CN110428558B

CN110428558B - Intelligent management system for progressively settling accounts of recursion shelf-type dinner plates of campus dining hall

Info

Publication number: CN110428558B
Application number: CN201910597485.XA
Authority: CN
Inventors: 王玉凤
Original assignee: Yiwu Jiashi Electronic Technology Co ltd
Current assignee: Yiwu Jiashi Electronic Technology Co.,Ltd.
Priority date: 2019-07-04
Filing date: 2019-07-04
Publication date: 2021-07-23
Anticipated expiration: 2039-07-04
Also published as: CN110428558A

Abstract

The invention discloses a smart management system for settlement step by step of a recursive shelf-mounted dinner plate of a campus canteen, which structurally comprises: the invention realizes the matching of the human-computer interface platform and the microwave recursion rack, forms the weighing type step-by-step recursion ascending settlement meal taking effect, realizes the accurate settlement of data feedback, lightens the mental load of a human body and the long-time physical consumption work, uses intelligent equipment for humanized substitution, ensures the rest time and the settlement comfort of people, then the effect that the front end position five and six dinner plates which are queued for the students are simultaneously placed on the tray holding bracket is realized, the rest time is provided for the students holding the dinner plates for a long time, meanwhile, the cold meal can be subjected to microwave heating output in the frame, so that the muscle of the arm of the student can rest and maintain the tendon of the biceps brachii, and the meal which is hot and soar by the student is provided after settlement to promote the growth.

Description

Intelligent management system for progressively settling accounts of recursion shelf-type dinner plates of campus dining hall

Technical Field

The invention discloses a smart management system for progressively settling accounts of recursion shelf-mounted dinner plates of a campus canteen, and belongs to the field of retail sales.

Background

School's dining room in the study or staff's dining room in the work all are the important place of packet management people three meals a day, need humanized management and the intelligent function collocation operation of equipment system, can realize that the data settlement in the dining room is stable, and the guarantee that the labour is sufficient makes the healthy comfortable dining of people, makes things convenient for people to carry out the supplementary of health function nutrition after work study, and the public shortcoming of treating the optimization of present technique has:

in a dining hall of a school, students are in a bone growth and development period, the students are in line with the trays by arm movement to wait for the front two or three students to order and settle accounts, the loss of tightening force is caused by tendon traction and supporting load of biceps brachii, the weighing and settling time of the trays after ordering is long, the people are required to count and stack the accounts for keeping accounts, the mental power of the staff who consumes the accounts is consumed, the management of comfortable supply demand of the dining hall is low, the trays are cooled by wind in the ordering and settling process, the dishes are slightly cold, the gastrointestinal health is easily influenced after eating, the healthy growth of the students is not facilitated, and the dining hall is also not managed in a humanized mode.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a smart management system for stepwise settlement of a recursion shelf-mounted dinner plate of a campus canteen, which aims to solve the problems that students are in a skeletal growth and development period in the school canteen, the dinner plate is moved by a crank arm to queue and wait for the front two and three students to settle accounts, the tension loss is caused to tendon traction supporting load of biceps brachii muscle, the weighing and settling time of the dinner plate after meal ordering is long, the counting needs to be manually counted and superposed, the mental power of the ordering person is consumed by the mental power of the ordering person, the management on the comfortable supply demand of the canteen is low, the dinner plate is cooled by wind in the ordering and settling process, the meal is slightly cold, the gastrointestinal health is easily influenced after eating, the healthy growth of the students is not facilitated, and the canteen is relatively unsuited to be managed.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a campus dining room's recursion rack-mounted dinner plate settle accounts wisdom management system step by step, its structure includes: the bottom surface of the microwave recursion rack is tightly attached to the top surface of the electronic bearing seat, the electronic bearing seat is electrically connected with the digital display tube through a lead, the digital display tube is inserted and embedded in the upper left corner of the buffer base and is positioned on the same horizontal plane, the two handheld fastener grooves are respectively welded on the left side and the right side of the microwave recursion rack, the two observation windows are respectively tightly attached to the left side and the right side of the microwave recursion rack, the human-computer interface platform is electrically connected with the electronic bearing seat through leads inside the microwave recursion rack, the microwave recursion rack is provided with a microwave plate saccule, a tray bracket, a square frame plate, a rotary slide channel groove, a side embedded shell, a wheel-guiding slide cover and a plate electrode, and the wheel-guiding slide cover is mechanically connected with the plate electrode, the avris inlays the casing and all is equipped with two and nests respectively in the left and right sides of square frame board with the gyration slide groove, the microwave board sacculus is equipped with more than two and hugs closely respectively in the left and right sides of serving as a rest the dish bracket, the serving as a rest the dish bracket is equipped with more than two vertical and arrange a straight line and insert and inlay the inside at square frame board, the wheel draws the slip cap to install in the inside that the avris inlayed the casing, the bottom surface of square frame board is hugged closely on the top surface of electron bearing seat.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the microwave board saccule, the microwave board saccule consists of an ellipsoid cyst shell, two torsional spring bending rods, two microwave lattice groove boards and two spring buckling rods, wherein the two torsional spring bending rods and the two spring buckling rods are respectively arranged at the upper side and the lower side of the microwave lattice groove boards, the microwave lattice groove boards are inserted and embedded in the ellipsoid cyst shell, and the torsional spring bending rods are movably connected with the spring buckling rods through the ellipsoid cyst shell.

