CN112510611A - Multifunctional insect fetching method for cable protection based on artificial intelligence - Google Patents

Abstract

The invention relates to the field of industrial control and food feed, in particular to a cable protection multifunctional insect fetching method based on artificial intelligence, which is characterized in that an air draft insect fetching system comprises an air draft fan (68), wherein the air draft fan (68) is butted with the topmost end of a single pipe through an insect detecting hose (69); a net bag (72) or a storage bag is fixed behind the air draft fan (68); the net bag (72) is a high-density net bag; it is a 400 mesh net bag which can block insects but cannot block air; promote the horizontal board in top or the pipe cavity (30) back of moving up, extract at the integrative mouth of multi-functional operation (23) of difference, the worm tends to the hole, and the worm quality is lighter, can look for the worm operation.

Description

Multifunctional insect fetching method for cable protection based on artificial intelligence

Technical Field

The invention relates to the field of industrial control and food and feed, in particular to a storage warehouse and a method based on grain-feeding biological agriculture and industrial information intellectualization.

Background

A paper 'grain storage single-tube ventilation and use method' is published in 1987 in a paper, the paper elaborates a single tube, and then the single-tube ventilation is also introduced specially in 'grain and oil storage science';

it should be noted that: in the design of the existing factory buildings and warehouses, powdery food raw materials such as grains and the like; bulk materials are easy to grow insects, generate heat and the like when being stored, and need ventilation and the like, and are very complicated to operate by manpower;

the single-tube ventilation needs two persons to twist the single tube together, so the workload is very large, the single-tube ventilation is very heavy in sweat when standing on grain surfaces, and the sweat can go moldy when dropping into the grain; and compared with nausea.

The grain condition temperature measuring cable is mature at present, but the technology has the defects that: after the grains are put in, the temperature measuring point of the cable is easily damaged by the pressure of the grains with large volume and large weight; if the food is damaged, the food cannot be replaced unless a barn of food is completely cleaned; and even if the failure happens, the user can not know the failure;

the inspection of the food warehouse every year needs fixed-point sampling, and the sampling workload is large; the operation is still manual;

the original anaerobic storage, nitrogen-sealed storage, grain cooling ventilation and independent ventilation are all performed by one fan, the grain volume is large, and under the condition that one fan is used for one warehouse, ten thousand tons of grains are always generated, and the porosity and the negative pressure can reach the relevant requirements after one fan continuously pumps for ten days; because grain gaps cannot be directly reached, a plurality of fans are idle, and power is wasted.

Disclosure of Invention

The purpose of the invention is as follows: in order to provide a storage warehouse and a method based on grain-feeding biological agriculture and industrial information intellectualization with better effect, the specific aim is to see a plurality of substantial technical effects of the specific implementation part.

In order to achieve the purpose, the invention adopts the following technical scheme:

artificial intelligence temperature inspection and system for food industry

The method for finding the flaws in the food industry through artificial intelligent temperature patrol is characterized in that more than one sensor is integrated on a temperature measuring cable, and when one sensor is integrated, the sensor is positioned at the lowest end of the temperature measuring cable; when the sensor comprises a plurality of sensors, the plurality of sensors are positioned at different positions of the temperature measuring cable. More than one sensor contained on the temperature measuring cable is a temperature sensor.

The temperature sensor measures the temperature condition of the material;

then, dividing into a replacement mode and a detection mode;

in the detection mode, firstly collecting data of a target point location, then carrying out up-down point location movement, and continuously measuring the data of the position of the target point location after the movement, namely, the target point location is before and after the up-down point location movement, different sensors are adopted, and if the data are consistent, the sensors are judged to be normal; if the data are inconsistent, judging that the sensor of the original target point position is damaged and needs to be replaced;

in the replacement mode, the up-down point location movement is performed, and the target point location is measured by a sensor which normally works.

The invention further adopts the technical scheme that the temperature measuring cable is lifted and descended by adopting the following scheme, an outer protection pipe 1 is arranged outside the temperature measuring cable 2, and the outer protection pipe is a pipe with a hole; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the first set of lifting system structure is that the upper part of the temperature measuring cable 2 is fixedly connected with an upper end post 10 of the temperature measuring cable; the upper end post 10 of the temperature measuring cable is clamped by a hoop 6, and the side of the hoop 6 is fixed by a hoop bolt 9; the clamp 6 is fixedly connected with the rack 7; the upper end post 10 of the temperature measuring cable can drive the temperature measuring cable to lift; the lifting power part 3 can drive the gear 5 to rotate, and the gear 5 is meshed with the rack 7; the lifting power part 3 is a positive and negative rotation motor; the temperature measuring cable is also connected with a temperature acquisition system 4 and a power supply system 8; the lifting power section 3 is preferably a stepper motor, rotating forward and reverse the same position.

The invention further adopts the technical scheme that the lifting of the temperature measuring cable adopts the following scheme, and the temperature measuring cable comprises a warehouse factory building, wherein materials are arranged in the warehouse factory building, and the temperature measuring cable is characterized in that a plurality of temperature measuring cables are arranged in the materials, the outer part of each temperature measuring cable 2 comprises an outer protection pipe 1, and the outer protection pipe is a pipe with holes; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the second set of lift system structure comprises an upper transverse plate or tube cavity 30, the upper transverse plate or tube cavity 30 is fixedly connected with a lift shaft 24, and the lift shaft 24 is a lift shaft of the lift structure 25; the lifting structure 25 is fixed on the top of the bin;

a plurality of downward inserting parts 28 are extended downwards from an upper transverse plate or tube cavity 30, the whole upper transverse plate or tube cavity 30 can be lifted, and the hollow parts of the upper transverse plate or tube cavity 30 are communicated with the plurality of downward inserting parts 28; the upper part of the cable passes through the square transverse plate or the tube cavity 30 and then is collected to the cable upper collection part 22 from the upper part of the cable and then is connected with the host 21; the lower part of the cable penetrates through the bottom area 12 and then is collected into a collection container 16, the collection container 16 is positioned outside the warehouse plant, and a spring 17 is arranged above the collection container 16; the upper part of the spring 17 comprises an annular structure 18, the annular structure 18 can be hung on a hook, the hook is positioned on an outer transverse plate 19 of the bin, and the outer transverse plate 19 of the bin is fixed on the wall of the bin.

The system for detecting flaws in the food industry through artificial intelligence temperature inspection comprises a temperature measuring cable, a data collecting part, a comparison module and a lifting part;

the lifting system is a second set of lifting system structure or a first set of lifting system;

the comparison module is used for automatically comparing or considering to compare; the method is completed by adopting a PC and a PLC.

