CN210243063U - Pneumatic wheel storage management system - Google Patents

Abstract

The utility model discloses an inflation wheel warehouse management system, which comprises a tire pressure detection device and a processing device, wherein the tire pressure detection device is used for detecting the tire pressure of the inflation wheel before the inflation wheel enters a warehouse so as to obtain a first pressure value and sending the information of the inflation wheel of which the first pressure value reaches a first preset value and the first pressure value to the processing device for storage; the tire pressure detection device is further used for detecting the tire pressure of the taken-out pneumatic wheel to obtain a second pressure value and sending the information of the product assembled by the pneumatic wheel and the second pressure value, of which the second pressure value reaches a second preset value, to the processing device for storage. The utility model discloses a processing apparatus storage first pressure value, the information of pneumatic wheel, second pressure value and the information of the product that the pneumatic wheel was assembled, realize the information tracking of pneumatic wheel, the later stage inquiry of being convenient for; furthermore, the yield statistics of the pneumatic wheel can be realized according to the information stored by the processing device, so that the pneumatic wheel is improved according to the statistical result.

Description

Pneumatic wheel storage management system

Technical Field

The utility model relates to an aerify the wheel storage management technical field, especially relate to an aerify wheel storage management system.

Background

The tire pressure of the pneumatic wheel is an important factor affecting the safety performance of the vehicle, when the tire pressure is too low, problems such as increased tire body deformation of the pneumatic wheel, easy occurrence of cracks on the tire side and the like are easily caused, and meanwhile, the contact area of the pneumatic wheel and the ground is increased to accelerate the abrasion of the tire shoulder. In order to ensure the quality and service life of a pneumatic wheel, it is often necessary to test the tire pressure of the pneumatic wheel.

At present, an inflation wheel is inflated at a part manufacturing line, then the tire pressure of the inflated inflation wheel is tested by manually holding a tire pressure measuring instrument, the inflation wheel which passes the tire pressure test is stored in a warehouse in a centralized manner, and when a product needs to be assembled, the inflation wheel is taken out of the warehouse for testing and then assembled with corresponding parts to form the product. The information tracking of each pneumatic wheel can not be realized through the mode of manually measuring the tire pressure, if the pneumatic wheel has the problem of insufficient tire pressure before warehouse-out assembly or after the pneumatic wheel is assembled into a product for shipment, the tire pressure condition, the production condition and the like of the pneumatic wheel before warehouse-in or assembly can not be traced, and the improvement of the pneumatic wheel can not be carried out according to the problems of the pneumatic wheel.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a can trail the gassing wheel warehouse management system to the information of gassing wheel.

In order to achieve the above object, the utility model discloses an inflation wheel warehouse management system for before the warehouse entry of inflation wheel, the tire pressure after leaving warehouse measures and the information management of inflation wheel, including tire pressure detection device and processing apparatus, tire pressure detection device is used for detecting the tire pressure of accomplishing the inflated inflation wheel before the warehouse entry of inflation wheel in order to obtain first pressure value and to send the information of the inflation wheel that first pressure value reaches first preset value and corresponding first pressure value to processing apparatus and save; the tire pressure detection device is further used for detecting the tire pressure of the taken-out pneumatic wheel to obtain a second pressure value and sending the information of the product assembled by the pneumatic wheel and the corresponding second pressure value, of which the second pressure value reaches a second preset value, to the processing device for storage.

The utility model is provided with a processing device, and the processing device stores the information of the first pressure value and the pneumatic wheel sent by the first detection device and the information of the second pressure value and the product assembled by the pneumatic wheel sent by the second detection device, thereby realizing the information tracking of the pneumatic wheel and facilitating the later inquiry; furthermore, the yield statistics of the pneumatic wheel can be realized according to the information stored by the processing device, so that the pneumatic wheel is improved according to the statistical result, the maintenance rate of the pneumatic wheel is reduced, and the production efficiency is improved.

