CN220866273U - Electronic goods shelf - Google Patents

Abstract

The utility model discloses an electronic goods shelf, which relates to the technical field of material storage and comprises a goods shelf body, a storage box and a plurality of display lamps, wherein the goods shelf body is provided with a containing groove for placing a workpiece and a plurality of display lamps positioned in the containing groove; the control assembly is electrically connected with the indicator lamp; the scanning assembly is electrically connected with the control assembly and is used for enabling the control assembly to control the working state of the corresponding indicator lamp after the identification code of the workpiece is read; the workpiece determining component is electrically connected with the control component and is used for enabling the control component to determine a workpiece corresponding to the vehicle type and controlling the working state of the corresponding indicator lamp after acquiring the vehicle type information; the induction sensor is used for identifying whether a workpiece is placed in the accommodating groove corresponding to the induction sensor or whether the workpiece is taken out of the accommodating groove, so that the control assembly turns off the corresponding indicator lamp according to the third indication signal. Above-mentioned electronic goods shelves make things convenient for the staff to take and place the work piece on electronic goods shelves, reduce staff's error rate, improve staff's work efficiency.

Description

Electronic goods shelf

Technical Field

The utility model relates to the technical field of material storage, in particular to an electronic goods shelf.

Background

A goods shelf is a device for storing goods commonly used at present; in the production process of an automobile assembly line, the vehicle model on the assembly line is replaced at random, so that workpieces with different specifications are required to be stored in the same station by using a shelf to facilitate processing or assembly, such as bolts with different specifications.

The staff can lead to the spare part of taking out to lead to the processing mistake with the spare part of needs because of various reasons when getting the spare part on the work or material rest mostly, therefore the staff need look over the nameplate information of relevant spare part when taking the spare part, in order to prevent to take wrong, and then above-mentioned operation can lead to assembly efficiency slow, in addition, current goods shelves are when placing the spare part, need find corresponding check groove and place corresponding spare part, so the staff seeks corresponding check groove extravagant a large amount of time, in sum, current goods shelves are inconvenient for the staff to take and place the work piece.

Therefore, how to provide an electronic shelf for a worker to conveniently take and place workpieces on the electronic shelf is a technical problem that needs to be solved by those skilled in the art.

Disclosure of utility model

The utility model aims to provide an electronic goods shelf, which is convenient for workers to take and place workpieces on the electronic goods shelf, reduces the error rate of the workers and improves the working efficiency of the workers.

In order to achieve the above object, the present utility model provides an electronic shelf, including a shelf body, the shelf body is provided with a plurality of accommodating grooves for accommodating workpieces, and further includes:

A plurality of indicator lights positioned in the accommodating groove;

the control assembly is electrically connected with the indicator lamp;

the scanning component is electrically connected with the control component and is used for sending a first indication signal to the control component after reading the identification code of the workpiece so that the control component controls the working state of the corresponding indicator lamp according to the first indication signal;

the workpiece determining component is electrically connected with the control component and is used for sending a second indication signal to the control component after acquiring the vehicle type information so that the control component determines the workpiece corresponding to the vehicle type according to the second indication signal and controls the working state of the corresponding indicator lamp;

the induction sensor is positioned at the opening of the accommodating groove and used for identifying whether the workpiece is placed in or taken out of the accommodating groove corresponding to the induction sensor, and when the workpiece is placed in or taken out of the accommodating groove, the induction sensor sends a third indication signal to the control assembly so that the control assembly can close the corresponding indicator lamp according to the third indication signal.

Preferably, the electronic shelf further includes an alarm assembly electrically connected to the control assembly, when the indicator lamp is in a turned-on state, the induction sensor in the receiving slot corresponding to the indicator lamp after the turned-on state does not sense that the corresponding workpiece is placed or taken out in the receiving slot within a preset time, or the induction sensor in the receiving slot after the indicator lamp is in a turned-off state recognizes that the workpiece is placed or taken out, and the induction sensor sends a fourth indication signal to the control assembly, so that the control assembly controls the working state of the alarm assembly according to the fourth indication signal.

Preferably, a touch display electrically connected with the control assembly is fixedly arranged on the shelf body, and the touch display is used for acquiring configuration information of the electronic shelf; the configuration information comprises workpiece information pre-placed or taken out in each accommodating groove and serial number information of the induction sensor and the indicator lamp, which are correspondingly arranged in each accommodating groove, and the serial number information is used for forming a one-to-one corresponding binding relation between the information matched with the identification code of the workpiece and the induction sensor, the accommodating groove and the indicator lamp.

Preferably, the number of the accommodating grooves, the number of the induction sensors and the number of the indicator lamps are uniform and correspond to the same.

