CN114704987B - Intelligent refrigerating energy-saving food refrigerator - Google Patents

Abstract

The invention discloses an intelligent refrigeration energy-saving food refrigerator, which relates to the field of food refrigerators and comprises a refrigerator body, wherein a first space is arranged in the refrigerator body, a refrigeration system is fixedly arranged on the lower side wall of the first space, a servo motor is fixedly arranged on the lower side wall of the first space, a power rotating shaft is fixedly arranged at the output end of the servo motor, and a second gear is fixedly sleeved on the power rotating shaft.

Description

Intelligent refrigerating energy-saving food refrigerator

Technical Field

The invention relates to the field of food refrigerators, in particular to an intelligent refrigeration energy-saving food refrigerator.

Background

At present, the food refrigerator on the market is single in storage space, meanwhile, when a plurality of different foods are stored in the refrigerator, the taste is very easy to be changed, so that the quality grade of the refrigerated foods is reduced, meanwhile, adhesion is very easy to occur between the refrigerated foods, so that inconvenience is brought about when the refrigerated foods are taken out, adhesion is also very easy to occur between the refrigerated foods and the side wall of the refrigerator, meanwhile, when the refrigerated foods are taken out, the frost on the surface of the refrigerated foods is too much, so that water drops are easy to occur on the surface of the refrigerated foods after the refrigerated foods are taken out, and the refrigerated foods are influenced.

Disclosure of Invention

The invention aims to provide an intelligent refrigeration energy-saving food refrigerator so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: an intelligent refrigerating energy-saving food refrigerator comprises a refrigerator body, a first space is arranged in the refrigerator body, a refrigerating system is fixedly arranged on the lower side wall of the first space, a servo motor is fixedly arranged on the lower side wall of the first space, a power rotating shaft is fixedly arranged at the output end of the servo motor, a second gear is fixedly sleeved on the power rotating shaft, a base plate is fixedly arranged on the upper end face of the refrigerator body, a transparent glass cover is fixedly arranged on the upper end face of the base plate, a cover plate is fixedly arranged on the upper end face of the transparent glass cover, an annular lampshade is fixedly sleeved on the outer end face of the cover plate, an annular illuminating lamp is fixedly arranged on the lower end face of the annular lampshade, a refrigerating mechanism is arranged in the refrigerating space, a cold air reflux mechanism for avoiding adhesion of refrigerated foods is arranged in the base plate, a hollow space is arranged on the left side wall of the refrigerating space in a communicating mode, the cold air taking mechanism is arranged in the refrigerating space, the hollow space is rotatably connected with a driving hollow column arranged on the lower side wall of the refrigerating space, the driving hollow column extends downwards to penetrate through the hollow column, a cover plate is fixedly arranged on the upper end face of the transparent glass cover plate, a sealing sleeve is fixedly connected with the hollow column, a hollow column is arranged on the hollow column, a sealing sleeve is respectively, a sealing groove is arranged between the hollow column and the hollow column is in the sealing sleeve, the sealing sleeve is respectively, the sealing sleeve is connected with the hollow column is arranged on the hollow column, the hollow column is mutually, the sealing sleeve is respectively, the sealing sleeve is meshed with the sealing sleeve is respectively, and the sealing sleeve is meshed with the sealing sleeve is respectively, and the sealing sleeve is respectively. Every the baffle plate up end respectively with correspond be connected with reset spring between the spout upper sidewall, every be provided with the opening mouth in the baffle plate respectively, every the baffle plate lower terminal surface has set firmly the rubber round bar respectively, transparent glass cover is close to set firmly annular abaculus on the cold-stored space central line direction terminal surface, be provided with the abaculus recess in the annular abaculus, every baffle plate keeps away from fixed strut has set firmly respectively to cold-stored space central line direction terminal surface, every fixed strut all with abaculus recess sliding connection.