As a further improvement of the invention, the microwave grid-groove plate consists of two high-frequency electromagnetic tubes, two grid-groove corrugated plates and two resonance filtering tubes, wherein the two high-frequency electromagnetic tubes and the two resonance filtering tubes are respectively inserted and embedded in the front side and the rear side of the interior of the grid-groove corrugated plates, and the high-frequency electromagnetic tubes, the grid-groove corrugated plates and the resonance filtering tubes are positioned on the same horizontal plane.

As a further improvement of the invention, the tray bracket comprises an electric heating tube, a slide block sleeve cap and a tray square supporting plate, wherein more than two slide block sleeve caps are arranged and are respectively nested at the left side and the right side of the electric heating tube, two electric heating tubes are arranged and are respectively inserted and nested at the left lower corner and the right lower corner of the tray square supporting plate, and the slide block sleeve cap and the tray square supporting plate are in clearance fit.

As a further improvement of the invention, the rotary chute consists of an arc top trapezoidal plate, two upright rods, an inner ring sliding chute and movable inner chambers, wherein the upright rods are respectively tightly attached to the left side and the right side of the inner ring sliding chute, the movable inner chambers and the arc top trapezoidal plate are of an integral structure and are positioned on the same vertical plane, and the inner ring sliding chute is arranged inside the arc top trapezoidal plate.

As a further improvement of the invention, the wheel-guiding sliding cover consists of a hemispherical magnetic sliding cover, a steel wire rope and a fixed pulley seat, wherein the steel wire rope is movably connected with the fixed pulley seat, and the hemispherical magnetic sliding cover and the steel wire rope are welded into a whole.

As a further improvement of the invention, the hemispherical magnetic sliding cover consists of a spherical core shell, a magnetic pointer plate, two arc tube magnetic stripes, a corrugated diaphragm and a hemispherical sliding cover body, wherein the magnetic pointer plate is arranged in the spherical core shell, the axes of the magnetic pointer plate and the arc tube magnetic stripes are collinear, the two arc tube magnetic stripes are respectively tightly attached to the left lower corner and the right lower corner of the spherical core shell, the corrugated diaphragm is connected with the hemispherical sliding cover body through glue, and the spherical core shell is tightly attached to the lower part of the top surface in the hemispherical sliding cover body.

