CN111202448A - Embedded intelligent refrigerated rice bin - Google Patents

Abstract

The embodiment of the invention provides an embedded intelligent refrigerated rice bin which comprises a box body, an inner container arranged in the box body, a panel arranged on the outer surface of the box body, a first air inlet and a second air outlet, and a heat dissipation system, wherein the panel is provided with the first air inlet and the second air inlet, the heat dissipation system comprises a first fan, a second fan and a heat dissipation module, the first fan and the second fan are respectively arranged on two sides of the heat dissipation module, a first air duct is arranged between the first air inlet and the second air inlet, a second air duct is arranged between the first fan and the second fan, and a third air duct is arranged between the second fan and the air outlet. The invention provides an embedded intelligent refrigerated rice bin, and aims to solve the problems that the existing rice bin is single in function, an unstable temperature and humidity control system and an intelligent control design and control mode are not enough.

Description

Embedded intelligent refrigerated rice bin

Technical Field

The invention relates to the technical field of household appliances, in particular to an embedded intelligent refrigerated rice bin.

Background

The rice box is a container for containing rice or mung bean, red bean and other foods, and in daily life, people can store rice with the bag mouth detached and pour the rice into the rice box, and can cook the rice by taking out a proper amount of rice when cooking. The traditional rice box needs to be loaded by a rice spoon, the rice box is often required to be opened, so that dust is easy to enter the rice box, in addition, the number of the loaded rice is different every time, the situation that the quantity of the loaded rice is not enough or too much rice is loaded is easy to happen, and therefore some intelligent rice boxes can be produced at the same time.

The rice bin that has now on the market is equipped with refrigeration heat preservation system usually, can satisfy simple cold-stored function, but its refrigeration efficiency and refrigerated control mode are complicated loaded down with trivial details, control the design and are not humanized. In addition, the existing refrigerated rice bin is difficult to automatically clean condensed water, and the humidity in the rice bin is difficult to control. In addition, current cold-stored rice chest also is difficult to realize looking over information such as temperature humidity and rice surplus directly perceivedly, compromise the stability of rice chest panel and box connection and the dismantlement convenience when the assembly is changed and can't satisfy these functions of user's demand to the variety is deposited to food, can't bring more use for the user and experience. Therefore, how to design a multifunctional intelligent refrigerated rice bin has become a difficult problem.

Disclosure of Invention

The invention provides an embedded intelligent refrigerated rice bin, which aims to solve the problems that the existing rice bin is single in function, an atmospheric control system is unstable, and the control design and control mode are not intelligent enough.

The utility model provides an embedded intelligent refrigerated rice case, includes the box, sets up inner bag in the box, sets up the panel of box surface, the panel is equipped with first air intake and air outlet, the box is equipped with the second air intake, its characterized in that still includes cooling system, cooling system includes first fan, second fan and radiating module, first fan with the second fan sets up respectively radiating module's both sides, first air intake with be equipped with first wind channel between the second air intake, first fan with be equipped with the second wind channel between the second fan, the second fan with be equipped with the third wind channel between the air outlet.

Furthermore, the first air inlet is arranged at the bottom of the panel, the second air inlet is arranged on the side wall of the box body close to the first fan, and the air outlet is arranged at the joint of the panel and the third air channel.

Further, the refrigerator also comprises a refrigerating system, wherein the refrigerating system comprises a third fan, a refrigerating module and a fourth air channel, the fourth air channel is arranged between the inner container and the box body, and the third fan is arranged between the inner container and the refrigerating module.

Further, still include the dewatering system, the dewatering system is including arranging and congealing pipe, water catch bowl and atomizing device, arrange and congeal the pipe intercommunication refrigerating system with the water catch bowl, atomizing device sets up in the water catch bowl, still be equipped with the water level touch pad in the water catch bowl.

Further, the panel includes inner panel and front panel, the inner panel with front panel fixed connection, the front panel includes panel main part, display panel and louvre, the inner panel is equipped with hangs and detains the structure, the box is equipped with first string knot hole, hang and detain the structure and insert first string knot hole cooperation so that the panel with the connection can be dismantled to the box.

