CN112648769B

CN112648769B - Intelligent refrigerator

Info

Publication number: CN112648769B
Application number: CN202011632656.7A
Authority: CN
Inventors: 刘昌钧
Original assignee: Kunshan Shaoheng Automation Equipment Co ltd
Current assignee: Kunshan Shaoheng Automation Equipment Co ltd
Priority date: 2020-12-31
Filing date: 2020-12-31
Publication date: 2024-04-05
Anticipated expiration: 2040-12-31
Also published as: CN112648769A

Abstract

The application provides an intelligent refrigerator, can go out dish to intelligent pot according to the procedure according to dish and the cooking time of user's cell-phone remote setting, include: refrigerator door 1, frame 2, heat preservation door plant 3, block terminal 4, net dish box subassembly 5, connect silo subassembly 6, drive assembly 7, advance pot lifting unit 8, refrigerating compressor 9, when the user has set dish and cooking time through the cell-phone is long-range, intelligent refrigerator goes out dish to intelligent pot according to the procedure, wherein, net dish box 51's first screw shaft 511 begins to rotate and release dish backward, connect silo subassembly 6 connect silo 61 just to catch the dish, connect silo subassembly 6's second screw shaft 62 rotation and release dish from left side or right side, go out dish groove 81 just to catch the dish of pan lifting unit 8, go out dish groove 81 and move to the dish outlet 31 corresponding position of side heat preservation door plant, play dish outlet 31 is opened, play dish groove 81 is rotatory 90 degrees left or right, go out the third screw shaft 82 of dish groove 81 and rotatory and release dish left or right to intelligent pot.

Description

Intelligent refrigerator

Technical Field

The invention relates to the technical field of intelligent kitchens, in particular to an intelligent refrigerator.

Background

At present, along with the improvement of the living standard and the acceleration of the living rhythm of people, more and more modern people are unwilling or do not have time to cook dishes by themselves, the existing state is solved through a restaurant-going or takeaway form, but the defects of hidden food sanitation safety hazards, long waiting time, high price and the like exist in both restaurant-going and takeaway, so the intelligent electric cooker, the intelligent dish frying pan and the like are born according to the development of the times.

However, it is desirable that the user can eat the dishes after arriving at home by remotely setting the dishes desired to be eaten and the time of eating through the mobile phone. The intelligent kitchen can automatically set the adding sequence, the heating time and the like of food materials according to the cooking habits of people.

In view of the above, the invention provides an intelligent refrigerator which can take dishes out of an intelligent pot according to a program according to dishes and cooking time remotely set by a mobile phone of a user.

Disclosure of Invention

The invention aims to provide an intelligent refrigerator which can discharge dishes to an intelligent pot according to programs according to dishes and cooking time remotely set by a mobile phone of a user.

An intelligent refrigerator, comprising: the refrigerator door 1, the frame 2, the heat preservation door plate 3, the distribution box 4, the dish box component 5, the material receiving groove component 6, the transmission component 7, the pan feeding lifting component 8 and the refrigeration compressor 9, wherein the distribution box 4 is arranged at the upper part of the interior of the refrigerator, the refrigeration compressor 9 is arranged at the lower part of the interior of the refrigerator, the dish box component 5 and the material receiving groove component 6 are multiple, the dish box component 5 is arranged at the front part of the interior of the refrigerator, the transmission component 7 is closely abutted against the back plate of the refrigerator, the material receiving groove component 6 is arranged between the dish box component 5 and the transmission component 7, the pan feeding lifting component 8 is arranged at the right side of the refrigerator, the refrigeration compressor 9 controls the temperature of the interior of the refrigerator to be kept at a set temperature, the distribution box 4 provides electric energy, one dish box component 5 is arranged as one layer, each dish box component 5 is provided with a plurality of dish boxes 51, the clean vegetable box 51 is used for containing different kinds of clean food materials, one clean vegetable box component 5 is configured with one receiving groove component 6, when a user remotely sets dishes and cooking time through a mobile phone, the intelligent refrigerator discharges dishes to an intelligent pot according to a program, wherein a first screw shaft 511 of the clean vegetable box 51 starts rotating and pushes the food materials backwards, a receiving groove 61 of the receiving groove component 6 just receives the food materials, a second screw shaft 62 of the receiving groove component 6 rotates and pushes the food materials from the left side or the right side, a dish discharging groove 81 of the pot lifting component 8 just receives the food materials, the dish discharging groove 81 moves to a position corresponding to a dish discharging opening 31 of the side heat-preserving door plate, the dish discharging opening 31 is opened, the dish discharging groove 81 rotates leftwards or rightwards by 90 degrees, and a third screw shaft 82 of the pot lifting component 8 rotates and pushes the food materials leftwards or rightwards to the intelligent pot.

In some embodiments, the refrigerator door 1 has an operation display 11, and the thermal insulation door panel 3 is disposed at a left side surface, a right side surface, an upper surface, a lower surface and a back plate surface of the refrigerator, wherein the right side thermal insulation door panel is provided with a vegetable outlet 31.