Arc-shaped step-in manpower-free single-tube discharging structure and method for food industry

The arc-shaped step manpower-free single-tube structure in the food industry is characterized by being any one of the following schemes:

A. comprises a special arc-shaped stepping lifting structure 31, the outer wall of the special arc-shaped stepping lifting structure 31 is of a structure with a plurality of teeth, and the special arc-shaped stepping lifting structure 31 is of a similar cylindrical structure; the special arc-shaped stepping lifting structure 31 is a solid structure; an interpolation part 67 is connected below the special arc stepping lifting structure 31; the insertion portion 67 includes an insertion hole 66; the bolt can be inserted into the inner inserting hole 66 to fix the single pipe hole 34 after the bolt passes through the single pipe hole;

B. the special arc-shaped stepping lifting structure 31 is characterized in that the outer wall of the special arc-shaped stepping lifting structure 31 is of a structure with a plurality of teeth, and the special arc-shaped stepping lifting structure 31 is of a similar cylindrical structure; the special arc-shaped stepping lifting structure 31 is a solid structure; the special arc-shaped stepping lifting structure 31 downwards fixes the fixing rod 32; the fixing rod can be inserted into the hole of the single-pipe upper block 33 at the top of the single pipe to fix the fixing rod; the single tube is a movable single tube.

The further technical scheme of the invention is that 3 in the scheme B, the upper square block 33 of the single tube is in a disc shape.

The invention further adopts the technical scheme that the subsequent scheme is any one of the following schemes: C. the upper part of the special arc-shaped stepping lifting structure 31 is butted with a top cap 43, the top cap 43 is hollow, the inner wall of the top cap 43 comprises an inner concave system 64, and the inner concave system 64 is matched with a toothed structure of the special arc-shaped stepping lifting structure 31; the top cap 43 can drive the special arc-shaped stepped lifting structure 31 to rotate; a vertical top cap rotating shaft 44 is fixedly connected to the top cap 43, the top cap rotating shaft 44 is positioned on a rotating motor 45, the rotating motor 45 is fixed on a rotating motor fixing plate 46, the rotating motor fixing plate 46 is connected with a top cap lifting shaft 48, and the top cap lifting shaft 48 is a power shaft of a lifting power part 47;

D. the special structure butt gear 39 can be meshed with the special arc stepping lifting structure 31, and the special structure butt gear 39 is positioned on a power output shaft of the butt gear power part 40; the butt-joint gear power part 40 is positioned on a plate above the lifting shaft 35, and the lifting shaft 35 is a lifting shaft of the lifting structure 37; the elevation structure 37 and the elevation shaft 35 are located in the elevation base 36.

A further technical solution of the present invention is that the lower part of the single tube comprises a single tube cone top 42.

The further technical scheme of the invention is that the single-pipe conical top 42 comprises a conical top connecting threaded shaft 52, and the conical top connecting threaded shaft 52 can be butted with the inner wall threads 51 at the bottom of the single pipe.

The further technical proposal of the invention is that the single-pipe conical top 42 comprises a bulge; the single-tube cone top 42 includes a cone portion aperture 71.

A further technical solution of the present invention is that the lifting power part 47 is fixed on the roof or on the upper transverse plate or pipe cavity 30; a fixed pulley 70 is fixed on the side of the lifting power part 47; the single tube is a movable single tube.

A multi-functional storage sampling method, when the single tube is screwed downwards, using the lower single tube structure as described in any one of the above, since the single tube is rotated, the conical portion hole 71 is also rotated at this time; the material can be continuously sampled in multiple directions in the rotation process, enters the conical part hole 71 and then enters the single pipe, and then the single pipe is pulled out; the interior of the sample is partially taken out; when a single tube is pulled out, the end part of the rope is bound on the single tube hole, the rope passes through the fixed pulley, and only one side of the rope is pulled out by pulling force, so that the rope can be pulled out quickly; pouring out the sample in the single tube after pulling out; namely, sampling is carried out while the next single tube carries out single tube ventilation.

The stage type all-directional pipe lowering method is characterized in that by means of the lower single pipe structure, the special structure butt-joint gear 39 rotates to drive the special arc-shaped step lifting structure 31 to rotate and further drive the single pipe to rotate, the whole single pipe moves downwards due to the drilling effect of the conical part hole 71, the single pipe is lowered under the assistance of external force, the special arc-shaped step lifting structure 31 is in a long cylindrical shape, the special structure butt-joint gear 39 is in a sheet shape, the gear can be meshed with the special arc-shaped step lifting structure 31 for a long time while rotating and driving on the special arc-shaped step lifting structure 31, and the whole track is in an arc shape.

The further technical proposal of the invention is that the power part of the butt gear 39 with a special structure can be driven to lift by the lifting structure 37; in the process that the special arc-shaped stepping lifting structure 31 descends downwards, the height of the butt-joint gear 39 of the special structure on the side is continuously reduced.

Storage warehouse and method based on grain-feeding biological agriculture and industrial information intellectualization

The storage warehouse based on the grain-feeding biological agriculture and industrial information intellectualization is characterized by comprising a warehouse factory building, wherein materials are arranged in the warehouse factory building, and the storage warehouse is characterized in that a plurality of temperature measuring cables are arranged in the materials, the outside of each temperature measuring cable 2 comprises an outer protection pipe 1, and each outer protection pipe is a pipe with holes; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the second set of lift system structure comprises an upper transverse plate or tube cavity 30, the upper transverse plate or tube cavity 30 is fixedly connected with a lift shaft 24, and the lift shaft 24 is a lift shaft of the lift structure 25; the lifting structure 25 is fixed on the top of the bin;

a plurality of downward inserting parts 28 are extended downwards from an upper transverse plate or tube cavity 30, the whole upper transverse plate or tube cavity 30 can be lifted, and the hollow parts of the upper transverse plate or tube cavity 30 are communicated with the plurality of downward inserting parts 28; the upper part of the cable passes through the square transverse plate or the tube cavity 30 and then is collected to the cable upper collection part 22 from the upper part of the cable and then is connected with the host 21; the lower part of the cable penetrates through the bottom area 12 and then is collected into a collection container 16, the collection container 16 is positioned outside the warehouse plant, and a spring 17 is arranged above the collection container 16; the upper part of the spring 17 comprises an annular structure 18, the annular structure 18 can be hung on a hook, the hook is positioned on an outer transverse plate 19 of the bin, and the outer transverse plate 19 of the bin is fixed on the wall of the bin.

The further technical proposal of the invention is that a multifunctional operation integrated port 23 is distributed upwards on the cavity of the upper transverse plate or pipe cavity 30.

The invention further adopts the technical scheme that the multifunctional operation integrated port 23 is connected with a corrugated hose 26; the hole is a sampling hole or a hole for detecting insects; each insertion portion 28 corresponds to a single tube.

The invention further adopts the technical scheme that the device also comprises an air draft insect-taking system which can be in butt joint with the single pipe, wherein the air draft insect-taking system comprises an air draft fan 68, and the air draft fan 68 is in butt joint with the topmost end of the single pipe through an insect-measuring hose 68; a net bag 72 or a storage bag is fixed behind the exhaust fan 68; the net bag 72 is a high-density net bag; it is a 400 mesh net that can hold insects, but does not hold air.