The hanging rack structure is provided with a second hanging and buckling hole, one end of the hanging rack structure is fixedly connected with the box body, and the other end of the hanging rack structure is abutted against the inner surface of the box body so that the second hanging and buckling hole is arranged corresponding to the first hanging and buckling hole.

Further, still include control scheme board and sensor module, the control scheme board includes signal processing chip and WIFI module, the WIFI module is used for with external equipment wireless connection, sensor module includes photoelectric sensor, temperature and humidity sensor, high temperature sensor and door closure sensor.

Further, still include display panel and operating panel, display panel with operating panel all with control circuit board connects, display panel is equipped with lack a meter prompt module, control circuit board still includes drive module.

Further, the top of box is equipped with the top cap door, the top cap door with box rotatable coupling, the inner bag orientation the one end of top cap door is equipped with first opening, the inside of inner bag is equipped with a plurality of buckets, the bucket orientation the one end of top cap door is equipped with the second opening, the bucket is kept away from the one end of top cap door is equipped with a plurality of round holes.

Further, the rice-taking box comprises an external mechanism and a sliding rail assembly, the box body is slidably connected with the external mechanism through the sliding rail assembly, and a rice-taking drawer is arranged at the bottom of the inner container

The invention provides an embedded intelligent refrigerated rice bin which comprises a refrigerating system, a heat dissipation system and a water removal system, wherein the heat dissipation system comprises a first fan, a second fan and a heat dissipation module; then, under the action of the first fan, the air enters a second air channel in the box body through a second air inlet arranged on the box body, and the entering air directly blows on the heat dissipation module in an opposite mode, so that the heat dissipation efficiency is high; under the attraction of the second fan on the other side of the heat dissipation module, air continuously enters the third air duct between the second fan and the air outlet, and is finally discharged from the air outlet on the panel, and the whole air circulation of the heat dissipation system is completed. The refrigerating system is separated from the heat dissipation system and comprises a third fan, a refrigerating module and a fourth air channel, air in the inner container enters the refrigerating module under the action of the third fan and then enters the inner container again through the fourth air channel between the inner container and the box body to provide cold energy for rice in the inner container, and a refrigerating cycle is completed. The refrigerating system and the cooling system which are independently arranged thoroughly solve the problem that the temperature cross phenomenon is easy to occur due to the mixing of the refrigerating system and the cooling system in the existing rice bin. In addition, one end of a condensation discharge pipe in the dewatering system is communicated with the refrigerating system, the other end of the condensation discharge pipe is communicated with the water collecting tank, and the condensation discharge pipe uniformly feeds condensed water generated by the refrigerating system into the water collecting tank for centralized treatment. The atomization device atomizes the condensed water in the water collecting tank to enable the condensed water to become fine water vapor, and then the fine water vapor is introduced into the heat dissipation system to take away heat in the heat dissipation module, wherein the atomization device can be an ultrasonic atomizer. The water removal system can automatically and timely remove condensed water in the box body on one hand, prevent water from accumulating in the box body, does not need manual regular cleaning, and realizes full automation of water removal; on the other hand, the atomized water vapor is introduced into the heat dissipation system, and the heat of the heat dissipation system can be taken away by the low-temperature water vapor, so that the heat dissipation efficiency of the heat dissipation system is further improved.

The embedded intelligent refrigerated rice bin further comprises a control circuit board, wherein the control circuit board is provided with a signal processing chip and a WIFI module, and the WIFI module is used for being connected with external equipment. When the WIFI module interface on the control scheme board inserts cell-phone APP, can show the brand kind of rice on the cell-phone, the place of production, the process of rice circulation, the price of rice, rice case running state, whether rice case upper cover is closed, rice case continuous operation state, get rice box closed state, the refrigerating system state, information such as fan running state, furthermore, still can generate user's use report monthly, user's use report includes rice case rice volume information, last time add rice time and so on relevant information parameter, thoroughly solve the problem that the user can't know the temperature of rice case directly perceivedly, humidity, eat material surplus isoparametric.