Preferably, the information of the pneumatic wheel comprises batch numbers of the pneumatic wheel, the processing device calculates the number of the pneumatic wheels with the second pressure value reaching the second preset value in each batch number to obtain the number of good products, and the yield of the pneumatic wheel of each batch number is obtained according to the number of the good products.

Preferably, the tire pressure detecting device further sends the information of the pneumatic wheel with the second pressure value lower than the second preset value and the corresponding second pressure value to the processing device for storage. Therefore, the tire pressure tracking of each pneumatic wheel taken out of the warehouse is realized.

Preferably, the information of the pneumatic wheel includes an identifier of the pneumatic wheel, and the processing device compares a first pressure value and a second pressure value of the pneumatic wheel corresponding to each identifier to obtain a pressure difference value. Thereby, the performance of each pneumatic wheel can be evaluated by the pressure difference value.

Preferably, the information for the pneumatic wheel includes a date of production of the pneumatic wheel, a date of inflation, and a lot number for the pneumatic wheel. Therefore, the inflating wheel of a manufacturer can be discussed according to the yield of each batch number so as to find out the problem of the inflating wheel.

Preferably, the information of the product includes a product assembly date and an assembly lot number.

Preferably, the tire pressure detecting device is provided with an alarm, and the tire pressure detecting device outputs an alarm signal to make the alarm give an alarm when the first pressure value is lower than the first preset value or the second pressure value is lower than the second preset value.

Preferably, the tire pressure detecting device includes a positioning mechanism, a measuring mechanism and a display electrically connected to the measuring mechanism, the positioning mechanism positions the pneumatic wheel, the measuring mechanism measures the tire pressure of the pneumatic wheel positioned at the positioning mechanism to obtain a first pressure value and a second pressure value, and the display displays the first pressure value and the second pressure value.

More preferably, the positioning mechanism is provided with an insertion portion into which an axle of the inflator wheel is inserted to position the inflator wheel.

Preferably, the pneumatic wheel warehousing management system further comprises a control device and a manipulator, the tire pressure detection device sends the comparison result between the first pressure value and the first preset value and the comparison result between the second pressure value and the second preset value to the control device, and the control device controls the manipulator to place the pneumatic wheel which is detected to the corresponding position according to the comparison result.

Drawings

Fig. 1 is a block diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the tire pressure detecting device, the control device and the manipulator in an embodiment of the present invention.

Fig. 3 is a block diagram of a part of the pneumatic wheel warehouse management system according to an embodiment of the present invention.

Fig. 4 is a partial structural block diagram of a tire pressure detecting device according to an embodiment of the present invention.

Detailed Description

In order to explain technical contents, structural features, and effects achieved by the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1 and 2, the present invention provides a pneumatic wheel warehouse management system 100 for measuring the tire pressure before and after the pneumatic wheel 200 enters the warehouse to ensure that the tire pressure of the pneumatic wheel 200 before entering the warehouse and the tire pressure for assembling are qualified, and storing the tire pressure information of the pneumatic wheel 200 with qualified tire pressure before entering the warehouse and the related information thereof, so as to realize the information tracking of the pneumatic wheel 200, thereby facilitating the later inquiry of the information of the pneumatic wheel 200 and performing the yield statistics, performance evaluation, etc. of the pneumatic wheel 200 according to the stored information of the pneumatic wheel 200. Specifically, the present invention discloses a pneumatic wheel warehouse management system 100, which includes a tire pressure detecting device and a processing device 3, wherein the tire pressure detecting device is used for detecting the tire pressure of the pneumatic wheel 200 that completes inflation before the pneumatic wheel 200 enters the warehouse to obtain a first pressure value and sending the information of the pneumatic wheel 200 and the corresponding first pressure value, the first pressure value of which reaches a first preset value, to the processing device 3 for storage; the tire pressure detecting device is further configured to detect the tire pressure of the taken-out pneumatic wheel 200 to obtain a second pressure value, and send information of a product (not shown) assembled with the pneumatic wheel 200, in which the second pressure value reaches a second preset value, and the corresponding second pressure value to the processing device 3 for storage.

