JP5144978B2 - Hydraulic supply device for work equipment - Google Patents

Description

  The present invention relates to a hydraulic pressure supply device for a working machine.

A work machine-equipped vehicle in which a work machine is mounted on a vehicle is known as a hydraulic pressure supply device for this type of work machine. This working machine-equipped vehicle includes an aerial work vehicle in which a work table is moved up and down by hydraulic pressure on the vehicle body. A second hydraulic pressure driven via an electric motor by a first hydraulic pump driven by the vehicle engine for traveling on the aerial work vehicle and a work battery mounted separately from the vehicle battery mounted on the vehicle. And a hydraulic pressure supply device for a work machine, wherein the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by a control valve with hydraulic pressure from the first hydraulic pump and the second hydraulic pump. A selection switch for selecting either one of the hydraulic pump and the second hydraulic pump is provided, and the vehicle engine is automatically activated when the selection switch is switched to select the second hydraulic pump. An aerial work vehicle is known that includes control means for automatically starting a vehicle engine when stopped and switched to select a first hydraulic pump. (For example, see Patent Document 1)

Utility Model Registration No. 2523794 (FIG. 1)

However, when the operator switches so that the second hydraulic pump is selected by the selection switch, the aerial work vehicle automatically stops the vehicle engine and operates the second hydraulic pump via the electric motor with the work battery. As long as the second hydraulic pump is selected, the second hydraulic pump is continuously driven by the electric motor, so that the working battery is excessively discharged. In addition, if the electric motor is used for a long time, heat is generated and the electric motor is damaged.
Also, when the remaining capacity of the work battery is reduced, if the operator switches to select the second hydraulic pump with the selection switch, the vehicle engine is automatically stopped, but the remaining work battery remains. Since the capacity is reduced, the second hydraulic pump is not sufficiently driven by the electric motor, and the hydraulic actuator of the work implement may be stopped. At this time, the working battery is completely discharged, shortening the life of the working battery. Therefore, the operator switches the selection switch to select the first hydraulic pump to automatically start the vehicle engine, and drives and controls the hydraulic actuator of the work implement with the hydraulic pressure from the first hydraulic pump. By switching to select the second hydraulic pump by the selection switch, the work by the work implement is temporarily stopped and the work is interrupted in the middle. Also. Although the second hydraulic pump is selected by the selection switch, the hydraulic actuator of the work implement does not operate normally when the remaining capacity of the work battery is low, so the first hydraulic pump is selected again by the selection switch. It is necessary to switch so that the operation is troublesome.
Further, when the vehicle engine is stopped and the second hydraulic pump is selected and driven by the second hydraulic pump, the remaining capacity of the work battery is reduced, so that the first hydraulic pump is selected. The vehicle engine is automatically started, but the vehicle power supply is energized during the work, so the vehicle engine battery is in a discharged state, and the vehicle engine battery capacity is low when the capacity is low. In some cases, the engine cannot be started and cannot be driven by the first hydraulic pump, the work is stopped, and the vehicle engine is not started.

An object of this invention is to provide the hydraulic-supply apparatus of the working machine which solves such a problem.

In order to achieve the above object, a hydraulic pressure supply device for a working machine according to claim 1 is provided separately from a main hydraulic pump driven by a traveling vehicle engine and a vehicle battery mounted on the vehicle. A work battery charged by an alternator and a sub hydraulic pump driven by the work battery via an electric motor. The main hydraulic pump and the hydraulic actuator of the work machine mounted on the vehicle with hydraulic pressure from the sub hydraulic pump are provided. A hydraulic pressure supply device for a work machine that is driven and controlled by a control valve, a mode selection unit that selects a normal mode and an economy mode, and a first remaining capacity detection unit that detects a remaining capacity of a working battery. , An operation detecting means for detecting that the control valve is operated, and an electric motor temperature for detecting the temperature of the electric motor And a controller. The controller receives signals from the mode selection means and each detection means, and drives the hydraulic actuator with the hydraulic pressure of the main hydraulic pump when the normal mode is selected by the mode selection means. When the economy selection mode is selected by the mode selection means, the first remaining capacity detection means detects that the remaining capacity of the working battery exceeds a predetermined amount, and the electric motor temperature detection means causes the temperature of the electric motor to reach a predetermined temperature. When the operation detecting means detects the operation, the vehicle engine is stopped, the hydraulic actuator is driven by the hydraulic pressure of the sub hydraulic pump, and the remaining capacity of the work battery is determined by the first remaining capacity detecting means. Or when the electric motor temperature is detected by the electric motor temperature detecting means. When it detects that it has reached the stop electric motors, and controls so as to drive the hydraulic actuator by the main hydraulic pump hydraulic.