The panel comprises an inner plate and a front panel, and the inner plate and the front panel are fixedly connected together. The inner panel is equipped with four and hangs the knot structure, and the box is equipped with four first string and detains the hole, hangs on the inner panel and detains the structure and insert corresponding first string and detain the hole, and under the effect of gravity, whole panel is detachably promptly hung on rice case box. The user can select different styles or different types of panels according to different requirements so as to meet the diversity of the user on the use requirements of the rice bin panels. In addition, panel and box are through four hanging knot structural connection, convenience of customers assembly and dismantlement, and convenience of customers carries out the maintenance of equipment and maintains or daily cleaning work, thoroughly solves the problem that the panel of current rice case and the design of box integration fixed connection lead to that the rice case variety is not enough and the panel is difficult to assemble and change.

Simultaneously, the setting of the inside a plurality of buckets of inner bag is passed through to the cold-stored rice case of embedded intelligence, and this cold-stored rice case of embedded intelligence can realize that a rice case equipment deposits different types of food, satisfies the user and deposits diversified demand to food. In addition, the inner bag is equipped with first opening towards the one end of top cap door, the storage bucket is equipped with the second opening towards the one end of top cap door, first opening and second opening all correspond the setting with the top cap door, when the user need deposit food, can pull out the cupboard with the box through the handrail on the box, open the top cap door on the box, can directly see first opening and second opening, then directly leave different types of cereal in the inner bag or different storage bucket, when needing to get rice, directly pull out get a rice drawer can, need not to repeatedly open the top cap door, high durability and convenient use, satisfy the user and deposit the demand of variety to food.

Drawings

FIG. 1 is a cross-sectional view of the case of the present invention;

FIG. 2 is a schematic view of the refrigeration system and heat dissipation system of the present invention;

FIG. 3 is a schematic view of the water removal system of the present invention;

FIG. 4 is a schematic view of the interior of the case of the present invention;

FIG. 5 is a schematic view of a panel of the present invention;

FIG. 6 is a schematic structural view of the case of the present invention;

FIG. 7 is a schematic view of the mating of the housing and the panel of the present invention;

FIG. 8 is a schematic view of the construction of the liner of the present invention;

FIG. 9 is a cross-sectional view of the liner of the present invention;

FIG. 10 is a schematic view of the construction of the housing and panels of the present invention;

FIG. 11 is a schematic view of the housing and external mechanism of the present invention;

FIG. 12 is a schematic diagram of the intelligent control system of the present invention;

description of reference numerals: 1. a box body; 101. a second air inlet; 102. a first hanging buckle hole; 103. a slide rail assembly; 2. a panel; 201. a first air inlet; 202. an air outlet; 203. an inner plate; 2031. a hanging buckle structure; 204. a front panel; 2041. a panel main body; 2042. a display panel; 2043. heat dissipation holes; 2044. taking a rice mouth; 3. an inner container; 301. a first opening; 302. a bottom bracket; 4. an external mechanism; 5. a first air duct; 6. a second air duct; 7. a third air duct; 8. a fourth air duct; 9. a first fan; 10. a second fan; 11. a heat dissipation module; 12. a third fan; 13. a refrigeration module; 14. an atomizing device; 15. a water level touch pad; 16. a water collection tank; 17. a drainage pipe; 18 a hanger structure; 1801. a second hanging buckle hole; 19. a storage bucket; 1901. a second opening; 20. taking a rice drawer; 21. an external mechanism; 22. a control circuit board; 2201. a signal processing chip; 2202. a drive module; 2203. a WIFI module; 23. an external device; 24. a refrigeration system; 25. a heat dissipation system; 26. a water removal system; 27. a photosensor; 28. a temperature and humidity sensor; 29. a high temperature sensor; 30. a door cover sensor; 31. an operation panel.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, 2, 3 and 4, according to an embodiment of the present invention, the embedded intelligent refrigerated rice bin includes a box body 1, an inner container 3 disposed in the box body 1, and a panel 2 disposed on an outer surface of the box body 1, the panel 2 being provided with a first air inlet 201 and an air outlet 202, the box body being provided with a second air inlet 101, and further including a heat dissipation system 25, the heat dissipation system 25 including a first fan 9, a second fan 10 and a heat dissipation module 11, the first fan 9 and the second fan 10 being respectively disposed on two sides of the heat dissipation module 11, a first air duct 5 being disposed between the first air inlet 201 and the second air inlet 101, a second air duct 6 being disposed between the first fan 9 and the second fan 10, and a third air duct 7 being disposed between the second fan 10 and the air outlet 202. Specifically, the first air duct 5 serves as an air inlet channel of the heat dissipation system and provides normal-temperature air in an external space for the heat dissipation system; the second air duct 6 is disposed in a space between the first fan 9 and the second fan 10, and meanwhile, the heat dissipation module 11 is also disposed in a space between the first fan 9 and the second fan 10, so that the heat dissipation module 11 is disposed in the second air duct 6, and the second air duct 6 serves as a heat dissipation channel of the heat dissipation system, thereby providing a direct heat dissipation effect for the heat dissipation module 11, which is a core component in the heat dissipation system; the third air duct 7 is used as an air exhaust channel, and high-temperature air after heat exchange is exhausted out of the box body 1, and finally heat dissipation circulation of the heat dissipation system is completed.