Specifically, the first preset value and the second preset value are values set according to actual tire pressure requirements, and the first preset value and the second preset value may be the same value or may be slightly larger than the second preset value. The processing means 3 may be any means capable of data storage and processing.

Hereinafter, for convenience of description, the tire pressure detecting device is referred to as a first tire pressure detecting device 1 when the tire pressure detecting device is used to detect the inflation wheel 200 whose inflation is completed before the inflation wheel 200 is taken into the warehouse, and the tire pressure detecting device is referred to as a second tire pressure detecting device 2 when the tire pressure detecting device is used to detect the tire pressure of the inflation wheel 200 after the tire pressure detecting device is taken out of the warehouse. In the present embodiment, the first tire pressure detecting device 1 is provided in a parts manufacturing line, and the second tire pressure detecting device 2 is provided in an assembly line. Specifically, after the pneumatic wheel 200 is completely inflated by the component manufacturing line, the first tire pressure detecting device 1 detects the tire pressure of the pneumatic wheel 200 to obtain a first pressure value, then the first pressure value and information of the pneumatic wheel 200 are transmitted to the processing device 3, and the pneumatic wheel 200 of which the first pressure value reaches a first preset value is conveyed to a warehouse for storage by the conveying device. Before assembling the taken-out pneumatic wheel 200, the second tire pressure detecting device 2 detects the tire pressure of the taken-out pneumatic wheel 200 to obtain a second pressure value, then the second pressure value and the product information are sent to the processing device 3, and the pneumatic wheel 200 with the second pressure value reaching the second preset value is assembled with corresponding components to obtain a product.

The first tire pressure detecting device 1 and the second tire pressure detecting device 2 may be two separate tire pressure detecting devices, or may be the same tire pressure detecting device, as long as the tire pressure detection can be performed on the pneumatic wheels before and after warehousing. Of course, the first tire pressure detecting device 1 and the second tire pressure detecting device 2 are not limited to being installed in the parts manufacturing line and the assembly line, and may be installed in any other locations.

In one embodiment, the information for the pneumatic wheel 200 includes a date of production of the pneumatic wheel 200, a date of inflation, and a lot number for the pneumatic wheel 200; wherein the batch number of the pneumatic wheel 200 is a procurement batch number. Thereby, the production situation of the pneumatic wheel 200 can be traced by the production date of the pneumatic wheel 200, the inflation date, and the lot number of the pneumatic wheel 200 to improve the performance of the pneumatic wheel 200 according to the tire pressure situation and the production situation. Of course, in other embodiments, the information of the pneumatic wheel 200 may also include other information, such as the manufacturer, model information, etc. of the pneumatic wheel 200, and therefore should not be limited thereto.

In one embodiment, the information of the product includes an assembly date and an assembly batch number; therefore, the assembly condition of the product can be traced through the assembly date and the assembly batch number. Of course, in other embodiments, the information of the product may also include other information, and therefore, should not be limited thereto.

As a preferred embodiment, the information of the pneumatic wheel 200 includes the lot numbers of the pneumatic wheels 200, the processing device 3 calculates the number of the pneumatic wheels 200 with the second pressure value reaching the second preset value in each lot number to obtain the good product number, and obtains the yield of the pneumatic wheels 200 in each lot number according to the good product number. Therefore, the inflating wheel 200 of the manufacturer can be examined according to the yield of each lot number to find out the problem of the inflating wheel 200, so that the inflating wheel 200 with excellent performance is obtained, the ratio of the inflating wheels 200 needing to be maintained is reduced, and the production efficiency is improved.