As a further improvement of the invention, the corrugated plate of the grid groove is a corrugated groove plate structure with front and back alternate grooves welded, and the front and back alternate grooves form a heat dissipation loop to release microwave to heat the meal of the dinner plate, thereby achieving the effect of small electromagnetic wave heating in the contraposition rotation process.

As a further improvement of the invention, the tray-containing square supporting plate is of a supporting plate groove structure with a groove in the middle of the thick square plate, the bottom of the dinner plate is conveniently embedded with the protrusion through the groove to form a groove-type meal supporting effect, then the side thick plate plays a stable supporting effect on the edge of the dinner plate, the dinner plate is not shaken when the horizontal plane is lifted, and the waste of grains is avoided.

As a further improvement of the invention, the arc top trapezoidal plate is of a trapezoidal groove structure with a top thin corner arc plate and a bottom wide corner arc plate, the upper corner arc plate and the lower corner arc plate are combined into a chamfer angle curve, and the ball bag rotates along the rail to obtain side top pressure friction, so that an arc inertial reversing and lifting effect is formed.

As a further improvement of the invention, the spherical core shell is of a spherical shell structure with left and right arc grooves and through holes at the tops, so that the embedded magnetic strips can be conveniently turned outwards and magnetically attracted and slide left and right, and then the top through holes are interlocked with the rope ends to form a traction linkage effect, so that the side corners can be rotationally pulled and pushed up and down.

Advantageous effects

The invention relates to a smart management system for gradually settling a pushed and upper rack type dinner plate of a campus canteen, students place ordered meals on a tray bracket of a microwave pushing rack through the dinner plate, then canteen managers energize a microwave grid groove plate in an ellipsoidal capsule shell of a microwave plate sacculus through operating a human-computer interface platform, so that a high-frequency electromagnetic tube and a resonance filter tube are aligned in the grid groove corrugated plate to release electromagnetic waves for circulating jacking and friction heating, and then the ellipsoidal capsule shell presses an inner ring slide way along a vertical rod in an arc top trapezoidal plate of a rotary slide way groove to prop against a movable inner chamber ellipsoid to move around along the vertical rod to form a gradually lifted and pushed dinner plate bearing with the tray, an electric heating tube is pulled along a sliding block sleeve cap to descend left and right to form an auxiliary surge effect of heating during lifting, and the auxiliary node heat preservation of the meals heated by matching with microwave heating motion is achieved, after each dinner plate is placed in a square plate, the fixed pulley seat of the inner wheel slip guide cover of the side embedded shell is electrically controlled to rotate, the electrode plate is electrified to release electric ions, a steel wire rope is used for drawing the spherical core shell of the hemispherical slip cover, an electromagnetic field is formed to drive the magnetic strip of the magnetic pointer plate friction arc tube to rotate, corrugated membranes in the hemispherical slip cover slide along the electrode plate in a magnetic suspension manner, the left and right end regulation and balance homogenization effect of lower balance weight detection is achieved, deviation is reduced for the electronic bearing seat, then weighing data are collected, displayed and fed back to a human-computer interface platform through a digital display tube and a buffer base, a settlement waiting period is achieved, arm load of students is relieved, mental consumption of workers is reduced, the equipment integration system is efficient in work, the heat value of dishes is guaranteed to rapidly manage canteen accounting data and meal weighing data, when equipment fails, the maintainers can visually correct damaged parts through an observation window to disassemble, and replace new parts to strengthen equipment performance Can be used.

The invention has the following advantages after operation:

by matching the human-computer interface platform with the microwave recursion rack, a tray bracket and a square frame plate are erected on the human-computer interface platform rack of the dining room intelligent management system equipment to form a weighing type step-by-step recursion ascending settlement meal taking effect matched with the work of an electronic bearing seat, quickly display data for a bottom digital display tube and feed the data back to the human-computer interface platform for settlement, reduce the mental load of a human body and the long-time physical consumption work, use intelligent equipment for humanized substitution, ensure the rest time and the settlement comfort of people, then the effect that the front end position five and six dinner plates which are queued for the students are simultaneously placed on the tray holding bracket is realized, the rest time is provided for the students holding the dinner plates for a long time, meanwhile, the cold meal can be subjected to microwave heating output of the microwave plate saccule in the rack, so that the arm muscles of the students can rest and maintain the tendon of the biceps brachii, and the meal which is hot and soar by the students is provided to promote the growth after settlement.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of a smart management system for settlement step by step of a recursive shelf-mounted dinner plate of a campus canteen.