In particular, the first air inlet 201 is arranged at the bottom of the panel 2, and the ambient air enters the first air duct 5 between the cabinet and the bottom of the cabinet 1 through the first air inlet 201 arranged at the bottom; the second air inlet 101 is arranged on the side wall of the box body 1 close to the first fan 9, normal temperature air in the first air duct 5 enters the second air duct in the box body 1 through the second air inlet 101 arranged on the box body 1 under the action of the first fan 9, and the entering air is directly blown on the heat dissipation module 11 in an opposite mode, so that the heat dissipation efficiency is high; the air outlet 202 is arranged at the joint of the panel 2 and the third air duct 7, and air which has been subjected to heat exchange in the third air duct 7 is discharged through the air outlet 202 arranged on the panel 2, so that a heat dissipation cycle is finally completed.

Therefore, the complete cycle process of the heat dissipation system is as follows: the outside normal temperature air enters a first air duct 5 arranged between an external mechanism 4 (which can be a cabinet) and the box body 1 through a first air inlet 201 arranged at the bottom of the panel 2; then, under the action of the first fan 9, the air enters a second air channel in the box body 1 through a second air inlet 101 formed in the box body 1, the entering air is directly blown on the heat dissipation module 11 in an opposite mode and exchanges heat with the heat dissipation module 11, the heat of the heat dissipation module 11 is taken away, and the heat dissipation efficiency is high; under the attraction of the second fan 10 obliquely arranged on the base cover on the other side of the heat dissipation module 11, the air continues to enter the third air duct 7 between the second fan 10 and the air outlet 202, and is finally discharged from the air outlet 202 on the panel 2, thereby completing the whole air heat dissipation cycle of the heat dissipation system.

Optionally, the inner wall of the box 1 near the third air duct 7 is provided with a plurality of hook-shaped return grooves. The hook-shaped returning groove is of a protruding structure with a certain inclination angle, the hook-shaped returning groove is used for disturbing air flow in the third air channel 7 so as to reduce noise and increase the contact area between the third air channel 7 and the air flow so as to reduce atomized water vapor, atomized water large particles in the air channel are reduced, the atomized water large particles are changed into water vapor of small particles invisible to naked eyes, a user cannot feel moist water vapor blown out of the rice bin, and the use experience of the user is improved.

The refrigerating system 24 includes a third fan 12, a refrigerating module 13 and a fourth air duct 8, the fourth air duct 8 is disposed between the inner container 3 and the box body 1, and the third fan 12 is disposed between the inner container 3 and the refrigerating module 13. Air in the inner bag 3 loops through third fan 12 under the effect of third fan 12, refrigeration module 13 and fourth wind channel 8, low temperature air after refrigeration module 13 gets into inner bag 3 again through the air intake that 3 tops of inner bag set up, low temperature air utilizes its physical characteristics of natural decline (density is higher than normal atmospheric temperature air), gap between the rice in the inner bag 3, the heat and certain moisture of taking away the rice sink to the inner bag bottom, then get into refrigeration module 13 through third fan 12 once more, accomplish refrigerating system's refrigeration cycle. Meanwhile, because the inner container 3 is internally and externally provided with low-temperature air circulation, the temperature difference between the inner container 3 and the outer container is prevented from forming condensed water, so that the humidity in the inner container 3 is damaged, and the storage quality of the rice is influenced.