Specifically, the processing device 3 obtains the yield of the pneumatic wheel 200 for each lot number from the number of good products obtained when the first tire pressure detecting device 1 detects the pneumatic wheel 200 for each lot number and the number of good products obtained when the second tire pressure detecting device 2 detects the pneumatic wheel 200 for each lot number. More specifically, the processing device 3 is integrated with a counter (not shown), the number of the input first pressure values is calculated by the counter to obtain the number of good products detected by the first tire pressure detecting device 1, the number of the input second pressure values is calculated by the counter to obtain the number of good products detected by the second tire pressure detecting device 2, and then the divider is used to divide the number of good products detected twice to obtain the yield of the pneumatic wheel 200 of each lot number.

As a preferred embodiment, the second tire pressure detecting device 2 also sends the information of the pneumatic wheel 200 with the second pressure value lower than the second preset value and the corresponding second pressure value to the processing device 3 for storage. This allows the tire pressure of each pneumatic wheel 200 taken out of the warehouse to be tracked.

Further, the information of the pneumatic wheel 200 includes the identifier of the pneumatic wheel 200, and the processing device 3 compares the first pressure value and the second pressure value of the pneumatic wheel 200 corresponding to each identifier to obtain the pressure difference value. Evaluating the performance of each pneumatic wheel 200 by the pressure difference; for example, a larger pressure differential may indicate a poorer performance of the pneumatic wheel 200, whereas a better performance of the pneumatic wheel 200 may be indicated.

Further, the information of the pneumatic wheel 200 includes a date of inflation, and the processing device 3 obtains the number of days of storage of the pneumatic wheel 200 from the date of inflation and the current time, and evaluates the performance of each pneumatic wheel 200 based on the number of days of storage and the pressure difference. Specifically, a functional relationship including the number of days of storage of the pneumatic wheel 200 and the change in tire pressure of the pneumatic wheel 200 may be established, and the performance of the pneumatic wheel 200 may be evaluated based on the functional relationship and the resulting pressure difference.

Referring to fig. 3, in an embodiment, the processing device 3 is integrated with a subtractor 31, the first tire pressure detecting device 1 is connected to a non-inverting input terminal of the subtractor 31, and the second tire pressure detecting device 2 is connected to an inverting input terminal of the subtractor 31. The first tire pressure detecting device 1 outputs a first pressure value to a positive phase input terminal of the subtracter 31, the second tire pressure detecting device 2 outputs a second pressure value to a negative phase input terminal of the subtracter 31, and the subtracter 31 performs subtraction operation on the input pressure value and outputs a pressure difference value.

Referring to fig. 2, as a preferred embodiment, the tire pressure detecting device is provided with an alarm 11, and the tire pressure detecting device 1 outputs an alarm signal to alarm the alarm 11 when the first pressure value is lower than the first preset value. By means of the design, workers on site can timely know the tire pressure monitoring result, and accordingly corresponding processing is conducted on the pneumatic wheel 200 with insufficient tire pressure. Preferably, the alarm 11 is a light alarm, and the alarm 11 is lighted to alarm when the tire pressure of the inflating wheel 200 is insufficient; of course, the alarm 11 may also be other alarms, such as a voice alarm, etc.

Referring to fig. 2, in detail, the tire pressure detecting device includes a positioning mechanism 12, a measuring mechanism 13 and a display 14 electrically connected to the measuring mechanism 13, the positioning mechanism 12 positions the pneumatic wheel 200, the measuring mechanism 13 measures the tire pressure of the pneumatic wheel 200 positioned at the positioning mechanism 12 to obtain a first pressure value and a second pressure value, and the display 14 displays the first pressure value and the second pressure value.

Specifically, the measuring mechanism 13 includes an air nozzle 131, a driver 132 for driving the air nozzle 131 to measure the tire pressure, and a barometer (not shown), an air guide channel (not shown) is disposed in the air nozzle 131, the air guide channel is communicated with the barometer, the air in the pneumatic wheel 200 enters from the air guide channel and then reaches the barometer, so that the tire pressure of the pneumatic wheel 200 is measured by the barometer to obtain a first pressure value and a second pressure value, the barometer transmits the first pressure value and the second pressure value to the processing module of the tire pressure detecting device, so as to compare the first pressure value with the first preset value and compare the second pressure value with the second preset value, and the display 14 displays the first pressure value and the second pressure value.

