CN112669443B - Dynamic coordinate system device for economic dynamic modeling management analysis - Google Patents

Abstract

The invention discloses an economic dynamic modeling management analysis dynamic coordinate system, and mainly relates to a visual three-dimensional coordinate system. The system comprises a dynamic coordinate system assembly and a master control cabinet; a PLC control system is arranged in the master control cabinet; the dynamic coordinate system assembly comprises a region information display screen, a time information display screen and a dynamic coordinate system; the dynamic coordinate system comprises a plurality of coordinate columns and a plurality of sections of servo cylinders which are distributed in a rectangular array; the coordinate column is divided into four regions from top to bottom, namely an insulating region, a negative region, a zero region and a positive region; and circuit connection devices corresponding to the strip-shaped grooves are symmetrically arranged on two sides of the column outlet hole. The invention has the beneficial effects that: the method can make digital information visually react to the three-dimensional image information of the dynamic analysis coordinate system, so that clear modeling display can be realized, three-dimensional images of multiple evaluation indexes can be observed in an all-dimensional manner, and dynamic economic market analysis and early warning are facilitated.

Description

Dynamic coordinate system device for economic dynamic modeling management analysis

Technical Field

The invention relates to a visual three-dimensional coordinate system, in particular to a dynamic coordinate system device for economic dynamic modeling management analysis.

Background

The evaluation indexes of the dynamic economy comprise net present value, net annual value, net final value, internal rate of return, rate of return increase, corrected internal rate of return, benefit-to-cost ratio, net present value index (profit-to-investment ratio) and the like. And each evaluation index has an analysis and calculation formula, and economic dynamic information in a period of time can be correspondingly reflected from different aspects. In order to perform economic dynamic analysis more comprehensively, a plurality of evaluation index images of each region are subjected to comprehensive comparative analysis, an economic analyst is required to evaluate own market experience for the analysis, and an early warning conclusion is obtained by observing all the evaluation index images for analysis. However, there is no similar modeling analysis coordinate system at present for the omnibearing stereo observation of three-dimensional images with multiple evaluation indexes.

Disclosure of Invention

The invention aims to provide a dynamic coordinate system device for economic dynamic modeling management analysis, which can enable digital information in a computer system to be visually reflected into three-dimensional image information of a dynamic analysis coordinate system, so that clear modeling display can be realized, three-dimensional images of multiple evaluation indexes can be observed in an all-around and three-dimensional mode, and the dynamic economic market analysis and early warning of an economic analyst are facilitated.

In order to achieve the purpose, the invention is realized by the following technical scheme:

a dynamic coordinate system device for economic dynamic modeling management analysis comprises a dynamic coordinate system assembly and a master control cabinet; the dynamic coordinate system assembly is arranged on a bottom platform, the master cabinet is arranged below the bottom platform and surrounds the periphery of the dynamic coordinate system assembly, and a PLC control system for controlling the dynamic coordinate system assembly is arranged in the master cabinet; the dynamic coordinate system assembly comprises a region information display screen, a time information display screen and a dynamic coordinate system; a bin tying box is arranged below the bottom platform, and a dynamic coordinate system is arranged in the bin tying box; the dynamic coordinate system comprises a plurality of coordinate columns and a plurality of sections of servo cylinders which are distributed in a rectangular array, and each coordinate column is respectively controlled to ascend and descend through one servo cylinder; a column outlet hole is arranged above the bin tying box, and the diameter of the column outlet hole is matched with the outer diameter of the coordinate column; the coordinate column is divided into four regions from top to bottom, namely an insulating region, a negative region, a zero region and a positive region; the adjacent areas are separated by an insulating girdle band, two strip-shaped grooves are symmetrically arranged on the outer side of the coordinate column, no conductive strip body is arranged in the strip-shaped groove of the insulating area, a negative value lamp conductive strip is arranged in the strip-shaped groove of the negative value area, a zero value lamp conductive strip is arranged in the zero value area, a positive value lamp conductive strip is arranged in the positive value area, and the conductive strips are separated and not communicated by the insulating girdle band; three lamp strings with different colors are arranged in the coordinate column, namely a negative lamp string, a zero lamp string and a positive lamp string; the negative lamp string is connected with the negative lamp conductive strip circuit, the zero lamp string is connected with the zero lamp conductive strip circuit, and the positive lamp string is connected with the positive lamp conductive strip circuit; circuit connection devices corresponding to the strip-shaped grooves are symmetrically arranged on two sides of the column outlet hole, and the circuit connection devices can supply power to corresponding lamp strings after being contacted with corresponding conductive strips so that the corresponding lamp strings can emit light; and the top surface of the insulating area at the top of the coordinate column is an index value display screen.