In some embodiments, the net vegetable box assembly 5 has 2-8, i.e. the net vegetable box assembly 5 has 2-8 layers, preferably the net vegetable box assembly 5 has 4-6, one net vegetable box assembly 5 has 2-14 net vegetable boxes 51, preferably one net vegetable box assembly 5 has 4-10 net vegetable boxes 51, the net vegetable box assembly 5 comprises a plurality of net vegetable boxes 51, the net vegetable boxes 51 are divided into a net vegetable box 52 for placing vegetables and a net vegetable box 53 for placing chives and garlic.

Further, each dish cleaning box 51 is provided with a positioning lock catch 54 and a moving-out lock catch 55, the positioning lock catches 54 are used for fixing the dish cleaning box 51, the dish cleaning box 51 can be taken out after the positioning lock catches 54 are shifted leftwards, and when the dish cleaning box 51 is pushed in, the positioning lock catches 54 and the moving-out lock catches 55 return automatically.

Further, each dish cleaning box 51 is further provided with a handle plate 56, and pulling the handle plate 56 facilitates pulling out or pushing in the dish cleaning box 51.

Further, the clean box 51 includes: the first screw shaft 511, the shaft center positioning seat 512, the upper portion 513 of the clean vegetable box and the lower portion 514 of the clean vegetable box, vegetables and spicy green onion and garlic are placed in the clean vegetable box 51, the first screw shaft 511 is arranged in the lower portion 514 of the clean vegetable box and extends backwards to the outside of the lower portion 514 of the clean vegetable box, the first screw shaft 511 rotates to push out vegetables or fragrant Xin Cong garlic backwards, the shaft center positioning seat 512 is located at the rear end of the clean vegetable box 51, the rear end of the first screw shaft 511 penetrates through one part of the shaft center positioning seat 512, the other part of the shaft center positioning seat 512 is fixed with the upper portion 513 of the clean vegetable box, and the shaft center positioning seat 512 plays a role in controlling the first screw shaft 511 to be unbiased.

In some embodiments, a storage box 10 and a waste water receiving tray 12 are provided below the clean box assembly 5.

In some embodiments, a clean box assembly 5 is configured with a receiving trough assembly 6, the receiving trough assembly 6 comprising: connect silo 61, second screw axis 62, driving motor 63, weigh one-way cylinder 64, weighing sensor 65, installing support 66 and wane 67, weighing sensor 65 has two, sets up at the bottom both ends that connect silo 61, and installing support 66 spanned and set up the upper end at connecing silo 61, and weighing one-way cylinder 64 passes through installing support 66 to be fixed in the upper edge that connects silo 61.

Further, the second screw shaft 62 is disposed inside the lower portion of the receiving groove 61, the driving motor 63 is connected with the left end of the second screw shaft 62 and disposed on the left outer side of the receiving groove 61, the driving motor 63 provides mechanical energy for the second screw shaft 62, the weighing unidirectional cylinder 64 is disposed on the edge of the receiving groove 61, and the weighing sensor 65 is disposed at two ends of the bottom of the receiving groove 61.

Further, the rear end of the lower portion 514 of the dish-cleaning box is disposed in the larger semicircular notch 611, and the rear end of the first screw shaft 511 is disposed in the smaller semicircular notch 612, so that the dish can be just caught by the receiving slot 61 when the dish is pushed out backward by the rotation of the first screw shaft 511.

Further, when the first screw shaft 511 of which dish cleaning box 51 starts to rotate, the weighing unidirectional cylinder 64 corresponding to the dish cleaning box 51 is started, the weighing unidirectional cylinder 64 moves downwards, presses the right end of the rocker 67 downwards, so that the left side of the rocker 67 is tilted upwards, the rear end of the shell of the dish cleaning box 51 is lifted upwards, the first screw shaft 511 rotates to push the food backwards, and the rocker 67 transfers the weight of the food to the weighing sensor 65, so that weighing is realized.

Further, when the weight of the food materials in the receiving groove 61 reaches the set weight of the system, the weighing sensor 65 sends out a signal, the system controls the unidirectional cylinder 35 to stop working, and the dish-cleaning box 51 stops discharging dishes; then the weighing one-way cylinder 64 stops starting, the weighing one-way cylinder 64 returns upwards to the original position, the left side of the rocker 67 returns downwards to the original position, and the shell of the dish cleaning box 51 returns to the original position.

Further, after the dish-cleaning box 51 stops discharging the dish, the driving motor 63 provides mechanical energy for the second screw shaft 62, and the second screw shaft 62 rotates to push the dish out rightward.

In some embodiments, pan feeding lifting assembly 8 comprises: the dish outlet groove 81, the third screw shaft 82, the dish outlet motor 83, the lifting screw 84, the staggered cylinder 85, the 90-degree rotary electric push rod 86, the lifting motor 87, the micro-shaft 88 and the 90-degree rotary shaft 89, and a semicircular notch 811 is formed in the edge of the dish outlet groove 81.

Further, the third screw shaft 82 is disposed inside the dish outlet slot 81, the dish outlet motor 83 provides mechanical energy for the third screw shaft 82, the dish outlet motor 83 is connected with the left end of the third screw shaft 82 and is disposed on the left outer side of the dish outlet slot 81, and the dish outlet slot 81 is connected with the lifting screw 84 and the 90-degree rotating shaft 89.

