JP2016098528A - Improper component use prevention system for construction machine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an improper component use prevention system for a construction machine such that an improper component is prevented from being used as a replaceable component of the construction machine, constitution is simple, and manufacturing costs for the construction machine are suppressed from increasing.SOLUTION: An improper component use prevention system 36 includes: input means 34b for inputting a component ID attached to a replaceable component; operation control means 38 of controlling an operation of the construction machine on the basis of the component ID input by the input means 34b; and a data server 40 which is connected to the operation control means 38 through a wireless communication network and where a plurality of unused component IDs are registered. Once the component ID is input by the input means 34b, the operation control means 38 communicates with the data server 40 to check the input component ID so as to find whether the input component ID matches one of the unused component IDs, and limits the operation of the construction machine when no match is obtained.SELECTED DRAWING: Figure 3

Description

  The present invention relates to an improper part use prevention system for preventing improper parts from being used for replaceable parts of construction machines.

  Japanese Patent Application Laid-Open No. 2004-228561 discloses a construction machine replacement part identification device that identifies whether or not a replaced part is an inappropriate part for a replaceable part of a construction machine such as a hydraulic excavator. This identification device outputs an IC chip attached to a replacement part and a detection signal indicating that an appropriate part is incorporated when information on the IC chip is detected, and outputs an abnormality detection signal when an inappropriate part is incorporated. A sensor and a controller for stopping the operation of the construction machine based on an abnormality detection signal from the sensor are provided. According to this identification device, when an inappropriate part is identified, the operation of the construction machine is stopped, so that the use of an inappropriate part for the replaceable part is prevented.

JP-A-2005-273196

  In construction machines such as hydraulic excavators, a number of parts that need to be replaced according to the cumulative operating time, such as engine oil filters that filter engine oil, hydraulic oil filters that filter hydraulic oil, and fuel filters that filter fuel Has been. Therefore, in the above-described identification device, an IC chip is mounted on all of the parts that need to be replaced, a sensor that detects information on the IC chip is mounted at the location where all these parts are disposed, and all the sensors and controllers are connected. Since it is necessary to connect, there is a problem that the number of mounted parts increases and the configuration becomes complicated, and the manufacturing cost of the construction machine increases.

  The present invention has been made in view of the above-mentioned facts, and its main technical problem is that the use of improper parts is prevented for the replaceable parts of the construction machine, and the construction is simple and the manufacturing cost of the construction machine is increased. The object is to provide a system for preventing the use of inappropriate parts of construction machines in which the above is suppressed.

  According to the present invention, as an improper part use prevention system for construction machines that solves the above technical problems, an improper part use prevention system for preventing improper parts from being used for replaceable parts of construction machines. The input means for inputting the part ID assigned to the replaceable part, the operation control means for controlling the operation of the construction machine based on the part ID input by the input means, and the operation control means A data server connected through a wireless communication network and registered with a plurality of unused part IDs, and the operation control unit communicates with the data server when the part ID is input by the input unit. In this construction machine, it is checked whether or not the input part ID matches any of the unused part IDs, and if not, the operation of the construction machine is restricted. Improper component usage prevention system is provided.

  Preferably, the time measuring means for measuring the cumulative operation time of the construction machine, the detection means for detecting whether or not the cumulative operation time measured by the time measuring means has passed the part replacement time, and the part replacement time elapsed by the detection means Notification means for notifying an operator of the construction machine that the detection has been detected, and the operation control means is configured to notify the construction machine if the part ID is not input by the input means within a predetermined time from the notification by the notification means. Limit operation. And a determination means for determining whether or not the replaceable part is normal, and a notification means for notifying the operator of the construction machine that the replaceable part has been determined to be abnormal by the determination means. The means advantageously limits the operation of the construction machine when the part ID is not input by the input means within a predetermined time from the notification by the notification means. The operation control means transmits the input part ID to the data server when the part ID input by the input means matches any unused part ID, and the data server transmits the transmitted part ID. It is preferable to change the unused part ID that coincides with the used part ID.

  In the construction machine improper part use prevention system provided by the present invention, when the part ID is input by the input means, the operation control means uses the part ID input by communicating with the data server as an unused part. Since it matches whether or not it matches any of the IDs, and if it does not match, the operation of the construction machine is restricted, the use of inappropriate parts for the replaceable parts of the construction machine is prevented and the configuration is simple. As a result, the increase in manufacturing cost of construction machinery is suppressed.