The further technical scheme of the invention is that a cable lower assembly part 15, namely the cable, is a bus, a locking cover 14 is thermally sealed on the outer skin of the bus, and a locking cover insertion part 13 is arranged on one side of the locking cover 14; the locking cover insertion part 13 is centered on the cable; the locking cover insertion part 13 can be inserted into the side of the bottom region and relatively closed while being restrained; the locking cover insertion portion 13 is made of rubber.

A method for replacing cables during storage is characterized in that a person unlocks a plurality of temperature measuring cables and a collecting container from a basement of a warehouse or outdoors by unlocking a quick-connect plug, then a lifting structure 25 is actuated to lift an upper transverse plate or a pipe cavity 30 to move upwards, and then the cables are lifted out for replacement, and vice versa.

A pipe-punching-free single-pipe ventilation system based on artificial intelligence is characterized in that after a transverse plate or a pipe cavity 30 above a lifting part moves upwards, the operation is carried out at different multifunctional operation integrated ports 23, and air is directly punched to the periphery of a corresponding outer protection pipe by a fan.

The pressure of the spring 17 can correspond to the position of the cable; or the sheath of the cable itself comprises scales, so that the tension degree and the position of the cable can be obtained.

The multifunctional cable protection insect-taking method based on artificial intelligence is characterized in that an air-draft insect-taking system comprises an air-draft fan 68, and the air-draft fan 68 is butted with the topmost end of a single pipe through an insect-measuring hose 68; a net bag 72 or a storage bag is fixed behind the exhaust fan 68; the net bag 72 is a high-density net bag; it is a 400 mesh net bag which can block insects but cannot block air; promote the horizontal board in top or the pipe cavity 30 back of moving upwards, extract at the integrative mouth 23 of the multi-functional operation of difference, the worm tends to the hole, and the worm quality is lighter, can look for the worm operation.

A large-batch anaerobic storage method based on artificial intelligence and capable of realizing negative pressure formation through unified air draft is characterized in that a transverse plate or a pipe cavity 30 above moves downwards, a plurality of downward insertion parts 28 are in butt joint with each multifunctional operation integrated port 23 to conduct air suction in a unified mode, air in grain gaps which are difficult to extract is extracted in a unified mode through a plurality of multipurpose pipes, air suction speed is greatly increased, and idling of an air suction pump is avoided.

A large-batch ventilation method based on artificial intelligence is characterized in that an upper transverse plate or a pipe cavity 30 moves downwards, a plurality of downward insertion parts 28 are in butt joint with all multifunctional operation integrated ports 23 to blow air, cold air is blown into grain gaps to blow air uniformly, and the whole bin can be ventilated in time.

Cable lifting system based on industrial informatization movable rack and gear system

The cable lifting system based on the industrial informatization movable rack is characterized in that an outer protection pipe 1 is arranged outside the temperature measuring cable 2, and the outer protection pipe is a pipe with a hole; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the first set of lifting system structure is that the upper part of the temperature measuring cable 2 is fixedly connected with an upper end post 10 of the temperature measuring cable; the upper end post 10 of the temperature measuring cable is clamped by a hoop 6, and the side of the hoop 6 is fixed by a hoop bolt 9; the clamp 6 is fixedly connected with the rack 7; the upper end post 10 of the temperature measuring cable can drive the temperature measuring cable to lift; the lifting power part 3 can drive the gear 5 to rotate, and the gear 5 is meshed with the rack 7; the lifting power part 3 is a positive and negative rotation motor; the temperature measuring cable is also connected with a temperature acquisition system 4 and a power supply system 8; the lifting power section 3 is preferably a stepper motor, rotating forward and reverse the same position.

The invention further adopts the technical scheme that the outer protection pipe is a single pipe fixed in a warehouse.

Promotion gear system based on portable rack, its characterized in that contains novel gear train, and novel gear train is one of following arbitrary scheme:

firstly, the method comprises the following steps: the clamp 6 is clamped, and the side of the clamp 6 is fixed through a clamp bolt 9; the clamp 6 is fixedly connected with the rack 7;

secondly, the method comprises the following steps: comprises a special rack 54, the special rack 54 can move and can also be fixed on a single pipe; the special rack 54 is fixedly connected with a special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and a bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 of the single pipe to relatively fix the special rack 54 on the single pipe; the fixing position of the special rack can be adjusted by adjusting different single-pipe holes 34;

thirdly, the method comprises the following steps: comprises a special cylindrical rack sleeve 73, wherein the special cylindrical rack sleeve 73 can move and can also be fixed on a single pipe; the special cylindrical rack sleeve 73 is fixedly connected with the special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and the bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 to relatively fix the special cylindrical rack sleeve 73 on the single pipe; the attachment position of the dedicated rack can be adjusted by adjusting the different single-tube apertures 34.

A method of laying a cable, characterized in that, with the hoisting system according to any one of the above, since the outer protective tube is a single tube fixed in the warehouse, there is a gap between the cable and the outer protective tube, which is 0.5 cm, so that the cable is drawn out, the periphery of the cable is not rapidly filled with granular material, and therefore a new cable can be inserted into the outer protective tube.

Structure for sampling without climbing and saving manpower for detection and single pipe discharging method

The single tube falling method of the special rack for detection without climbing and saving manpower is characterized in that firstly, a bolt 60 passes through the special rack connecting hole 58 and the single tube hole 34 of the single tube to relatively fix the special rack 54 on the single tube;

then, the special gear 56 on the side is meshed with the special rack 54 to drive the special rack to move downwards;

the special gear power part of the special gear 56 is fixed on the special bracket;

when the single pipe is just started, the bolt 60 is inserted into the single pipe hole 34 which is relatively downward; then the single tube is driven by a rack to move downwards, and the lower end of the rack is close to the material surface; the replacement bolt 60 is inserted into the single-tube hole 34 which is relatively upward, and the insertion is realized by continuous movement.

The further technical scheme of the invention is that the invention comprises a single tube and a special rack 54, wherein the special rack 54 can move and can also be fixed on the single tube; the special rack 54 is fixedly connected with a special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and a bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 of the single pipe to relatively fix the special rack 54 on the single pipe; the fixing position of the special rack can be adjusted by adjusting different single-pipe holes 34;

the special rack connecting belt hole sleeve 57 is circular or semi-arc-shaped, and a semi-hoop 65 is formed in the semi-arc-shaped process; the special rack connecting hole 58 comprises a plurality of special rack connecting holes.

A further technical solution of the present invention is that a special rack 54 or a special cylindrical rack sleeve 73 is provided.

A further technical solution of the present invention is that the dedicated rack 54 is replaced by a dedicated cylindrical rack housing 73, so that a person standing in different orientations can urge the cylindrical rack housing 73 from each side.