Preferably, the cold air reflux mechanism comprises an exhaust disc fixedly mounted on the upper end face of the driving hollow column, the exhaust disc is embedded in the lower end face of the cover plate and is in rotary connection with the lower end face of the cover plate, eight exhaust nozzles are distributed on the lower end face of the exhaust disc at equal intervals, each exhaust nozzle is communicated with the inner cavity of the exhaust disc, a one-way valve is fixedly arranged at the position where the inner cavity of the exhaust disc is communicated with the cold air channel, a fixed base plate is sleeved on the driving hollow column in a rotary mode, the fixed base plate is embedded in the upper end face of the base plate and is fixedly connected with the base plate, a second space is arranged in the fixed base plate, the left side and the right side of the cold air channel are communicated with the second space respectively, a second air suction device is fixedly arranged at the communicating position, and a filter screen is arranged on each second air suction device in a position close to the direction of the central line of the cold air channel.

Preferably, the cold air isolation mechanism comprises a material taking cylinder fixedly embedded in the left end face of the transparent glass cover, a material taking space communicated left and right is arranged in the material taking cylinder, the material taking space is communicated with the refrigerating space, an isolation groove is formed in the inner side wall of the material taking space in a communicating mode, an annular sealing block is fixedly arranged in the isolation groove, a sealing block inner cavity is formed in the annular sealing block, two annular air ejectors are fixedly arranged on the inner side wall of the sealing block inner cavity in a bilateral symmetry mode relative to the central line of the sealing block inner cavity, first air suction equipment is fixedly arranged on the lower side wall of the isolation groove, a first air suction equipment air outlet is communicated with the two annular air ejectors, a first air suction equipment right side air inlet is communicated with the second space, a switching valve is arranged in the communicating inner cavity, a circular rubber block is fixedly arranged on the left side sliding mode of the material taking space, and a sealing disc door is fixedly arranged on the left end face of the circular rubber block.

Preferably, each of the arched baffles is provided with semi-elliptical hard rubber protrusions at equal intervals near the end face of the central line of the refrigerating space, so that when more foods can be prevented from being stored, the foods are abutted to the transparent glass cover, the phenomenon that the stored foods and the transparent glass cover are condensed due to the difference between the inner temperature and the outer temperature of the transparent glass cover is avoided, and meanwhile, when the stored foods are taken out, the corresponding arched baffle rotates to the position of the material taking cylinder, so that the arched baffle slides up and down in the rotating process, and the stored foods abutted to the semi-elliptical hard rubber protrusions are shaken and scattered, so that the phenomenon that the foods are condensed and inconvenient to take out is avoided.

Preferably, diamond-shaped protrusions are respectively arranged on the front end face and the rear end face of each transparent glass plate at equal intervals, and the protrusions are frosted, so that adhesion of stored food when the stored food is abutted to the end faces of the transparent glass plates can be effectively avoided.

Preferably, the inner side of the insert groove is provided with a corrugated shape with a smooth surface, and the inner side of the insert groove is tightly attached to each fixed sliding column.

Preferably, the upper end surface of the fixed chassis is arranged to be continuous arched convex, a chassis groove is formed between two bulges, the lower side wall of each chassis groove is communicated with the second space, and rubber protection pads are respectively and fixedly arranged at the arched bulge positions on the fixed chassis.

Preferably, each rubber protection pad upper end face is provided with a circular arc-shaped hard bump, the surface is rough, so that the driving hollow column drives the transparent glass plates to rotate in the rotating process, food stored between the two transparent glass plates is driven to rotate, the food at the bottom is rubbed with the rubber protection pad upper end face in the rotating process, frost at the bottom of the stored food is scraped, the quantity of frost on the surface of the food can be effectively reduced, and water dew formed by defrosting the surface of the removed food is reduced to cover the food.

Preferably, the upper end surface of each transparent glass plate is respectively provided with two arc-shaped extension sections and extends towards the direction far away from the central line of the corresponding transparent glass plate, so that when the cold air is discharged into the corresponding refrigeration grid from the air discharge nozzle, the cold air is enabled to be delayed upwards along the transparent glass plate after being sufficient, and the redundant cold air can flow downwards again along the arc-shaped extension sections, thereby forming backflow energy saving.

