CN210392406U - Control system of intelligent storage equipment - Google Patents

Abstract

The utility model relates to a control system of intelligence storage equipment, this intelligence storage equipment has a plurality of work or material rest, each work or material rest has a plurality of material casket that are used for depositing the material, and this control system has system server and a plurality of controlling means, controlling means sets up respectively on each work or material rest, and controlling means is connected with system server, utilize the controlling means that sets up on each work or material rest, trigger controlling means when letting the material business turn over material casket, and controlling means conveys system server with material casket position, thereby make system server bind this material casket position and material information and store in the lump, except that the person of facilitating the use carries out the blowing and gets the operation of material, more can arbitrary change work or material rest and material casket's specification and position, and expand or reduce to the quantity of work or material rest and material casket.

Description

Control system of intelligent storage equipment

Technical Field

The present invention relates to a control system for an intelligent material storage device, and more particularly to a control system for an intelligent material storage device with real-time material data recording and related information and position accessing functions.

Background

In the surface adhesion process of the current industrial production, the management of the surface adhesion material can not be effectively connected with the enterprise resource management system in real time, so that blind spots and error areas are generated in the resource management, and the actual stock condition can not be effectively controlled. The existing material warehouse is managed manually, operators must judge the warehouse position and take materials by themselves, the management of first-in first-out and excess materials is difficult to practice effectively, and material rolls are often lost due to overdue materials due to lack of efficient systematic management. And when the material is picked up by the traditional manual work with paper book guide, the speed is slow, the efficiency is low, and the mistake of picking up wrong material is easy to happen. Therefore, the chinese patent publication No. CN107054966A "intelligent warehousing system" mainly uses a code scanning device to input the warehouse location and the bar code set on the material when the material is placed in the warehouse location, and further input the bar code into a data processing terminal for management, but this method has the following disadvantages:

firstly, because the position of the library position bar code must be the same as the position recorded by the data processing terminal, when the library position is expanded, reduced or changed, the data in the data processing terminal needs to be changed, which is not only inconvenient for users, but also is easy to make mistakes when the library position is changed manually.

Secondly, after the user must arrive at the storage location, the user inputs the information of the storage location, material taking or feeding, etc. by the code scanning device, and then the information is transmitted back to the data processing terminal, which causes inconvenience in use. Therefore, how to solve the above problems is an issue to be researched by the industry related companies.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at utilizes the controlling means who sets up on each work or material rest and the material casket, triggers controlling means when letting the material business turn over material casket, and controlling means will expect that the casket position conveys system server to make system server bind this material casket position and material information in the lump and store, except that the person of facilitating the use carries out the blowing and gets the operation of material, more can arbitrary change work or material rest and material casket's specification and position to and expand or reduce to the quantity of work or material rest and material casket.

In order to achieve the above object, the utility model discloses intelligence storage equipment's control system has a plurality of work or material rest, and each work or material rest has a plurality of material casket that are used for depositing the material, and this control system has system server and a plurality of controlling means, and controlling means sets up respectively on each work or material rest, and controlling means is connected its characterized in that with system server: the control device is provided with a microprocessor, a communication connection port, a plurality of detectors and a plurality of indicators, wherein the communication connection port is connected with the microprocessor, each communication connection port is connected with a system server, the microprocessor is provided with an identification code and a plurality of groups of signal connection ports, each signal connection port is provided with a connection port address, an output port and an input port, the detectors are respectively connected with the input ports of the signal connection ports, the indicators are respectively connected with the output ports of the signal connection ports, and the detectors and the indicators connected with the signal connection ports are respectively positioned at the material boxes of the material rack.

The control system of the intelligent material storage equipment comprises a microprocessor, and a communication connector, an input device and a storage device which are connected with the microprocessor, wherein communication connection ports of the control devices are arranged on two sides of the material racks, when the material racks are arranged, the control devices are mutually connected through the communication connection ports to form a control device group, and the communication connection port of one control device is connected with the communication connector of the system server.