1 is a side view of a hydraulic excavator to which an improper component use prevention system according to the present invention is applied. The perspective view inside the cab shown in FIG. The block diagram of the improper component use prevention system which concerns on this invention. The flowchart which shows the process performed by the improper component use prevention system which concerns on this invention.

  Hereinafter, an embodiment of a construction machine improper component use prevention system according to the present invention will be described in detail with reference to the accompanying drawings, taking a hydraulic excavator as a typical construction machine as an example.

  A description will be given with reference to FIG. The hydraulic excavator indicated as a whole by number 2 is connected to a self-propelled lower traveling body 4, an upper revolving body 6 that is pivotably mounted on the lower traveling body 4, and an upper revolving body 6 that can be raised and lowered. The work arm device 8 is generally configured. The excavator 2 can perform excavation work such as earth and sand when the work arm device 8 is moved up and down and the upper swing body 6 is swung with respect to the lower traveling body 4 during excavation work such as earth and sand. It can be done.

  The work arm device 8 includes a boom 10 that is movably connected to the front side of the upper swing body 6, an arm 12 that is swingably connected to the distal end side of the boom 10, and a pivotable movement toward the distal end side of the arm 12. , A pair of left and right boom cylinders 16, 16 (only the left side is shown), an arm cylinder 18 that swings the arm 12, and the work tool 14 are rotated. The work tool cylinder 20 is generally constituted.

  The upper revolving structure 6 includes a revolving frame 22 that forms a framework structure. The swivel frame 22 includes a driver's cab 24 in which an operator is boarded, an engine 26 that serves as a drive source, a counterweight 28 that balances the weight of the work arm device 8, and a fuel tank (not shown) that stores fuel. And a hydraulic oil tank (not shown) for storing the hydraulic oil. An engine oil filter that filters engine oil, a fuel filter that filters fuel, and a hydraulic oil filter that filters hydraulic oil (all shown) are near the engine 26, near or inside the fuel tank and hydraulic oil tank. Is not provided).

  This will be described with reference to FIG. In the cab 24, a seat 30 for the operator to sit, a plurality of operating devices 32 for outputting an operation signal for operating the boom cylinder 16 and the like, and machine information necessary for the operator are displayed. A display 34 or the like is disposed. Each operating device 32 is hydraulic or electric. For example, when it is an electric operating device, it is electrically connected to an operation control means 38 to be described later, and the operation signal is controlled according to the operation direction and the operation amount. It outputs to the means 38. Then, the operation control means 38 controls the supply and discharge of the pressure oil to and from the boom cylinder 16 and the like via an electromagnetic valve (not shown) according to the operation signal from the operation device 32.

  The display 34 is provided with a display screen 34a at a position that can be visually recognized by a driver seated on the seat 30, and a plurality of input means 34b are provided at the bottom of the screen 34a. On the screen 34a, machine information images such as fuel amount, hydraulic oil temperature, engine coolant temperature, etc. are displayed, as well as an image showing the accumulated operating time of the hydraulic excavator 2 timed by the timekeeping means 42 described later, detection means described later. 44 is a notification image for notifying the operator that the passage of the part replacement time has been detected, a notification image for notifying the operator that the replaceable part has been determined to be abnormal by the determination means 46 described later, and the part ID An input image or the like for prompting the operator to input is displayed. When this input image is displayed, the operator can input the component ID by the input means 34b. The display on the screen 34a changes according to the input from the input means 34b.

  This will be described with reference to FIG. The improper component use prevention system 36 according to the present invention includes a display 34 and an operation control means 38 mounted on the hydraulic excavator 2, and a data server connected to the operation control means 38 via a wireless communication network such as a mobile phone. 40. Here, improper parts are parts that do not satisfy the required performance and are likely to cause a failure of the construction machine when mounted on a construction machine such as the hydraulic excavator 2 and therefore prevent its use. It is a part that needs to be done. On the other hand, a proper part is a part that satisfies the required performance.

  The operation control means 38 is an electronic control device provided as an LSI device or a built-in electronic device in which a known microprocessor, ROM, RAM, etc. are integrated. The operation control means 38 is mounted at an appropriate position on the upper swing body 6, is electrically connected to the display 34 by wire or wirelessly, and is connected to the data server 40 via a wireless communication network. . The operation control means 38 controls the operation of the engine 26 and the operation of the hydraulic actuator such as the boom cylinder 16 based on the part ID inputted by the input means 34b, and the part ID is inputted by the input means 34b. Wireless communication with the data server 40 is performed.