The structure of the sample of using manpower sparingly is exempted from to climb to the detection, and its is very permanent lies in, contains special rack 54, and this special rack 54 can move about also can be fixed on sampling tube 61, and special rack 54 fixed connection sampling tube clamp 63, there is sampling tube clamp fixed plate 62 sampling tube clamp 63 avris, and the screw can be with sampling tube clamp 63 centre gripping on sampling tube 61.

The climbing-free labor-saving sampling method for detection is characterized in that the special rack 54 is firstly arranged on a sampling tube through a sampling tube hoop fixing plate 62 and a sampling tube hoop 63, and then the special rack 54 is meshed through a special gear 56 at the side to drive the special rack to move downwards; and realizing the cuttage of the sampling tube.

Compared with the prior art, the invention adopting the technical scheme has the following beneficial effects: five big sets of thinking are provided, adopt the mode based on same physical position to solve the temperature and patrolled and examined, the information is more accurate, the problem of cable replacement, can more conveniently realize various operations simultaneously, use manpower sparingly, degree of automation is high.

Drawings

To further illustrate the present invention, further description is provided below with reference to the accompanying drawings:

FIG. 1 is an enlarged view of a portion of FIG. 2;

FIG. 2 is a partially enlarged schematic view of a gear lifting structure;

FIG. 3 is a schematic view of a lifting unified pod;

FIG. 4 is a schematic view of the locking cover;

FIG. 5 is a single tube single downtube configuration;

FIG. 6 is an integrated downtube structure;

FIG. 7 is an enlarged view of a portion of the hair of FIG. 5;

FIG. 8 is a preferred schematic view of a single tube end;

FIG. 9 is a schematic structural view of a special moving rack system;

FIG. 10 is another implementation diagram;

FIG. 11 is a schematic diagram of a single tube state;

FIG. 12 is a top cap block pattern;

FIG. 13 is a schematic view of a half-yoke implementation;

FIG. 14 is a further improved view of the arcuate stepped elevating structure;

FIG. 15 is an implementation of a special cylindrical rack;

wherein: 1. an outer protection tube; 2. a temperature measuring cable; 3. a power lifting part; 4. a temperature acquisition system; 5. a gear; 6. clamping a hoop; 7. a rack; 8. a power supply system; 9. a clamp bolt; 10. the upper end post of the temperature measuring cable; 11. a wire sheath; 12. a bottom region; 13. a locking cover insertion portion; 14. a locking cover; 15. a cable lower collection portion; 16. a collection container; 17. a spring; 18. an annular structure; 19. a transverse plate outside the bin; 20. material level; 21. a host; 22. a cable upper collection portion; 23. a multifunctional operation integrated port; 24. a lifting shaft; 25. a lifting structure; 26. a corrugated hose; 27. an upper transverse plate or tube; 28. a downward insertion portion; 29. a material surface upper portion; 30. an upper transverse plate or tube cavity; 31. a special arc stepping lifting structure; 32. fixing the rod; 33. putting a square on the single tube; 34. a single-tube hole; 35. a lifting shaft; 36. a lifting base; 37. a lifting structure; 38. material preparation; 39. the special structure is connected with the gear; 40. a docking gear power section; 41. a single tube; 42. a single-pipe conical top; 43. a top cap; 44. a top cap rotating shaft; 45. rotating the motor; 46. rotating the motor fixing plate; 47. a lifting power part; 48. a top cap lifting shaft; 49. a roof; 50. a single-pipe conical top is convex; 51. threads on the inner wall of the bottom of the single pipe; 52. the conical top is connected with a threaded shaft; 53. a special bracket; 54. a special rack; 55. a dedicated gear power section; 56. a special gear; 57. the special rack is connected with the belt hole sleeve; 58. the special rack is connected with the hole; 59. a bolt insertion portion; 60. a bolt; 61. a sampling tube; 62. a sampling tube clamp fixing plate; 63. a sampling pipe hoop; 64. an inner recess system; 65. half clamping hoop; 66. an inner inserting hole; 67. an interpolation section; 68. an air draft fan; 69. a pest detecting hose; 70. a fixed pulley; 71. a tapered portion bore; 72. a net bag; 73 special cylindrical rack sleeve.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific embodiments, which are to be understood as merely illustrative of the invention and not as limiting the scope of the invention. In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", "top", "bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The patent provides a plurality of parallel schemes, and different expressions belong to an improved scheme based on a basic scheme or a parallel scheme. Each solution has its own unique features.

The method comprises five major series of innovations based on industrial intelligence, building, operation structure and system;

the first embodiment is as follows: combine fig. 1 and 2

The food industry artificial intelligence temperature inspection method is characterized in that more than one sensor is integrated on the temperature measurement cable, and when one sensor is integrated, the sensor is positioned at the lowest end of the temperature measurement cable; when the sensor comprises a plurality of sensors, the plurality of sensors are positioned at different positions of the temperature measuring cable. More than one sensor contained on the temperature measuring cable is a temperature sensor.

The temperature sensor measures the temperature condition of the material;

then, dividing into a replacement mode and a detection mode;

in the detection mode, firstly collecting data of a target point location, then carrying out up-down point location movement, and continuously measuring the data of the position of the target point location after the movement, namely, the target point location is before and after the up-down point location movement, different sensors are adopted, and if the data are consistent, the sensors are judged to be normal; if the data are inconsistent, judging that the sensor of the original target point position is damaged and needs to be replaced;

in the replacement mode, the up-down point location movement is performed, and the target point location is measured by a sensor which normally works.

The technical scheme of the invention has the following substantial technical effects and the realization process: A. aiming at the defect that the existing grain condition temperature measuring cable is mature, but the technology has the defects that: after the grains are put in, the temperature measuring point of the cable is easily damaged by the pressure of the grains with large volume and large weight; if the food is damaged, the food cannot be replaced unless a barn of food is completely cleaned; and even if the failure happens, the user can not know the failure; ". This embodiment can move the contrast from top to bottom, based on same physical position, carries out the temperature contrast with two upper and lower points, need not take special detection, and anytime and anywhere can carry out oneself and patrol and examine. Provides better material temperature condition and leads the temperature to be more proper.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

Example two: with reference to fig. 1 and 2, as a further improvement scheme or a parallel scheme or an optional independent scheme, the lifting of the temperature measuring cable adopts a scheme that the temperature measuring cable comprises a temperature measuring cable, the outer part of the temperature measuring cable 2 comprises an outer protection tube 1, and the outer protection tube is a tube with holes; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the first set of lifting system structure is that the upper part of the temperature measuring cable 2 is fixedly connected with an upper end post 10 of the temperature measuring cable; the upper end post 10 of the temperature measuring cable is clamped by a hoop 6, and the side of the hoop 6 is fixed by a hoop bolt 9; the clamp 6 is fixedly connected with the rack 7; the upper end post 10 of the temperature measuring cable can drive the temperature measuring cable to lift; the lifting power part 3 can drive the gear 5 to rotate, and the gear 5 is meshed with the rack 7; the lifting power part 3 is a positive and negative rotation motor; the temperature measuring cable is also connected with the temperature acquisition system 4 and the power supply system 8. The technical scheme of the invention has the following substantial technical effects and the realization process: the lifting power part 3 is preferably a stepping motor, and the measurement of the first embodiment is realized by rotating forwards and backwards at the same position.

