CN210324253U - Cabinet and material storage information monitoring system - Google Patents

Abstract

The utility model is suitable for the internet field, and provides a cabinet and a material storage information monitoring system, which comprises a cabinet body and a cabinet door, wherein each material is provided with a material two-dimensional code containing the unique identification information of the material; the rack still includes: the U-position two-dimensional code comprises a plurality of U-position unique identification information, wherein each U-position is used for storing materials and is provided with a corresponding U-position two-dimensional code containing the unique identification information of the U-position; each U position is provided with a plurality of key modules for representing the current use state of the U position; the controller is in wired connection with all the key modules of all the U bits and receives the state signals output by the key modules; and the communication module is in wired connection with the controller and forwards the state signal of the key module to external monitoring equipment. Adopt the utility model discloses realize that the whole process that the information management was deposited to the goods and materials need not manual registration, and information passes through network transmission and wire transmission, does not receive electromagnetic interference, and is accurate quick, only need set up two-dimensional code and general yard procedure of sweeping moreover, and the cost is also lower.

Description

Cabinet and material storage information monitoring system

Technical Field

The utility model belongs to the internet field especially relates to a rack and goods and materials deposit information monitoring system.

Background

With the rapid development of internet technology, the number of materials such as servers used by various internet companies is increasing, and meanwhile, the monitoring and management of the servers are also more and more important.

Generally, when monitoring materials, the information of the materials placed in each U-position of the cabinet needs to be collected, and then the related information is monitored and managed. The management methods used at present mainly include the following:

1. the manual registration of the storage information of the materials is adopted, so that the speed is low, the error is easy to make, and the time and the labor are wasted.

2. And the wireless radio frequency module is used for sending the storage information of each material to the monitoring equipment through the card reader. In practical application, because the cabinet has more materials and serious electromagnetic interference, the card reader often has the condition of misreading or unreadable information, so that the accuracy of the acquired information is reduced, and in addition, the mode needs to arrange a radio frequency module in each U position of the cabinet, so the manufacturing cost is high.

3. Set up electronic tags and transmitter respectively on the goods and materials and rack that deposit, adopt wired connection between electronic tags and the transmitter, through the transmitter with the information transmission of depositing of goods and materials for supervisory equipment, this kind of wired connection's mode though can avoid electromagnetic interference, the rate of accuracy obtains promoting, still all sets up the transmitter in every U position of rack, and is same cost not very.

In a word, the existing management modes of storing information of several materials are not ideal and need to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve realizes the accurate management of material deposit information for how with low cost's mode.

In order to solve the technical problem, in a first aspect, the utility model provides a cabinet, which comprises a cabinet body and a cabinet door, wherein the cabinet body is used for storing materials, and each material is provided with a material two-dimensional code containing unique identification information of the material; the cabinet further includes: the U-position two-dimensional code comprises a plurality of U-position unique identification information, wherein each U-position is used for storing materials and is provided with a corresponding U-position two-dimensional code containing the unique identification information of the U-position; each U bit is provided with a plurality of key modules for representing the current use state of the U bit, and each key module outputs a corresponding state signal when being pressed; the controller is in wired connection with all the key modules of all the U bits and receives the state signals output by the key modules; and the communication module is in wired connection with the controller and forwards the state signal of the key module to external monitoring equipment.

Furthermore, each key module on each U position has different colors and has corresponding character marks.

Further, each U-bit two-dimensional code is directly sprayed on the U bit of the corresponding U-bit.

Furthermore, each U-bit two-dimensional code is attached to a base material, and the base materials are attached to the respective U bit.

Furthermore, each U position is also provided with an alarm module connected with the controller; and the controller triggers the alarm module to alarm when receiving an alarm instruction of the external monitoring equipment.

Further, the cabinet further includes: the door magnet is arranged on the cabinet door, connected with the controller and used for detecting the opening and closing state of the cabinet door; the infrared detection module is arranged on the cabinet door, connected with the controller and used for detecting whether a person is outside the cabinet door; the short message alarm module is connected with the controller and sends an alarm short message to a designated number after receiving an alarm instruction of the controller; the controller sends an alarm instruction to the short message alarm module when the infrared detection module detects that no person is outside the cabinet door and the door magnet detects that the cabinet door is opened.