The water removal system 26 comprises a condensation discharge pipe, a water collection tank and the atomization device 14, the condensation discharge pipe is communicated with the refrigeration system 24 and the water collection tank 16, and the atomization device 14 is arranged in the water collection tank 16. Specifically, one end of the condensation discharge pipe 17 is communicated with the refrigeration system 24, the other end of the condensation discharge pipe is communicated with the water collection tank 16, and the condensation discharge pipe 17 uniformly introduces the condensed water generated by the refrigeration system 24 into the water collection tank 16 for centralized treatment. The atomization device 14 atomizes the condensed water in the water collection tank 16 into fine water vapor, and then introduces the water vapor into the heat dissipation system 25 to take away the heat in the heat dissipation module 11, wherein the atomization device 14 may be an ultrasonic atomizer. The water removal system 26 can automatically and timely remove condensed water in the box body 1 on one hand, prevent water from accumulating in the box body, does not need manual regular cleaning, and realizes full automation of water removal; on the other hand, the atomized water vapor is introduced into the heat dissipation system, and the heat of the heat dissipation system can be taken away by the low-temperature water vapor, so that the heat dissipation efficiency of the heat dissipation system is further improved.

In addition, the water removal system further comprises a water level touch pad 15, and the water level touch pad 15 is arranged in the water collection tank 16. When the water level in the water collection tank 16 reaches the water level switch position of the water level touch panel 15, the ultrasonic atomizer is started, the condensed water in the water collection tank 16 is atomized through the ultrasonic atomizer, and then the condensed water is taken away under the action of the second fan 10 arranged at the top of the water collection tank 16.

Referring to fig. 5, 6 and 7, according to an embodiment of the present invention, the panel 2 includes an inner panel 203 and a front panel 204, the inner panel 203 and the front panel 204 are fixedly connected, and the front panel 204 includes a panel body 2041, a display panel 2042 and heat dissipation holes 2043. Specifically, the inner plate 203 and the front plate 204 are fixedly connected together through parts such as screws or a buckle structure, and the display panel 2042 is used for displaying parameter information such as the temperature, humidity and remaining amount of rice in the rice bin and the opening and closing state of the door cover and the rice taking drawer in real time, so that a user can visually know the running state of the rice bin. The panel main body 2041 can be made of stainless steel, glass or a cabinet door frame of a user, has a certain bearing capacity, and isolates the external environment from the rice bin body. The heat dissipation hole 2043 is communicated with a heat dissipation system inside the box 1, and serves as one of the heat dissipation channel ports to discharge heat inside the box 1.

The inner plate 203 is provided with a hanging buckle structure 2031, the box body 1 is provided with a first hanging buckle hole 102, and the hanging buckle structure 2031 is inserted into the first hanging buckle hole 201 to be matched so that the panel 2 and the box body 1 can be detachably connected. Optionally, the number of the hooking structures 2031 and the corresponding first hooking holes 201 is 4. Specifically, the first hook hole 201 includes a large circular hole and a long hole that are communicated with each other, wherein the area of the large circular hole is larger than the hook structure 2031, and the area of the long hole is smaller than the area of the large circular hole. During the assembly, insert corresponding big round hole respectively with 4 and hang knot structure 2031, panel 2 falls naturally under the effect of gravity, hangs and detains structure 2031 whereabouts to rectangular shape hole this moment, and panel 2 is detachable this moment and has hung on box 1 promptly. And because the area of rectangular shape hole is less, play limiting displacement, can restrain the relative displacement in the horizontal direction between panel 2 and the box 1, guarantee the stability of panel 3 assembly. The user can select different styles or different types of panels 2 according to different requirements so as to meet the diversity of the user on the use requirements of the rice bin panels.