Fig. 2 is a detailed cross-sectional structural diagram of the microwave recursion rack of the present invention.

FIG. 3 is a schematic cross-sectional view of the tray bracket and the wheel-guiding sliding cover of the present invention in working condition.

Fig. 4 is a schematic perspective structural view of the microwave board balloon in a working state according to the present invention.

Fig. 5 is a schematic view of the working state of the microwave grating with a three-dimensional internal structure.

FIG. 6 is a schematic side view of the rotary chute of the present invention in a working state.

Fig. 7 is a schematic perspective structural view of the hemispherical magnetic sliding cover in an operating state according to the present invention.

Description of reference numerals: a man-machine interface platform-1, an observation window-2, a microwave recursion rack-3, a hand-held buckle slot-4, an electronic bearing seat-5, a digital display tube-6, a buffer base-7, a microwave plate balloon-3A, a tray bracket-3B, a square frame plate-3C, a rotary slide way slot-3D, a side embedded shell-3E, a wheel-guiding sliding cover-3F, an electrode plate-3G, an ellipsoidal capsule shell-3A 1, a torsion spring bending rod-3A 2, a microwave grid plate-3A 3, a spring buckling rod-3A 4, a high-frequency electromagnetic tube-3A 31, a grid groove-3A 32, a resonance filtering wave tube-3A 33, an electrothermal tube-3B 1, a sliding block sleeve cap-3B 2, a tray square supporting plate-3B 3, an arc top trapezoidal plate-3D 1, a vertical rod-3D 2, a corrugated plate-3D 2, An inner ring sliding chute-3D 3, a movable inner chamber-3D 4, a hemisphere magnetic sliding cover-3F 1, a steel wire rope-3F 2, a fixed pulley seat-3F 3, a ball core shell-3F 11, a magnetic pointer plate-3F 12, an arc tube magnetic strip-3F 13, a corrugated diaphragm-3F 14 and a hemisphere sliding cover body-3F 15.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-7, the present invention provides an intelligent management system for progressively settling accounts of recursive shelf-mounted dining plates in a campus dining hall, which comprises: the microwave recursion device comprises a man-machine interface platform 1, an observation window 2, a microwave recursion rack 3, a portable pull buckle groove 4, an electronic bearing seat 5, a digital display tube 6 and a buffer base 7, wherein the bottom surface of the microwave recursion rack 3 is tightly attached to the top surface of the electronic bearing seat 5, the electronic bearing seat 5 is electrically connected with the digital display tube 6 through a wire, the digital display tube 6 is inserted and embedded in the upper left corner of the buffer base 7 and is positioned on the same horizontal plane, the portable pull buckle grooves 4 are provided with two parts and are respectively welded on the left side and the right side of the microwave recursion rack 3, the observation window 2 is provided with two parts and is respectively tightly attached to the left side and the right side of the microwave recursion rack 3, the man-machine interface platform 1 is electrically connected with the electronic bearing seat 5 through a wire inside the microwave recursion rack 3, the microwave recursion rack 3 is provided with a microwave board saccule 3A, a tray holding bracket 3B, a square board 3C and a rotary slideway groove 3D, The avris inlays casing 3E, wheel and draws smooth cover 3F, plate electrode 3G, wheel and draws smooth cover 3F and plate electrode 3G mechanical connection, the avris inlays casing 3E and all is equipped with two and respectively nests in square frame board 3C's the left and right sides with gyration slide groove 3D, microwave board sacculus 3A is equipped with more than two and hugs closely respectively in the left and right sides of holding a dish bracket 3B, holding a dish bracket 3B is equipped with more than two vertical and arrange into a straight line and insert and inlay in square frame board 3C's inside, wheel draws smooth cover 3F and installs in the inside that the avris inlayed casing 3E, square frame board 3C's bottom surface is hugged closely on the top surface of electron bearing seat 5.