Further, the cabinet further includes: the automatic door closer is arranged outside the cabinet door and is controlled by the controller to execute an automatic door closing action; the controller is used for controlling the automatic door closer to execute an automatic door closing action when the infrared detection module detects that no person is outside the cabinet door and the door magnet detects that the cabinet door is opened.

Further, the automatic door closer includes: the upright post is arranged on the outer side of the cabinet door; the guide rail is arranged on the upright post along the direction vertical to the opened cabinet door; a slider slidable on the guide rail; the power device is connected with the controller and drives the sliding piece to slide on the guide rail towards the direction of the cabinet door after receiving a door closing instruction of the controller; the controller is in the infrared detection module detects that no people are outside the cabinet door, and sends a door closing instruction when the door magnetism detects that the cabinet door is opened.

In a second aspect, the utility model also provides an information monitored control system is deposited to goods and materials, include: the cabinet of the first aspect; monitoring equipment; and the code scanning device scans the U-bit two-dimensional code and the material two-dimensional code through a built-in code scanning program and sends the U-bit two-dimensional code and the material two-dimensional code to the monitoring device through a network.

Further, when detecting that the original monitoring information of the U-bit two-dimensional code sent by the code scanning device is not matched with the received state signal of the key module, the monitoring device generates and outputs an alarm signal.

The utility model provides a rack is applicable to depositing of the goods and materials that have the goods and materials two-dimensional code, through setting up the U position two-dimensional code that corresponds to every U position, through scanning code terminal scanning U position two-dimensional code and goods and materials two-dimensional code and passing through network transmission to supervisory equipment when depositing to with the state transmission of the corresponding button module that is triggered of this U position to supervisory equipment, make supervisory equipment can clearly master the information of depositing of goods and materials, so that carry out corresponding information processing. The whole process does not need manual registration, information is transmitted through a network and a wire, electromagnetic interference is avoided, accuracy and rapidness are achieved, and in addition, only two-dimensional codes and a general code scanning program need to be used, other hardware equipment does not need to be configured, and the cost is also lower.

Drawings

Fig. 1 is a structural diagram of a cabinet provided by the present invention;

fig. 2 is a schematic layout diagram of a key module on a U position of a cabinet provided by the present invention;

fig. 3 is a circuit structure diagram of another cabinet provided by the present invention;

fig. 4 is an architecture diagram of the material storage information monitoring system provided by the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Fig. 1 shows the utility model provides a structure of rack, this rack are used for depositing the goods and materials, and this goods and materials can be for all kinds of goods and materials that need the control, not only can be all kinds of frames, servers in the IT enterprise, also can be inventory commodity, equipment in the manufacturing type enterprise, all kinds of books that library was collected or all kinds of collections etc to, be equipped with the goods and materials two-dimensional code that contains the only identification information of this goods and materials on this goods and materials. This rack includes the cabinet body, cabinet door, a plurality of U position 1, controller 2 and the communication module 3 that are used for depositing the goods and materials, is equipped with corresponding U position two-dimensional code 11 on every U position 1, and this U position two-dimensional code 11 contains the only identification information of this U position.

Each U bit 1 is provided with a plurality of key modules for representing the current use state of the U bit, each key module outputs a corresponding state signal when being pressed, fig. 1 shows a first key module 121, a second key module 122 and a third key module 123, which respectively represent three states of 'moving away', 'moving away' and 'canceling' of materials, and each key module outputs a corresponding state signal when being pressed. For example, when a material needs to be stored in a certain U-position, the first key module 121 is pressed, and the first key module 121 generates a status signal indicating that the material is "moved away"; when the materials stored in a certain U position need to be taken away, the second key module 122 is pressed, and the first key module 122 generates a state signal indicating that the materials are moved away; when the user needs to cancel the material after the material is placed or taken away from a certain U position, the third key module 123 is pressed, the third key module 123 generates a status signal indicating the operation before the cancellation, and the previous state signal of 'move-to' or 'move-away' is cancelled.

The controller 2 is connected with all the key modules of the U bit 1 in a wired mode and receives state signals output by the key modules. The communication module 3 is connected with the controller 2 through a wire, and the state signal of the key module is transmitted to the external monitoring equipment, so that the external monitoring equipment can manage the material storage condition on the U position 1.