The control system of the intelligent material storage equipment is characterized in that the microprocessor of the system server is further connected with a display and an alarm.

The control system of the intelligent material storage equipment comprises a plurality of groups of control devices, wherein the communication connectors of the system server are provided with a change-over switch, the change-over switch is connected with a plurality of communication connecting parts, and each communication connecting part is connected with the communication connecting port of one control device in each control device group.

Drawings

Fig. 1 is the utility model discloses intelligent storage equipment's control system's block diagram.

Fig. 2 is a block diagram of the control system microprocessor of the present invention.

Fig. 3 is the utility model discloses intelligent storage equipment work or material rest's three-dimensional outward appearance.

Fig. 4 is the utility model discloses intelligent storage equipment work or material rest is the perspective appearance of visual angle again.

Fig. 5 is the utility model discloses the connection schematic diagram of intelligent storing equipment work or material rest.

Fig. 6 is the utility model discloses intelligent storage equipment work or material rest's use schematic diagram.

Fig. 7 is a flowchart of the present invention when it is activated.

Fig. 8 is a flow chart of the present invention when placing material.

Fig. 9 is a flow chart of the present invention when taking material.

Fig. 10 is a block diagram of a preferred embodiment of the control system of the present invention.

Description of the reference numerals

1. System server 11, microprocessor

12. Communication connector 121, change-over switch

122. Communication connecting part 13 and input device

14. Storage device 15 and display

16. Warning indicator 2 and material rack

21. Material box 3 and control device

31. Microprocessor 311, identification code

312. Signal connection port 313, connection port address

314. Output port 315 and input port

32. Communication connection port 33, detector

34. Indicator A, material.

Detailed Description

To achieve the above objects, the present invention provides a technical means and its effects, which are described in the following with reference to the accompanying drawings:

first, please refer to fig. 1 to fig. 6, as can be clearly seen from the drawings, the present invention is provided with a system server 1, a plurality of material racks 2, and a control device 3 disposed on each material rack 2, wherein:

the system server 1 has a microprocessor 11, and a communication connector 12, an input device 13, a storage device 14, a display 15 and an alarm 16 connected to the microprocessor 11, wherein the input device 13 may be a keyboard, a barcode scanner, etc.

The material rack 2 is provided with a plurality of material boxes 21, and the material boxes 21 can be designed into various specifications.

The control device 3 has a microprocessor 31, a communication connection port 32, a plurality of detectors 33 and a plurality of indicators 34, the communication connection port 32 is connected to the microprocessor 31, each communication connection port 32 is connected to the system server 1, the microprocessor 31 has an identification code 311 and a plurality of signal connection ports 312, each signal connection port 312 has a connection port address 313, an output port 314 and an input port 315, the plurality of detectors 33 are respectively connected to the input ports 315 of the signal connection ports 312, the plurality of indicators 34 are respectively connected to the output ports 314 of the signal connection ports 312, and the detectors 33 and the indicators 34 connected to the signal connection ports 312 are respectively located at the magazines 21 of the rack 2.

Furthermore, the communication connection ports 32 of the control devices 3 are disposed on two sides of the stacks 2, so that when a plurality of stacks 2 are arranged, the control devices 3 are connected to each other through the communication connection ports 32 to form a control device group, and the communication connection port 32 of one of the control devices 3 is connected to the communication connector 12 of the system server 1.

Referring to fig. 1 to 7, it can be clearly seen that, after the present invention is set up, the preparation before use is performed according to the following steps:

step 10: and starting.

Step 11: the system server 1 acquires the identification code 311 of each control device 3 and the connection port address 313 belonging to the identification code 311 through the communication connector 12.

Step 12: the system server 1 stores each identification code 311 and the connection port address 313 belonging to the identification code 311 in the storage device 14.

Thus, the system server 1 can define the positions of all the magazines 21.

Referring to fig. 1 to 6 and 8, it can be clearly seen that when the user stores the material a in the magazine 21, the following steps are performed:

step 20: and starting.

Step 21: the system server 1 searches for the identification code 311 and the connection port address 313 of the storage device 14 without containing the material A data.