Optionally, the hook structure 2031 is a rivet hook, providing sufficient connection strength and rigidity for the connection between the panel 2 and the box 1.

Optionally, the rack structure 18 is further included, the rack structure 18 is provided with a second hanging and buckling hole 1801, one end of the rack structure 18 is fixedly connected with the box body 1, the other end of the rack structure is abutted against the inner surface of the box body 1 so that the second hanging and buckling hole 1801 and the first hanging and buckling hole 201 are correspondingly arranged, and the hanging and buckling structure 2031 on the inner door 203 sequentially penetrates through the box body 1 and the rack structure 18 and is detachably connected with the box body 1.

The second hanging hole 1801 is the same as the first hanging hole 201. Therefore, when the panel 2 is assembled, each hanging and fastening structure 2301 is sequentially inserted through the first hanging and fastening hole 201 and the second hanging and fastening hole 1801, so that the panel structure 2 is fixed on the outer surface of the box body 1, and the hanging and fastening structure 18 is fixed on the inner surface of the box body 1. Because the area of hanging knot structure 2301 and box 1 contact part is less, if during the assembly, hang knot structure 2301 and box 1 direct contact, the stress of the two contact position is too concentrated, leads to the situation such as stress deformation to appear in this position easily, and the purpose that sets up stores pylon structure 18 is that to increase the lifting surface area who hangs knot structure 2301, reduces the tension pressure of 1 unit area of box for the difficult emergence stress deformation of box 1 and the part of hanging knot structure 2301 butt.

Referring to fig. 8, 9, 10 and 11, in an embodiment of the present invention, a top cover door is disposed on the top of the box body 1, the top cover door is rotatably connected to the box body 1, a first opening 301 is disposed at an end of the liner 3 facing the top cover door, a plurality of storage buckets 19 are disposed inside the liner 3, a second opening 1901 is disposed at an end of the storage bucket 19 facing the top cover door, and a plurality of circular holes are disposed at an end of the storage bucket 19 away from the top cover door. First opening 301 and second opening 1901 all correspond the setting with the top cap door, directly towards the top cap door, when the user need deposit cereal, directly open the top cap door and can see first opening 301 and second opening 1901, then deposit the rice in inner bag 3, and different types of five cereals then deposit in different buckets, can also classify when realizing that a rice chest can deposit multiple cereal and deposit different cereal, furthest satisfies the user and deposits the demand of variety to food.

Optionally, a plurality of bottom supports 302 are further arranged inside the inner container 3, the storage barrel 19 is fixedly arranged inside the inner container 3 through the bottom supports 302, and the design of the bottom supports enhances the connection stability of the storage barrel 19 inside the inner container 3 and plays a role of bottom support; on the other hand, the rice bin bottom support has the function of a modular support model, when the rice bin is assembled, the bottom support can be connected with different types of storage barrels 19, and the matching requirements of users on the storage barrels 19 with different capacities are met.

Optionally, the rice taking device further comprises an external mechanism 21 and a slide rail assembly 103, the box body 1 is slidably connected with the external mechanism 21 through the slide rail assembly 103, and the rice taking drawer 20 is arranged at the bottom of the inner container 3. Specifically, the external mechanism 21 is a cabinet, and the bottom of the box body 1 is slidably connected with the cabinet through a slide rail assembly 103. Slide rail set spare 103 is two segmentation designs, during the assembly, with the whole cabinet that is embedded into of rice case box 1 in, do not account for the public space in kitchen, when the user need deposit rice, can pull the handle of box 1, box 1 can the roll-off cupboard through slide rail set spare 103, open the top cover door of box 1, can directly put rice in the rice case, add in pushing back the cabinet with box 1 behind the rice, do not account for the kitchen exterior space, thereby improve the space utilization in kitchen. The rice taking drawer 20 is further arranged in the box body 1, the panel 2 is provided with a rice taking opening 2044, the rice taking drawer 20 penetrates through the rice taking opening 2044 to be arranged inside the box body 1, and further the rice taking drawer 20 is arranged at the bottom of the inner container 3. The rice taking drawer 20 is used for taking rice, when a user needs to take rice, the user does not need to open the top cover door like storing rice, the user only needs to pull out the rice taking drawer 20 to take out the needed rice quantitatively, and the rice taking drawer is convenient to operate.