In summary, the invention has the beneficial effects that:

1. according to the invention, the refrigerating space of the refrigerator is divided into a plurality of parts through the transparent glass plate, so that the fault tolerance of the refrigerator is improved, meanwhile, the phenomenon that the quality of the refrigerated food is greatly reduced due to the occurrence of flavor channeling between different foods is avoided, meanwhile, when the stored foods are more, the foods are prevented from being abutted to the transparent glass cover, the phenomenon that the stored foods and the transparent glass cover are condensed due to the difference between the internal temperature and the external temperature of the transparent glass cover is avoided, and meanwhile, when the stored foods are taken out, the corresponding arc-shaped baffle is rotated to the position of the material taking cylinder, so that the arc-shaped baffle slides up and down in the rotation process, and the stored foods abutted to the semi-elliptic hard rubber bulges of the arc-shaped baffle are prevented from being scattered in a shaking manner, and the phenomenon that the stored foods and the foods are condensed and are inconvenient to take out is avoided.

2. According to the invention, by utilizing the rotary type refrigerated food taking device, the leakage of cool air in the refrigerator during refrigerated food taking is greatly reduced, meanwhile, the frost at the bottom of the stored food can be scraped off, so that the quantity of the frost on the surface of the food taken out is effectively reduced, the water dew which is formed by defrosting the surface of the food taken out is reduced to cover the food, meanwhile, the dynamic cool air flow air curtain at the position of the article taking opening can fully isolate the external hot air flow, meanwhile, the overflow of the cool air flow in the refrigerator can be isolated, and the external and the inside of the refrigerator are isolated in a double way, so that the energy consumption of the refrigerator during the goods taking is effectively prevented from being increased due to the fact that the external hot air enters the refrigerator.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front view structure of an intelligent refrigeration energy-saving food refrigerator in full section;

FIG. 2 is a schematic cross-sectional view of the structure of FIG. 1 at A-A in accordance with the present invention;

FIG. 3 is a schematic view of a partially enlarged structure of the present invention at B in FIG. 1;

FIG. 4 is a schematic view of a partially enlarged structure of the present invention at C in FIG. 1;

FIG. 5 is a schematic view of a partially enlarged structure of the invention at D in FIG. 1;

FIG. 6 is a partially expanded view of the annular insert 32 of FIG. 3 in accordance with the present invention;

fig. 7 is a schematic view of a partial left-hand construction of the partial transparent glass plate 22 of fig. 1 in accordance with the present invention.

The index marks in the drawings are as follows: 10. a body; 11. a refrigeration system; 12. a first space; 13. a sealing sleeve; 14. a first gear; 15. a second gear; 16. a servo motor; 17. a power rotating shaft; 18. driving the hollow column; 19. a cold air flow passage; 20. a base plate; 21. a transparent glass cover; 22. a transparent glass plate; 23. an open cavity; 24. a chute; 25. a refrigerating space; 26. a cover plate; 27. an annular lighting lamp; 28. an annular lampshade; 29. an exhaust disk; 30. a one-way valve; 31. an exhaust nozzle; 32. an annular slug; 33. an slug recess; 34. fixing the sliding column; 35. a material taking cylinder; 36. an insulation groove; 37. an annular sealing block; 38. a circular rubber block; 39. a first inhalation device; 40. an annular jet; 41. a rubber round bar; 42. an arc baffle; 43. a fixed chassis; 44. a rubber pad; 45. a second space; 46. a second inhalation device; 47. a chassis groove; 48. closing the disc door; 49. sealing the inner cavity of the block; 50. and a material taking space.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

The invention will now be described in detail with reference to fig. 1-7, wherein for convenience of description, the orientations described below are now defined as follows: the vertical, horizontal, vertical, front-to-back directions described below are the same as the vertical, horizontal, vertical, and horizontal directions of the view of fig. 1. Fig. 1 is a front view of the device of the present invention, and the direction of fig. 1 is the same as the vertical, horizontal, vertical, front-to-back, horizontal, and horizontal directions of the device of the present invention.