Example three: as a further development or in a side-by-side or alternatively independent solution, the outer protective tubes are single tubes fixed in the warehouse. The technical scheme of the invention has the following substantial technical effects and the realization process: based on the second embodiment, a separate lifting structure different from the system shown in fig. 3 is provided.

Example four: as a further development or a side-by-side or alternatively independent solution, the method for laying cables according to the second embodiment is characterized in that, since the outer protective tube is a single tube fixed in the warehouse, there is a gap between the cable and the outer protective tube, which is 0.5 cm, so that the cable is drawn out, the periphery of the cable is not rapidly filled with the granular material, and therefore a new cable can be inserted into the outer protective tube. The technical scheme of the invention has the following substantial technical effects and the realization process: the defect is that the existing grain condition temperature measuring cable is very mature, but the technology has the defects that: after the grains are put in, the temperature measuring point of the cable is easily damaged by the pressure of the grains with large volume and large weight; if the food is damaged, the food cannot be replaced unless a barn of food is completely cleaned; "; the cable is protected creatively, and can be replaced at the same time.

Example five: the system comprises a warehouse factory building as a further improved scheme or a parallel scheme or a selectable independent scheme, and materials are arranged in the warehouse factory building, and the system is characterized in that a plurality of temperature measuring cables are arranged in the materials, the outer part of each temperature measuring cable 2 comprises an outer protection pipe 1, and each outer protection pipe is a pipe with holes; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the second set of lift system structure comprises an upper transverse plate or tube cavity 30, the upper transverse plate or tube cavity 30 is fixedly connected with a lift shaft 24, and the lift shaft 24 is a lift shaft of the lift structure 25; the lifting structure 25 is fixed on the top of the bin;

a plurality of downward inserting parts 28 are extended downwards from an upper transverse plate or tube cavity 30, the whole upper transverse plate or tube cavity 30 can be lifted, and the hollow parts of the upper transverse plate or tube cavity 30 are communicated with the plurality of downward inserting parts 28; the upper part of the cable passes through the square transverse plate or the tube cavity 30 and then is collected to the cable upper collection part 22 from the upper part of the cable and then is connected with the host 21; the lower part of the cable penetrates through the bottom area 12 and then is collected into a collection container 16, the collection container 16 is positioned outside the warehouse plant, and a spring 17 is arranged above the collection container 16; the upper part of the spring 17 comprises an annular structure 18, the annular structure 18 can be hung on a hook, the hook is positioned on an outer transverse plate 19 of the bin, and the outer transverse plate 19 of the bin is fixed on the wall of the bin. The technical scheme of the invention has the following substantial technical effects and the realization process: the whole lifting is driven by the lifting structure 25, so that temperature inspection is realized.

Example six: as a further improved scheme or a parallel scheme or an optional independent scheme, the food industry artificial intelligence temperature inspection flaw finding system comprises a temperature measuring cable, a data collecting part, a comparison module and a lifting part;

the lifting system is a second set of lifting system structure or a first set of lifting system;

the comparison module is used for automatically comparing or considering to compare; the method is completed by adopting a PC and a PLC.

Arc-shaped step-in manpower-free single-tube discharging structure and method for food industry

Example seven: as a further improved scheme or a parallel scheme or an optional independent scheme, the arc-shaped step of the food industry is free of manual single-tube structure, and is characterized in that the method is any one of the following schemes:

A. comprises a special arc-shaped stepping lifting structure 31, the outer wall of the special arc-shaped stepping lifting structure 31 is of a structure with a plurality of teeth, and the special arc-shaped stepping lifting structure 31 is of a similar cylindrical structure; the special arc-shaped stepping lifting structure 31 is a solid structure; an interpolation part 67 is connected below the special arc stepping lifting structure 31; the insertion portion 67 includes an insertion hole 66; the bolt can be inserted into the inner inserting hole 66 to fix the single pipe hole 34 after passing through the single pipe hole, and the technical scheme has the following substantial technical effects and the realization process: referring to fig. 14, a fastening means is provided;

B. the special arc-shaped stepping lifting structure 31 is characterized in that the outer wall of the special arc-shaped stepping lifting structure 31 is of a structure with a plurality of teeth, and the special arc-shaped stepping lifting structure 31 is of a similar cylindrical structure; the special arc-shaped stepping lifting structure 31 is a solid structure; the special arc-shaped stepping lifting structure 31 downwards fixes the fixing rod 32; the fixing rod can be inserted into the hole of the single-pipe upper block 33 at the top of the single pipe to fix the fixing rod; the single tube is a movable single tube. Referring to fig. 5 and 7, another implementation is provided. It should be noted that the corresponding special arc-shaped stepped lifting structure 31 in the present embodiment can be independently patented.

Example eight: as a further development, either in parallel or alternatively independently, the block 33 on the single tube in variant B is disk-shaped. The technical scheme of the invention has the following substantial technical effects and the realization process: discoid is a preferred structure, and convenient butt joint top, discoid structure can weld the single tube outer wall.

Example nine: as a further development or in a side-by-side or alternatively in isolation, the following solutions are the following: C. the upper part of the special arc-shaped stepping lifting structure 31 is butted with a top cap 43, the top cap 43 is hollow, the inner wall of the top cap 43 comprises an inner concave system 64, and the inner concave system 64 is matched with a toothed structure of the special arc-shaped stepping lifting structure 31; the top cap 43 can drive the special arc-shaped stepped lifting structure 31 to rotate; a vertical top cap rotating shaft 44 is fixedly connected to the top cap 43, the top cap rotating shaft 44 is positioned on a rotating motor 45, the rotating motor 45 is fixed on a rotating motor fixing plate 46, the rotating motor fixing plate 46 is connected with a top cap lifting shaft 48, and the top cap lifting shaft 48 is a power shaft of a lifting power part 47; the technical scheme of the invention has the following substantial technical effects and the realization process: referring to fig. 6 and 12, the power section is integrated directly into the plant or warehouse. Extending downwards, aligning and rotating to realize action. Two persons are not required to go to the dead and tired storehouse for operation.