Step 22: the system server 1 sends the material placing command to the control device 3 which does not include the identification code 311 and the connection port address 313 of the material A data, so that the control device 3 belonging to the identification code 311 receives the material placing command and then operates the indicator 34 connected with the connection port address 313.

Step 23: the user inputs the data of the material A to be placed into the system server 1 through the input device 13, and places the material A into the magazine 21 where the indicator 34 operates. When the material a is placed in the magazine 21, the detector 33 at the magazine 21 is triggered, so that the control device 3 transmits the material feeding signal together with the identification code 311 of the control device 3 and the connection port address 313 of the triggered detector 33 to the system server 1.

Step 24: when the system server 1 receives the material feeding signal, it first compares the identification code 311 and the connection port address 313 associated with the material feeding signal, and if there is the same identification code 311 and connection port address 313 when sending the material setting command? If yes, go to step 25; if not, go to step 26.

Step 25: the system server 1 stores the data of the material a inputted by the user into the storage device 14, which is the same as the identification code 311 and the connection port address 313 associated with the material feeding signal, to complete the material feeding operation.

Step 26: the system server 1 makes the alarm 16 work and sends the alarm signal to the control device 3 associated with the identification code 311 and the connection port address 313 of the material feeding signal, so that the control device 3 makes the indicator 34 associated with the connection port address 313 work to instruct the user to put the material a into the material box 21 again, and step 24 is executed.

Referring to fig. 1 to 6 and 9, it can be clearly seen that when the user takes the material a out of the magazine 21, the following steps are performed:

step 30: and starting.

Step 31: the user inputs the data of the material A to be taken into the system server 1 through the input device 13.

Step 32: the system server 1 searches the identification code 311 and the connection port address 313 of the material a data input by the user in the storage device 14, and sends a material fetching instruction to the control device 3 to which the identification code 311 belongs, so that the control device 3 enables the indicator 34 to which the connection port address 313 belongs to operate.

Step 33: the user takes out the material A from the material box 21 where the indicator 34 is located according to the indicator 34 of the work, and the detector 33 works when the material A is taken out, so that the control device 3 transmits the material taking signal together with the identification code 311 of the control device 3 and the address 313 of the connection port to which the detector 33 belongs to the system server 1.

Step 34: when the system server 1 receives the material-taking signal, it compares the identification code 31 and the connection port address 313 associated with the material-taking signal, and if there is the same identification code 311 and connection port address 313 when sending the material-taking command? If yes, go to step 35; if not, go to step 36.

Step 35: the system server 1 clears (or extracts the mark for) the material a data in the storage device 14, which is the same as the identification code 311 and the connection port address 313 associated with the material-taking signal, so that the material cartridge 21 in which the identification code 311 and the connection port address 313 are located can be loaded with the material a again.

Step 36: the system server 1 activates the alarm 16 and sends an alarm signal to the control device 3 associated with the identification code 311 and the connection port address 313 of the material-taking signal, so that the control device 31 activates the indicator 34 associated with the connection port address 313 to instruct the user to take out the material a from the magazine 21 again, and execute step 34.

To sum up, the utility model discloses a can solve prior art not enough and defect to can promote the efficiency, its key technology lies in:

the detectors 33 and the indicators 34 connected to the signal connection ports 312 of the control device 3 are respectively disposed on different magazines 21, and the positions of the magazines 21 are defined by the identification codes 311 of the microprocessor 31 and the connection port addresses 313 of the signal connection ports 312, so that the control devices 3 can be connected to the system server 1 after being connected to each other through the communication connection ports 32, and the material rack 2 and the magazines 21 can be arbitrarily increased, decreased or moved without limitation.

When the material A is put into or taken out of the material box 21, the indicator 34 indicates the position of the material box 21 so as to facilitate the use of a user, and when the material A is put into the material box 21, the user can put the material box 21 into which the indicator 34 works, and the system server 1 judges the correct position of the material A put into the material box 21 according to a feeding signal transmitted by the detector 33 when the material A is put into the material box 21, so that the material A is more convenient for the use of the user, and the error can be prevented.