A hydraulic power supply device for a working machine according to claim 2, wherein the working hydraulic battery is mounted separately from the main hydraulic pump driven by the traveling vehicle engine and the vehicle battery mounted on the vehicle and is charged by the alternator of the vehicle engine. And a sub hydraulic pump driven by the work battery via the electric motor, and the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by the control valve with the hydraulic pressure from the main hydraulic pump and the sub hydraulic pump. A hydraulic pressure supply device for a working machine, wherein a mode selection means for selecting a normal mode and an economy mode, a first remaining capacity detection means for detecting a remaining capacity of the work battery, and a remaining capacity of the vehicle battery are detected. Second remaining capacity detecting means, operation detecting means for detecting that the control valve is operated, and a controller. The controller receives signals from the mode selection means and each detection means, and when the normal mode is selected by the mode selection means, drives the hydraulic actuator with the hydraulic pressure of the main hydraulic pump, and the mode selection means uses the economy mode. Is selected, when the remaining capacity of the work battery by the first remaining capacity detecting means and the remaining capacity of the vehicle battery by the second remaining capacity detecting means detect a predetermined amount or more and the operation detecting means detects an operation, the vehicle The engine is stopped and the hydraulic actuator is driven by the hydraulic pressure of the sub hydraulic pump, and when the remaining capacity of the work battery is detected by the first remaining capacity detecting means other than the above, or the vehicle battery is detected by the second remaining capacity detecting means. remaining capacity stops the electric motor when it detects a non-above, the hydraulic a in the main hydraulic pump hydraulic It is characterized in that the controls to drive the Chueta.

The hydraulic pressure supply device for a working machine according to claim 3, wherein the working hydraulic battery is mounted separately from the main hydraulic pump driven by the traveling vehicle engine and the vehicle battery mounted on the vehicle and is charged by the alternator of the vehicle engine. And a sub hydraulic pump driven by the work battery via the electric motor, and the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by the control valve with the hydraulic pressure from the main hydraulic pump and the sub hydraulic pump. A hydraulic pressure supply device for a working machine, wherein a mode selection means for selecting a normal mode and an economy mode, a first remaining capacity detection means for detecting a remaining capacity of the work battery, and the control valve are operated. Operation detecting means for detecting that there is a second remaining capacity detecting means for detecting the remaining capacity of the vehicle battery, An electric motor temperature detecting means for detecting the degree, and a controller. The controller receives signals from the mode selecting means and each detecting means, and when the normal mode is selected by the mode selecting means, the hydraulic pressure of the main hydraulic pump When the economy actuator mode is selected by the mode selection means, the remaining capacity of the work battery and the remaining capacity of the vehicle battery by the second remaining capacity detection means are predetermined by the first remaining capacity detection means. When the above is detected and the electric motor temperature detecting means detects that the temperature of the electric motor has not reached a predetermined temperature, and the operation detecting means detects an operation, the vehicle engine is stopped, and the hydraulic pressure of the sub hydraulic pump is used to stop the vehicle engine. The hydraulic actuator is driven, and the remaining capacity of the work battery is less than the above by the first remaining capacity detecting means. The electric motor when the remaining capacity of the vehicle battery by the time detected or second remaining capacity detection means detects that the temperature of the electric motor has reached a predetermined temperature or by the electric motor temperature detecting means when it detects a non above the Control is performed such that the hydraulic actuator is stopped and driven by the hydraulic pressure of the main hydraulic pump.