As a preferred embodiment, the positioning mechanism 12 is provided with an insertion portion 121, and the insertion portion 121 is inserted by the wheel shaft 210 of the pneumatic wheel 200 to position the pneumatic wheel 200. Preferably, the insertion portion 121 is provided with an insertion hole 1211 adapted to the wheel shaft 210 of the pneumatic wheel 200, and the pneumatic wheel 200 is stably positioned through the insertion hole 1211, but not limited thereto.

Preferably, the display 14 is a touch display screen, and the display 14 is used for displaying the first pressure value and the second pressure value and inputting information of the pneumatic wheel 200. Of course, in some embodiments, the display 14 may also include a display screen and an input keyboard, information of the pneumatic wheel 200 is input through the input keyboard, and the first pressure value, the second pressure value and information of the pneumatic wheel 200 are displayed through the display screen, so that the disclosure should not be limited thereto.

Referring to fig. 4, in an embodiment, the first tire pressure detecting device 1 has a comparator 15, the barometer is connected to a non-inverting input terminal of the comparator 15, and an inverting input terminal of the comparator 15 is connected to a voltage signal V1 (a first preset value). The barometer outputs a first pressure value to the non-inverting input terminal of the comparator 15, the comparator 15 compares the first pressure value with a first preset value, and outputs a comparison result (high level or low level), and when the comparison result is high level, the first tire pressure detecting device 1 sends information of the first pressure value and the inflation wheel to the processing device 3. Of course, the barometer may be connected to the inverting input terminal of the comparator 15, and the non-inverting input terminal of the comparator 15 is connected to the voltage signal V1, and when the comparison result is low level, the first tire pressure detecting device 1 sends the information of the first pressure value and the inflation wheel to the processing device 3.

Referring to fig. 2, as a preferred embodiment, the pneumatic wheel warehousing management system 100 further includes a control device 4 and a manipulator 5, the tire pressure detecting device sends the comparison result between the first pressure value and the first preset value and the comparison result between the second pressure value and the second preset value to the control device 4, and the control device 4 controls the manipulator 5 to place the detected pneumatic wheel 200 at a corresponding position according to the comparison result. The pneumatic wheel 200 which is detected is dismounted and placed to a corresponding position through the control device 4 and the manipulator 5, so that the manual participation is reduced, and the labor cost is saved.

Specifically, the control device 4 controls the manipulator 5 to place the pneumatic wheel 200, the comparison result of which is that the first pressure value reaches the first preset value (tire pressure is qualified), at the first position, and to place the pneumatic wheel 200, the comparison result of which is that the first pressure value is lower than the first preset value (tire pressure is insufficient), at the second position; the control device 4 controls the manipulator 5 to place the pneumatic wheel 200, the comparison result of which is that the second pressure value reaches the second preset value (tire pressure is qualified), at the third position, and place the pneumatic wheel 200, the comparison result of which is that the second pressure value is lower than the second preset value (tire pressure is insufficient), at the fourth position.

Preferably, the pneumatic wheel 200 at the first position is transported to a warehouse by the transporting device to store the pneumatic wheel 200 with qualified tire pressure, the pneumatic wheel 200 at the second position is transported to a pneumatic wheel maintenance area to inflate the pneumatic wheel 200 with insufficient tire pressure again, and then the pneumatic wheel 200 with the inflated tire pressure is transported to the first tire pressure detecting device 1 to be detected and stored; and transporting the pneumatic wheel 200 at the fourth location to a pneumatic wheel maintenance area to maintain the pneumatic wheel 200 with insufficient tire pressure. The preferred handling device is an automated guided vehicle.