Further, the staggered cylinder 85 moves to drive the micro-moving shaft 88 to move, and the micro-moving shaft 88 drives the vegetable outlet groove 81 to move leftwards or rightwards in parallel by a small amplitude.

Further, the lifting motor 87 drives the lifting screw 84 to move up or down, so that the dish outlet slot 81 moves up or down, and moves up or down to the position corresponding to the dish receiving slot assembly 6 according to the system program command, at this time, the tail of the right end of the dish outlet slot 81 is just in the semicircular notch 811, so that the dish outlet slot 81 can just catch the dish when the second screw shaft 62 rotates to push the dish out rightward.

Further, after the dish receiving of the dish discharging slot 81 is completed, the lifting motor 87 drives the lifting screw 84 to move upwards, so that the dish discharging slot 81 moves upwards to the position corresponding to the dish discharging port 31, the dish discharging port 31 is opened, the 90-degree rotary electric push rod 86 moves, the 90-degree rotary shaft 89 is driven to rotate 90 degrees, the dish discharging slot 81 is caused to rotate 90 degrees rightwards, the dish discharging motor 83 provides mechanical energy for the third screw shaft 82, and the third screw shaft 82 rotates to push the dish rightwards to the intelligent pot.

In some embodiments, the push drive assembly 7 comprises: the power motor 71, the timing belt tensioning plate 72, the belt 73, the front mounting plate 74, the rear mounting plate 75, the transmission device 76 and the one-way air cylinder 77, the power motor 71, the timing belt tensioning plate 72 and the one-way air cylinder 77 are arranged on the back of the rear mounting plate 75, the transmission device 76 and the belt 73 are arranged inside the front mounting plate 74 and the rear mounting plate 75, one transmission device 76 corresponds to one dish cleaning box 11 and one-way air cylinder 77, and the transmission device 76 comprises: the device comprises a shaft sleeve 761, a pressing wheel 762, a synchronizing wheel 763, a clutch mounting seat 764 and a spring 765, wherein the synchronizing wheel 763 is fixedly sleeved on the shaft sleeve 761, the spring 765 is arranged at the tail end of the shaft sleeve 761, and the transmission device 76 is mounted through the clutch mounting seat 764.

Further, the front end of the shaft sleeve 761 is flush with the front mounting plate 74, the tail end of the shaft sleeve 761 protrudes out of the rear mounting plate 75, the power motor 71 provides mechanical energy for the belt 73, the power motor 71 drives the belt 73 to move, the belt 73 is arranged between the pinch roller 762 and the synchronizing wheel 763, the synchronizing belt tensioning plate 72 plays a role in fixing, tightening or loosening the belt 73, one belt 73 is connected with the two layers of synchronizing wheels 763 to drive the two layers of synchronizing wheels 763 to rotate, and the synchronizing wheel 763 rotates to drive the shaft sleeve 761 to rotate.

Further, when preparing to discharge, which dish cleaning box 51 prepares to discharge, the system program of the intelligent refrigerator controls the corresponding one-way air cylinder 77 to start working, the one-way air cylinder 77 moves forwards, the one-way air cylinder 77 is inserted into the tail end of the shaft sleeve 761 to be clamped, the shaft sleeve 761 moves forwards, the spring 765 is compressed, the tail end of the first spiral shaft 511 of the corresponding dish cleaning box 51 is inserted into the head end of the shaft sleeve 761 to be clamped, a triangular salient point is arranged in the head end of the shaft sleeve 761, and the shaft sleeve 761 rotates to drive the first spiral shaft 511 to rotate, so that food materials are pushed backwards.

Further, when the weight of the food material in the receiving slot 61 reaches the set weight of the system, the weighing sensor 65 sends out a signal, the system controls the unidirectional cylinder 77 to stop working, and the unidirectional cylinder 77 is separated from the shaft sleeve 761, the shaft sleeve 761 is restored to the original position, the first screw shaft 511 is separated from the shaft sleeve 761, the first screw shaft 511 loses mechanical energy to stop rotating, and the dish cleaning box 51 stops discharging dishes.

In some embodiments, the refrigeration compressor 9 controls the temperature inside the refrigerator to-2 ℃ to 1 ℃, preferably, the refrigeration compressor 9 controls the temperature inside the refrigerator to 0 ℃ ± 0.5 ℃.

Drawings

Fig. 1 is a perspective view of a smart refrigerator according to embodiment 1 of the present application.

Fig. 2 is an exploded view of the intelligent refrigerator according to embodiment 1 of the present application.

Fig. 3 is a front view of the clean box assembly and the receiving trough assembly of example 1 of the present application.

Fig. 4 is a perspective view of the clean box of embodiment 1 of the present application.

Fig. 5 is a perspective view of the clean box assembly and the receiving trough assembly of example 1 of the present application.

Fig. 6 is a perspective view of a receiving trough assembly of example 1 of the present application.

Fig. 7 is a perspective view of the pan feeding lifting assembly of embodiment 1 of the present application.

Fig. 8 is a front view of the dish pushing transmission assembly of embodiment 1 of the present application.

Fig. 9 is a rear view of the push drive assembly of embodiment 1 of the present application.