  The operation control means 38 includes a time measuring means 42 for measuring the operation time of the hydraulic excavator 2, a detection means 44 for detecting whether or not a cumulative operation time measured by the time measuring means 42 has passed a predetermined part replacement time, and replacement. And discriminating means 46 for discriminating whether or not the possible component is normal. The time counting means 42 measures the time elapsed since the specific operation was performed, in addition to the cumulative operation time and continuous operation time of the excavator 2. The detection unit 44 stores a part replacement time in advance, and the part replacement time is a time determined so that a required performance can be exhibited while the part is mounted on the hydraulic excavator 2. For example, the engine oil filter is determined for each part as follows when the cumulative operation time has passed 500 hours. The parts replacement time may vary depending on the working conditions of the excavator 2 even for the same parts, and can be changed according to the working conditions. The replaceable parts that are determined to be normal by the determining means 46 are replaceable parts that are in a state where required performance can be exhibited. For example, when the replaceable part is a filter such as an engine oil filter, a fuel filter, or a hydraulic oil filter, the discrimination means 46 determines that the filter is normal when the fluid pressure on the inlet side of the filter is within a predetermined range. When the pressure exceeds a predetermined value, it is determined that the filter is abnormal such as clogging. As described above, the determination unit 46 stores a reference value for determining whether or not a replaceable component is normal for each component. The fluid pressure on the inlet side of the filter is detected by a pressure sensor, a pressure switch or the like (not shown). The pressure sensor or the like is connected to the operation control means 38 by wire or wirelessly, and the pressure detected by the pressure sensor or the like is output to the determination means 46 of the operation control means 38.

  The data server 40 is installed in a management unit that manages production and supply of appropriate parts, and a plurality of part IDs are registered. The component ID indicates that the component to which the component ID is attached is an appropriate component and identifies the component. For this reason, a different part ID is assigned to each replaceable appropriate part. The part ID includes an unused part ID and a used part ID. The unused part ID is a part ID assigned to an unused part produced for replacement. On the other hand, the used part ID is a part ID attached to a part that is mounted on a construction machine such as the hydraulic excavator 2 and is in use, and a part that is used and removed from the construction machine. Note that attaching a part ID to a replaceable part includes attaching the part ID to the part or the packaging of the part and attaching a document or the like on which the part ID is written. Examples of replaceable parts include, but are not limited to, an engine oil filter, a fuel filter, and a hydraulic oil filter.

  With reference to FIG. 4, the process from step S1 to step S11 executed by the improper component use prevention system 36 will be described. First, in step S1, the timing means 42 counts the cumulative operation time of the hydraulic excavator 2, and in the subsequent step S2, the detection means 44 determines whether or not the cumulative operation time counted by the timing means 42 has passed the part replacement time. Detected by. If the detection unit 44 detects that the part replacement time has not elapsed, the process proceeds to step S3. On the other hand, if the detection unit 44 detects the passage of the part replacement time, the process proceeds to step S4.

  In step S3, it is determined by the determination means 46 whether or not the replaceable part is normal. If it is determined to be normal, the process of the improper component use prevention system 36 ends. On the other hand, if it is determined that there is an abnormality, the process proceeds to step S4. In step S4, a notification image for notifying the operator of the hydraulic excavator 2 that the part replacement time has been detected by the detection unit 44 or that the replacement unit has been determined to be abnormal by the determination unit 46 is displayed. It is displayed on the screen 34a of the display 34. As a result, the operator is notified that the part replacement time has passed for a specific part or that a specific part is abnormal.

  In step S5 following step S4, an input image of the component ID is displayed on the screen 34a of the display 34 in order to prompt the operator to input the component ID. In subsequent step S6, it is determined by the operation control means 38 whether or not the part ID is input by the input means 34b within a predetermined time after the input image is displayed on the screen 34a. The elapsed time after the input image is displayed on the screen 34a is timed by the time measuring means 42, and the predetermined time is stored in the operation control means 38 in advance. If the part ID is not input within the predetermined time, the process proceeds to step S11, and the operation control means 38 limits the operation of the excavator 2, for example, the operation of the engine 26. On the other hand, if the component ID is input within the predetermined time, the process proceeds to step S7.

  In step S <b> 7, it is verified whether or not the component ID input by the operation control means 38 communicating with the data server 40 matches any of the unused component IDs. If the input component ID does not match any of the unused component IDs, the process proceeds to step S11, and the operation control means 38 limits the operation of the excavator 2. On the other hand, if the input component ID matches any of the unused component IDs, the process proceeds to step S8.