Referring to fig. 12, referring to the embodiment of the present invention, the present invention further includes a control circuit board 22 and a sensor module, where the control circuit board 22 includes a signal processing chip 2201 and a WIFI module 2203, the WIFI module 2203 is used for wirelessly connecting with an external device 23, and the sensor module includes a photosensor 27, a temperature and humidity sensor 28, a high temperature sensor 29, and a door cover sensor 30. Wherein, photoelectric sensor 27 sets up in the rice incasement, quantity can be the multiunit, set up the not co-altitude at the rice case respectively, highly calculate the rice surplus according to detecting rice incasement rice, then give control scheme board 22 with this signal transmission, signal processing chip 2201 in the control scheme board 22 sends this signal to external equipment 23 with WIFI module 2203 connection, this external equipment 23 can be the cell-phone, APP on the cell-phone can come out rice volume real-time information display, it is very directly perceived, need not open rice case lid and look over rice volume.

Optionally, the external device 9 is provided with a rice amount display module, a machine status module, a rice information module, and a user report module. The rice quantity display module is used for displaying the residual quantity of rice in the rice box; the machine state module is used for displaying the state information of the rice box equipment, such as the running state of the rice box equipment, the closing state of the upper cover of the rice box, the continuous running state, the closing state of the rice box rice taking box, the state of a refrigerating system, whether a fan operates and the like; the rice information module is used for displaying rice information such as the brand type of the rice, the production place of the rice, the circulation process of the rice, the price of the rice and the like; the user report module is used for generating a user use report regularly every month according to various information sent by the control circuit board 1, and the trial report of the user contains information about the rice box and meter amount, time interval of adding meters every time and the like.

Optionally, the display panel 2042 and the operation panel 31 are further included, and both the display panel 2042 and the operation panel 31 are electrically connected to the control circuit board 22. Specifically, the control circuit board 22 receives signals from various sensors in the rice bin and then sends the signals to the display panel 2042 again, and the display panel 2042 can directly and intuitively display various information in interactive manners such as numbers or icons. In addition, the display panel 2042 is provided with a rice shortage prompting module which can be a 'rice shortage' or similar icon, and when the photoelectric sensor 27 detects that the rice in the rice box is lower than a certain amount of rice, the icon will light up to prompt the user that the amount of rice is insufficient. The operation device 31 is used for controlling the control circuit board 22, and a user can adjust parameters such as a switch, temperature and humidity in the rice bin in real time through the operation panel 31 according to different food materials or at different time intervals. Similarly, temperature humidity transducer 28 sets up at rice incasement, quantity can be the multiunit, the temperature of real-time supervision rice incasement rice, humidity, then give control scheme board 22 with this signal transmission, signal processing chip 2201 in the control scheme board 22 sends this signal to the cell-phone that WIFI module 2203 is connected, APP on the cell-phone can show the temperature humidity parameter information real-time display of rice, convenience of customers monitors the rice and deposits the condition, so that the user does the adjustment to the temperature of rice case, humidity at any time. High temperature sensor 29 establishes the temperature that can monitor rice incasement portion and outside simultaneously, when the rice incasement, when outside difference in temperature surpassed 40 degrees, the condition such as rice incasement portion circuit component burns out has taken place very probably this moment, high temperature sensor 29 gives control circuit board 22 with this signal transmission this moment, signal processing chip 2201 on control circuit board 22 is after the analysis with this information transmission to the cell-phone that WIFI module 2203 is connected, APP on the cell-phone can send relevant alarm information, meanwhile, control circuit board 22 cuts off the power supply, let rice case stop work, prevent the fire hazard. Door closure sensor 5 then is used for monitoring 1 door closures of box and whether closes tightly, if do not close tightly, then sends the suggestion at cell-phone APP.