Thirdly, the user inputs the data of the material A to be placed into the system server 1 through the input device 13, and the material A can be placed into any empty material box 21 at will (without specification). When the material a is placed in the material box 21, the detector 33 at the material box 21 is triggered, so that the control device 3 transmits the material feeding signal together with the identification code 311 of the control device 3 and the connection port address 313 of the triggered detector 33 to the system server 1, and the system server 1 binds and stores the position of the material box 21 and the material a information, so as to facilitate the user to discharge the material.

Furthermore, the indicator 34 of the control device 3 is a light indicator, in this embodiment, a multi-color LED is used as the indicator 34, and different light source colors can represent different states, for example: when the material a is to be stored in the material box 21, the material placing instruction sent by the system server 1 is to make the indicator 34 send out a green light source, and when the material a is to be taken out from the material box 21, the material taking instruction sent by the system server 1 is to make the indicator 34 send out a blue light source, when an error occurs when the material a is stored or taken out from the material box 21, the warning signal sent by the system server 1 is to make the indicator 34 send out a red light source, so that a user can conveniently distinguish. The detector 33 can be an infrared detector, a magnetic switch or a micro switch, and the display 15 can display the identification code 311 and the connection port address 313 stored in the storage device 14, and the status of the identification code 311 and the connection port address 313.

Referring to fig. 10, it can be clearly seen that the difference between the preferred embodiment of the control system of the present invention and the previous embodiment is that the communication connector 12 of the system server 1 is provided with the switch 121, the switch 121 is connected to a plurality of communication connection portions 122, that is, the material taking command, the material placing command and the position of the material box 21 (see fig. 6) are defined, and the channel of the switch 121 is increased, so that the identification code 311 of the control device 3 connected to different communication connection portions 122 on the switch 121 can be reused, and the storage quantity of the material rack 2 and the material a (see fig. 6) can be greatly increased. Furthermore, the control device sets are arranged in multiple groups, and each communication connection portion 122 is connected to the communication connection port 32 of one of the control devices 3 of each control device set, so as to further increase the storage quantity of the material racks 2 and the materials a (see fig. 6).

The above-described embodiments are merely illustrative, and not restrictive, and various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the invention, which is intended to be encompassed by the following claims.

Claims (4)

1. The utility model provides a control system of intelligence storage equipment, this intelligence storage equipment has a plurality of work or material rest, and each this work or material rest has a plurality of magazine that are used for depositing the material, and this control system has system server and a plurality of controlling means, and each this controlling means sets up respectively on each this work or material rest, and each this controlling means is connected with this system server, its characterized in that:

each control device is provided with a microprocessor, a communication connection port, a plurality of detectors and a plurality of indicators, the communication connection port is connected with the microprocessor, the communication connection port is connected with the system server, the microprocessor is provided with an identification code and a plurality of groups of signal connection ports, each signal connection port is provided with a connection port address, an output port and an input port, each detector is respectively connected with the input port of each signal connection port, each indicator is respectively connected with the output port of each signal connection port, and the detector and the indicator which are connected with each signal connection port are respectively positioned at each material box of the material rack.

2. The control system of intelligent storage equipment according to claim 1, wherein the system server has a microprocessor, and a communication connector, an input device and a storage device connected with the microprocessor; the communication connection ports of the control devices are arranged on two sides of the material rack, when a plurality of material racks are arranged, the control devices are mutually connected through the communication connection ports to form a control device group, and the communication connection port of one control device is connected to the communication connector of the system server.

3. The control system of intelligent stocker of claim 2, wherein the microprocessor of the system server is further connected to a display and an alarm.

4. The control system of intelligent storage equipment according to claim 2, wherein the control device groups are arranged in multiple groups, the communication connector of the system server is provided with a switch, the switch is connected with a plurality of communication connection portions, and each communication connection portion is connected to the communication connection port of one of the control devices in each control device group.

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