  In step S8, the operation control means 38 transmits the input component ID to the data server 40. In subsequent step S9, the data server 40 changes the unused part ID that matches the part ID transmitted from the operation control means 38 to the used part ID. In step S10, the operation control means 38 permits the operation of the hydraulic excavator 2, and the process ends.

  The operation of the improper component use prevention system 36 of the excavator 2 shown in FIGS. 1 to 4 as described above will be described. In the improper component use prevention system 36, when the component ID is input by the input unit 34b, the operation control unit 38 sets the component ID input by communicating with the data server 40 to one of the unused component IDs. Whether or not they match each other is checked, and if they do not match, the operation of the hydraulic excavator 2 is restricted. Therefore, use of inappropriate parts for the replaceable parts of the hydraulic excavator 2 is prevented. Further, since the improper component use prevention system 36 can be constituted by the input means 34b of the display 34, the operation control means 38 and the data server 40, the construction is simple and the increase in the manufacturing cost of the excavator 2 is suppressed. Has been.

  Furthermore, in the improper parts use prevention system 36, the time measuring means 42 for measuring the cumulative operation time of the hydraulic excavator 2, and the detection for detecting whether or not the cumulative operation time measured by the time measuring means 42 has passed the part replacement time. Means 44 and a display 34 for notifying the operator of the excavator 2 that the passage of part replacement time has been detected by the detection means 44, and the operation control means 38 displays a notification image on the screen 34 a of the display 34. Since the operation of the hydraulic excavator 2 is restricted when the part ID is not input by the input means 34b within a predetermined time after the operation is performed, the use of inappropriate parts for the replaceable parts of the hydraulic excavator 2 is possible even in such a case. Is prevented.

  In addition, in the improper component use prevention system 36, a determination unit 46 that determines whether or not a replaceable component is normal, and the hydraulic excavator 2 that the determination unit 46 has determined that the replaceable component is abnormal. The operation control means 38 is a hydraulic excavator when the part ID is not input by the input means 34b within a predetermined time after the notification image is displayed on the screen 34a of the display 34. Since the operation of 2 is limited, even if the parts replacement time has not elapsed, the replaceable parts become abnormal, and therefore, even when the parts need to be replaced, the replaceable parts of the hydraulic excavator 2 are not suitable. Use of proper parts is prevented.

  In addition, in the improper component use prevention system 36, the operation control unit 38 indicates that the component ID input by the input unit 34b matches the unused component ID with the input component ID. Since the data server 40 changes the unused part ID that matches the transmitted part ID to the used part ID, the duplicate use of the part ID is prevented.

  In the above embodiment, the example in which the input means is disposed on the display device has been described. However, if the input means is connected to the operation control means by wire or wirelessly, it is other than the display device. The hydraulic excavator may be disposed in another location, or may be disposed in a portable terminal that is connected to the operation control means by wire or wirelessly.

2: Excavator (construction machine)
34: Display 34a: Display screen 34b: Input means 36: Inappropriate parts use prevention system 38: Operation control means 40: Data server 42: Time measuring means 44: Detection means 46: Discrimination means

Claims (4)

In order to prevent inappropriate parts from being used for replaceable parts of construction machinery,
Input means for inputting a part ID attached to a replaceable part, operation control means for controlling the operation of the construction machine based on the part ID input by the input means, and a wireless communication network connected to the operation control means And a data server in which a plurality of unused part IDs are registered,
When the component ID is input by the input unit, the operation control unit checks whether or not the component ID input by communicating with the data server matches any of the unused component IDs. A system for preventing inappropriate use of construction machinery, characterized in that, in some cases, the operation of the construction machinery is restricted. Time measuring means for measuring the cumulative operating time of the construction machine, detection means for detecting whether the cumulative operating time counted by the time measuring means has passed the part replacement time, and detection of the passage of the part replacement time by the detecting means Notification means for notifying the operator of the construction machine that
The system for preventing inappropriate use of a construction machine according to claim 1, wherein the operation control means limits the operation of the construction machine when the part ID is not input by the input means within a predetermined time from the notification by the notification means. Determining means for determining whether or not the replaceable part is normal, and notifying means for notifying the operator of the construction machine that the replaceable part has been determined to be abnormal by the determining means,
The system for preventing inappropriate use of a construction machine according to claim 1, wherein the operation control means limits the operation of the construction machine when the part ID is not input by the input means within a predetermined time from the notification by the notification means. The operation control unit transmits the input component ID to the data server when the component ID input by the input unit matches any unused component ID.
The system for preventing inappropriate use of a construction machine according to any one of claims 1 to 3, wherein the data server changes an unused part ID that matches the transmitted part ID to a used part ID.