Each key module on each U bit 1 has a corresponding text label, which is convenient for the operation of the operation and maintenance personnel to recognize, for example, in fig. 2, a label "move" is marked beside the first key module 121, a label "move" is marked beside the second key module 122, and a label "cancel" is marked beside the third key module 123. The key modules can be further made into different colors, so that the operation and maintenance personnel can recognize the key modules more easily and can not be confused.

The U-bit two-dimensional code 11 on each U bit 1 can be directly sprayed on the respective U bit, and can also be attached to base materials such as paper, plastic, metal and the like, and then the base materials are pasted on the respective U bit.

Further, as shown in fig. 3, each U bit 1 is further provided with an alarm module 41, the alarm module 41 is connected to the controller 2, and the controller 2 triggers the alarm module 41 to alarm when receiving an alarm instruction from an external monitoring device.

Consider the condition that operation and maintenance personnel probably have after maintaining forgetting to close the cabinet door in the reality scene, the utility model provides a rack still includes door magnetism 42, infrared detection module 43 and SMS warning module 44, and door magnetism 42 is installed on the cabinet door and is connected with controller 2 for detect cabinet door on-off state. The infrared detection module 43 is installed on the cabinet door and connected with the controller 2, and is used for detecting whether a person exists outside the cabinet door. The short message alarm module 44 is connected to the controller 2, and sends an alarm short message to a designated number after receiving an alarm instruction from the controller 2, where the designated number may be the number of an operation and maintenance worker or the number of a system administrator. The controller 2 sends an alarm instruction to the short message alarm module 44 when the infrared detection module 43 detects that no person is outside the cabinet door and the door magnet 41 detects that the cabinet door is opened.

Further, after sending the warning short message, the automatic door closing can be realized, the cabinet further comprises an automatic door closer 45, the automatic door closer 45 is installed outside the cabinet door, and the automatic door closing action is executed under the control of the controller 2. The controller 2 controls the automatic door closer 45 to perform an automatic door closing action when the infrared detection module 43 detects that no person is outside the cabinet door and the door magnet 41 detects that the cabinet door is opened.

The utility model discloses in, automatic door closer 45 can adopt following mode to realize: place a stand in the cabinet door outside, set up a guide rail along the direction perpendicular to the cabinet door of opening on the stand, have one on the guide rail and can be under the power device drive at gliding slider on the guide rail, controller 2 detects that the cabinet is outer unmanned at infrared detection module 43, and sends the instruction of closing the door when door magnetism 41 detects the cabinet door and opens, slide to the direction of cabinet door with the drive slider of this power device of control to can exert a thrust to the cabinet door and realize closing the door automatically. Of course, the automatic door closer 45 can be implemented by other methods in the prior art, and is not limited in particular.

The utility model also provides a goods and materials deposit information monitoring system, as shown in figure 4, include as above the rack, be used for depositing all kinds of goods and materials that have goods and materials two-dimensional code 5 in the rack, still include supervisory equipment 6 and sweep a yard equipment 7, sweep yard equipment 7 through the built-in yard procedure of sweeping scan U bit two-dimensional code 11 and goods and materials two-dimensional code 5 and through network transmission to supervisory equipment 6.

With reference to fig. 1 to 4, the monitoring device 6 prestores location information of each cabinet, all U-bit two-dimensional codes of each cabinet, location information of U-bit 1 corresponding to each U-bit two-dimensional code in the cabinet, material two-dimensional codes of each material, and article information of the material itself, and the monitoring device 6 manages the material by using the stored material two-dimensional codes of the material, such as automatically checking, calculating the vacancy rate of the cabinet by calculating the number of U-bits in the cabinet and the number of used U-bits, calculating the asset residual value of the material and the monitoring period according to the production date of the stored material.

During specific work, an operator firstly utilizes the code scanning device 7 to scan the U-bit two-dimensional code of the code target U bit and sends the U-bit two-dimensional code to the monitoring device 6, so that the monitoring device 6 determines the position of the current U bit firstly, then utilizes the code scanning device 7 to scan the material two-dimensional code of the target material and sends the material two-dimensional code to the monitoring device 6, and finally presses the corresponding key module on the target U bit, and the controller 2 sends the key state information to the monitoring device 6.