Preferably, the scanning assembly is a scanning gun, and the identification code is any one of a two-dimensional code and a bar code.

Preferably, the induction sensor is a photoelectric sensor, the photoelectric sensor comprises a transmitting end and a receiving end, and the transmitting end and the receiving end are both positioned in the same opening of the accommodating groove and symmetrically arranged.

Preferably, the workpiece determining assembly includes a data interaction interface electrically connected with the control assembly.

Preferably, the alarm component is a buzzer or an alarm lamp.

Preferably, the shelf body is a fluent strip type combined shelf, so that the size of each containing groove can be conveniently adjusted, and workpieces with different specifications can be conveniently stored.

Preferably, a main switch for controlling the indication lamp to be turned on or off is arranged on the shelf body.

Compared with the background art, when the work piece is fed to the goods shelf body, the work piece is read by the staff, the first indication signal is sent to the control component after the identification code of the work piece is read by the scanning component, so that the control component controls the indication lamp of the corresponding accommodating groove to be lightened according to the first indication signal, the staff can conveniently and quickly find the corresponding accommodating groove according to the working state of the indication lamp, the work piece is placed in the corresponding accommodating groove, and when the induction sensor recognizes that the work piece is placed in the corresponding accommodating groove, the induction sensor sends a third indication signal to the control component, so that the control component turns off the corresponding indication lamp according to the third indication signal.

When a worker gets the workpiece of the goods shelf body, the workpiece determining component is used for acquiring the batch of production vehicle type information and then sending a second indication signal to the control component, and the control component determines the workpiece corresponding to the vehicle type according to the second indication signal and controls the indication lamp of the corresponding accommodating groove to be lightened, so that the worker can conveniently and quickly find the corresponding accommodating groove according to the working state of the indication lamp to take out the workpiece from the corresponding accommodating groove, and when the induction sensor recognizes that the workpiece is taken out from the corresponding accommodating groove, the induction sensor sends a third indication signal to the control component, so that the control component turns off the corresponding indication lamp according to the third indication signal.

Therefore, the electronic goods shelf provided by the application is convenient for workers to take and place workpieces on the electronic goods shelf, reduces the error rate of the workers and improves the working efficiency of the workers.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of an electronic shelf according to an embodiment of the present utility model;

FIG. 2 is a front view of an electronic shelf according to an embodiment of the present utility model;

Fig. 3 is a left side view of an electronic shelf according to an embodiment of the present utility model.

Wherein:

1-goods shelf body, 2-holding tank, 3-inductive sensor, 4-touch display, 5-alarm lamp.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The present utility model will be further described in detail below with reference to the drawings and detailed description for the purpose of enabling those skilled in the art to better understand the aspects of the present utility model.

Referring to fig. 1-3, the electronic shelf provided by the application comprises a shelf body 1, wherein a plurality of accommodating grooves 2 for accommodating workpieces are formed in the shelf body 1, and the plurality of accommodating grooves 2 comprise a plurality of indicator lamps positioned in the accommodating grooves 2, that is, the shelf body at the position of each accommodating groove 2 is provided with the indicator lamps, for example, the indicator lamps are correspondingly arranged above or below each accommodating groove 2; the control assembly is electrically connected with the indicator lamp; the scanning assembly is electrically connected with the control assembly, and is used for sending a first indication signal to the control assembly after the scanning assembly is used for reading the identification code of the workpiece so that the control assembly controls the working state of the corresponding indication lamp according to the first indication signal, and the identification code corresponds to the first indication signal one by one and is mutually bound; the workpiece determining component is electrically connected with the control component and is used for sending a second indication signal to the control component after acquiring the vehicle type information so that the control component determines a workpiece corresponding to the vehicle type according to the second indication signal and controls the working state of the corresponding indicator lamp; the induction sensor 3 is located in the opening of the accommodating groove 2, the induction sensor 3 is used for identifying whether a workpiece is placed in the accommodating groove 2 corresponding to the induction sensor or whether the workpiece is taken out, and when the workpiece is placed in or taken out of the accommodating groove 2, the induction sensor 3 sends a third indication signal to the control component so that the control component can close the corresponding indicator lamp according to the third indication signal.

The purpose of setting like this is, when the staff carries out work piece material loading to the goods shelves body 1 of this application, after reading the information through the identification code of scanning subassembly to the work piece, send first instruction signal to control the pilot lamp that makes corresponding holding tank 2 is lighted according to first instruction signal control to control the subassembly, thereby can make things convenient for the staff to look for corresponding holding tank 2 fast according to the operating condition of pilot lamp, in order to place the work piece in corresponding holding tank 2, when induction sensor 3 discerns that the work piece is placed corresponding holding tank 2, induction sensor 3 sends the third instruction signal to control the subassembly, so that control assembly closes corresponding pilot lamp according to the third instruction signal.

