JP7457907B2 - Hydraulic Power Package - Google Patents

Description

The present invention relates to hydraulic power packages.

Traditionally, hydraulic power packages are used to raise and lower truck loading platforms and to open and close wing roofs. Hydraulic power packages are installed in the cargo area and wing roof. The hydraulic power package includes at least a pump, a motor, and a valve. The hydraulic power package drives the cylinders in the loading dock and the cylinders in the wing roof. When these cylinders are driven, the loading platform moves up and down, and the wing roof opens and closes.

For example, a method for collecting data from a vehicle is disclosed as in Patent Document 1 below. In the case of a truck's hydraulic power package, the hydraulic power package uses sensors to detect the pump rotation speed and motor voltage, and sends the information to the server via the network. The drive status of the loading platform and the drive status of the wing roof are stored in the server.

International publication number WO2014/112149

However, depending on the specifications of the truck, a hydraulic power package equipped with a communication device may be used only in at least one of the loading platform and the wing roof. For example, a hydraulic power package with a communication device may be used only in the loading dock, and a hydraulic power package without the communication device may be used in the wing roof. In this case, only the driving status of the loading platform is stored in the server, and the driving status of the wing roof is not stored in the server. Unless the driving status of both devices is stored in the server, the driving status of the truck bed cannot be completely understood. Information about the driving status of only one device is incomplete.

Trucks may be equipped with digital tachometers. A digital tachometer includes a device for recording truck speed, acceleration, etc., and a communication device. The digital tachometer sends the truck's driving records to a server over the network. This digital tachometer has several ports that can be used to connect a hydraulic power package. The pump rotation speed and motor voltage of the hydraulic power package are input into the digital tachometer and stored on the server via the network.

However, it is extremely difficult to wire a hydraulic power package pump or the like that does not have a communication device. It is difficult to combine a hydraulic power package without a communication device with a digital tachometer. Just like digital tachometers, wiring for car navigation systems is extremely difficult.

The object of the present invention is to provide a hydraulic power package that can communicate the operating status of a hydraulic device in a hydraulic power package that does not have a communication device.

In order to solve the above problems, a hydraulic power package according to the present invention has a configuration as described below.

The hydraulic power package of the present invention includes a first hydraulic device, a first sensor that detects the driving status of the first hydraulic device, a control device into which a value of the first sensor is input, and a first a first hydraulic power package including a first port provided on the controller for connecting a sensor and a communication device for communicating a value of the first sensor; and a second hydraulic power package including a second hydraulic device. a power package; a second sensor for detecting a driving condition of the second hydraulic device; and a second sensor provided in the control device to connect the second sensor to the control device. a second port, a communication device of the first hydraulic power package communicating the value of the second sensor.

According to the present invention, the operating status of the second hydraulic device of the second hydraulic power package that does not have a communication function can be detected by the second sensor and transmitted by the first hydraulic power package that has a communication function. This increases the amount of data and enhances the value of the data.

1 is a diagram showing the configuration of a hydraulic power package of the present application. 1 is a diagram showing an armored vehicle to which a hydraulic power package is attached; FIG.

DESCRIPTION OF THE PREFERRED EMBODIMENTS A hydraulic (hydraulic) power package according to an embodiment of the present invention will be described with reference to the drawings.

[Embodiment 1]
A hydraulic power package 10 of the present application shown in FIG. 1 is installed in a mounted vehicle such as a truck. The hydraulic power package 10 raises and lowers a load receiving platform of a mounted vehicle and opens and closes a wing roof.

The hydraulic power package 10 includes a first hydraulic power package 12 and a second hydraulic power package 14 . When the hydraulic power package 10 is used in the truck 16 as described above, for example, the first hydraulic power package 12 is used to raise and lower the loading platform 18, and the second hydraulic power package 14 is used to open and close the wing roof 20. (Figure 2). Note that the first hydraulic power package 12 may be used to open and close the wing roof 20, and the second hydraulic power package 14 may be used to raise and lower the cargo receiving platform 18.