Referring to fig. 1-7, an embodiment of the present invention is provided: an intelligent refrigerating energy-saving food refrigerator comprises a refrigerator body 10, a first space 12 is arranged in the refrigerator body 10, a refrigerating system 11 is fixedly arranged on the lower side wall of the first space 12, a servo motor 16 is fixedly arranged on the lower side wall of the first space 12, a power rotating shaft 17 is fixedly arranged at the output end of the servo motor 16, a second gear 15 is fixedly sleeved on the power rotating shaft 17, a base plate 20 is fixedly arranged on the upper end face of the refrigerator body 10, a transparent glass cover 21 is fixedly arranged on the upper end face of the base plate 20, a cover plate 26 is fixedly arranged on the upper end face of the transparent glass cover 21, an annular lampshade 28 is fixedly sleeved on the outer end face of the cover plate 26, an annular illuminating lamp 27 is fixedly arranged on the lower end face of the annular lampshade 28, a refrigerating space 25 is arranged between the base plate 20 and the cover plate 26 and the transparent glass cover 21, a refrigerating mechanism is arranged in the refrigerating space 25, the base plate 20 is internally provided with a cold air reflux mechanism for avoiding refrigerated food adhesion, the left side wall of the refrigerated space 25 is communicated with a material taking space 50, the material taking space 50 is internally provided with a cold air isolation mechanism, the refrigerated mechanism comprises a driving hollow column 18 rotatably connected with the lower side wall of the refrigerated space 25, the driving hollow column 18 downwards extends to penetrate into the first space 12, a cold air flow passage 19 is arranged in the driving hollow column 18, the lower end surface of the driving hollow column 18 is rotatably connected with a sealing sleeve 13, the lower end surface of the sealing sleeve 13 is communicated with an air outlet of the refrigerating system 11, the outer end surface of the lower side of the driving hollow column 18 is fixedly sleeved with a first gear 14, the first gear 14 is meshed with a second gear 15, eight transparent glass plates 22 are fixedly distributed on the outer end surface of the driving hollow column 18 at equal intervals, the front end face and the rear end face of each transparent glass plate 22 are respectively provided with a chute 24, two adjacent transparent glass plates 22 face the chute 24 on the end face respectively sliding connection has a baffle plate 42, each baffle plate 42 up end respectively with the corresponding chute 24 on between the lateral wall be connected with reset spring, each baffle plate 42 in be provided with respectively open cavity 23, every baffle plate 42 lower terminal surface has set firmly rubber round bar 41 respectively, transparent glass cover 21 is close to on the cold storage space 25 central line direction terminal surface has set firmly annular slug 32, be provided with slug recess 33 in the annular slug 32, every baffle plate 42 is kept away from cold storage space 25 central line direction terminal surface has set firmly fixed slide post 34 respectively, every fixed slide post 34 all with slug recess 33 sliding connection.

In addition, in one embodiment, the cold air backflow mechanism includes a vent disc 29 fixedly installed on the upper end surface of the driving hollow column 18, the vent disc 29 is embedded in the lower end surface of the cover plate 26 and is rotationally connected with the lower end surface of the cover plate 26, eight vent nozzles 31 are distributed on the lower end surface of the vent disc 29 at equal intervals, each vent nozzle 31 is mutually communicated with the inner cavity of the vent disc 29, a one-way valve 30 is fixedly arranged at the position where the inner cavity of the vent disc 29 is mutually communicated with the cold air channel 19, a fixed chassis 43 is rotationally sleeved on the driving hollow column 18, the fixed chassis 43 is embedded in the upper end surface of the base disc 20 and is fixedly connected with the base disc 20, a second space 45 is arranged in the fixed chassis 43, the left side and the right side of the cold air channel 19 are respectively mutually communicated with the second space 45, a second air suction device 46 is fixedly arranged at the communicating position, and a filter screen is distributed on each second air suction device 46 in the direction close to the central line of the cold air channel 19.