Referring to fig. 4, the microwave board balloon 3A is composed of an ellipsoidal capsule shell 3A1, two torsion spring bending rods 3A2, a microwave lattice plate 3A3, and a spring buckling rod 3A4, wherein the two torsion spring bending rods 3A2 and the two spring buckling rods 3A4 are respectively installed on the upper and lower sides of the microwave lattice plate 3A3, the microwave lattice plate 3A3 is inserted and embedded in the ellipsoidal capsule shell 3A1, the torsion spring bending rod 3A2 is movably connected with the spring buckling rod 3A4 through the ellipsoidal capsule shell 3A1, and the upper and lower alignment elastic interlocking microwave lattice plate 3A3 is heated through the torsion spring bending rod 3A2 and the spring buckling rod 3A4 to form a vibration type thermal wave covering effect.

Referring to fig. 5, the microwave grid plate 3A3 comprises a high frequency electromagnetic tube 3a31, a grid corrugated plate 3a32, and a resonant wave filter 3a33, wherein the high frequency electromagnetic tube 3a31 and the resonant wave filter 3a33 are both provided with two parts respectively inserted into the front and rear sides of the grid corrugated plate 3a32, the high frequency electromagnetic tube 3a31, the grid corrugated plate 3a32, and the resonant wave filter 3a33 are located on the same horizontal plane, the grid corrugated plate 3a32 is a corrugated plate structure with front and rear alternate grooves welded, a heat dissipation loop is formed by the front and rear alternate grooves to release the microwave to heat the meal of the meal tray, so as to achieve a small electromagnetic wave heating effect during the alignment rotation process, release the electromagnetic wave from the high frequency electromagnetic tube 3a31 to the resonant wave filter 3a33 to achieve a terminal filtering effect, allow the microwave internal heat dissipation of the electromagnetic wave, and reduce the wave band frequency to prevent the influence on the human body, the safety protection performance of the microwave heating operation is guaranteed.

Referring to fig. 3, the tray bracket 3B is composed of an electric heating tube 3B1, a slider sleeve cap 3B2 and a tray square supporting plate 3B3, the slider sleeve cap 3B2 is provided with more than two and is respectively nested on the left and right sides of the electric heating tube 3B1, the electric heating tube 3B1 is provided with two and is respectively inserted and embedded on the left and right lower corners of the tray square supporting plate 3B3, the slider sleeve cap 3B2 and the tray square supporting plate 3B3 are in clearance fit, the tray square supporting plate 3B3 is a tray groove structure with a groove in the middle of a thick square plate, a groove is conveniently embedded with a bottom protrusion to form a groove for holding food, then a thick plate on the side plays a stable supporting effect on the edge, so that the horizontal plane is lifted and does not shake a food tray, food is not wasted, the wheel guiding and sliding cover 3F is composed of a hemispherical magnetic sliding cover 3F1, a steel wire rope 3F2 and a fixed pulley seat 3F3, the fixed pulley seat 3 is movably connected with the fixed pulley seat 3F2, the hemispherical magnetic sliding cover 3F1 and the steel wire rope 3F2 are welded into a whole, the electric heating tube 3B1 is used for carrying out auxiliary heating on the tray-containing square supporting plate 3B3 by microwave, the uniform covering effect of the left end corner and the right end corner is achieved, the internal heat deficiency is avoided, and the temperature value of food is guaranteed.