According to a fourth aspect of the present invention, in the hydraulic pressure supply device for a work machine according to any one of the first to third aspects, the battery is charged when the vehicle battery is in a fully charged state. The present invention is characterized in that it is carried out through a charge controller having a vehicle battery priority charging circuit.

In the hydraulic pressure supply device for a work machine according to a first aspect of the present invention, when the economy mode is selected by the mode selection means, the remaining capacity of the work battery is detected by the first remaining capacity detection means to be a predetermined amount or more, and the electric motor If the motor temperature detecting means detects that the temperature of the electric motor has not reached the predetermined temperature and the operation detecting means does not detect the operated state, the electric motor cannot be driven. The electric motor cannot be driven when the remaining capacity is reduced, when the temperature of the electric motor reaches a predetermined temperature, or when the operating means is not operated. That is, since the electric motor cannot be driven when the remaining capacity of the work battery is reduced, excessive discharge of the work battery can be prevented. Since the electric motor cannot be driven when the temperature of the electric motor reaches a predetermined temperature, it is possible to prevent the electric motor from being damaged due to heat generated by using the electric motor for a long time. Since the electric motor can be driven only when it is necessary to operate the operation means, the electric motor can be driven only when necessary, and discharge of the work battery can be prevented as much as possible.

Even when the economy mode is selected by the mode selection means, when the remaining capacity of the working battery is detected by the first remaining capacity detection means other than the above, or when the temperature of the electric motor has reached a predetermined temperature, Since the hydraulic actuator is driven by the hydraulic pressure of the main hydraulic pump, the operation can be continued without switching the mode selection means to the normal mode. Therefore, the operator is free from troublesome operations without interrupting the work.
In addition, since the hydraulic pressure supply device for the working machine according to the present invention charges the working battery using the alternator of the vehicle engine, no special generator is required for charging the working battery. Therefore, the weight can be reduced correspondingly, and the degree of freedom of the space for arranging the work battery can be secured. In addition, when the electric motor cannot be driven, the main hydraulic pump can be automatically driven by the vehicle engine, so there is no need to increase the capacity of the work battery so that the electric motor can operate for a long time. . Therefore, the working battery can be made to have a relatively small capacity, and accordingly, the weight can be reduced, and the degree of freedom of the working battery can be secured.

According to a second aspect of the present invention, there is provided a hydraulic pressure supply device for a work machine according to the present invention, wherein when the economy mode is selected by the mode selection means, the remaining capacity of the work battery by the first remaining capacity detection means and the vehicle battery by the second remaining capacity detection means. The remaining capacity of the work battery or the vehicle battery is reduced because the electric motor cannot be driven unless the remaining capacity of the battery detects a predetermined amount or more and the operation detection means does not detect the operated state. When the operating means is not operated, the electric motor cannot be driven. That is, since the electric motor cannot be driven when the remaining capacity of the work battery or the vehicle battery is reduced, excessive discharge of the work battery and the vehicle battery can be prevented. In addition, when the hydraulic actuator is driven from the hydraulic pressure of the sub hydraulic pump by the hydraulic pressure of the main hydraulic pump, the vehicle engine cannot be started due to a decrease in the battery capacity of the vehicle engine, and the operation can be stopped or the vehicle engine can be started. It is possible to eliminate the fact that the work machine itself cannot be moved due to loss.

Even if the economy mode is selected by the mode selection means, the remaining capacity of the vehicle battery is detected by the second remaining capacity detection means when the remaining capacity of the work battery is detected by the first remaining capacity detection means other than the above. Since the hydraulic actuator is driven by the hydraulic pressure of the main hydraulic pump when something other than the above is detected, the operation can be continued without switching the mode selection means to the normal mode. Therefore, the operator is free from troublesome operations without interrupting the work.