Fig. 10 is an exploded view of the push drive assembly of embodiment 1 of the present application.

Fig. 11 is a perspective view of the transmission and unidirectional cylinder of embodiment 1 of the present application.

Fig. 12 is a perspective view of the transmission of embodiment 1 of the present application with the clutch mount removed.

Description of main reference numerals:

refrigerator door 1, frame 2, thermal insulation door plate 3, operation display 11, dish outlet 31, distribution box 4 and cleaning box

Vegetable box assembly 5, receiving trough assembly 6, vegetable pushing transmission assembly 7, pan feeding lifting assembly 8 and refrigeration compressor

9. Clean vegetable box 51, clean vegetable box 52 for placing vegetables, clean vegetable box 53 for placing spicy onion and garlic, positioning lock catch 54 and moving

Out-of-position lock catch 55, handle plate 56, storage box 10, waste water receiving tray 12, first screw shaft 511 and shaft

Core positioning seat 512, upper part 513 of dish cleaning box, lower part 514 of dish cleaning box, material receiving groove 61 and second screw shaft

62. A driving motor 63, a weighing one-way cylinder 64, a weighing sensor 65, a mounting bracket 66, a rocker 67,

A larger semicircular notch 611, a smaller semicircular notch 612, a dish outlet groove 81, a third screw shaft 82,

Dish-discharging motor 83, lifting screw 84, staggered cylinder 85, 90-degree rotary electric push rod 86 and lifting motor

87. Micro-axis 88, 90 degree rotation axis 89, semicircular notch 811, power motor 71 and synchronous belt tension

A tightening plate 72, a belt 73, a front mounting plate 74, a rear mounting plate 75, a transmission 76, a one-way cylinder 77,

The device comprises a shaft sleeve 761, a pressing wheel 762, a synchronizing wheel 763, a clutch mounting seat 764 and a spring 765.

Detailed Description

The following examples are described to aid in the understanding of the present application and are not, nor should they be construed in any way to limit the scope of the present application.

In the following description, those skilled in the art will recognize that components may be described as separate functional units (which may include sub-units) throughout this discussion, but those skilled in the art will recognize that various components or portions thereof may be divided into separate components or may be integrated together (including integration within a single system or component).

Meanwhile, the connection between components or systems within the drawings is not intended to be limited to a direct connection. Rather, data between these components may be modified, reformatted, or otherwise changed by intermediate components. In addition, additional or fewer connections may be used. It should also be noted that the terms "coupled," "connected," or "input" are to be construed as including direct connection, indirect connection or fixation through one or more intermediaries.

In the description of the present application, it should be noted that, directions or positional relationships indicated by terms such as "center", "upper", "lower", "left", "right", "side", "vertical", "horizontal", "inner", "outer", etc., are directions or positional relationships based on those shown in the drawings, or directions or positional relationships as used or conventionally recognized in the product of the application, are merely for convenience of description of the present application and simplification of description, and are not indicative or implying that the apparatus or element to be referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

Furthermore, the terms "horizontal," "vertical," and the like do not denote a requirement that the component be absolutely horizontal or overhang, but rather may be slightly inclined. As "horizontal" merely means that its direction is more horizontal than "vertical", and does not mean that the structure must be perfectly horizontal, but may be slightly inclined.

Example 1:

a smart refrigerator, as shown in fig. 1 to 12, comprising: the refrigerator door 1, the frame 2, the heat preservation door plate 3, the distribution box 4, the dish box component 5, the material receiving groove component 6, the transmission component 7, the pan feeding lifting component 8 and the refrigeration compressor 9, wherein the distribution box 4 is arranged at the upper part of the interior of the refrigerator, the refrigeration compressor 9 is arranged at the lower part of the interior of the refrigerator, the dish box component 5 and the material receiving groove component 6 are multiple, the dish box component 5 is arranged at the front part of the interior of the refrigerator, the transmission component 7 is closely abutted against the back plate of the refrigerator, the material receiving groove component 6 is arranged between the dish box component 5 and the transmission component 7, the pan feeding lifting component 8 is arranged at the right side of the refrigerator, the refrigeration compressor 9 controls the temperature of the interior of the refrigerator to be kept at a set temperature, the distribution box 4 provides electric energy, one dish box component 5 is arranged as one layer, each dish box component 5 is provided with a plurality of dish boxes 51, the clean vegetable box 51 is used for containing different kinds of clean vegetables, one clean vegetable box component 5 is configured with one receiving groove component 6, when a user remotely sets dishes and cooking time through a mobile phone, the intelligent refrigerator outputs the dishes to an intelligent pot according to a program, wherein a first screw shaft 511 of the clean vegetable box 51 starts rotating and pushes the dishes backwards, a receiving groove 61 of the receiving groove component 6 just receives the dishes, a second screw shaft 62 of the receiving groove component 6 rotates and pushes the dishes rightwards, a dish outlet 81 of the entering pot lifting component 8 just receives the dishes, the dish outlet 81 moves to a position corresponding to a dish outlet 31 of a right side heat preservation door plate, the dish outlet 31 is opened, the dish outlet 81 rotates rightwards by 90 degrees, and a third screw shaft 82 of the entering pot lifting component 8 rotates and pushes the dishes rightwards to the intelligent pot.