Referring to fig. 6, the revolving chute 3D is composed of an arc roof trapezoidal plate 3D1, a vertical rod 3D2, an inner ring chute 3D3, and a movable inner chamber 3D4, the two upright rods 3D2 are respectively clung to the left and the right sides of the inner ring chute 3D3, the movable inner chamber 3D4 and the arc top trapezoidal plate 3D1 are of an integral structure and are positioned on the same vertical plane, the inner ring chute 3D3 is arranged inside the arc top trapezoidal plate 3D1, the arc top trapezoidal plate 3D1 is a trapezoidal groove structure with a top thin corner arc plate and a bottom wide corner arc plate, the upper corner arc plate and the lower corner arc plate are combined into a chamfer curve, the ball bag rotates along the rail to obtain side jacking friction, and an arc inertia reversing lifting effect is formed, the effect of pushing the ellipsoidal capsule shell 3A1 to rotate inertially and turn to push the upper frame is achieved by embedding the inner ring slide chute 3D3 and the arc top trapezoidal plate 3D1 into an ellipsoidal track limited by the inner ring chute and the outer ring chute.

Referring to fig. 7, the hemispherical magnetic sliding cover 3F1 is composed of a core shell 3F11, a magnetic pointer plate 3F12, an arc tube magnetic stripe 3F13, a corrugated diaphragm 3F14, and a hemispherical sliding cover body 3F15, the magnetic pointer plate 3F12 is installed inside the core shell 3F11, the axes of the magnetic pointer plate are collinear, two arc tube magnetic stripes 3F13 are respectively and tightly attached to the left and right lower corners of the core shell 3F11, the corrugated diaphragm 3F14 is connected with the hemispherical sliding cover body 3F15 by glue, the core shell 3F11 is tightly attached to the bottom surface of the hemispherical sliding cover body 3F15, the core shell 3F11 is a spherical shell structure with left and right arc grooves and top through holes, so as to facilitate the magnetic stripe embedding, the interlocking rope ends of the top through holes are pulled to form a dragging linkage effect, so as to achieve the rotation, pull, up and down movement, the magnetic pointer plate 3F12 rubs the magnetic stripe 3F13 continuously to form a magnetic suspension rotary sliding electrode effect of forward rotation and reverse rotation, the magnetic field of the cage cover is conveniently formed at the left end and the right end, and the interference of the wave band leakage to the internal environment frequency value is avoided.

The working process is as follows: students place the ordered food on a tray bracket 3B of a microwave pushing frame 3 through a dinner plate, then canteen managers energize a microwave grid plate 3A3 in an ellipsoidal capsule shell 3A1 of a microwave plate sacculus 3A by operating a man-machine interface platform 1, so that a high-frequency electromagnetic tube 3A31 and a resonance filter tube 3A33 are aligned in a grid corrugated plate 3A32 to release electromagnetic waves for circulating, jacking, rubbing and heating, and then the ellipsoidal capsule shell 3A1 pushes against a movable inner cavity 3D4 ellipsoid to move around along an inner ring sliding channel 3D3 pressed by a vertical rod 3D2 in an arc top trapezoidal plate 3D1 of a rotary sliding channel 3D by assisting vibration through a torsion spring 3A2 and a spring buckling rod 3A4 to form a heating dish lifting pushing dinner plate with a tray 3B3 which is connected with the tray bracket 3B1 and a sliding block sleeve 3B2 which descends along the left and right sides of an upright rod 3D2 during lifting, so as to achieve the effect of assisting in heat preservation and heat, and auxiliary heat-drying of the meal, after each dinner plate is placed in a square frame plate 3C, a fixed pulley seat 3F3 of a sliding cover 3F is guided to rotate electrically in a side embedded shell 3E, meanwhile, an electrode plate 3G is electrified to release electric ions, a steel wire rope 3F2 pulls a ball core shell 3F11 of a hemispherical magnetic sliding cover 3F1, an electromagnetic field is formed to drive a magnetic pointer plate 3F12 to rub an arc tube magnetic strip 3F13 to rotate, a corrugated diaphragm 3F14 in the hemispherical sliding cover 3F15 slides along the electrode plate 3G in a magnetic suspension manner, the left and right end regulation and balance homogenizing effect of lower balance weight detection is achieved, deviation is reduced for an electronic bearing seat 5, then weighing data are collected and displayed through a digital display tube 6 and a buffer base 7 and fed back to a human machine interface platform 1, the balance period is reached, students wait for arm load release, mental consumption of workers is reduced, the working efficiency of an equipment integrated system is ensured, the dining room accounting data and meal weighing data are rapidly managed, when the equipment breaks down, a maintainer can observe the damaged parts through the observation window 2 to visually correct the defects of the equipment, disassemble and replace the new parts, and the performance of the equipment is enhanced.