Example ten: as a further development or in a side-by-side or alternatively in isolation, the following solutions are the following: D. the special structure butt gear 39 can be meshed with the special arc stepping lifting structure 31, and the special structure butt gear 39 is positioned on a power output shaft of the butt gear power part 40; the butt-joint gear power part 40 is positioned on a plate above the lifting shaft 35, and the lifting shaft 35 is a lifting shaft of the lifting structure 37; the elevation structure 37 and the elevation shaft 35 are located in the elevation base 36. The technical scheme of the invention has the following substantial technical effects and the realization process: referring to fig. 5 and 7, the power section is placed directly on the material level. Alignment, rotation, and the like. Two persons are not required to go to the dead and tired storehouse for operation.

Example eleven: as a further alternative, either side-by-side or alternatively independent, the single tube may include a single tube cone tip 42 below the single tube. The technical scheme of the invention has the following substantial technical effects and the realization process: the single-tube cone tip 42 is intended to be screwed in. Aiming at the defect that' single-tube ventilation needs two persons to twist the single tube together at the same time, so that the workload is very large, the single-tube ventilation is very heavy in sweat when standing on grain surfaces, and the sweat is mildewed when dropping into the grain; and compared with nausea. "; more labor-saving, safer grain and higher operation speed.

Example twelve: as a further improvement or a side-by-side or an alternative independent solution, the single pipe conical top 42 comprises a conical top connection threaded shaft 52, and the conical top connection threaded shaft 52 can be butted with the single pipe bottom inner wall threads 51. The technical scheme of the invention has the following substantial technical effects and the realization process: the single-tube conical tip 42 may be integrally formed or may be threadably attached. Threaded connection can be dismantled, and the practicality is stronger. Namely, a plurality of single tubes can be butted, and a single tube cone top is arranged below the single tube.

Example thirteen: as a further improvement or a side-by-side or an alternative independent solution, the single-pipe conical top 42 comprises a bulge; the single-tube cone top 42 includes a cone portion aperture 71. The technical scheme of the invention has the following substantial technical effects and the realization process: the protrusions are convenient to rotate downwards for extrusion; the tapered portion of the hole 71 is circular or is a slit to facilitate the introduction of the sample.

Example fifteen: as a further development or in parallel or alternatively independently, the lifting power section 47 is fixed to the roof or to the upper transverse plate or tube cavity 30; a fixed pulley 70 is fixed on the side of the lifting power part 47; the single tube is a movable single tube. The technical scheme of the invention has the following substantial technical effects and the realization process: this embodiment provides two independent modes of fixing, fixes on the horizontal board of top or the pipe, and the whole just can go up and down, can also integrate with the embodiment of warehouse.

Example sixteen: as a further development or a side-by-side development or alternatively a stand-alone development, the multi-functional storage sampling method, when the single tube is screwed down, utilizes the lower single tube structure as described in any of the above, since the single tube is rotated, the conical portion hole 71 is also rotated; the material can be continuously sampled in multiple directions in the rotation process, enters the conical part hole 71 and then enters the single pipe, and then the single pipe is pulled out; the interior of the sample is partially taken out; when a single tube is pulled out, the end part of the rope is bound on the single tube hole, the rope passes through the fixed pulley, and only one side of the rope is pulled out by pulling force, so that the rope can be pulled out quickly; pouring out the sample in the single tube after pulling out; namely, sampling is carried out while the next single tube carries out single tube ventilation. For the defect 'inspection of a food warehouse every year', fixed-point sampling is needed, and the sampling workload is large; the operation is still manual;

inconvenient sampling and manual cuttage is needed; more labor-saving, safer grain and higher operation speed.

Example seventeen: the stage type all-directional pipe descending method is characterized in that the lower single pipe structure is adopted, the special structure butt-joint gear 39 rotates to drive the special arc-shaped step ascending and descending structure 31 to rotate and further drive the single pipe to rotate, the whole single pipe moves downwards due to the drilling effect of the conical part hole 71, the single pipe descending is assisted by external force, in addition, the special arc-shaped step ascending and descending structure 31 is in a long cylindrical shape, and the special structure butt-joint gear 39 is in a sheet shape, so the gear can be meshed with the special arc-shaped step ascending and descending structure 31 for a long time while being driven by the special arc-shaped step ascending and descending structure 31 in a rotating mode, and the whole track is in an arc shape. The degree of automation in the cabin is higher. The labor is saved.

Example eighteen: as a further modifiable scheme or a parallel scheme or an optional independent scheme, the power part of the special structure docking gear 39 can be lifted by the lifting structure 37; in the process that the special arc-shaped stepping lifting structure 31 descends downwards, the height of the butt-joint gear 39 of the special structure on the side is continuously reduced. The dedicated rack on the side can also be independently patented. Which is an individual that can be sold separately.

Storage warehouse and method based on grain-feeding biological agriculture and industrial information intellectualization

Example nineteenth: as a further improved scheme or a parallel scheme or a selectable independent scheme, the grain-feeding biological agriculture and industrial information intelligentized-based storage warehouse is characterized by comprising a warehouse factory building, wherein materials are arranged in the warehouse factory building, and the grain-feeding biological agriculture and industrial information intelligentized-based storage warehouse is characterized in that a plurality of temperature measuring cables are arranged in the materials, the outside of each temperature measuring cable 2 comprises an outer protection pipe 1, and the outer protection pipes are pipes with holes; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the second set of lift system structure comprises an upper transverse plate or tube cavity 30, the upper transverse plate or tube cavity 30 is fixedly connected with a lift shaft 24, and the lift shaft 24 is a lift shaft of the lift structure 25; the lifting structure 25 is fixed on the top of the bin;

a plurality of downward inserting parts 28 are extended downwards from an upper transverse plate or tube cavity 30, the whole upper transverse plate or tube cavity 30 can be lifted, and the hollow parts of the upper transverse plate or tube cavity 30 are communicated with the plurality of downward inserting parts 28; the upper part of the cable passes through the square transverse plate or the tube cavity 30 and then is collected to the cable upper collection part 22 from the upper part of the cable and then is connected with the host 21; the lower part of the cable penetrates through the bottom area 12 and then is collected into a collection container 16, the collection container 16 is positioned outside the warehouse plant, and a spring 17 is arranged above the collection container 16; the upper part of the spring 17 comprises an annular structure 18, the annular structure 18 can be hung on a hook, the hook is positioned on an outer transverse plate 19 of the bin, and the outer transverse plate 19 of the bin is fixed on the wall of the bin. The technical scheme of the invention has the following substantial technical effects and the realization process: the basic scheme herein refers to example five, which is a basic scheme. But the facility contains more functions;

based on the embodiment, the following method is also realized:

aiming at the defects: the cable is not easy to replace; the mode and the structure for replacing the cable are provided; example twenty: as a further development or in parallel or alternatively independently, a method for replacing cables during storage is characterised in that a person unlocks a plurality of temperature measuring cables and collecting containers from the basement of a warehouse or outdoors by means of the quick-connect plug, and subsequently lifts the cables out for replacement after having moved upwards by actuating the lifting structure 25, raising the upper transverse plate or tube cavity 30, and vice versa.