A plurality of rows of regional box bins are arranged in the bin tying box, and strip-shaped holes corresponding to the regional box bins are formed in the bottom of the bin tying box; each multi-section servo cylinder is regularly and equidistantly fixed on the bottom surface inside the regional box bin, the column outlet hole is formed in the top surface of the regional box bin, and the circuit connection device is arranged on the top surface of the regional box bin; the bin tying box is characterized in that a single-area two-dimensional coordinate lifting device is arranged below the bin tying box and comprises an electric lifting servo cylinder and a lifting frame, the top of the lifting frame is provided with a cross rod, and the cross rod is matched and adapted with a strip-shaped hole in the bottom of the bin tying box.

Two spring grooves are symmetrically arranged on two sides of the post outlet hole, a circuit connection device is arranged in each spring groove and comprises a small spring, an insulating post and a short lead, the small spring is arranged in each spring groove, a guide post is arranged in each insulating post, a metal contact is arranged on the outer side of each insulating post, one end of each guide post is connected with the corresponding metal contact, the other end of each guide post is connected with the corresponding short lead, and the metal contacts can be matched in the strip-shaped grooves on two sides of the coordinate post when being extended out through the elasticity of the small springs and form a conductive path after being contacted with the conductive strips; the circuit board is arranged below the top surface of the regional box bin, and the other end of the short wire is connected with the circuit board.

And a transparent toughened glass observation platform is supported on the bottom platform through a side column.

The negative lamp string, the zero lamp string and the positive lamp string are distributed in the coordinate column in a staggered mode in an annular array mode.

Compared with the prior art, the invention has the beneficial effects that:

the system can establish a dynamic analysis coordinate system by evaluation indexes, time axes and regions, each coordinate column is independently controlled and adjustable, and the whole control is carried out by a PLC control system and a value point rounding method, so that digital information in a computer system is visually reflected into three-dimensional image information of the dynamic analysis coordinate system. Therefore, images of each time point of each region, each time point of the same region and the same time point of each region can be clearly modeled and displayed, three-dimensional images of multiple evaluation indexes can be stereoscopically observed in an all-around mode, and dynamic economic market analysis and early warning of economic analysts are facilitated.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic structural diagram of the present invention.

FIG. 3 is a schematic structural diagram of the dynamic coordinate system assembly of the present invention disposed in the tying box.

FIG. 4 is a top view of the kinematic coordinate system assembly of the present invention disposed within the nest box.

FIG. 5 is a bottom view of the tie bin of the present invention.

Fig. 6 is a schematic structural diagram of a single-area two-dimensional coordinate lifting device according to the present invention.

Fig. 7 is a diagram showing the usage state of the single-area two-dimensional coordinate lifting device in the invention.

FIG. 8 is a schematic view of the internal structure of the regionalized cassette magazine according to the present invention.

Fig. 9 is a schematic structural view of a coordinate column and a circuit connecting device in a matching state.

Fig. 10 is an enlarged view of the portion I of fig. 9 according to the present invention.

FIG. 11 is a cross-sectional view of a coordinate cylinder in accordance with the present invention.