The refrigerator door 1 is provided with an operation display 11, and the heat preservation door plate 3 is arranged on the left side face, the right side face, the upper surface, the lower surface and the back plate face of the refrigerator, wherein the right side face heat preservation door plate is provided with a dish outlet 31. The number of the dish cleaning box assemblies 5 is 2-8, namely the number of the dish cleaning box assemblies 5 is 2-8, preferably the number of the dish cleaning box assemblies 5 is 4-6, the dish cleaning box assemblies 5 comprise a plurality of dish cleaning boxes 51, and the dish cleaning boxes 51 are divided into dish cleaning boxes 52 for placing dishes and dish cleaning boxes 53 for placing spicy onion and garlic. Each dish cleaning box 51 is provided with a positioning lock catch 54 and a moving-out position lock catch 55, the positioning lock catch 54 is used for fixing the dish cleaning box 51, the dish cleaning box 51 can be taken out after the positioning lock catch 54 is shifted leftwards, and when the dish cleaning box 51 is pushed in, the positioning lock catch 54 and the moving-out position lock catch 55 automatically return. Each net vegetable box 51 is also provided with a handle plate 56, and the net vegetable box 51 is conveniently pulled out or pushed in by pulling the handle plate 56. The clean box 51 includes: the first screw shaft 511, the shaft center positioning seat 512, the upper portion 513 of the clean vegetable box and the lower portion 514 of the clean vegetable box, vegetables and spicy green onion and garlic are placed in the clean vegetable box 51, the first screw shaft 511 is arranged in the lower portion 514 of the clean vegetable box and extends backwards to the outside of the lower portion 514 of the clean vegetable box, the first screw shaft 511 rotates to push out vegetables or fragrant Xin Cong garlic backwards, the shaft center positioning seat 512 is located at the rear end of the clean vegetable box 51, the rear end of the first screw shaft 511 penetrates through one part of the shaft center positioning seat 512, the other part of the shaft center positioning seat 512 is fixed with the upper portion 513 of the clean vegetable box, and the shaft center positioning seat 512 plays a role in controlling the first screw shaft 511 to be unbiased. A storage box 10 and a waste water receiving tray 12 are arranged below the dish cleaning box assembly 5.

A clean box assembly 5 is configured with a receiving trough assembly 6, the receiving trough assembly 6 comprising: connect silo 61, second screw axis 62, driving motor 63, weigh one-way cylinder 64, weighing sensor 65, installing support 66 and wane 67, weighing sensor 65 has two, sets up at the bottom both ends that connect silo 61, and installing support 66 spanned and set up the upper end at connecing silo 61, and weighing one-way cylinder 64 passes through installing support 66 to be fixed in the upper edge that connects silo 61. The second screw shaft 62 is arranged inside the lower part of the receiving groove 61, the driving motor 63 is connected with the left end of the second screw shaft 62 and is arranged on the left outer side of the receiving groove 61, the driving motor 63 provides mechanical energy for the second screw shaft 62, the weighing one-way cylinder 64 is arranged on the edge of the receiving groove 61, and the weighing sensor 65 is arranged at two ends of the bottom of the receiving groove 61. The rear end of the lower part 514 of the dish-cleaning box is arranged in the larger semicircular notch 611, and the tail end of the first screw shaft 511 is arranged in the smaller semicircular notch 612, so that the dish can be just received by the receiving groove 61 when the dish is pushed out backwards by the rotation of the first screw shaft 511. When the first screw shaft 511 of which dish cleaning box 51 starts to rotate, the weighing one-way cylinder 64 corresponding to the dish cleaning box 51 is started, the weighing one-way cylinder 64 moves downwards, the right end of the rocker 67 is pressed downwards, the left side of the rocker 67 is lifted upwards, the rear end of the shell of the dish cleaning box 51 is lifted upwards, the first screw shaft 511 rotates to push food backwards, and the rocker 67 transmits the weight of the food to the weighing sensor 65, so that weighing is achieved. When the weight of the food materials in the receiving groove 61 reaches the set weight of the system, the weighing sensor 65 sends out a signal, the system controls the unidirectional cylinder 35 to stop working, and the dish box 51 stops discharging dishes; then the weighing one-way cylinder 64 stops starting, the weighing one-way cylinder 64 returns upwards to the original position, the left side of the rocker 67 returns downwards to the original position, and the shell of the dish cleaning box 51 returns to the original position. After the dish-cleaning box 51 stops discharging dishes, the driving motor 63 provides mechanical energy for the second screw shaft 62, and the second screw shaft 62 rotates to push out dishes to the right.