[First hydraulic power package]
The first hydraulic power package 12 includes a first hydraulic device 22, a first sensor 24, a control device 26, a first port 28 connecting the first sensor 24 and the control device 26, and a communication device 30. The first power package 12 has a function of communicating values detected by the first sensor 24, and is compatible with IoT (Internet of Things).

[First hydraulic device]
The first hydraulic device 12 is a device for driving a hydraulic cylinder 32 provided in the loading platform 18 . The first hydraulic device 12 includes at least a motor, a drive circuit that drives the motor, a pump driven by the motor, piping through which hydraulic fluid (hydraulic oil) discharged by the pump flows, and a valve that controls the flow of the hydraulic fluid. Equipped with a tank to store hydraulic fluid. The power source for driving the motor uses a battery that is mounted on the mounted vehicle and used for driving the mounted vehicle. The valves include directional control valves, pressure regulating valves, flow regulating valves, check valves, etc., and the number thereof is not limited.

[1st sensor]
The first sensor 24 is a device that detects the driving status of the first hydraulic device 22. The first sensor 24 includes a first voltmeter that detects the voltage between the terminals of the motor, a tachometer that detects the rotation speed of the pump, a pressure gauge that detects the pressure of the hydraulic fluid in the pipe, and a solenoid installed in the valve. It includes at least one of a second voltmeter that detects voltage and a thermometer that measures the temperature of the working fluid. The value of the first sensor 24 is input to the control device 26 . The first sensor 24 may include a third voltmeter that detects the voltage of the battery of the mounted vehicle.

[Control device]
The control device 26 includes a device having an arithmetic circuit 34 including a central processing unit (CPU) or a programmable logic controller (PLC) mounted on a board. The control device 26 also includes a storage device 36 for storing data and programs. The storage device 36 may be a memory, a hard disk drive (HDD), a solid state drive (SSD), or the like. The control device 26 stores the value detected by the first sensor 24 in the storage device 36. When the control device 26 stores the value detected by the control device 26, the value may be changed to a required format. For example, the value detected by the first sensor 24 is stored in a predetermined table format. A clock may be provided in the control device 26, and the time may be added to the value stored in the storage device 36. The time may also be obtained from a time server on the Internet via the communication device 30.

The control device 26 may control the driving of the first hydraulic device 22. The control device 26 controls the motor drive circuit and the voltage of each valve solenoid. The controller 26 may use the value of the first sensor 24 to control the first hydraulic device 22 . For example, the pressure of the hydraulic fluid in the piping is controlled to a predetermined value.

A first port 28 is mounted on the control device 26, and wiring provided in the first sensor 24 is connected to the first port 28. The control device 26 is equipped with a port 38 for connecting the first hydraulic device 22 and the control device 26, and wiring provided in the first hydraulic device 22 is connected to the control device 26.

[Communication device]
The communication device 30 is a device for wireless communication. The communication device 30 is a device for communication according to the LTE (Long Term Evolution) standard. The value of the first sensor 24 is transmitted through a public communication network 40. The value of the first sensor 24 is stored in a server 42 connected to the communication network 40. Since the control device 26 and the communication device 30 are separate components, the communication device 30 alone can obtain certification for the communication standard. Even if the specifications of the control device 26 are changed, there is no effect on the communication device 30.

The communication device 30 may transmit the data stored in the storage device 36 one after another, may transmit the data all at once at a predetermined time, or may transmit the data when the amount of data reaches a certain amount. .

[Second hydraulic power package]
The second hydraulic power package 14 includes a second hydraulic device 44 . The second hydraulic power package 14 does not include a communication device. The second hydraulic power package 14 does not have an IoT function like the first hydraulic power package 12.