In addition, in one embodiment, the cold air isolation mechanism includes that the fixed embedding is installed get material cylinder 35 of transparent glass cover 21 left side terminal surface, be provided with in getting material cylinder 35 about link up get material space 50 with refrigerated space 25 intercommunication each other, get material space 50 inside wall intercommunication is provided with isolation recess 36, set firmly annular sealing block 37 in the isolation recess 36, be provided with sealing block inner chamber 49 in the annular sealing block 37, two annular air jet 40 have been set firmly to sealing block inner chamber 49 inside wall, two annular air jet 40 are related to sealing block inner chamber 49 central line is bilateral symmetry distribution setting, it sets firmly first inhalation device 39 to get material cylinder 36 lower lateral wall, first inhalation device 39 gas outlet and two annular air jet 40 intercommunication settings each other, first inhalation device 39 right side gas inlet with communicate each other between the second space 45, and be provided with the ooff valve in the intercommunication inner chamber, annular sealing block 37 left side sliding connection has the rubber block 38, left side end face 38 is provided with sealing block 48, it is connected with the circular disc 48 to get material cylinder.

In addition, in one embodiment, each of the arcuate baffles 42 is provided with semi-elliptical hard rubber protrusions at equal intervals near the end surface of the refrigerating space 25 in the direction of the central line, so that when more food is stored, the food is prevented from being abutted onto the transparent glass cover 21, and the stored food and the transparent glass cover 21 are prevented from being condensed due to the difference between the temperature inside and outside the transparent glass cover 21, and meanwhile, when the stored food is taken out, the corresponding arcuate baffles 42 rotate to the position of the material taking cylinder 35, so that the arcuate baffles 42 slide up and down in the rotation process, and the stored food abutted onto the semi-elliptical hard rubber protrusions of the arcuate baffles 42 is shaken off, so that the phenomenon that the stored food and the food are condensed and inconvenient to take out is avoided.

In addition, in one embodiment, diamond-shaped protrusions are respectively and equidistantly distributed on the front and rear end surfaces of each transparent glass plate 22, and each protrusion is frosted, so that adhesion of stored food when the stored food is abutted to the end surface of the transparent glass plate 22 can be effectively avoided.

In addition, in one embodiment, the inner side of the insert groove 33 is provided with a smooth corrugated shape, and is closely attached to each of the fixing posts 34.

In addition, in one embodiment, the upper end surface of the fixed chassis 43 is provided with a continuous arched protrusion, a chassis groove 47 is provided between the two protrusions, the lower side wall of each chassis groove 47 is communicated with the second space 45, and rubber protection pads 44 are respectively fixed at the arched protrusions on each fixed chassis 43.

In addition, in one embodiment, the upper end surface of each rubber protection pad 44 is respectively provided with a circular arc hard bump, and the surface is rough, so that the driving hollow column 18 drives the transparent glass plates 22 to rotate in the rotation process, so that the food stored between the two transparent glass plates 22 is driven to rotate, so that the food at the bottom is rubbed with the upper end surface of the rubber protection pad 44 in the rotation process, so that the frost at the bottom of the stored food is scraped, the amount of the frost on the surface of the taken-out food can be effectively reduced, and the water dew formed by melting the frost on the surface of the taken-out food is reduced to cover the food.

In addition, in one embodiment, the upper end surface of each transparent glass plate 22 is respectively provided with two arc-shaped extending sections and extends away from the central line direction of the corresponding transparent glass plate 22, so that when the cool air is discharged into the corresponding refrigeration grid from the air discharge nozzle 31, the cool air is delayed to flow upwards along the transparent glass plate 22 after being sufficient, and the redundant cool air can flow downwards again along the arc-shaped extending sections, thereby forming backflow energy saving.