The pan feeding lifting assembly 8 comprises: the dish outlet groove 81, the third screw shaft 82, the dish outlet motor 83, the lifting screw 84, the staggered cylinder 85, the 90-degree rotary electric push rod 86, the lifting motor 87, the micro-shaft 88 and the 90-degree rotary shaft 89, and a semicircular notch 811 is formed in the edge of the dish outlet groove 81. The third spiral shaft 82 is arranged inside the vegetable outlet groove 81, the vegetable outlet motor 83 provides mechanical energy for the third spiral shaft 82, the vegetable outlet motor 83 is connected with the left end of the third spiral shaft 82 and is arranged on the left outer side of the vegetable outlet groove 81, and the vegetable outlet groove 81 is connected with the lifting screw 84 and the micro-motion shaft 89. The staggered cylinder 85 moves to drive the micro-motion shaft 89 to move, and the micro-motion shaft 89 drives the vegetable outlet groove 81 to move leftwards or rightwards in parallel by a small amplitude. The lifting motor 87 drives the lifting screw 84 to move upwards or downwards, so that the dish outlet groove 81 moves upwards or downwards, and moves up and down to the corresponding position of the dish outlet receiving groove component 6 according to the system program command, at this time, the tail part of the right end of the dish outlet groove 81 is just in the semicircular notch 811, and therefore, when the second screw shaft 62 rotates to push out dishes to the right, the dish outlet groove 81 can just catch the dishes. After the dish receiving of the dish outlet slot 81 is completed, the lifting motor 87 drives the lifting screw 84 to move upwards, so that the dish outlet slot 81 moves upwards to the position corresponding to the dish outlet 31, the dish outlet 31 is opened, the 90-degree rotary electric push rod 86 moves, the 90-degree rotary shaft 89 is driven to rotate 90 degrees, the dish outlet slot 81 is caused to rotate 90 degrees rightwards, the dish outlet motor 83 provides mechanical energy for the third screw shaft 82, and the third screw shaft 82 rotates to push the dish rightwards to the intelligent pot.

The dish pushing transmission assembly 7 comprises: the power motor 71, the timing belt tensioning plate 72, the belt 73, the front mounting plate 74, the rear mounting plate 75, the transmission device 76 and the one-way air cylinder 77, the power motor 71, the timing belt tensioning plate 72 and the one-way air cylinder 77 are arranged on the back of the rear mounting plate 75, the transmission device 76 and the belt 73 are arranged inside the front mounting plate 74 and the rear mounting plate 75, one transmission device 76 corresponds to one dish cleaning box 11 and one-way air cylinder 77, and the transmission device 76 comprises: the device comprises a shaft sleeve 761, a pressing wheel 762, a synchronizing wheel 763, a clutch mounting seat 764 and a spring 765, wherein the synchronizing wheel 763 is fixedly sleeved on the shaft sleeve 761, the spring 765 is arranged at the tail end of the shaft sleeve 761, and the transmission device 76 is mounted through the clutch mounting seat 764. The front end of the shaft sleeve 761 is flush with the front mounting plate 74, the tail end of the shaft sleeve 761 protrudes out of the rear mounting plate 75, the power motor 71 provides mechanical energy for the belt 73, the power motor 71 drives the belt 73 to move, the belt 73 is arranged between the pinch roller 762 and the synchronous wheels 763, the synchronous belt tensioning plate 72 plays a role in fixing, tightening or loosening the belt 73, one belt 73 is connected with two layers of synchronous wheels 763 to drive the two layers of synchronous wheels 763 to rotate, and the synchronous wheels 763 rotate to drive the shaft sleeve 761 to rotate. When preparing to discharge, which dish cleaning box 51 prepares to discharge dishes, the system program of the intelligent refrigerator controls the corresponding one-way air cylinder 77 to start working, the one-way air cylinder 77 moves forwards, the one-way air cylinder 77 is inserted into the tail end of the shaft sleeve 761 to be clamped, the shaft sleeve 761 moves forwards, the spring 765 is compressed, the tail end of the first spiral shaft 511 of the corresponding dish cleaning box 51 is inserted into the head end of the shaft sleeve 761 to be clamped, a triangular salient point is arranged in the head end of the shaft sleeve 761, and the shaft sleeve 761 rotates to drive the first spiral shaft 511 to rotate, so that food materials are pushed backwards. When the weight of the food materials in the receiving groove 61 reaches the set weight of the system, the weighing sensor 65 sends out a signal, the system controls the unidirectional cylinder 77 to stop working, the unidirectional cylinder 77 is separated from the shaft sleeve 761 due to the resilience force of the spring 765, the shaft sleeve 761 is restored to the original position, the first screw shaft 511 is separated from the shaft sleeve 761, the first screw shaft 511 loses mechanical energy to stop rotating, and the dish cleaning box 51 stops discharging dishes. The refrigerating compressor 9 controls the temperature inside the refrigerator to 0 c + 0.5 c.

While various aspects and embodiments have been disclosed, other aspects and embodiments will be apparent to those skilled in the art, and many changes and modifications can be made without departing from the spirit of the application, which is intended to be within the scope of the invention. The various aspects and embodiments disclosed herein are for illustration only and are not intended to limit the application, the actual scope of which is subject to the claims.