When a worker gets the workpiece of the goods shelf body 1, the workpiece determining component is used for acquiring the batch production vehicle type information and then sending a second indication signal to the control component, and the control component determines the workpiece corresponding to the vehicle type according to the second indication signal and controls the indication lamp of the corresponding accommodating groove 2 to be lightened, so that the worker can conveniently and quickly find the corresponding accommodating groove 2 according to the working state of the indication lamp to take the workpiece out of the corresponding accommodating groove 2, and when the induction sensor 3 recognizes that the workpiece is taken out of the corresponding accommodating groove 2, the induction sensor 3 sends a third indication signal to the control component, so that the control component turns off the corresponding indication lamp according to the third indication signal.

Therefore, the electronic goods shelf provided by the application is convenient for workers to take and place workpieces on the electronic goods shelf, reduces the error rate of the workers and improves the working efficiency of the workers.

On the basis of the embodiment, the touch display 4 electrically connected with the control assembly is fixedly arranged on the shelf body 1, and the touch display 4 is used for acquiring configuration information of the electronic shelf; the configuration information comprises workpiece information pre-placed or taken out in each accommodating groove 2 and serial number information of the induction sensor 3 and the indicator lamp which are correspondingly arranged in the accommodating groove 2, and the configuration information is used for forming a one-to-one corresponding binding relation between the information matched with the identification code of the workpiece and serial numbers of the induction sensor 3, the accommodating groove 2 and the indicator lamp.

On the basis of the embodiment, the workpiece determining assembly comprises a data interaction interface electrically connected with the control assembly, and the data interaction interface is connected with the production information system so as to acquire model information of the batch of assembled vehicles and transmit the model information into the control assembly, and the models of the vehicles and the serial numbers of the workpieces form a one-to-one corresponding binding relation.

On the basis of the above embodiment, the number of the accommodating grooves 2, the number of the induction sensors 3 and the number of the indication lamps are the same in one-to-one correspondence.

On the basis of the embodiment, the electronic shelf further comprises an alarm component electrically connected with the control component, when the indicator lamp is in a lighting state, the induction sensor 3 in the accommodating groove 2 corresponding to the indicator lamp is positioned in the lighting state at the moment, and senses that the corresponding accommodating groove 2 is used for accommodating or taking out a workpiece in the future in a preset time, or the induction sensor 3 of the accommodating groove 2 after the indicator lamp is in a closed state at the moment recognizes that the workpiece is placed or taken out, and the induction sensor 3 sends a fourth indicator signal to the control component so that the control component controls the working state of the alarm component according to the fourth indicator signal.

The purpose of the arrangement is that when a worker loads the workpiece on the goods shelf body 1, the induction sensor 3 in the corresponding accommodating groove 2 does not recognize the accommodating groove 2 corresponding to the workpiece in the preset time, and the induction sensor 3 sends a fourth indication signal to the control component at the moment so that the control component controls the alarm component to work according to the fourth indication signal; or at the moment, the other induction sensors 3 which do not correspond to the accommodating groove 2 recognize that the workpiece is placed, and the induction sensors 3 send a fourth indication signal to the control assembly, so that the control assembly controls the alarm assembly to work according to the fourth indication signal to remind a worker of processing an alarm as soon as possible;

When a worker performs workpiece taking on the shelf body 1, the induction sensor 3 in the corresponding accommodating groove 2 does not recognize that the workpiece is taken out of the corresponding accommodating groove 2 within a preset time, and at the moment, the induction sensor 3 sends a fourth indication signal to the control component so that the control component controls the alarm component to work according to the fourth indication signal; or at the moment, the other induction sensors 3 which do not correspond to the accommodating groove 2 recognize that the workpiece is taken out, and the induction sensors 3 send fourth indication signals to the control assembly, so that the control assembly controls the alarm assembly to work according to the fourth indication signals, and the staff is reminded of processing the alarm as soon as possible.

By the arrangement of the alarm assembly, the application further reminds the operator of wrong material taking or discharging operation, thereby preventing the occurrence of errors in the material taking or discharging process.

Based on the above embodiment, the alarm component is a buzzer or an alarm lamp 5, the specific use of the alarm component can be selected according to the actual working environment, and the control component is a programmable logic controller.

Based on the above embodiment, the scanning component is a scanning gun, the identification code is any one of two-dimensional code and bar code, and the scanning component is directly used in the prior art, and the specific structure of the scanning component is not repeated.