By operating the touch screen device of the operation panel 31, the operation panel 31 sends a signal to the control circuit board 22, and after the signal is analyzed by the signal processing chip 2201 in the control circuit board 22, the driving module 2202 controls the opening and closing of the refrigeration system 24, the heat dissipation system 25 and the water removal system 26 in the rice bin, the power of the fan or the refrigerating capacity of the rice bin during the opening, and the opening and closing of the ultrasonic atomizer.

Of course, the above is a preferred embodiment of the present invention. It should be noted that, for a person skilled in the art, several modifications and refinements can be made without departing from the basic principle of the invention, and these modifications and refinements are also considered to be within the protective scope of the invention.

Claims (10)

1. The utility model provides an embedded intelligent refrigerated rice case, includes the box, sets up inner bag in the box, sets up the panel of box surface, the panel is equipped with first air intake and air outlet, the box is equipped with the second air intake, its characterized in that still includes cooling system, cooling system includes first fan, second fan and radiating module, first fan with the second fan sets up respectively radiating module's both sides, first air intake with be equipped with first wind channel between the second air intake, first fan with be equipped with the second wind channel between the second fan, the second fan with be equipped with the third wind channel between the air outlet.

2. The embedded intelligent refrigerated rice bin of claim 1 wherein the first air inlet is disposed at the bottom of the panel, the second air inlet is disposed at a side wall of the bin body near the first fan, and the air outlet is disposed at a junction of the panel and the third air duct.

3. The embedded intelligent refrigerated rice bin of claim 2 further comprising a refrigeration system, the refrigeration system comprising a third fan, a refrigeration module and a fourth air duct, the fourth air duct being disposed between the inner container and the bin body, the third fan being disposed between the inner container and the refrigeration module.

4. The embedded intelligent refrigerated rice bin of claim 2, further comprising a water removal system, wherein the water removal system comprises a condensation discharge pipe, a water collection tank and an atomization device, the condensation discharge pipe is communicated with the refrigeration system and the water collection tank, the atomization device is arranged in the water collection tank, and a water level touch pad is further arranged in the water collection tank.

5. The embedded intelligent refrigerated rice bin of claim 1, wherein the panel comprises an inner panel and a front panel, the inner panel is fixedly connected with the front panel, the front panel comprises a panel body, a display panel and heat dissipation holes, the inner panel is provided with a hanging and buckling structure, the box body is provided with a first hanging and buckling hole, and the hanging and buckling structure is inserted into the first hanging and buckling hole to be matched so that the panel is detachably connected with the box body.

6. The intelligent embedded refrigerated rice bin of claim 5 further comprising a hanging rack structure, wherein the hanging rack structure is provided with a second hanging buckle hole, one end of the hanging rack structure is fixedly connected with the bin body, and the other end of the hanging rack structure is abutted against the inner surface of the bin body, so that the second hanging buckle hole and the first hanging buckle hole are correspondingly arranged.

7. The embedded intelligent refrigerated rice bin of claim 1 further comprising a control circuit board and a sensor module, wherein the control circuit board comprises a signal processing chip and a WIFI module, the WIFI module is used for wirelessly connecting with external equipment, and the sensor module comprises a photoelectric sensor, a temperature and humidity sensor, a high temperature sensor and a door cover sensor.

8. The embedded intelligent refrigerated rice bin of claim 7, further comprising a display panel and an operation panel, wherein the display panel and the operation panel are both connected with the control circuit board, the display panel is provided with a rice shortage prompting module, and the control circuit board further comprises a driving module.

9. The embedded intelligent refrigerated rice bin of claim 1, wherein a top cover door is arranged at the top of the bin body, the top cover door is rotatably connected with the bin body, a first opening is formed in one end, facing the top cover door, of the inner container, a plurality of storage barrels are arranged inside the inner container, a second opening is formed in one end, facing the top cover door, of each storage barrel, and a plurality of round holes are formed in one end, away from the top cover door, of each storage barrel.

10. The embedded intelligent refrigerated rice bin of any one of claims 1-9 further comprising an external mechanism and a slide rail assembly, wherein the bin body is slidably connected with the external mechanism through the slide rail assembly, and a rice taking drawer is arranged at the bottom of the inner container.

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