Claims

1. An intelligent refrigerator, comprising: the refrigerator comprises a refrigerator door (1), a frame (2), a heat preservation door plate (3), a distribution box (4), a clean vegetable box assembly (5), a material receiving groove assembly (6), a vegetable pushing transmission assembly (7), a pan feeding lifting assembly (8) and a refrigerating compressor (9), wherein the distribution box (4) is arranged at the upper part of the inside of the refrigerator, the refrigerating compressor (9) is arranged at the lower part of the inside of the refrigerator, the clean vegetable box assembly (5) and the material receiving groove assembly (6) are multiple, the clean vegetable box assembly (5) is arranged at the front part of the inside of the refrigerator, the vegetable pushing transmission assembly (7) is closely abutted to a back plate of the refrigerator, the material receiving groove assembly (6) is arranged between the clean vegetable box assembly (5) and the vegetable pushing transmission assembly (7), the pan feeding lifting assembly (8) is arranged at the right side of the refrigerator, the refrigerating compressor (9) is used for controlling the temperature of the inside of the refrigerator to be kept at a set temperature, the distribution box (4) provides electric energy, one clean vegetable box assembly (5) is arranged at one layer, each clean vegetable box assembly (5) is provided with a plurality of clean vegetable boxes (51), the clean vegetable boxes (51) are used for containing different types of clean vegetables, the clean vegetables and the user can be pushed out of the intelligent kitchen box (511) to a user through the intelligent kitchen machine according to a program, the intelligent kitchen unit (511) is arranged at the time when the user is far from the intelligent kitchen box assembly and the intelligent kitchen box (511) is arranged, the receiving trough (61) of receiving trough subassembly (6) just in time receives food, the second screw axis (62) of receiving trough subassembly (6) rotates and promotes food from left side or right side, play dish groove (81) of advancing pot lifting assembly (8) just in time receives food, play dish groove (81) move to the play dish mouth (31) of side heat preservation door plant and correspond the position, play dish mouth (31) are opened, play dish groove (81) left or right rotation 90 degrees, third screw axis (82) of advancing pot lifting assembly (8) rotates and promotes food left or right to intelligent pot, clean dish box subassembly (5) have 2-8, clean dish box subassembly (5) include a plurality of clean dish boxes (51), clean dish box (52) of dish and clean dish box (53) of the garlic of spice that put in dish are divided into to clean dish box subassembly (51), a clean dish box subassembly (5) disposes with a receiving trough subassembly (6), connect trough subassembly (6) include: the device comprises a receiving groove (61), a second screw shaft (62), a driving motor (63), a weighing one-way cylinder (64), two weighing sensors (65), mounting brackets (66) and a rocker (67), wherein the two weighing sensors (65) are arranged at two ends of the bottom of the receiving groove (61), the mounting brackets (66) are transversely arranged at the upper end of the receiving groove (61) in a crossing mode, and the weighing one-way cylinder (64) is fixed at the upper edge of the receiving groove (61) through the mounting brackets (66); the second screw shaft (62) is arranged in the lower part of the receiving groove (61), the driving motor (63) is connected with the left end of the second screw shaft (62) and is arranged on the left outer side of the receiving groove (61), the driving motor (63) provides mechanical energy for the second screw shaft (62), the weighing one-way cylinder (64) is arranged on the edge of the receiving groove (61), and the weighing sensor (65) is arranged at two ends of the bottom of the receiving groove (61); the rear end of the lower part (514) of the dish-cleaning box is arranged in a larger semicircular notch (611), and the tail end of the first screw shaft (511) is arranged in a smaller semicircular notch (612), so that the dish can be just caught by the receiving groove (61) when the first screw shaft (511) rotates to push the dish backwards; when a first screw shaft (511) of which dish cleaning box (51) starts to rotate, a weighing one-way cylinder (64) corresponding to the dish cleaning box (51) is started, the weighing one-way cylinder (64) moves downwards, the right end of a rocker (67) is pressed downwards, the left side of the rocker (67) is lifted upwards, the rear end of a shell of the dish cleaning box (51) is lifted upwards, the first screw shaft (511) rotates to push food backwards, and the rocker (67) transmits the weight of the food to a weighing sensor (65) to realize weighing; when the weight of food materials in the receiving groove (61) reaches the set weight of the system, the weighing sensor (65) sends out a signal, the system controls the one-way cylinder (77) of the dish pushing transmission assembly (7) to stop working, and the dish cleaning box (51) stops discharging dishes; then the weighing one-way air cylinder (64) stops starting, the weighing one-way air cylinder (64) returns upwards to the original position, the left side of the rocker (67) returns downwards to the original position, and the shell of the dish cleaning box (51) returns to the original position.

2. The intelligent refrigerator according to claim 1, wherein the clean vegetable box (51) comprises: the novel kitchen dish box comprises a first spiral shaft (511), an axle center positioning seat (512), a kitchen dish box upper portion (513) and a kitchen dish box lower portion (514), wherein vegetables and spicy onion garlic are placed inside the kitchen dish box (51), the first spiral shaft (511) is arranged inside the kitchen dish box lower portion (514) and extends backwards to the outside of the kitchen dish box lower portion (514), the first spiral shaft (511) rotates to push out vegetables or spicy Xin Cong garlic backwards, the axle center positioning seat (512) is located at the rear end of the kitchen dish box (51), the rear end of the first spiral shaft (511) penetrates through one part of the axle center positioning seat (512), the other part of the axle center positioning seat (512) is fixed with the kitchen dish box upper portion (513), and the axle center positioning seat (512) plays a role in controlling the first spiral shaft (511) to be unbiased.