Reference numerals shown in the drawings:

1. a dynamic coordinate system assembly; 2. a master control cabinet; 3. a bottom platform; 4. a region information display screen; 5. a time information display screen; 6. a dynamic coordinate system; 7. tying a bin box; 8. a coordinate post; 9. a multi-section servo cylinder; 10. a column outlet hole; 11. an insulating region; 12. a negative region; 13. a zero value region; 14. a positive value region; 15. an insulating annulus; 16. a strip-shaped groove; 17. a conductive strip body; 18. a negative lamp string; 19. a zero value light string; 20. a positive lamp string; 21. the regions are box bins; 22. a strip-shaped hole; 23. lifting the electric servo cylinder; 24. a lifting frame; 25. a cross bar; 26. a spring slot; 27. a small spring; 28. an insulating column; 29. a short wire; 30. a guide post; 31. a metal contact; 32. a circuit board; 33. side columns; 34. a transparent toughened glass observation platform.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

The invention relates to a dynamic coordinate system device for economic dynamic modeling management and analysis, which is shown in figures 1 and 2 of the attached drawings in the specification, and the main structure of the device comprises a dynamic coordinate system assembly 1, a master control cabinet 2, a single-area two-dimensional coordinate lifting device and an observation desk.

Dynamic coordinate system assembly 1:

as shown in fig. 1 and 7 of the attached drawings of the specification, a dynamic coordinate system assembly 1 is located on a bottom platform 3, and the dynamic coordinate system assembly 1 includes a region information display screen 4, a time information display screen 5 and a dynamic coordinate system 6. The region information display 4 is used for displaying region information (e.g., region a, region B, … …), and the time information display 5 is used for displaying time information (e.g., 1 month, 2 months, march, … …).

As shown in fig. 2 and 3, a fastening box 7 is arranged below the bottom platform 3. As shown in the attached drawings of the specification, fig. 3, fig. 4, fig. 5 and fig. 8, the dynamic coordinate system 6 comprises a plurality of coordinate columns 8 distributed in a rectangular array and a plurality of sections of servo cylinders 9. Each coordinate column 8 is controlled to ascend and descend through a multi-section servo cylinder 9. The elevation height of each coordinate column 8 represents the magnitude comparison of the evaluation index values.

As shown in fig. 4 and 5, a plurality of rows of the distinguishing box bins 21 are provided according to the region coordinates. By individually lifting and displaying the region division box bin 21, index images in different time periods of one region can be analyzed. The bottom of the tying bin box 7 is provided with a strip-shaped hole 22 corresponding to the distinguishing bin 21.

As shown in fig. 8, which is a schematic view of the internal structure of each distinguishing cassette magazine 21. Each multi-section servo cylinder 9 is regularly and equidistantly fixed on the bottom surface inside the regional box bin 21, the top surface of the regional box bin 21 is provided with a column outlet hole 10, and the diameter of the column outlet hole 10 is matched with the outer diameter of the coordinate column 8. As shown in fig. 10 of the attached drawings, this is a schematic structural diagram of the coordinate column 8, and the coordinate column 8 is divided into four regions from top to bottom, namely: the device is divided into an insulating area 11, a negative area 12, a zero area 13 and a positive area 14 from top to bottom in sequence, and adjacent areas are separated by an insulating ring belt 15. Two strip-shaped grooves 16 are symmetrically arranged on the outer side of the coordinate column 8. The strip groove 16 of the insulating area 11 is not provided with a conductive strip 17, the strip groove 16 of the negative area 12 is provided with a negative value lamp conductive strip, the zero value area 13 is provided with a zero value lamp conductive strip, and the positive value area 14 is provided with a positive value lamp conductive strip, and the conductive strips are separated and not communicated through an insulating girdle 15. As shown in fig. 11 in the accompanying drawings of the specification, this is an internal cross-sectional view of the coordinate column 8, three lamp strings of different colors are arranged inside the coordinate column 8, which are respectively a negative lamp string 18, a zero lamp string 19, and a positive lamp string 20, the negative lamp string 18 is connected with a negative lamp conductive strip circuit, the zero lamp string 19 is connected with a zero lamp conductive strip circuit, the positive lamp string 20 is connected with a positive lamp conductive strip circuit, and the negative lamp string 18, the zero lamp string 19, and the positive lamp string 20 are distributed in the coordinate column 8 in a staggered manner in an annular array. Two spring grooves 26 are symmetrically arranged on two sides of the column outlet hole 10, a circuit connection device is arranged in each spring groove 26 and comprises a small spring 27, an insulating column 28 and a short lead 29, the small spring 27 is arranged in each spring groove 26, a guide column 30 is arranged inside each insulating column 28, a metal contact 31 is arranged on the outer side of each guide column 30, one end of each guide column 30 is connected with the corresponding metal contact 31, the other end of each guide column is connected with the corresponding short lead 29, and the metal contacts 31 can be matched in the strip-shaped grooves 16 on two sides of the coordinate column 8 when being extended out through the elastic force of the small springs 27 and form a conductive path after being contacted with a conductive strip. A circuit board 32 is provided below the top surface of the differential cassette magazine 21, and the other end of the short wire 29 is connected to the circuit board 32. The top surface of the insulating region 11 at the top of the coordinate column 8 is an index value display screen, and the index value display screen can display corresponding index values.