The invention achieves the effects of utilizing the human-computer interface platform 1 to be matched with the microwave recursion rack 3, erecting the tray bracket 3B and the square frame plate 3C on the human-computer interface platform 1 rack of the canteen intelligent management system equipment to form weighing type step-by-step recursion ascending settlement meal taking effect matched with the work of the electronic bearing seat 5, rapidly displaying data for the bottom digital display tube 6 to be fed back to the human-computer interface platform 1 for settlement, reducing the mental load and long-time physical consumption work of a human body, using the intelligent equipment for humanized substitution to ensure the rest time and settlement comfort of people, then realizing the effect that five dinner plates at the front end position of queuing are simultaneously placed on the tray bracket 3B for students with the rest time, and simultaneously carrying out microwave heating output of the microwave plate balloon 3A in the refrigerated meal rack, the muscle of the arm of the student can be rested and maintained to the tendon of the biceps brachii, and meanwhile, the healthy meal and diet of hot meal of the student can be provided to promote growth after settlement, so that the problems that in a canteen of a school, the student is in a skeletal growth and development period, the student can queue up and wait for the front two students to order and settle accounts fatiguedly and fussy, the tension loss is caused to the tendon traction and support load of the biceps brachii, the weighing and settling time of the meal plate after ordering is long in stagnation, the people need to count and stack the accounts for clearing, the mental power of the meal ordering personnel is consumed by the consumption of the mental power of the meal ordering personnel, the management on the comfortable supply demand of the canteen is low, the meal plate is cooled by wind in the process of ordering and settling accounts, the gastrointestinal health is easily influenced after eating, the student is not beneficial to the healthy growth, and the canteen is not managed by humanity.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims

1. The utility model provides a campus dining room's recursion rack-mounted dinner plate settle accounts wisdom management system step by step, its structure includes: man-machine interface platform (1), observation window (2), microwave recurrence frame (3), portable pull buckle groove (4), electron bearing seat (5), digital display tube (6), buffer base (7), its characterized in that:

the bottom surface of the microwave recursion rack (3) is tightly attached to the top surface of the electronic bearing seat (5), the electronic bearing seat (5) is electrically connected with a digital display tube (6) through a wire, the digital display tube (6) is inserted and embedded in the upper left corner of a buffer base (7), two hand-held pull buckle grooves (4) are arranged and are respectively welded on the left side and the right side of the microwave recursion rack (3), two observation windows (2) are arranged and are respectively tightly attached to the left side and the right side of the microwave recursion rack (3), and the human-computer interface platform (1) is electrically connected with the electronic bearing seat (5) through the microwave recursion rack (3);

the microwave recursion rack (3) is provided with a microwave plate balloon (3A), a tray bracket (3B), a square frame plate (3C), a rotary slideway slot (3D), a side embedded shell (3E), a wheel guiding sliding cover (3F) and an electrode plate (3G);