When the refrigerating system 11 is started, the generated cold air enters the cold air flow channel 19 and is discharged into the corresponding refrigeration grid through the corresponding air discharge nozzle 31, and meanwhile, the cold air moves downwards, because the arched arrangement of the upper end face of the fixed chassis 43 greatly facilitates the circulation of the cold air into the second space 45 through the chassis groove 47, the cold air is sucked and re-discharged into the cold air flow channel 19 through the second air suction device 46 for backflow, the formed cold air backflow greatly reduces the energy consumption of the refrigerator, when the corresponding refrigeration food is required to be taken out, the servo motor 16 is controlled to rotate so as to drive the hollow driving column 18 to rotate, the refrigeration grid required to be taken out of the food is rotated to the material taking space 50, and in the rotation process, the food at the bottom and the upper end face of the rubber protection pad 44 are rubbed, thereby scraping the frost at the bottom of the stored food, thereby effectively reducing the amount of the frost on the surface of the taken food, thereby reducing the water dew formed by defrosting the surface of the taken food and covering the food, simultaneously the arc-shaped baffle plate 42 slides up and down, thereby shaking the stored food abutted against the semi-elliptic hard rubber bulge of the arc-shaped baffle plate 42, avoiding inconvenient taking out due to condensation between the food and the food, then the closed disc door 48 is opened, when the circular rubber block 38 is separated from the inner side wall of the material taking space 50, at the moment, the first air suction device 39 is started, thereby sucking the cool air in the second space 45 and spraying the cool air through the two annular air sprayers 40, so that the cool air sprayed by the two annular air sprayers 40 forms a cool air flow air curtain, the dynamic cold air flow air curtain can fully isolate external hot air flow, can isolate internal cold air flow from overflowing, and is used for isolating the external air flow from the refrigerator in a double-isolation manner, so that the external hot air is effectively prevented from entering the refrigerator, and the energy consumption of the refrigerator is improved when the refrigerator is used for taking goods.

The foregoing is merely illustrative of specific embodiments of the invention, and the scope of the invention is not limited thereto, but is intended to cover any variations or alternatives not contemplated by the inventors. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (8)

1. An intelligent refrigerating energy-saving food refrigerator comprises a refrigerator body (10), and is characterized in that: the utility model discloses a material taking and taking device, which is characterized in that a first space (12) is arranged in a machine body (10), a refrigerating system (11) is fixedly arranged on the lower side wall of the first space (12), a servo motor (16) is fixedly arranged on the lower side wall of the first space (12), a power rotating shaft (17) is fixedly arranged at the output end of the servo motor (16), a second gear (15) is fixedly sleeved on the power rotating shaft (17), a base plate (20) is fixedly arranged on the upper end surface of the machine body (10), a transparent glass cover (21) is fixedly arranged on the upper end surface of the base plate (20), a cover plate (26) is fixedly arranged on the upper end surface of the transparent glass cover (21), an annular lamp (28) is fixedly arranged on the lower end surface of the annular lamp (28), a refrigerating space (25) is arranged between the base plate (20) and the cover plate (26), a refrigerating mechanism is arranged in the refrigerating space (25), a cold air backflow mechanism for preventing cold air from adhering to a refrigerated food is arranged in the base plate (20), a material taking and taking mechanism (50) is arranged in the side wall of the material taking and taking device, which is characterized in that the hollow column is connected with a hollow column (50), the hollow driving column (18) extends downwards to penetrate into the first space (12), a cold air flow channel (19) is arranged in the hollow driving column (18), the lower end face of the hollow driving column (18) is rotationally connected with a sealing sleeve (13), the lower end face of the sealing sleeve (13) is mutually communicated with an air outlet of a refrigerating system (11), a first gear (14) is fixedly sleeved on the outer end face of the lower side of the hollow driving column (18), the first gear (14) is meshed with a second gear (15), eight transparent glass plates (22) are fixedly distributed on the outer end face of the hollow driving column (18) at equal intervals, sliding grooves (24) are respectively arranged on the front end face and the rear end face of each transparent glass plate (22), arc-shaped baffles (42) are respectively and slidably connected between the upper end faces of the adjacent transparent glass plates (22) and the sliding grooves (24), a reset spring is connected between the upper end faces of the corresponding arc-shaped baffles (42), a circular rubber sealing sleeve (32) is respectively arranged between the upper side walls of the corresponding sliding grooves (24), a circular groove (32) is fixedly arranged in each arc-shaped baffle (42), a circular groove (32) is respectively arranged on the upper end face of each circular baffle (23), a circular groove (32) is fixedly arranged on the upper end face of each circular baffle (21), the annular embedded blocks (32) are provided with embedded block grooves (32), each arc-shaped baffle (42) is far away from the central line direction end face of the refrigerating space (25), each fixed sliding column (34) is fixedly connected with the embedded block grooves (34), the cold air reflux mechanism comprises an exhaust disc (29) fixedly arranged on the upper end face of the driving hollow column (18), the exhaust disc (29) is embedded into the lower end face of the cover plate (26), the exhaust disc (29) is rotatably connected with the lower end face of the cover plate (26), eight exhaust nozzles (31) are distributed on the lower end face of the exhaust disc (29) at equal intervals, the inner cavity of the exhaust disc (29) is fixedly provided with a one-way valve (30) at the position where the exhaust disc (29) is mutually communicated, the driving hollow column (18) is rotatably sleeved with a fixed chassis (43), the fixed chassis (43) is embedded into the upper end face of the bottom disc (20), the exhaust disc is fixedly connected with the second chassis (45) at the position where the left side of the exhaust disc (29) is fixedly connected with the second chassis (45), and each second air suction device (46) is provided with a filter screen in a distributed manner close to the central line direction of the cold air flow channel (19).