In addition, since the hydraulic pressure supply device for the working machine according to the present invention charges the working battery using the alternator of the vehicle engine, no special generator is required for charging the working battery. Therefore, the weight can be reduced correspondingly, and the degree of freedom of the space for arranging the work battery can be secured. In addition, when the electric motor cannot be driven, the main hydraulic pump can be automatically driven by the vehicle engine, so there is no need to increase the capacity of the work battery so that the electric motor can operate for a long time. . Therefore, the working battery can be made to have a relatively small capacity, and accordingly, the weight can be reduced, and the degree of freedom of the working battery can be secured.

The hydraulic pressure supply device for a work machine according to claim 3, wherein when the economy mode is selected by the mode selection means, the remaining capacity of the work battery by the first remaining capacity detection means and the remaining capacity of the vehicle battery by the second remaining capacity detection means. Detects that the electric motor temperature has not reached the predetermined temperature by the electric motor temperature detecting means and drives the electric motor if the operation detecting means does not detect the operated state. Because it is impossible, the electric motor cannot be driven when the remaining capacity of the work battery or vehicle battery is low, when the temperature of the electric motor has reached the specified temperature, or when the operating means is not operated . That is, since the electric motor cannot be driven when the remaining capacity of the work battery or the vehicle battery is reduced, excessive discharge of the work battery and the vehicle battery can be prevented. In addition, when the hydraulic actuator is driven by the hydraulic pressure of the main hydraulic pump from the hydraulic pressure of the sub hydraulic pump, if the vehicle engine needs to be started, the vehicle engine cannot be started due to a decrease in the capacity of the vehicle engine battery. It is possible to eliminate the situation that the vehicle engine cannot be started and the work machine itself cannot be moved.

Furthermore, since the electric motor cannot be driven when the temperature of the electric motor reaches a predetermined temperature, it is possible to prevent the electric motor from being damaged due to heat generated by long-term use. Since the electric motor can be driven only when necessary by operating the operating means, the electric motor can be driven only when necessary, and the work battery can be prevented from being discharged as much as possible.

Even if the economy mode is selected by the mode selection means, when the remaining capacity of the working battery is detected by the first remaining capacity detection means other than the above, or the remaining capacity of the vehicle battery is detected by the second remaining capacity detection means. Since the hydraulic actuator is driven by the hydraulic pressure of the main hydraulic pump when the temperature of the electric motor reaches a predetermined temperature by the electric motor temperature detection means, the mode selection means is set to the normal mode. You can continue working without switching. Therefore, the operator is free from troublesome operations without interrupting the work.
In addition, since the hydraulic pressure supply device for the working machine according to the present invention charges the working battery using the alternator of the vehicle engine, no special generator is required for charging the working battery. Therefore, the weight can be reduced correspondingly, and the degree of freedom of the space for arranging the work battery can be secured. In addition, when the electric motor cannot be driven, the main hydraulic pump can be automatically driven by the vehicle engine, so there is no need to increase the capacity of the work battery so that the electric motor can operate for a long time. . Therefore, the working battery can be made to have a relatively small capacity, and accordingly, the weight can be reduced, and the degree of freedom of the working battery can be secured.

The hydraulic pressure supply device for a work machine according to any one of claims 1 to 3 , wherein the vehicle engine is stopped when the hydraulic actuator is driven by the hydraulic pressure of the sub-hydraulic pump, and the electric motor is driven when the hydraulic actuator is driven by the hydraulic pressure of the main hydraulic pump. Since the motor is stopped, when the hydraulic actuator is driven by the electric motor, the vehicle engine can be stopped to reduce wasteful fuel consumption (energy saving), noise reduction, and exhaust gas reduction. It is possible to cope with environmental problems. When the vehicle engine is required, it is automatically started and stopped by the electric motor that is not necessary, and the electric motor is damaged due to heat generation, etc. by wastefully preventing the consumption of the work battery and using the electric motor for a long time. Can be prevented.