Based on the implementation, the induction sensor 3 is a photoelectric sensor, the photoelectric sensor comprises a transmitting end and a receiving end, the transmitting end and the receiving end are both positioned at the opening of the same accommodating groove 2 and are symmetrically arranged.

On the basis of the embodiment, the shelf body 1 is a fluent strip type combined shelf, so that the size of each containing groove 2 is convenient to adjust, workpieces with different specifications are convenient to store, in order to facilitate the placement of the workpieces in the containing grooves 2, and then the containing boxes are placed in the containing grooves 2 for placing the workpieces, the containing grooves 2 are obliquely arranged relative to the shelf body 1, that is, the height of the opening of the containing grooves 2 is lower than that of the tail end, and then the workpieces in the containing boxes are all at the opening, so that the workpieces can be placed or taken by workers conveniently.

On the basis of the above embodiment, the shelf body 1 is provided with a main switch for controlling the turn-on or turn-off of the indicator lights, that is, the setting of the main switch of the present application can further realize the turn-on or turn-off of all the indicator lights.

It should be noted that in this specification relational terms such as first and second are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.

The principles and embodiments of an electronic shelf according to the present utility model are described herein by applying specific examples, and the above examples are only used to help understand the method and core idea of the present utility model. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.

Claims (10)

1. The utility model provides an electronic shelf, includes goods shelves body (1), be equipped with a plurality of holding tank (2) that supply to be used for placing the work piece on goods shelves body (1), its characterized in that still includes:

A plurality of indicator lamps positioned in the accommodating groove (2);

the control assembly is electrically connected with the indicator lamp;

The scanning component is electrically connected with the control component and is used for sending a first indication signal to the control component after reading the identification code of the workpiece so that the control component controls the working state corresponding to the indication lamp according to the first indication signal;

The workpiece determining component is electrically connected with the control component and is used for sending a second indication signal to the control component after acquiring the vehicle type information so that the control component determines the workpiece corresponding to the vehicle type according to the second indication signal and controls the working state of the corresponding indicator lamp;

The induction sensor (3) is positioned at the opening of the accommodating groove (2), the induction sensor (3) is used for identifying whether the workpiece is placed in the accommodating groove (2) or not corresponding to the induction sensor or whether the workpiece is taken out, and when the workpiece is placed or taken out of the accommodating groove (2), the induction sensor (3) sends a third indication signal to the control assembly, so that the control assembly turns off the corresponding indicator lamp according to the third indication signal.

2. The electronic shelf according to claim 1, further comprising an alarm component electrically connected to the control component, when the indicator lamp is in the on state, the induction sensor (3) in the receiving slot (2) corresponding to the indicator lamp after the on state does not sense that the workpiece is placed or taken out in the receiving slot (2) corresponding to the indicator lamp within a preset time, or the induction sensor (3) in the receiving slot (2) after the indicator lamp is in the off state recognizes that the workpiece is placed or taken out, and the induction sensor (3) sends a fourth indication signal to the control component, so that the control component controls the working state of the alarm component according to the fourth indication signal.

3. The electronic shelf according to claim 1 or 2, characterized in that a touch display (4) electrically connected with the control component is fixedly arranged on the shelf body (1), and the touch display (4) is used for acquiring configuration information of the electronic shelf; the configuration information comprises workpiece information pre-placed or taken out in each accommodating groove (2) and serial number information of the induction sensor (3) and the indicator lamp which are correspondingly arranged in the accommodating groove (2), and the configuration information is used for forming a one-to-one binding relation between the information matched with the identification code of the workpiece and serial numbers of the induction sensor (3), the accommodating groove (2) and the indicator lamp.

4. An electronic shelf according to claim 3, characterized in that the number of the receiving grooves (2), the number of the induction sensors (3) and the number of the indication lamps are identical in correspondence.

5. Electronic shelf according to claim 2, characterized in that the alarm component is a buzzer or a warning lamp (5).

6. The electronic shelf of claim 1, wherein the scanning component is a scanning gun and the identification code is any one of a two-dimensional code and a bar code.

7. The electronic shelf according to claim 1, characterized in that the inductive sensor (3) is a photoelectric sensor, the photoelectric sensor comprises a transmitting end and a receiving end, and the transmitting end and the receiving end are both located in the same opening of the accommodating groove (2) and are symmetrically arranged.

8. The electronic shelf of claim 1, wherein the workpiece determination assembly comprises a data interaction interface electrically connected to the control assembly.

9. The electronic shelf according to claim 1, wherein the shelf body (1) is a fluent strip type combined shelf, thereby facilitating the adjustment of the size of each containing groove and the storage of the workpieces of different specifications.

10. Electronic shelf according to claim 1, characterized in that the shelf body (1) is provided with a main switch for controlling the turning on or off of the indicator light.