The utility model is provided with a processing device 3, the first pressure value sent by the tire pressure detection device, the information of the inflating wheel 200, the second pressure value and the information of the product assembled by the inflating wheel 200 are stored by the processing device 3, thereby realizing the information tracking of the inflating wheel 200 and facilitating the later inquiry; furthermore, the yield statistics of the pneumatic wheel 200 can be realized according to the information stored in the processing device 3, so that the statistical result of the pneumatic wheel 200 of each lot number is inquired to find the problem of the pneumatic wheel 200 of the lot number with lower yield according to the statistical result, the pneumatic wheel 200 is improved, the maintenance rate of the pneumatic wheel 200 is reduced, and the production efficiency is improved.

The above disclosure is only a preferred embodiment of the present invention, and certainly, the scope of the present invention should not be limited thereto, and therefore, the scope of the present invention is not limited to the above embodiments.

Claims (10)

1. A pneumatic wheel warehousing management system is used for measuring the tire pressure of a pneumatic wheel before warehousing and after ex-warehouse and managing the information of the pneumatic wheel, and is characterized by comprising a tire pressure detection device and a processing device, wherein the tire pressure detection device is used for detecting the tire pressure of the pneumatic wheel which finishes inflation before warehousing of the pneumatic wheel so as to obtain a first pressure value and sending the information of the pneumatic wheel of which the first pressure value reaches a first preset value and the corresponding first pressure value to the processing device for storage; the tire pressure detection device is further used for detecting the tire pressure of the taken-out pneumatic wheel to obtain a second pressure value and sending the information of the product assembled by the pneumatic wheel and the corresponding second pressure value, of which the second pressure value reaches a second preset value, to the processing device for storage.

2. The pneumatic wheel warehouse management system according to claim 1, wherein the information of the pneumatic wheel comprises batch numbers of the pneumatic wheel, the processing device calculates the number of the pneumatic wheels with the second pressure value reaching the second preset value in each batch number to obtain a good product number, and obtains the yield of the pneumatic wheel of each batch number according to the good product number.

3. The pneumatic wheel warehouse management system according to claim 1, wherein the tire pressure detecting device further transmits information of the pneumatic wheel with the second pressure value lower than the second preset value and the corresponding second pressure value to the processing device for storage.

4. The pneumatic wheel warehouse management system of claim 3, wherein the information of the pneumatic wheel comprises an identifier of the pneumatic wheel, and the processing device compares the first pressure value and the second pressure value of the pneumatic wheel corresponding to each identifier to obtain a pressure difference value.

5. The pneumatic wheel warehouse management system of claim 1, wherein the information for the pneumatic wheel includes a date of production of the pneumatic wheel, a date of inflation, and a lot number for the pneumatic wheel.

6. The pneumatic wheel warehouse management system of claim 1, wherein the information of the product includes a product assembly date and an assembly lot number.

7. The pneumatic wheel warehouse management system according to claim 1, wherein the tire pressure detecting device is provided with an alarm, and the tire pressure detecting device outputs an alarm signal to alarm the alarm when the first pressure value is lower than a first preset value or the second pressure value is lower than a second preset value.

8. The pneumatic wheel warehouse management system according to claim 1, wherein the tire pressure detecting device includes a positioning mechanism, a measuring mechanism, and a display electrically connected to the measuring mechanism, the positioning mechanism positions the pneumatic wheel, the measuring mechanism measures the tire pressure of the pneumatic wheel positioned at the positioning mechanism to obtain the first pressure value and the second pressure value, and the display displays the first pressure value and the second pressure value.

9. The system for warehousing management of pneumatic wheels of claim 8, wherein the positioning mechanism is provided with an insertion portion into which an axle of the pneumatic wheel is inserted to position the pneumatic wheel.

10. The pneumatic wheel warehousing management system of claim 1, further comprising a control device and a manipulator, wherein the tire pressure detection device sends a comparison result of the first pressure value and a first preset value and a comparison result of the second pressure value and a second preset value to the control device, and the control device controls the manipulator to place the detected pneumatic wheel to a corresponding position according to the comparison result.

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