The hydraulic pressure supply device for a working machine according to claim 4 is configured such that the work battery is charged when the vehicle battery is in a fully charged state by a charge controller having a vehicle battery priority charge circuit. It is possible to prevent the vehicle battery from being excessively discharged without being able to charge the vehicle battery in order to charge the vehicle battery. Accordingly, the capacity of the vehicle battery can be ensured even when the capacity of the work battery is reduced, and the start of the vehicle engine can be ensured during work or during travel.

(First Embodiment) A first embodiment of a hydraulic pressure supply device for a working machine according to the present invention will be described below with reference to FIGS. FIG. 1 is a circuit diagram illustrating a hydraulic pressure supply device for a working machine according to the present invention. Reference numeral 1 denotes a traveling vehicle engine for running a vehicle. The vehicle engine 1 includes a cell motor 1a for starting the engine, an alternator 1b for charging a vehicle battery, which will be described later, and a control device for a fuel injection pump of the vehicle engine 1. 1c. Reference numeral 2 denotes a PTO that takes out power from the vehicle engine 1. The main hydraulic pump 3 is connected to the PTO 2, and the main hydraulic pump 3 is driven by the vehicle engine 1. Reference numeral 4 denotes a vehicle battery described above, which is charged by power generation from the alternator 1b and supplies power to the cell motor 1a to start the vehicle engine 1.

A work battery 5 is mounted on the vehicle separately from the vehicle battery 4 and is charged by the alternator 1b of the vehicle engine 1. Reference numeral 6 denotes an electric motor driven by the work battery 5, and reference numeral 7 denotes a sub hydraulic pump driven via the electric motor 6. Reference numerals 8 and 9 denote hydraulic actuators of a working machine mounted on the vehicle, and reference numerals 10 and 11 denote control valves that drive and control the hydraulic actuators. Reference numerals 12 and 13 denote operation levers (operation means) for operating the spools of the control valves 8 and 9, respectively. 12a is a first operation detector that detects that the operation lever 12 has been operated (corresponding to the operation detection means according to claim 1), and 13a is a second operation detector that detects that the operation lever 13 has been operated. (Corresponding to the operation detecting means according to claim 1).

14 is a charge controller that receives the generated power from the alternator 1b and charges the vehicle battery 4 without charging the work battery 5 when the vehicle battery 4 is not fully charged. The vehicle battery 4 is charged. It is a charging controller provided with a priority charging circuit that preferentially charges the so-called vehicle battery 4 that charges the work battery 5 when it is in a completed state.

Reference numeral 15 denotes a starter relay, which receives a command from a controller 19 described later, connects the vehicle battery 4 to the cell motor 1a, and starts the vehicle engine 1. Reference numeral 16 denotes an electric motor drive relay that receives a command from a controller 19 described later, connects the work battery 5 to the electric motor 6, and drives the electric motor 6. Reference numeral 17 denotes remaining capacity detecting means for detecting the remaining capacity of the working battery 5 and detecting means for detecting the remaining capacity by measuring the voltage or specific gravity of the working battery 5. 6a is an electric motor temperature detecting means for detecting the temperature of the electric motor 6, and is a detecting means for detecting the temperature of the electric motor 6 because it generates heat when the electric motor 6 is driven.

Reference numeral 18 denotes a mode selection means for selecting a normal mode and an economy mode. The normal mode is a mode that is selected when the main hydraulic pump 3 drives the hydraulic actuators 8 and 9 of the work implement. The economy mode is mainly when the hydraulic actuators 8 and 9 of the work implement are driven by the sub hydraulic pump 7, but automatically when the electric motor 6 cannot be driven, such as when the remaining capacity of the work battery 5 decreases. This mode is selected when the main hydraulic pump 3 can drive the hydraulic actuators 8 and 9 of the work implement.