The total cabinet 2:

the master control cabinet 2 is arranged below the bottom platform 3 and around the bin tying box 7 and is used for controlling the dynamic coordinate system assembly 1.

Single-area two-dimensional coordinate lifting device:

as shown in the attached drawings of the specification, fig. 2, fig. 6 and fig. 8, the single-region two-dimensional coordinate lifting device comprises a lifting electric servo cylinder 23 and a lifting frame 24, wherein the top of the lifting frame 24 is provided with a cross rod 25, the cross rod 25 is matched and adapted with a strip-shaped hole 22 at the bottom of the bin tying box 7, and a piston rod of the lifting electric servo cylinder 23 is connected with the bottom of the lifting frame 24. After a piston rod of the lifting electric servo cylinder 23 extends, a cross rod 25 at the top of the lifting frame 24 penetrates through a strip-shaped hole 22 at the bottom of the box tying box 7 to be in contact with the bottom surface of the box tying box 21, and then the box tying box 21 is ejected out of the box tying box 7 independently through further extension of the piston rod, so that index images in different time periods of the area are displayed and analyzed independently.

An observation platform:

as shown in the attached figure 1 of the specification, a transparent toughened glass observation platform 34 is supported on the bottom platform 3 through a side column 33, and a person can mount the observation platform to observe index images displayed by the dynamic coordinate system assembly 1 from multiple angles and all around.

The using method and the device principle are explained in detail:

the master control cabinet 2 is arranged below the bottom platform 3 and around the warehouse tying box 7 and is used for controlling the dynamic coordinate system assembly 1. The dynamic coordinate system assembly 1 is positioned on the bottom platform 3, a transparent toughened glass observation platform 34 is arranged on the bottom platform 3, and personnel can mount the observation platform to observe index images displayed by the dynamic coordinate system assembly 1 below in a multi-angle and all-around manner.

The dynamic coordinate system assembly 1 comprises a region information display screen 4, a time information display screen 5 and a dynamic coordinate system 6. The region information display 4 displays region information (e.g., region a, region B, … …), and the time information display 5 displays time information (e.g., 1 month, 2 months, march, … …), so that evaluation index values for different regions and different time axis segments can be represented in coordinates to form an image.

When the digital information in the computer system is visually reflected to the three-dimensional image information of the dynamic analysis coordinate system, the whole operation and control are required to be carried out through a PLC control system and a value point rounding method.