3. Intelligent refrigerator according to claim 1, characterized in that the pan feeding lifting assembly (8) comprises: the vegetable discharging device comprises a vegetable discharging groove (81), a third spiral shaft (82), a vegetable discharging motor (83), a lifting screw (84), a staggered cylinder (85), a 90-degree rotary electric push rod (86), a lifting motor (87), a micro-motion shaft (88) and a 90-degree rotary shaft (89), wherein a semicircular notch (811) is formed in the edge of the vegetable discharging groove (81).

4. The intelligent refrigerator as claimed in claim 3, wherein the third screw shaft (82) is disposed inside the dish outlet groove (81), the dish outlet motor (83) provides mechanical energy for the third screw shaft (82), the dish outlet motor (83) is connected with the left end of the third screw shaft (82) and disposed at the left outer side of the dish outlet groove (81), and the dish outlet groove (81) is connected with the lifting screw (84) and the micro-shaft; the staggered cylinder (85) moves to drive the micro-motion shaft to move, and the micro-motion shaft drives the vegetable outlet groove (81) to move leftwards or rightwards in parallel with small amplitude; the lifting motor (87) drives the lifting screw (84) to move upwards or downwards, so that the dish outlet groove (81) moves upwards or downwards, and moves up and down to the position corresponding to the dish outlet receiving groove component (6) according to the system program command, at the moment, the tail part of the right end of the dish outlet groove (81) is just in the semicircular notch (811), and therefore, when the second screw shaft (62) rotates to push dishes to the right, the dish outlet groove (81) can just catch the dishes; after the dish receiving of the dish outlet groove (81) is completed, the lifting motor (87) drives the lifting screw rod (84) to move upwards, so that the dish outlet groove (81) moves upwards to a position corresponding to the dish outlet opening (31), the dish outlet opening (31) is opened, the 90-degree rotary electric push rod (86) moves, the 90-degree rotary shaft (89) is driven to rotate 90 degrees, the dish outlet groove (81) is driven to rotate 90 degrees rightwards, the dish outlet motor (83) provides mechanical energy for the third screw shaft (82), and the third screw shaft (82) rotates to push the dish rightwards to the intelligent pot.

5. Intelligent refrigerator according to claim 1, characterized in that the push transmission assembly (7) comprises: the utility model provides a power motor (71), hold-in range tensioning board (72), belt (73), preceding mounting panel (74), back mounting panel (75), transmission (76), and one-way cylinder (77), power motor (71), hold-in range tensioning board (72), and one-way cylinder (77) set up at the back of back mounting panel (75), transmission (76) and belt (73) set up inside preceding mounting panel (74) and back mounting panel (75), a transmission (76) correspond with a clean dish box (51) and one-way cylinder (77), transmission (76) include: the device comprises a shaft sleeve (761), a pinch roller (762), a synchronous wheel (763), a clutch mounting seat (764) and a spring (765), wherein the synchronous wheel (763) is fixedly sleeved on the shaft sleeve (761), the spring (765) is arranged at the tail end of the shaft sleeve (761), and a transmission device (76) is mounted through the clutch mounting seat (764).

6. The intelligent refrigerator according to claim 5, wherein the front end of the shaft sleeve (761) is flush with the front mounting plate (74), the tail end of the shaft sleeve (761) protrudes out of the rear mounting plate (75), the power motor (71) provides mechanical energy for the belt (73), the power motor (71) drives the belt (73) to move, the belt (73) is arranged between the pressing wheel (762) and the synchronizing wheel (763), the synchronizing belt tensioning plate (72) plays a role of fixing, tightening or loosening the belt (73), one belt (73) is connected with two layers of synchronizing wheels (763) to drive the two layers of synchronizing wheels (763) to rotate, and the synchronizing wheel (763) rotates to drive the shaft sleeve (761) to rotate.

7. The intelligent refrigerator according to claim 6, wherein when preparing to discharge, which dish cleaning box (51) prepares to discharge, the system program of the intelligent refrigerator controls the corresponding one-way air cylinder (77) to start working, the one-way air cylinder (77) moves forward, the one-way air cylinder (77) is inserted into the tail end of the shaft sleeve (761) to be clamped, the shaft sleeve (761) moves forward, the spring (765) is compressed, the tail end of the first spiral shaft (511) of the corresponding dish cleaning box (51) is inserted into the head end of the shaft sleeve (761) to be clamped, a triangular salient point is arranged in the head end of the shaft sleeve (761), and the shaft sleeve (761) rotates to drive the first spiral shaft (511) to rotate, so that food materials are pushed backwards; when the weight of food materials in the receiving groove (61) reaches the set weight of the system, the weighing sensor (65) sends out a signal, the system controls the unidirectional cylinder (77) to stop working, the unidirectional cylinder (77) is separated from the shaft sleeve (761) due to the resilience force of the spring (765), the shaft sleeve (761) is restored to the original position, the first screw shaft (511) is separated from the shaft sleeve (761), the first screw shaft (511) loses mechanical energy to stop rotating, and the dish cleaning box (51) stops discharging dishes.

8. Intelligent refrigerator according to claim 1, characterized in that the refrigerating compressor (9) controls the temperature inside the refrigerator to-2-1 ℃.