 18 are respectively provided with a first connecting port 183 and a second connecting port 184, the novel rice charging bin further comprises a quantitative rotating shaft 2, the quantitative rotating shaft 2 comprises a quantitative groove 21, a connecting rod 22 and a power mechanism, the quantitative rotating shaft 2 is inserted into the connecting pipe 18 through the first connecting port 183 and the second connecting port 184, one or more quantitative grooves 21 are arranged on the quantitative rotating shaft 2, the connecting rod 22 is positioned in the central axis direction of the quantitative rotating shaft 2, the power mechanism can drive the connecting rod 22 of the quantitative rotating shaft 2 to rotate along the central axis direction, the quantitative groove 21 is respectively communicated with the first through hole 181 and the second through hole 182 in the rotating process, when the quantitative groove 21 is communicated with the first through hole 181, rice is transferred from the hopper-shaped rice bin 1 and stored in the quantitative groove 21, when the quantitative groove 21 is communicated with the second through hole 182, the rice is completely poured out from the quantitative groove 21, the rice cooker is located below the measuring well 21, and the rice poured out of the measuring well 21 is transferred to the rice cooker by gravity.

The side walls of the hopper-shaped rice bin 1 comprise a first side wall 11, a second side wall 12, a third side wall 13 and a fourth side wall 14, the first side wall 11 is connected with the second side wall 12, the second side wall 12 is connected with the third side wall 13, the third side wall 13 is connected with the fourth side wall 14, the fourth side wall 14 is connected with the first side wall 11 to form a circumference, a first opening 15 is formed by the top edges of the first side wall 11, the second side wall 12, the third side wall 13 and the fourth side wall 14, a second opening 16 is formed by the bottom edges of the first side wall 11, the second side wall 12, the third side wall 13 and the fourth side wall 14, and the circumference of the first opening 15 is larger than that of the second opening 16. By adopting the structure with the large upper part and the small lower part, the rice can slide downwards along the side wall of the hopper-shaped rice bin 1.

The power mechanism is a combined structure of the motor 31 and the speed reducer 32, a rotating shaft of the motor 31 is connected with an input end of the speed reducer 32, and an output shaft 321 of the speed reducer 32 is connected with the connecting rod 22.

The inside of the connecting rod 22 has a hollow structure, and the output shaft 321 of the speed reducer 32 is inserted into the hollow inside of the connecting rod 22 and fixed.

The connecting rod 22 is provided with a connecting sleeve 4 on the outside thereof, the two ends of the opening of the connecting sleeve 4 are respectively provided with a first fixing surface 41 and a second fixing surface 42, the first fixing surface 41 is fixed on the side wall of the reducer 32, the second fixing surface 42 is fixed on a flange outside the first connecting port 183 of the connecting pipe 18 through screws, the second connecting port 184 is provided with a flange plate 185 on the outside thereof, and the flange plate 185 is fixed on the second connecting port 184 through screws.

The novel rice bin for charging also comprises a shell 6, and the bucket-shaped rice bin 1, the quantitative rotating shaft 2 and the power mechanism are covered in the shell 6 to play a certain protection role; the shell 6 comprises a bottom plate 61, a bucket-shaped fixing piece 5 is fixed on the upper surface of the bottom plate 61, the bucket-shaped fixing piece 5 comprises a bucket-shaped funnel 51 and a plane fixing block 52, the lower opening of the bucket-shaped funnel 51 is matched with the opening of the plane fixing block 52, and the plane fixing block 52 is fixed on the bottom plate 61 through screws; the connection pipe 18 is placed in the upper opening of the hopper-shaped funnel 51.

The lower surface of the bottom plate 61 of the shell 6 is provided with a fixed block 7, the fixed block 7 comprises a first fixed foot 71 and a second fixed foot 72, one end of the first fixed foot 71 and one end of the second fixed foot 72 are fixed with an air cylinder 9, a pushing head 91 of the air cylinder 9 is fixedly connected with a rice adding channel 8, an upper opening of the rice adding channel 8 is just below an opening of the plane fixed block 52, an opening 81 of the rice adding channel 8 is just above an opening of the electric cooker, the pushing head 91 of the air cylinder 9 can drive the rice adding channel to move up and down, and rice can be transferred from the bucket-shaped rice bin 1 to the electric cooker more smoothly.

The upper portion of the outer case 6 further includes an upper cover 62, and the upper cover 62 is opened and closed, and when the upper cover 62 is opened, rice can be loaded into the hopper-shaped rice bin 1 through the first opening 15 from the outside.