As shown in FIG. 7, the zero point of the entire coordinate system is placed at a certain height above the bottom plate 3, so that the area below the zero point is a negative area 12 of the evaluation index value and the area above the zero point is a positive area 14 of the evaluation index value. Moreover, the zero points are arranged to correspond to four zones divided from top to bottom on the coordinate column 8, namely: the lighting colors of the lamp string in the negative area 12, the zero area 13 and the positive area 14 are corresponding to the coordinate system values. The concrete change is as follows:

when the evaluation index value is a positive value: the coordinate post 8 needs to be extended by a long length. The piston rod of the multi-section servo cylinder 9 is extended to extend the coordinate column 8 from the column outlet hole 10. When the multiple sections of servo cylinders 9 are not started to extend, the strip-shaped grooves 16 of the insulating area 11 of the coordinate column 8 are contacted with the metal contacts 31, and the insulating area 11 has no conducting strips and cannot form a passage, so that all lamp strings cannot be lighted. With the extension of the piston rods of the multiple servo cylinders 9, the strip-shaped groove 16 of the uppermost negative value region 12 of the coordinate column 8 is in contact with the metal contact 31, a negative value lamp conducting strip is arranged in the strip-shaped groove 16 of the negative value region 12, and after a negative value lamp string 18 and a negative value lamp conducting strip circuit form a passage, the negative value lamp string 18 is temporarily lighted; when the piston rods of the multiple sections of servo cylinders 9 further extend to reach the horizontal line of the zero point, the strip-shaped groove 16 of the zero value area 13 on the coordinate column 8 is contacted with the metal contact 31, a zero value lamp conducting strip is arranged in the strip-shaped groove 16 of the zero value area 13, and after a circuit of the zero value lamp string 19 and the zero value lamp conducting strip forms a passage, the zero value lamp string 19 is temporarily lighted; when the piston rods of the multiple sections of servo cylinders 9 further extend to reach a position above a horizontal line of a zero point, the strip-shaped groove 16 of the positive value area 14 on the coordinate column 8 is contacted with the metal contact 31, a positive value lamp conducting strip is arranged in the strip-shaped groove 16 of the positive value area 14, and after the positive value lamp string 20 and a positive value lamp conducting strip circuit form a passage, the positive value lamp string 20 is temporarily lighted; then, the piston rod of the multi-section servo cylinder 9 is further extended until reaching the height of the evaluation index value and then stopped. It should be noted that when the insulating ring band 15 on the coordinate post 8 is in contact with the metal contact 31, all lamps are not lit because no path is formed. The purpose of the insulating band 15 is to avoid conductive strip contact connections between the zones.

When the evaluation index value is zero: the length of the coordinate post 8 that needs to be extended is moderate at this time. The piston rod of the multi-section servo cylinder 9 is extended to extend the coordinate column 8 from the column outlet hole 10. When the multiple sections of servo cylinders 9 are not started to extend, the strip-shaped grooves 16 of the insulating area 11 of the coordinate column 8 are contacted with the metal contacts 31, and the insulating area 11 has no conducting strips and cannot form a passage, so that all lamp strings cannot be lighted. With the extension of the piston rods of the multiple servo cylinders 9, the strip-shaped groove 16 of the uppermost negative value region 12 of the coordinate column 8 is in contact with the metal contact 31, a negative value lamp conducting strip is arranged in the strip-shaped groove 16 of the negative value region 12, and after a negative value lamp string 18 and a negative value lamp conducting strip circuit form a passage, the negative value lamp string 18 is temporarily lighted; when the piston rods of the multiple sections of servo cylinders 9 further extend to reach the horizontal line of the zero point, the strip-shaped groove 16 of the zero value area 13 on the coordinate column 8 is in contact with the metal contact 31, a zero value lamp conducting strip is arranged in the strip-shaped groove 16 of the zero value area 13, and after the zero value lamp string 19 and a circuit of the zero value lamp conducting strip form a passage, the zero value lamp string 19 is temporarily lighted.