2. An intelligent refrigerated energy efficient food cooler as set forth in claim 1 wherein: the cold air isolation mechanism comprises a material taking cylinder (35) fixedly embedded in the left end face of a transparent glass cover (21), a material taking space (50) communicated left and right is arranged in the material taking cylinder (35), the material taking space (50) is communicated with a refrigerating space (25), an isolation groove (36) is formed in the inner side wall of the material taking space (50) in a communicated mode, an annular sealing block (37) is fixedly arranged in the isolation groove (36), a sealing block inner cavity (49) is formed in the annular sealing block (37), two annular air ejectors (40) are fixedly arranged on the inner side wall of the sealing block inner cavity (49), the two annular air ejectors (40) are symmetrically distributed left and right with respect to the center line of the sealing block inner cavity (49), a first air suction device (39) is fixedly arranged on the lower side wall of the isolation groove (36), an air outlet of the first air suction device (39) is communicated with the two annular air ejectors (40), an annular air inlet and a second space (45) are mutually communicated, a circular opening and a circular rubber block (38) is fixedly arranged in the left side sliding block inner cavity (38), the closed disc door (48) is rotatably connected with the material taking cylinder (35).

3. An intelligent refrigerated energy efficient food cooler as set forth in claim 1 wherein: semi-elliptic hard rubber bulges are respectively and equidistantly distributed on the end surface of each arc baffle (42) close to the central line direction of the refrigerating space (25).

4. An intelligent refrigerated energy efficient food cooler as set forth in claim 1 wherein: the front end face and the rear end face of each transparent glass plate (22) are respectively and equidistantly provided with diamond-shaped bulges, and the diamond-shaped bulges are frosted.

5. An intelligent refrigerated energy efficient food cooler as set forth in claim 1 wherein: the inner side of the embedded block groove (33) is provided with a smooth corrugated surface, and the embedded block groove is tightly attached to each fixed sliding column (34).

6. An intelligent refrigerated energy efficient food chiller as set forth in claim 2 wherein: the upper end face of the fixed chassis (43) is arranged to be continuous arched convex, a chassis groove (47) is formed between two bulges, the lower side wall of each chassis groove (47) is communicated with the second space (45), and rubber protection pads (44) are respectively and fixedly arranged at the arched convex parts on the fixed chassis (43).

7. The intelligent refrigerated energy efficient food chiller as set forth in claim 6 wherein: the upper end face of each rubber protection pad (44) is respectively provided with an arc-shaped hard bump, and the surface of each rubber protection pad is rough.

8. The intelligent refrigerated energy efficient food chiller of claim 4 wherein: the upper end face of each transparent glass plate (22) is respectively provided with two arc-shaped extension sections and extends in the direction away from the central line of the corresponding transparent glass plate (22).