The working principle of the novel rice bin is as follows: the motor 31 drives the quantitative rotating shaft 2 to rotate, when the quantitative groove 21 is communicated with the first through hole 181, the rice is transferred from the hopper-shaped rice bin 1 and stored in the quantitative groove 21, when the quantitative groove 21 is communicated with the second through hole 182, the rice is completely poured out of the quantitative groove 21 and enters the rice adding passage 8 through the opening of the plane fixed block 52, and the push head 91 of the air cylinder 9 drives the rice adding passage 8 to move downwards to the upper part of the opening of the electric cooker, so that the rice is transferred into the electric cooker. The amount of rice can be controlled by controlling the number of turns of the motor 31.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. A novel reinforced rice bin, which comprises: the hopper-shaped rice bin (1) comprises a side wall, a first opening (15) and a second opening (16), the second opening (16) is located at the bottom of the side wall, the first opening (15) is located at the top of the side wall or on the side wall, the second opening (16) is connected with the upper end of a rice guiding channel (17), the lower end of the rice guiding channel (17) is connected with a connecting pipe (18), a first through hole (181) and a second through hole (182) are formed in the connecting pipe (18), the first through hole (181) is located at the upper portion of the connecting pipe (18), the second through hole (182) is located at the lower portion of the connecting pipe (18), and rice in the hopper-shaped rice bin (1) can enter the rice guiding channel (17) through the second opening (16) and then enter the first through hole (181); the method is characterized in that: the two opposite positions of the two sides of the connecting pipe (18) are respectively provided with a first connecting port (183) and a second connecting port (184), the novel rice charging bin further comprises a quantitative rotating shaft (2), the quantitative rotating shaft (2) comprises a quantitative groove (21), a connecting rod (22) and a power mechanism, the quantitative rotating shaft (2) is inserted into the connecting pipe (18) through the first connecting port (183) and the second connecting port (184), one or more quantitative grooves (21) are formed in the quantitative rotating shaft (2), the connecting rod (22) is positioned in the central shaft direction of the quantitative rotating shaft (2), the power mechanism can drive the connecting rod (22) of the quantitative rotating shaft (2) to rotate along the central shaft direction, in the rotating process, the quantitative groove (21) can be respectively communicated with the first through hole (181) and the second through hole (182), when the quantitative groove (21) is communicated with the first through hole (181), rice is transferred from the hopper-shaped rice bin (1) and stored in the quantitative groove (21), when the quantitative groove (21) is communicated with the second through hole (182), the rice is completely poured out of the quantitative groove (21), the electric cooker is positioned below the quantitative groove (21), and the rice poured out of the quantitative groove (21) can be transferred into the electric cooker under the action of gravity.

2. The new hopper rice bin of claim 1 wherein: the side walls of the hopper-shaped rice bin (1) comprise a first side wall (11), a second side wall (12), a third side wall (13) and a fourth side wall (14), the first side wall (11) is connected with the second side wall (12), the second side wall (12) is connected with the third side wall (13), the third side wall (13) is connected with the fourth side wall (14), the fourth side wall (14) is connected with the first side wall (11) to form a circumference, a first opening (15) is formed by the top edges of the first side wall (11), the second side wall (12), the third side wall (13) and the fourth side wall (14), a second opening (16) is formed by the bottom edges of the first side wall (11), the second side wall (12), the third side wall (13) and the fourth side wall (14), and the circumference of the first opening (15) is larger than that of the second opening (16).

3. The new hopper rice bin of claim 1 wherein: the power mechanism is a combined structure of a motor (31) and a speed reducer (32), a rotating shaft of the motor (31) is connected with an input end of the speed reducer (32), and an output shaft (321) of the speed reducer (32) is connected with the connecting rod (22).

4. The new hopper rice bin of claim 3 wherein: the inside of the connecting rod (22) is of a hollow structure, and an output shaft (321) of the speed reducer (32) is inserted into the hollow inside of the connecting rod (22) and fixed.

5. The novel hopper rice bin of claim 4 wherein: the outside of connecting rod (22) is equipped with adapter sleeve (4), the opening both ends of adapter sleeve (4) are equipped with first stationary plane (41) and second stationary plane (42) respectively, first stationary plane (41) are fixed on the lateral wall of reduction gear (32), second stationary plane (42) pass through the fix with screw on the flange of first interface (183) outside of connecting pipe (18), the outside of second interface (184) is equipped with flange piece (185), flange piece (185) pass through the fix with screw on second interface (184).

6. The new hopper rice bin of claim 1 wherein: the novel rice bin for charging also comprises a shell (6), and the bucket-shaped rice bin (1), the quantitative rotating shaft (2) and the power mechanism are wrapped in the shell (6); the shell (6) comprises a bottom plate (61), a bucket-shaped fixing piece (5) is fixed on the upper surface of the bottom plate (61), the bucket-shaped fixing piece (5) comprises a bucket-shaped funnel (51) and a plane fixing block (52), the lower opening of the bucket-shaped funnel (51) is matched with the opening of the plane fixing block (52), and the plane fixing block (52) is fixed on the bottom plate (61) through screws; the connection pipe (18) is placed in the upper opening of the hopper-shaped funnel (51).

7. The novel hopper rice bin of claim 6, wherein: the lower surface of the bottom plate (61) of the shell (6) is provided with a fixing block (7), the fixing block (7) comprises a first fixing foot (71) and a second fixing foot (72), one end of the first fixing foot (71) and one end of the second fixing foot (72) are fixed with an air cylinder (9), a rice adding channel (8) is fixedly connected to a pushing head (91) of the air cylinder (9), an upper opening of the rice adding channel (8) is just positioned below an opening of the plane fixing block (52), an opening (81) of the rice adding channel (8) is just positioned above an opening of the electric cooker, the pushing head (91) of the air cylinder (9) can drive the rice adding channel to move up and down, and rice can be smoothly transferred from the hopper-shaped rice bin (1) to the electric cooker.

8. The novel hopper rice bin of claim 6, wherein: the upper part of the shell (6) also comprises an upper cover (62), the upper cover (62) can be opened and closed, when the upper cover (62) is opened, the rice can be added into the hopper-shaped rice bin (1) from the outside through the first opening (15).

9. The new hopper rice bin of claim 1 wherein: the quantitative grooves (21) are two in number and are respectively a first quantitative groove and a second quantitative groove, the first quantitative groove and the second quantitative groove are located at the axial center axis symmetric positions, and the quantitative grooves (21) are semi-cylindrical in shape.