[Second hydraulic device]
Like the first hydraulic device 22, the second hydraulic device 44 includes at least a motor, a drive circuit that drives the motor, a pump driven by the motor, and a pipe through which hydraulic fluid (hydraulic oil) discharged by the pump flows. , a valve for controlling the flow of hydraulic fluid, and a tank for storing hydraulic fluid. The power source for driving the motor uses a battery that is mounted on the mounted vehicle and used for driving the mounted vehicle. The valves include directional control valves, pressure regulating valves, flow regulating valves, check valves, etc., and the number thereof is not limited.

[Second sensor]
The present invention includes a second sensor 46 that detects the driving state of the second hydraulic device 44. The second sensor 46 includes a fourth voltmeter that detects the voltage of the motor of the second hydraulic device 44, and a fifth voltmeter that detects the voltage of a solenoid provided in the valve.

[Second port]
In the present application, the control device 26 is provided with a second port 48 . The second port 48 is a port for connecting the control device 26 and the second sensor 46, and the wiring of the second sensor 46 is connected to the second port 48. The value detected by the second sensor 46 is input to the control device 26.

The control device 26 stores the input value detected by the second sensor 46 in the storage device 36. The control device 26 may change the value detected by the second sensor 46 as well as the value detected by the first sensor 24 into the required format. The communication device 30 transmits not only the value detected by the first sensor 24 but also the value detected by the second sensor 46 to the server 42 via the communication network 40. The values of the first sensor 24 and the second sensor 46 are stored in the server 42 .

[others]
The second hydraulic power package 14 includes a control device for driving the second hydraulic device 44 . The control system for the second hydraulic power package 14 is different from the control system 26 for the first hydraulic power package 12 .

[Data collection]
Data collection using the hydraulic power package 10 of the present invention will be explained. The first hydraulic device 22 or the second hydraulic device 44 is driven to raise and lower the loading platform 18 of the mounted vehicle or to open and close the wing roof 20. At this time, the first sensor 24 detects the driving condition of the first hydraulic device 22, and the second sensor 46 detects the driving condition of the second hydraulic device 44. The control device 26 converts the detected value into a predetermined data format and stores it in the storage device 36. The communication device 30 transmits the data stored in the storage device 36 to the server 42 via the communication network 40, and the data is stored in the server 42.

As described above, the hydraulic power package 10 of the present invention has a communication function when used in combination with the first hydraulic power package 12 having a communication function and the second hydraulic power package 14 not having a communication function. It is possible to detect the driving status of the hydraulic device 44 of the second hydraulic power package 14 that is not in use, and to transmit the data. Conventionally, there was a shortage of data stored in the server 42, but in the present application, the types of data stored can be increased, and the data can be used effectively.

[Embodiment 2]
The first sensor 24 is not limited to a device that detects the driving status of the first hydraulic device 22. It may also include a device that detects the running status of the vehicle. For example, the first sensor 24 is equipped with a GPS (Global Positioning System). The data stored in the storage device 36 includes position information of the mounted vehicle.

[Embodiment 3]
The present invention is not limited to the first hydraulic power package 12 and the second hydraulic power package 14, and other hydraulic power packages may be provided. Since the first hydraulic power package 12 includes the communication device 30, communication can be achieved using the communication device 30 of the first hydraulic power package 12 even if a hydraulic power package that does not include a communication device is added.

[Embodiment 4]
The hydraulic power package 10 of the present invention is not limited to use in armored vehicles. When using a plurality of hydraulic power packages 10 in factory equipment, the present invention is applied if at least one hydraulic power package is equipped with the communication device 30 and the other hydraulic power packages are not equipped with a communication device. can do. If the factory equipment has a device such as WiFi that performs wireless communication over a short distance, the communication device 30 may be a device such as WiFi. If the hydraulic power package 10 is used in factory equipment, the communication device 30 may be connected to the communication network 40 by wire.