When the evaluation index value is a negative value: the length of the coordinate post 8 that needs to be extended is short. The piston rod of the multi-section servo cylinder 9 is extended to extend the coordinate column 8 from the column outlet hole 10. When the multiple sections of servo cylinders 9 are not started to extend, the strip-shaped grooves 16 of the insulating area 11 of the coordinate column 8 are contacted with the metal contacts 31, and the insulating area 11 has no conducting strips and cannot form a passage, so that all lamp strings cannot be lighted. With the extension of the piston rods of the multiple servo cylinders 9, the strip-shaped groove 16 of the uppermost negative value region 12 of the coordinate column 8 is in contact with the metal contact 31, a negative value lamp conducting strip is arranged in the strip-shaped groove 16 of the negative value region 12, and after the negative value lamp string 18 and a negative value lamp conducting strip circuit form a path, the negative value lamp string 18 is temporarily lighted.

In order to ensure that the lights of the coordinate column 8 are uniform when the lights are on, the negative lamp string 18, the zero lamp string 19 and the positive lamp string 20 are distributed in the coordinate column 8 in a staggered manner in an annular array.

Explained further, the metal contacts 31 in the circuit-connecting device can be engaged in the strip-shaped grooves 16 on both sides of the coordinate column 8 when they are projected out by the elastic force of the small spring 27, and form a conductive path after contacting with the conductive strips. A circuit board 32 is provided below the top surface of the differential cassette magazine 21, and the other end of the short wire 29 is connected to the circuit board 32. The circuit board 32 is connected with the internal control circuit of the main control cabinet 2 through a data line.

Explained further, the top surface of the insulating region 11 at the top of the coordinate column 8 is an index value display screen, and the index value display screen can display the corresponding index value.

In addition, if the economic dynamics in a certain area within a period of time needs to be analyzed independently, a single-area two-dimensional coordinate lifting device is arranged for highlighting convenience in observation. As shown in the attached figures 2, 6, 7 and 8 of the specification, the single-region two-dimensional coordinate lifting device comprises a lifting electric servo cylinder 23 and a lifting frame 24. As shown in the attached figure 7 of the specification, after a piston rod of a lifting electric servo cylinder 23 extends, a cross rod 25 at the top of a lifting frame 24 penetrates through a strip-shaped hole 22 at the bottom of a system box 7 to be contacted with the bottom surface of a distinguishing box 21, and then the distinguishing box 21 is ejected out of the system box 7 independently through further extension of the piston rod, image information of a coordinate column 8 extending from the top of the distinguishing box 21 is displayed independently, and colors of the coordinate column 8 in a positive value area 14, a zero value area 13 and a negative value area 12 are distinguished, so that index images in different time periods in the area can be displayed and analyzed better and more intuitively.

In summary, the following steps:

the device can establish a dynamic analysis coordinate system by evaluation indexes, time axes and regions, each coordinate column 8 is independently controlled and adjustable, and the whole control is carried out by a PLC control system and a value point rounding method, so that digital information in a computer system is visually reflected into three-dimensional image information of the dynamic analysis coordinate system. Therefore, images of each time point of each region, each time point of the same region and the same time point of each region can be clearly modeled and displayed, three-dimensional images of multiple evaluation indexes can be stereoscopically observed in an all-around mode, and dynamic economic market analysis and early warning of economic analysts are facilitated.

Claims (5)

1. A dynamic coordinate system apparatus for economic dynamic modeling management analysis, characterized by: the system comprises a dynamic coordinate system assembly (1) and a master control cabinet (2); the dynamic coordinate system assembly (1) is arranged on a bottom platform (3), the master control cabinet (2) is arranged below the bottom platform (3) and surrounds the periphery of the dynamic coordinate system assembly (1), and a PLC control system used for controlling the dynamic coordinate system assembly (1) is arranged in the master control cabinet (2);

the dynamic coordinate system assembly (1) comprises a region information display screen (4), a time information display screen (5) and a dynamic coordinate system (6);

a bin tying box (7) is arranged below the bottom platform (3), and a dynamic coordinate system (6) is arranged in the bin tying box (7); the dynamic coordinate system (6) comprises a plurality of coordinate columns (8) distributed in a rectangular array and a plurality of sections of servo cylinders (9), and each coordinate column (8) is respectively controlled to be lifted through one servo cylinder (9);

