CN111514569A

CN111514569A - High-capacity instrument container based on probability theory

Info

Publication number: CN111514569A
Application number: CN202010356386.5A
Authority: CN
Inventors: 刘丽波; 刘伟光
Original assignee: Jilin Institute of Chemical Technology
Current assignee: Jilin Institute of Chemical Technology
Priority date: 2020-04-29
Filing date: 2020-04-29
Publication date: 2020-08-11

Abstract

The invention discloses a high-capacity instrument container based on probability theory, which comprises a bearing rack, a box body and a box cover, wherein a driving round box is arranged at the lower end of the box body, a longitudinal ultraviolet disinfection lamp and a transverse ultraviolet disinfection lamp are respectively arranged on the driving round box, a multi-blade distributing wheel is arranged in the driving round box, the multi-blade distributing wheel separates a small cavity from the inside of the driving round box, a servo motor on the driving round box drives the multi-blade distributing wheel to rotate, and an ultrasonic sensor is arranged on a discharge cylinder. The controller receives the number of output balls input by the input device, controls the servo motor, the transverse ultraviolet disinfection lamp and the longitudinal ultraviolet disinfection lamp to be started synchronously, enables the balls in the box body to be stirred out of the discharge cylinder by the multi-blade distributing wheel, the ultrasonic sensor detects the number of the discharged balls and feeds detection signals back to the controller, and the controller stores the number data of the output balls and the output time point data into the internal database to be used as statistical data, so that an external host can conveniently call the data to perform probability theory analysis.

Description

High-capacity instrument container based on probability theory

Technical Field

The invention relates to the technical field of ball high-capacity instrument containers, in particular to a high-capacity instrument container based on probability theory.

Background

Sports is a complex social culture phenomenon, which takes physical and intellectual activities as basic means, and achieves conscious, purposeful and organized social activities of promoting overall development, improving physical quality and overall education level, enhancing physical fitness and sports ability, improving life style and improving life quality according to laws such as human growth and development, skill formation, function improvement and the like. With the expansion of international interaction, the scale and level of sports business development is an important mark for measuring the development progress of a country and a society, and becomes an important means for foreign exchange and cultural communication of the country. .

In sports, non-basketballs and soccer, which are very popular and have a large audience, have relatively large markets for table tennis, basketball and soccer, in the course of school management, the physical education course is an important measure for guaranteeing the physical exercise duration of students, the method is very critical to acquiring data of the sports of students using balls from the source, the general mode is a mode of manual statistics by teachers, the method has low efficiency and poor data transmission efficiency, is difficult to meet the requirement of regional related education management departments on high-efficiency data acquisition, according to the requirement, a ball distributing device capable of being placed in a school at a fixed point is particularly designed, so that data can be conveniently and timely acquired and analyzed, the data acquisition process also requires attention to disinfection during epidemic situations, which is a problem that must be taken into account.

Disclosure of Invention

Aiming at the existing problems, the invention provides a high-capacity instrument container based on probability theory, which is used for collecting probability statistical data of ball taking, a controller receives the number of output balls input by an input device, controls a servo motor, a transverse ultraviolet disinfection lamp and a longitudinal ultraviolet disinfection lamp to be started synchronously, completes disinfection, enables the balls in a box body to be stirred out of a discharge cylinder by a multi-blade distribution wheel, an ultrasonic sensor detects the number of the discharged balls and feeds detection signals back to the controller, and the controller stores the number data of the output balls and output time point data into an internal database to be used as statistical data, so that an external host can conveniently call and perform probability theory analysis and use, and meanwhile, the personal safety of a user in the process of obtaining probability theory analysis data can be ensured in an epidemic situation.

The technical scheme of the invention is as follows:

the invention provides a high-capacity instrument container based on probability theory, which comprises a bearing rack, a box body and a box cover, wherein the box body is arranged on the bearing rack, the upper end of the box body is provided with the box cover, the lower end of the box body is a conical bottom cover with an inverted conical shell structure, the lower end of the conical bottom cover is provided with a guide-out barrel extending downwards in an inclined way, the lower end of the guide-out barrel is provided with a driving round box, the part of the lower side of the driving round box, which is close to the guide-out barrel, is provided with a discharge barrel extending downwards in an inclined way, the part of the circumferential side wall of the driving round box, which is far away from the guide-out barrel and the discharge barrel, is provided with a longitudinal ultraviolet disinfection lamp, the part of the vertical side wall of the driving round box, which is far away from the guide-out barrel and the discharge barrel, is eccentrically provided with a transverse ultraviolet disinfection lamp, the axis of, the small cavities correspondingly accommodate balls entering the driving round box from the box body through the guide-out barrel one by one, a servo motor is arranged in the center of the side wall of the driving round box, a main shaft of the servo motor extends into the driving round box and is connected and driven with a driving shaft of the multi-blade material distribution wheel, an ultrasonic sensor is arranged on the inner wall of the upper side of the discharge barrel, the ultrasonic sensor, the servo motor, the transverse ultraviolet disinfection lamp and the longitudinal ultraviolet disinfection lamp are respectively and electrically connected with a controller on the bearing rack, an input device is arranged on the controller, the controller receives the number of output balls input by the input device, the servo motor, the transverse ultraviolet disinfection lamp and the longitudinal ultraviolet disinfection lamp are controlled to be synchronously started, so that the balls in the box body are discharged out of the discharge barrel through the multi-blade material distribution wheel, and the ultrasonic sensor detects the number of discharged balls and feeds detection, the controller forms a closed-loop sphere number output loop, the controller stores output sphere number data and output time point data into an internal database to be used as statistical data, and an external host can conveniently call the data to perform probability theory analysis.

Furthermore, the center of the multi-blade distributing wheel is cylindrical, and the circumferential edges of the multi-blade distributing wheel are uniformly provided with plate-shaped isolating fan blades.

Further, the extension line of the central line of the longitudinal ultraviolet disinfection lamp is intersected with the axis of the multi-blade distributing wheel.

Further, the extension line of the central line of the transverse ultraviolet disinfection lamp can pass through the sphere center of the sphere.

5. The high capacity instrument container according to claim 4, wherein: the small cavity towards which the transverse ultraviolet disinfection lamp faces is different from the small cavity towards which the longitudinal ultraviolet disinfection lamp faces.

Furthermore, the lower extreme that bears the weight of the frame is the supporting leg, is equipped with the bottom plate on the supporting leg, and the bottom plate lower extreme is equipped with the universal wheel that can lock.

Furthermore, the lower sides of the discharge cylinder and the driving round box are respectively provided with a supporting upright post, the lower end of the supporting upright post is provided with a bottom supporting plate, and the bottom supporting plate is higher than the bottom plates and is respectively provided with a supporting connecting rod between each bottom plate.

Furthermore, lateral clamping strips are symmetrically arranged on two sides of the upper end of the box body close to the opening, and a box cover is horizontally embedded between the two lateral clamping strips.

Further, the input device is a touch screen.

Due to the adoption of the technology, compared with the prior art, the invention has the following specific positive beneficial effects:

the invention especially designs a closed-loop control ball discharging device for collecting probability statistical data of ball taking, the controller controls a servo motor, a transverse ultraviolet disinfection lamp and a longitudinal ultraviolet disinfection lamp to be started synchronously by receiving the number of output balls input by an input device, so as to complete disinfection, the balls in a box body are stirred out of a discharging barrel by a multi-blade distributing wheel, an ultrasonic sensor detects the discharging number of the balls and feeds detection signals back to the controller, the controller stores the data of the number of the output balls and the data of output time points into an internal database to be used as statistical data, an external host can be conveniently called to carry out probability analysis and use, and the personal safety of a user in the process of obtaining probability analysis data can be ensured in an epidemic situation.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a rear view of the present invention;

fig. 3 is a cross-sectional view at a-a in fig. 2.

In the figure: 1-side clamping strip, 2-box cover, 3-box body, 4-bearing rack, 5-controller, 6-touch screen, 7-conical bottom cover, 8-supporting leg, 9-guiding barrel, 10-transverse ultraviolet disinfection lamp, 11-discharging barrel, 12-bottom plate, 13-universal wheel, 14-supporting connecting rod, 15-bottom supporting plate, 16-cover side plate, 17-supporting upright post, 18-motor base, 19-servo motor, 20-driving round box, 21-plug sleeve, 22-longitudinal ultraviolet disinfection lamp, 23-sphere, 24-multi-blade distributing wheel and 25-ultrasonic sensor.