Aiming at the defects: the single tube is not easy to be formed; example twenty one: as a further improvement or a parallel solution or an optional independent solution, the pipe punching-free single pipe ventilation system based on artificial intelligence is characterized in that after the upper transverse plate or pipe cavity 30 is lifted and moved upwards, the pipe punching-free single pipe ventilation system is operated at different multifunctional operation integrated ports 23, and air is directly punched to the periphery of the corresponding outer protection pipe by a fan.

The pressure of the spring 17 can correspond to the position of the cable; or the sheath of the cable itself comprises scales, so that the tension degree and the position of the cable can be obtained.

Aiming at the defects: the paint in the material is that insects on each height surface can not sample; example twenty two: as a further improved scheme or a parallel scheme or a selectable independent scheme, the cable protection multifunctional insect-fetching method based on artificial intelligence is characterized in that an air-draft insect-fetching system comprises an air-draft fan 68, and the air-draft fan 68 is butted with the topmost end of a single pipe through an insect-detecting hose 68; a net bag 72 or a storage bag is fixed behind the exhaust fan 68; the net bag 72 is a high-density net bag; it is a 400 mesh net bag which can block insects but cannot block air; promote the horizontal board in top or the pipe cavity 30 back of moving upwards, extract at the integrative mouth 23 of the multi-functional operation of difference, the worm tends to the hole, and the worm quality is lighter, can look for the worm operation.

Aiming at the defects: the original anaerobic storage, nitrogen-sealed storage, grain cooling ventilation and independent ventilation are all performed by one fan, the grain volume is large, and under the condition that one fan is used for one warehouse, ten thousand tons of grains are always generated, and the porosity and the negative pressure can reach the relevant requirements after one fan continuously pumps for ten days; because grain gaps cannot be directly reached, a plurality of fans are idle, and power is wasted. Example twenty three: as a further improved scheme or a parallel scheme or an optional independent scheme, the large-batch anaerobic storage method based on the negative pressure formed by artificial intelligent unified air draft is characterized in that an upper transverse plate or a pipe cavity 30 moves downwards, a plurality of downward insertion parts 28 are in butt joint with each multifunctional operation integrated port 23 for air draft and unified air draft, air in grain gaps which are difficult to be drawn is uniformly drawn by a plurality of multipurpose pipes, the air draft speed is greatly increased, and idling of an air suction pump is avoided.

Example twenty-four: as a further improved scheme or a parallel scheme or an optional independent scheme, the artificial intelligence-based large-batch ventilation method is characterized in that an upper transverse plate or a pipe cavity 30 moves downwards, a plurality of downward inserting parts 28 are butted with each multifunctional operation integrated port 23 for blowing air, cold air is blown into grain gaps for uniformly blowing air, and the whole bin can be ventilated in time.

Example twenty-five: as a further development or in parallel or alternatively independently, the cavity of the upper transverse plate or tube cavity 30 is upwardly distributed with a multifunctional operation integrated port 23.

Example twenty-six: as a further development or in parallel or alternatively independently, the multi-functional operating port 23 is connected to a bellows 26; the hole is a sampling hole or a hole for detecting insects; each insertion portion 28 corresponds to a single tube. The technical scheme of the invention has the following substantial technical effects and the realization process: the bellows 26 is more convenient for interfacing with a fan or the like.

Example twenty-seven: as a further improved scheme or a parallel scheme or an optional independent scheme, the device also comprises an air draft insect-taking system which can be in butt joint with the single pipe, wherein the air draft insect-taking system comprises an air draft fan 68, and the air draft fan 68 is in butt joint with the topmost end of the single pipe through an insect-detecting hose 68; a net bag 72 or a storage bag is fixed behind the exhaust fan 68; the net bag 72 is a high-density net bag; it is a 400 mesh net that can hold insects, but does not hold air.

Example twenty-eight: as a further improvement or a parallel scheme or an alternative independent scheme, the cable lower assembly part 15, namely the cable, is a bus, a locking cover 14 is thermally sealed on the outer skin of the bus, and a locking cover insertion part 13 is arranged on one side of the locking cover 14; the locking cover insertion part 13 is centered on the cable; the locking cover insertion part 13 can be inserted into the side of the bottom region and relatively closed while being restrained; the locking cover insertion portion 13 is made of rubber. The technical scheme of the invention has the following substantial technical effects and the realization process: the pulling condition of the cable can be known from the outside.

Cable lifting system based on industrial informatization movable rack and gear system

Example thirty: as a further improved scheme or a parallel scheme or an optional independent scheme, the cable lifting system based on the industrial informatization movable rack comprises a temperature measuring cable 2, wherein the temperature measuring cable externally comprises an outer protection pipe 1 which is a perforated pipe; the pipe with the hole is positioned in the material, but the upper part of the pipe with the hole penetrates through the material; the first set of lifting system structure is that the upper part of the temperature measuring cable 2 is fixedly connected with an upper end post 10 of the temperature measuring cable; the upper end post 10 of the temperature measuring cable is clamped by a hoop 6, and the side of the hoop 6 is fixed by a hoop bolt 9; the clamp 6 is fixedly connected with the rack 7; the upper end post 10 of the temperature measuring cable can drive the temperature measuring cable to lift; the lifting power part 3 can drive the gear 5 to rotate, and the gear 5 is meshed with the rack 7; the lifting power part 3 is a positive and negative rotation motor; the temperature measuring cable is also connected with a temperature acquisition system 4 and a power supply system 8; the lifting power section 3 is preferably a stepper motor, rotating forward and reverse the same position. The technical scheme of the invention has the following substantial technical effects and the realization process: this embodiment is a separate representation of the structure of the design upon which embodiment one relies.

Example thirty one: as a further development or in a side-by-side or alternatively independent solution, the outer protective tubes are single tubes fixed in the warehouse.

Example thirty-two: as a further improvement or a parallel solution or an optional independent solution, the lifting gear system based on the movable rack is characterized by comprising a novel gear train, wherein the novel gear train is any one of the following solutions:

firstly, the method comprises the following steps: the clamp 6 is clamped, and the side of the clamp 6 is fixed through a clamp bolt 9; the clamp 6 is fixedly connected with the rack 7;

secondly, the method comprises the following steps: comprises a special rack 54, the special rack 54 can move and can also be fixed on a single pipe; the special rack 54 is fixedly connected with a special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and a bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 of the single pipe to relatively fix the special rack 54 on the single pipe; the fixing position of the special rack can be adjusted by adjusting different single-pipe holes 34;

thirdly, the method comprises the following steps: comprises a special cylindrical rack sleeve 73, wherein the special cylindrical rack sleeve 73 can move and can also be fixed on a single pipe; the special cylindrical rack sleeve 73 is fixedly connected with the special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and the bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 to relatively fix the special cylindrical rack sleeve 73 on the single pipe; the attachment position of the dedicated rack can be adjusted by adjusting the different single-tube apertures 34.