a column outlet hole (10) is formed above the bin tying box (7), and the diameter of the column outlet hole (10) is adapted to the outer diameter of the coordinate column (8);

the coordinate column (8) is divided into four regions from top to bottom, namely an insulating region (11), a negative region (12), a zero value region (13) and a positive value region (14); adjacent areas are separated through an insulating girdle band (15), two strip-shaped grooves (16) are symmetrically arranged on the outer side of the coordinate column (8), no conductive strip body (17) is arranged in the strip-shaped groove (16) of the insulating area (11), a negative value lamp conductive strip is arranged in the strip-shaped groove (16) of the negative value area (12), a zero value lamp conductive strip is arranged in the zero value area (13), a positive value lamp conductive strip is arranged in the positive value area (14), and the conductive strips are separated and not communicated through the insulating girdle band (15);

three lamp strings with different colors are arranged in the coordinate column (8), namely a negative lamp string (18), a zero lamp string (19) and a positive lamp string (20); the negative lamp string (18) is connected with a negative lamp conductive strip circuit, the zero lamp string (19) is connected with a zero lamp conductive strip circuit, and the positive lamp string (20) is connected with a positive lamp conductive strip circuit;

circuit connection devices corresponding to the strip-shaped grooves (16) are symmetrically arranged on two sides of the column outlet hole (10), and the circuit connection devices can supply power to corresponding lamp strings after being contacted with corresponding conductive strips, so that the corresponding lamp strings emit light;

and the top surface of the insulating area (11) at the top of the coordinate column (8) is an index value display screen.

2. The dynamic coordinate system apparatus for economic dynamic modeling management analysis according to claim 1, wherein: a plurality of rows of regional box bins (21) are arranged in the bin tying box (7), and strip-shaped holes (22) corresponding to the regional box bins (21) are formed in the bottom of the bin tying box (7);

each multi-section servo cylinder (9) is regularly and equidistantly fixed on the inner bottom surface of the regional box bin (21), the column outlet hole (10) is formed in the top surface of the regional box bin (21), and the circuit connection device is arranged on the top surface of the regional box bin (21);

it sets up single area two-dimensional coordinate lifting device to be storehouse box (7) below, single area two-dimensional coordinate lifting device includes electronic servo cylinder of lifting (23) and lifting frame (24), lifting frame (24) top is a horizontal pole (25), horizontal pole (25) and the strip hole (22) cooperation adaptation of being storehouse box (7) bottom.

3. The dynamic coordinate system apparatus for economic dynamic modeling management analysis according to claim 2, wherein: the two sides of the column outlet hole (10) are symmetrically provided with two spring grooves (26), the circuit connection device is arranged in the spring grooves (26) and comprises a small spring (27), an insulating column (28) and a short lead (29), the small spring (27) is arranged in the spring grooves (26), a guide column (30) is arranged inside the insulating column (28), a metal contact (31) is arranged on the outer side of the insulating column (28), one end of the guide column (30) is connected with the metal contact (31), the other end of the guide column is connected with the short lead (29), and the metal contact (31) can be matched in the strip grooves (16) on the two sides of the coordinate column (8) when being extended out through the elasticity of the small spring (27) and forms a conductive path after being contacted with a conductive bar;

a circuit board (32) is arranged below the top surface of the regional box bin (21), and the other end of the short wire (29) is connected with the circuit board (32).

4. The dynamic coordinate system apparatus for economic dynamic modeling management analysis according to claim 1, wherein: and a transparent toughened glass observation platform (34) is supported on the bottom platform (3) through a side column (33).

5. The dynamic coordinate system apparatus for economic dynamic modeling management analysis according to claim 1, wherein: the negative lamp string (18), the zero lamp string (19) and the positive lamp string (20) are distributed in the coordinate column (8) in a staggered mode in an annular array mode.

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