Detailed Description

The first embodiment is as follows:

as shown in the attached drawings 1-3, the invention provides a high-capacity apparatus container based on probability theory, which comprises a bearing frame 4, a box body 3 and a box cover 2, wherein the box body 3 is arranged on the bearing frame 4, the box cover 2 is arranged at the upper end of the box body 3, side clamping strips 1 are symmetrically arranged at two sides of the upper end of the box body 3 close to an opening, the box cover 2 is horizontally embedded between the two side clamping strips 1, the box body 3 is convenient to open and put in and recycle balls 23, the lower end of the box body 3 is a conical bottom cover 7 in an inverted conical shell structure, the lower end of the conical bottom cover 7 is provided with a guide cylinder 9 extending downwards in an inclined manner, the lower end of the guide cylinder 9 is provided with a driving round box 20, the part of the lower side of the driving round box 20, which is close to the guide cylinder 9, the part of the circumferential side wall of the driving round box 20, which is far away from the guide cylinder 9 and, the extension line of the central line of the longitudinal ultraviolet disinfection lamp 22 is intersected with the axial line of the multi-blade material distribution wheel 24, the part of the vertical side wall of the driving round box 20, which is far away from the guide cylinder 9 and the discharge cylinder 11, is eccentrically provided with the transverse ultraviolet disinfection lamp 10, the extension line of the central line of the transverse ultraviolet disinfection lamp 10 can pass through the spherical center of the sphere 23, the small cavity towards which the transverse ultraviolet disinfection lamp 10 faces is different from the small cavity towards which the longitudinal ultraviolet disinfection lamp 22 faces, the axial line of the driving round box 20 is horizontal and is internally provided with the multi-blade material distribution wheel 24, the center of the multi-blade material distribution wheel 24 is cylindrical, the circumferential edge is uniformly provided with plate-shaped isolation fan blades, the multi-blade material distribution wheel 24 divides the cavity in the driving round box 20 into a plurality of equal small cavities, the small cavities are correspondingly accommodated in the sphere 23 entering the driving round box 20 from the box 3 through the guide cylinder 9, the center of the, a servo motor 19 is arranged on a motor base 18, a main shaft of the servo motor 19 extends into a driving round box 20 to be connected and driven with a driving shaft of a multi-blade distributing wheel 24, an ultrasonic sensor 25 is arranged on the inner wall of the upper side of a discharging barrel 11, the ultrasonic sensor 25, the servo motor 19, a transverse ultraviolet disinfection lamp 10 and a longitudinal ultraviolet disinfection lamp 22 are respectively and electrically connected with a controller 5 on a bearing rack 4, a combination of a digital display screen and a keyboard or input devices such as a touch screen 6 and the like are arranged on the controller 5, the controller 5 receives the number of output spheres 23 input by the input devices to control the servo motor 19, the transverse ultraviolet disinfection lamp 10 and the longitudinal ultraviolet disinfection lamp 22 to be synchronously started, so that the spheres 23 in a box body 3 are shifted out of the discharging barrel 11 by the multi-blade distributing wheel 24, the ultrasonic sensors 25 detect the number of the spheres 23 and feed detection signals back to the controller 5, and the controller 5 forms a closed-loop with the number of spheres, and the controller 5 stores the data of the number of the output spheres 23 and the data of the output time points into an internal database to be used as statistical data, so that an external host can call the data conveniently to perform probability theory analysis.

Wherein, the lower extreme that bears frame 4 is supporting leg 8, is equipped with bottom plate 12 on the supporting leg 8, and the bottom plate 12 lower extreme is equipped with lockable universal wheel 13, and correspondingly, the downside of discharge tube 11 and drive circle box 20 is equipped with support post 17 respectively, and the lower extreme of support post 17 is equipped with bottom plate 15, and bottom plate 15 is higher than bottom plate 12 and each bottom plate 12 between be equipped with support connecting rod 14 respectively.

In order to facilitate installation of the multi-blade distributing wheel 24, the driving round box 20, the guiding barrel 9 and the discharging barrel 11 are arranged to form a guiding structure by adopting an integrated forming structure, the left side of the guiding structure is in an opening shape, a cover side plate 16 is arranged at the opening of the guiding structure, and the cover side plate 16 is fastened on the guiding structure through bolts.