(Paragraph 1) The hydraulic power package of the present application is a hydraulic power package including a first hydraulic device, a first sensor that detects the operating status of the first hydraulic device, a control device to which the value of the first sensor is input, a first port provided on the control device for connecting the first sensor to the control device, and a communication device that communicates the value of the first sensor, and a second hydraulic power package that includes a second hydraulic device, a second sensor that detects the operating status of the second hydraulic device, and a second port provided on the control device for connecting the second sensor to the control device, and the communication device of the first hydraulic power package communicates the value of the second sensor.

According to the hydraulic power package described in item 1, the value detected by the second sensor of the second hydraulic power package that is not equipped with a communication device can be transmitted using the communication device of the first hydraulic power package. can. It becomes possible to collect the values of the first sensor and the second sensor. As the amount of data increases, the value of the data increases.

(Section 2) Each of the first hydraulic device and the second hydraulic device includes at least a motor, a pump, and a valve.

According to the hydraulic power package described in item 2, the driving status of the motor, pump, and valve can be collected, and the driving status of the hydraulic power package can be monitored.

(3) The second sensor includes a voltmeter that detects the voltage of a solenoid included in a valve of the second hydraulic device.

The hydraulic power package described in paragraph 3 makes it possible to monitor the operating status of the valve of the second hydraulic device.

(Section 4) The first sensor detects the rotation speed of the pump of the first hydraulic device, a voltmeter that detects the voltage of the motor, a voltmeter that detects the voltage of the solenoid included in the valve, and piping. Includes a pressure gauge that detects the pressure.

According to the hydraulic power package described in paragraph 4, the first sensor can be incorporated during the manufacture of the first hydraulic device, making it possible to detect the pump speed and other parameters that cannot be detected by the second sensor.

(Section 5) The communication device includes a wireless communication device that communicates using LTE.

According to the hydraulic power package described in Section 5, data can be collected using a widely spread communication network.

In addition, the present invention can be implemented in various forms with various improvements, modifications, and changes based on the knowledge of those skilled in the art without departing from the spirit of the invention.

10: Hydraulic power package 12: First hydraulic power package 14: Second hydraulic power package 16: Truck 18: Loading platform 20: Wing roof 22: First hydraulic device 24: First sensor 26: Control device 28 : First port 30: Communication device 32: Hydraulic cylinder 34: Arithmetic circuit 36: Storage device 40: Communication network 42: Server 44: Second hydraulic device 46: Second sensor 48: Second port

Claims (5)

A hydraulic power package comprising a first hydraulic power package having a communication device communicating with a server, and one or more second hydraulic power packages not having a communication device communicating with the server, the hydraulic power package comprising:
The first hydraulic power package includes:
a first hydraulic device ;
a first sensor that detects the driving status of the first hydraulic device;
a first control device into which the value of the first sensor is input;
a first port provided in the first control device and connected to the first sensor ;
the communication device communicating with the server and transmitting and storing the value of the first sensor to the server ;
the second hydraulic power package,
a second hydraulic device;
a second control device that drives the second hydraulic device ;
a second sensor that detects the driving status of the second hydraulic device;
The first hydraulic power package further includes a second port provided on the first control device and to which the second sensor can be connected;
The communication device further transmits and stores the value of the second sensor to the server .
Hydraulic power package. The hydraulic power package of claim 1, wherein each of the first hydraulic device and the second hydraulic device includes at least a motor, a pump, and a valve. 3. The hydraulic power package of claim 2, wherein said second sensor includes a voltmeter for sensing voltage of a solenoid included in a valve of the second hydraulic system. The first sensor includes a tachometer that detects the rotation speed of the pump of the first hydraulic device, a voltmeter that detects the voltage of the motor, a voltmeter that detects the voltage of a solenoid included in the valve, and a voltmeter that detects the pressure of the piping. 4. A hydraulic power package according to claim 2 or 3, including a pressure gauge. 5. The hydraulic power package according to claim 1, wherein the communication device includes a wireless communication device that communicates using LTE.

Images