Further, if the monitoring device 6 detects that the original monitoring information of the U-bit two-dimensional code 11 sent by the code scanning device 7 is not matched with the received status signal of the key module, an alarm signal is generated and output. For example, when an operation and maintenance person scans a certain U-bit two-dimensional code and a certain material two-dimensional code in sequence through the code scanning terminal and sends the U-bit two-dimensional code and the certain material two-dimensional code to the monitoring device 6, and then sends a 'moving' status signal to the monitoring device 6 through the key module on the U-bit, if the monitoring device finds that the material corresponding to the material two-dimensional code is originally stored on the U-bit, it can be determined that the status signal of the key module is wrong, at this moment, an alarm signal is generated to the controller 2, and the controller 2 triggers the alarm module 41 to alarm. For another example, when a user stores or takes a large amount of materials at one time, the user needs to scan the codes continuously, and the condition of scanning the codes by mistake may occur, and an alarm signal is generated to trigger an alarm for the controller 2.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A cabinet comprises a cabinet body and a cabinet door and is used for storing materials and is characterized in that each material is provided with a material two-dimensional code containing unique identification information of the material; the cabinet further includes:

the U-position two-dimensional code comprises a plurality of U-position unique identification information, wherein each U-position is used for storing materials and is provided with a corresponding U-position two-dimensional code containing the unique identification information of the U-position; each U bit is provided with a plurality of key modules for representing the current use state of the U bit, and each key module outputs a corresponding state signal when being pressed;

the controller is in wired connection with all the key modules of all the U bits and receives the state signals output by the key modules;

and the communication module is in wired connection with the controller and forwards the state signal of the key module to external monitoring equipment.

2. The cabinet of claim 1, wherein the key modules on each U-site have different colors and have corresponding textual labels.

3. The cabinet of claim 1, wherein each of the U-site two-dimensional codes is painted directly on a respective U-site.

4. The cabinet of claim 1, wherein each of the U-site two-dimensional codes is attached to a substrate, and the substrate is attached to the respective U-site.

5. The cabinet of claim 1, wherein each U-site is further provided with an alarm module connected with the controller;

and the controller triggers the alarm module to alarm when receiving an alarm instruction of the external monitoring equipment.

6. The cabinet of claim 1, further comprising:

the door magnet is arranged on the cabinet door, connected with the controller and used for detecting the opening and closing state of the cabinet door;

the infrared detection module is arranged on the cabinet door, connected with the controller and used for detecting whether a person is outside the cabinet door;

the short message alarm module is connected with the controller and sends an alarm short message to a designated number after receiving an alarm instruction of the controller;

the controller sends an alarm instruction to the short message alarm module when the infrared detection module detects that no person is outside the cabinet door and the door magnet detects that the cabinet door is opened.

7. The cabinet of claim 6, further comprising:

the automatic door closer is arranged outside the cabinet door and is controlled by the controller to execute an automatic door closing action;

the controller is used for controlling the automatic door closer to execute an automatic door closing action when the infrared detection module detects that no person is outside the cabinet door and the door magnet detects that the cabinet door is opened.

8. The cabinet of claim 7, wherein the automatic door closer comprises:

the upright post is arranged on the outer side of the cabinet door;

the guide rail is arranged on the upright post along the direction vertical to the opened cabinet door;

a slider slidable on the guide rail;

the power device is connected with the controller and drives the sliding piece to slide on the guide rail towards the direction of the cabinet door after receiving a door closing instruction of the controller;

the controller is in the infrared detection module detects that no people are outside the cabinet door, and sends a door closing instruction when the door magnetism detects that the cabinet door is opened.

9. A material storage information monitoring system, comprising:

the cabinet of any one of claims 1 to 8;

monitoring equipment;

and the code scanning device scans the U-bit two-dimensional code and the material two-dimensional code through a built-in code scanning program and sends the U-bit two-dimensional code and the material two-dimensional code to the monitoring device through a network.

10. The material storage information monitoring system according to claim 9, wherein the monitoring device generates and outputs an alarm signal when detecting that the original monitoring information of the U-bit two-dimensional code sent by the code scanning device is not matched with the received status signal of the key module.

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