By adopting the technical scheme, in order to collect probability statistical data taken by the sphere 23, a sphere 23 discharging device of closed-loop control is specially designed, the controller 5 receives the number of the output spheres 23 input by the input device, the servo motor 19 is controlled, the transverse ultraviolet disinfection lamp 10 and the longitudinal ultraviolet disinfection lamp 22 are synchronously started, the disinfection is completed, the spheres 23 in the box body 3 are stirred out of the discharging barrel 11 by the multi-leaf distributing wheel 24, the ultrasonic sensor 25 detects the number of the discharged spheres 23 and feeds detection signals back to the controller 5, the controller 5 stores the data of the number of the output spheres 23 and the data of output time points into an internal database to be used as statistical data, an external host can be conveniently called to carry out probability theory analysis, and meanwhile, the personal safety of a user in the probability analysis data acquisition process can be ensured during epidemic situations.

Certainly, for better management, the student card is generally used for debiting by swiping the student card, namely a card reader is additionally arranged on the controller 5 to read student card information, a 5G communication module is additionally arranged on the controller, and the controller is in interactive communication with a server of a local education management department through 5G communication connection, so that data can be uploaded conveniently, and management and statistics are more convenient.

Claims

1. The utility model provides a high capacity apparatus container based on probability theory, is including bearing frame, box and case lid, the box is established and is equipped with case lid, its characterized in that on bearing the frame and the upper end: the lower end of the box body is a conical bottom cover with an inverted conical shell structure, the lower end of the conical bottom cover is provided with a guide-out barrel extending downwards in an inclined mode, the lower end of the guide-out barrel is provided with a driving round box, the part, close to the guide-out barrel, of the lower side of the driving round box is provided with a discharge barrel extending downwards in an inclined mode, the part, far away from the guide-out barrel and the discharge barrel, of the circumferential side wall of the driving round box is provided with a longitudinal ultraviolet disinfection lamp, the part, far away from the guide-out barrel and the discharge barrel, of the vertical side wall of the driving round box is eccentrically provided with a transverse ultraviolet disinfection lamp, the axis of the driving round box is horizontal and internally provided with a multi-blade distributing wheel, the multi-blade distributing wheel divides a cavity in the driving round box into a plurality of equal small cavities, the small cavities correspond to balls entering the driving round box from the driving round box through the guide-out barrel one by one, the center of the side wall of the driving round, the inner wall of the upper side of the discharge cylinder is provided with an ultrasonic sensor, the servo motor, the transverse ultraviolet disinfection lamp and the longitudinal ultraviolet disinfection lamp are respectively and electrically connected with a controller on the bearing rack, the controller is provided with an input device, the controller receives the number of output spheres input by the input device, the control servo motor, the transverse ultraviolet disinfection lamp and the longitudinal ultraviolet disinfection lamp are synchronously started, so that the ball body in the box body is stirred out of the discharge cylinder by the multi-blade distributing wheel, and the ultrasonic sensor detects the number of the discharged spheres and feeds back the detection signal to the controller, so that the controller forms a closed-loop sphere number output loop, and the controller stores the data of the number of the output spheres and the data of the output time points into an internal database to be used as statistical data, so that an external host can conveniently call the data to perform probability theory analysis.

2. The high capacity instrument container according to claim 1, wherein: the center of the multi-blade distributing wheel is cylindrical, and the circumferential edges of the multi-blade distributing wheel are uniformly provided with plate-shaped isolating blades.

3. A probability theory based high volume instrument container as claimed in claim 2, wherein: the extension line of the central line of the longitudinal ultraviolet disinfection lamp is intersected with the axis of the multi-blade distributing wheel.

4. A probability theory based high volume instrument container as claimed in claim 3, wherein: the extension line of the central line of the transverse ultraviolet disinfection lamp can penetrate through the sphere center of the sphere.

6. The high capacity instrument container according to claim 5, wherein: the lower extreme of bearing the frame is the supporting leg, is equipped with the bottom plate on the supporting leg, and the bottom plate lower extreme is equipped with the universal wheel that can lock.

7. The high capacity instrument container according to claim 6, wherein: the lower sides of the discharge cylinder and the driving round box are respectively provided with a supporting upright post, the lower end of the supporting upright post is provided with a bottom supporting plate, and the bottom supporting plate is higher than the bottom plates and is respectively provided with a supporting connecting rod between each bottom plate.

8. The high capacity instrument container according to claim 7, wherein: lateral clamping strips are symmetrically arranged on two sides of the upper end close to the opening of the box body, and a box cover is horizontally embedded between the two lateral clamping strips.

9. The high capacity instrument container according to claim 8, wherein: the input device is a touch screen.