The design of this kind of mobilizable rack is novel diversified design even, can play so many effects. The racks are identical, but the nomenclature is inconsistent.

Example thirty-three: as a further development or in parallel or alternatively independently, a method for laying cables is characterized in that, with a hoisting system according to any of the above, as the outer protective tube is a single tube fixed in the warehouse, there is a gap of substantially 0.5 cm between the cable and the outer protective tube, so that the cable is drawn out and the periphery of the cable is not rapidly filled with granular material, thus enabling the insertion of a new cable in the outer protection.

Structure for sampling without climbing and saving manpower for detection and single pipe discharging method

Example thirty-four: as a further improvement scheme or a parallel scheme or an alternative independent scheme, the single pipe falling method for detecting the special rack which is free from climbing and saves manpower is characterized in that firstly, a bolt 60 passes through the special rack to connect the hole 58 and the single pipe hole 34, and the special rack 54 can be relatively fixed on the single pipe;

then, the special gear 56 on the side is meshed with the special rack 54 to drive the special rack to move downwards;

the special gear power part of the special gear 56 is fixed on the special bracket;

when the single pipe is just started, the bolt 60 is inserted into the single pipe hole 34 which is relatively downward; then the single tube is driven by a rack to move downwards, and the lower end of the rack is close to the material surface; the replacement bolt 60 is inserted into the single-tube hole 34 which is relatively upward, and the insertion is realized by continuous movement. The technical scheme of the invention has the following substantial technical effects and the realization process: the single tube can be automatically discharged without climbing. Compared with the upper embodiment using the arc-shaped stepping lifting structure 31, the height adjustment is not needed, and the realization is more convenient.

Example thirty-five: as a further development or a parallel development or alternatively a stand-alone development, comprising a single tube and a special rack 54, the special rack 54 being able to be moved and also being able to be fixed on the single tube; the special rack 54 is fixedly connected with a special rack connecting belt hole sleeve 57, the special rack connecting belt hole sleeve 57 comprises a special rack connecting belt hole 58, the special rack connecting belt hole sleeve 57 can be sleeved on a single pipe or tightly attached to the single pipe, and a bolt 60 penetrates through the special rack connecting belt hole 58 and the single pipe hole 34 of the single pipe to relatively fix the special rack 54 on the single pipe; the fixing position of the special rack can be adjusted by adjusting different single-pipe holes 34;

example thirty-six: as a further improvement or a parallel scheme or an optional independent scheme, the special rack connecting belt hole sleeve 57 is circular or semi-arc-shaped, and a semi-hoop 65 is formed in the semi-arc-shaped; the special rack connecting hole 58 comprises a plurality of special rack connecting holes. The technical scheme of the invention has the following substantial technical effects and the realization process: semi-arcuate reference to fig. 13 and 15; the laminating is more convenient, and it is more convenient to fix.

Example thirty-seven: as a further development or in a parallel or alternatively independent solution, a special toothed rack 54 or a special cylindrical toothed rack sleeve 73 is provided. The technical scheme of the invention has the following substantial technical effects and the realization process: the dedicated rack 54 is replaced by a dedicated cylindrical rack housing 73 so that a person standing in different orientations can urge the cylindrical rack housing 73 from each face.

Example thirty-eight: as a further improved scheme or a parallel scheme or an alternative independent scheme, the structure of the climbing-free labor-saving sampling for detection is characterized by comprising a special rack 54, wherein the special rack 54 can be movably and fixedly arranged on a sampling tube 61, the special rack 54 is fixedly connected with a sampling tube clamp 63, a sampling tube clamp fixing plate 62 is arranged on the side of the sampling tube clamp 63, and a screw can clamp the sampling tube clamp 63 on the sampling tube 61. The technical scheme of the invention has the following substantial technical effects and the realization process: the climbing-free labor-saving sampling method for detection is characterized in that the special rack 54 is firstly arranged on a sampling tube through a sampling tube hoop fixing plate 62 and a sampling tube hoop 63, and then the special rack 54 is meshed through a special gear 56 at the side to drive the special rack to move downwards; and realizing the cuttage of the sampling tube.

Creatively, the above effects exist independently, and the combination of the above results can be completed by a set of structure.

The technical effect realized by the structure is clear, and if the additional technical scheme is not considered, the patent name can also be an intelligent method and system. Some details are not shown in the figures.

It should be noted that the plurality of schemes provided in this patent include their own basic schemes, which are independent of each other and are not restricted to each other, but they may be combined with each other without conflict, so as to achieve a plurality of effects.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and the invention is to be limited to the embodiments described above.

Claims (5)

1. A method for replacing cables during storage is characterized in that a person unlocks a plurality of temperature measuring cables and a collecting container from a basement of a warehouse or outdoors in a way of unlocking a quick-connection plug, then a lifting structure (25) is actuated, after an upper transverse plate or a pipe cavity (30) is lifted to move upwards, the cables are lifted out for replacement, and vice versa.

2. The pipe-punching-free single-pipe ventilation system based on artificial intelligence is characterized in that after an upper transverse plate or a pipe cavity (30) is lifted to move upwards, the operation is carried out at different multifunctional operation integrated ports (23), and air is directly punched to the periphery of a corresponding outer protection pipe by a fan;

the pressure of the spring (17) can correspond to the position of the cable; or the sheath of the cable itself comprises scales, so that the tension degree and the position of the cable can be obtained.

3. The multifunctional cable protection insect fetching method based on artificial intelligence is characterized in that an air draft insect fetching system comprises an air draft fan (68), and the air draft fan (68) is abutted to the topmost end of a single pipe through an insect measuring hose (69); a net bag (72) or a storage bag is fixed behind the air draft fan (68); the net bag (72) is a high-density net bag; it is a 400 mesh net bag which can block insects but cannot block air; promote the horizontal board in top or the pipe cavity (30) back of moving up, extract at the integrative mouth of multi-functional operation (23) of difference, the worm tends to the hole, and the worm quality is lighter, can look for the worm operation.

4. A large-batch anaerobic storage method based on artificial intelligence and capable of realizing negative pressure formation through unified air draft is characterized in that a transverse plate or a pipe cavity (30) above moves downwards, a plurality of downward insertion parts (28) are butted with each multifunctional operation integrated port (23) to conduct air suction, air is uniformly sucked, air in grain gaps difficult to be sucked is uniformly extracted through a plurality of multipurpose pipes, air suction speed is greatly increased, and idling of an air suction pump is avoided.

5. A large-batch ventilation method based on artificial intelligence is characterized in that an upper transverse plate or a pipe cavity (30) moves downwards, a plurality of downward insertion parts (28) are butted with each multifunctional operation integrated port (23) to blow air, cold air blows into grain gaps to blow air uniformly, and the whole bin can be ventilated in time.

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