the wheel-guiding sliding cover (3F) is mechanically connected with an electrode plate (3G), the side-embedded shell (3E) and the rotary sliding channel groove (3D) are provided with two parts which are respectively embedded at the left side and the right side of the square frame plate (3C), the microwave plate saccule (3A) is provided with more than two parts which are respectively clung to the left side and the right side of the tray-containing bracket (3B), the tray-containing bracket (3B) is provided with more than two parts which are vertically arranged in a straight line and are inserted and embedded in the square frame plate (3C), the wheel-guiding sliding cover (3F) is arranged in the side-embedded shell (3E), and the bottom surface of the square frame plate (3C) is clung to the top surface of the electronic bearing seat (5);

the microwave board sacculus (3A) consists of an ellipsoidal sacculus shell (3A1), two torsion spring bending rods (3A2), two microwave lattice groove boards (3A3) and two spring buckling rods (3A4), wherein the two torsion spring bending rods (3A2) and the two spring buckling rods (3A4) are respectively arranged at the upper side and the lower side of the microwave lattice groove boards (3A3), and the microwave lattice groove boards (3A3) are inserted and embedded in the ellipsoidal sacculus shell (3A 1);

the microwave grid-groove plate (3A3) consists of a high-frequency electromagnetic tube (3A31), a grid-groove corrugated plate (3A32) and a resonance filtering tube (3A33), wherein the high-frequency electromagnetic tube (3A31) and the resonance filtering tube (3A33) are respectively provided with two parts and are respectively inserted and embedded into the front side and the rear side of the interior of the grid-groove corrugated plate (3A 32);

the tray bracket (3B) consists of an electric heating tube (3B1), a sliding block sleeve cap (3B2) and a tray square supporting plate (3B3), the sliding block sleeve cap (3B2) is provided with two sliding block sleeve caps which are respectively nested at the left side and the right side of the electric heating tube (3B1), and the electric heating tube (3B1) is provided with two sliding block sleeve caps which are respectively nested at the left lower corner and the right lower corner of the tray square supporting plate (3B 3);

the rotary sliding channel groove (3D) is composed of an arc top trapezoidal plate (3D1), upright posts (3D2), inner ring sliding channels (3D3) and a movable inner cavity chamber (3D4), the upright posts (3D2) are provided with two and are respectively clung to the left side and the right side of the inner ring sliding channels (3D3), the movable inner cavity chamber (3D4) and the arc top trapezoidal plate (3D1) are of an integrated structure, and the inner ring sliding channels (3D3) are installed inside the arc top trapezoidal plate (3D 1);

the wheel guide sliding cover (3F) is composed of a hemispherical magnetic sliding cover (3F1), a steel wire rope (3F2) and a fixed pulley seat (3F3), the steel wire rope (3F2) is movably connected with the fixed pulley seat (3F3), and the hemispherical magnetic sliding cover (3F1) and the steel wire rope (3F2) are welded into a whole;

the hemispherical magnetic sliding cover (3F1) is composed of a ball core shell (3F11), a magnetic pointer plate (3F12), an arc tube magnetic strip (3F13), a corrugated diaphragm (3F14) and a hemispherical sliding cover body (3F15), wherein the magnetic pointer plate (3F12) is installed inside the ball core shell (3F11), the arc tube magnetic strip (3F13) is provided with two magnetic pointers which are respectively tightly attached to the left and right lower corners of the ball core shell (3F11), the corrugated diaphragm (3F14) is connected with the hemispherical sliding cover body (3F15) in a gluing mode, and the ball core shell (3F11) is tightly attached to the lower surface of the inside of the hemispherical sliding cover body (3F 15).

2. The intelligent management system for progressive settlement of the recursive shelf-type dinner plate of the campus canteen according to claim 1, wherein: the corrugated plate (3A32) is a corrugated plate block structure with front and back grooves welded alternately.

3. The intelligent management system for progressive settlement of the recursive shelf-type dinner plate of the campus canteen according to claim 1, wherein: the tray square supporting plate (3B3) is of a supporting plate groove structure with a groove in the middle of a thick square plate.