A controller 19 receives signals from the mode selection means 18 and the detection means 17 and 6a, and drives the hydraulic actuators 8 and 9 with the hydraulic pressure of the main hydraulic pump 3 when the normal mode is selected. When the economy mode is selected, detection signals are received from the first remaining capacity detecting means 17, the electric motor temperature detecting means 6a, and the operation detecting means 12a and 13a, and the remaining capacity of the working battery 5 is detected to be a predetermined amount or more. When it is detected that the temperature of the electric motor 6 has not reached the predetermined temperature and the operation of the operation detecting means 12a, 13 is detected, the sub hydraulic pump 7 drives the hydraulic actuators 8, 9 to detect the first remaining capacity. When the remaining capacity of the working battery 5 is detected by means 17 other than the above, or by the electric motor temperature detecting means 6a When the temperature of is detected that has reached a predetermined temperature is controlled so as to drive the hydraulic actuator 8, 9 hydraulic pressure of the main hydraulic pump 3.

20 receives a signal from the controller 19 and displays the remaining capacity of the working battery 5 detected by the first remaining capacity detecting means 17 and the temperature of the electric motor 6 detected by the electric motor temperature detecting means 6a on a display or the like. Display means for displaying.
Here, detailed control of the controller 19 will be described based on the flowchart shown in FIG. When the power is turned on and the control is started, it is determined in S1 whether or not the normal mode is selected by the mode selection means 18. If the normal mode is selected in S1, the process proceeds to S8, and if the normal mode is not selected, the process proceeds to S2. In S2, it is determined whether or not the economy mode is selected by the mode selection means. If the economy mode is selected in S2, the process proceeds to S3, and if the economy mode is not selected, the process returns to S1. In S3, the detection signal from the first remaining capacity detecting means 17 is received, and it is determined whether or not the remaining capacity of the working battery 5 is equal to or larger than a predetermined amount. Here, the predetermined amount is the remaining capacity of the working battery 5 that is sufficient to generate the power required to enable the hydraulic actuators 8 and 9 to be operated by the sub hydraulic pump 7 by the driving force of the electric motor 6. It is. If it is not less than the predetermined amount in S3, the process proceeds to S4, and if not, the process proceeds to S8.

In S4, the detection signal from the electric motor temperature detecting means 6a is received, and it is determined whether or not the temperature of the electric motor 6 has reached a predetermined temperature. When the temperature of the electric motor 6 does not reach the predetermined temperature, the process proceeds to S5, and when it reaches, the process proceeds to S8. Here, the predetermined temperature is set to a temperature at which the electric motor 6 can be driven at a temperature at which the heat generated when the electric motor 6 is continuously used does not hinder the driving of the electric motor 6.

In S5, in response to an operation signal from the first or second operation detector 12a, 13a, it is determined whether or not the control valve 10 or the control valve 11 is operated, and the operation is detected. Then, it progresses to S6, and if it detects that it is not operating, it will return to S1.

In S6, the controller 19 instructs the electric motor drive relay 16 to operate to drive the electric motor 6 to generate hydraulic pressure by the sub hydraulic pump 7, and based on the control valves 10 and 11 operated by the operation levers 12 and 13. The hydraulic actuators 8 and 9 are operated, and the process proceeds to S7. In S7, in order to stop the vehicle engine 1, the controller 19 outputs an engine stop command signal to the fuel injection pump control device 1c of the vehicle engine 1, stops the vehicle engine 1, and returns to S1.
In S8, when the vehicle engine 1 is operating, the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13 with the hydraulic pressure of the main hydraulic pump 3, and the process proceeds to S9. . When the vehicle engine 1 is stopped, the controller 19 issues a start command signal to the starter relay 15 to start the vehicle engine 1 to start the vehicle engine 1 and drive the main hydraulic pump 3 to generate hydraulic pressure, and the operation lever. The hydraulic actuators 8 and 9 are actuated based on the control valves 10 and 11 operated by 12 and 13, and the process proceeds to S9. In S9, when the electric motor 6 is operating, the controller 19 instructs the electric motor drive relay 16 to stop the operation to stop the driving of the electric motor 6 and stop the generation of the hydraulic pressure from the sub hydraulic pump 7. Return to S1. If the electric motor 6 is not operating, the process immediately returns to S1.

The hydraulic pressure supply device for the working machine according to the first embodiment configured as described above operates as follows. First, when the vehicle engine 1 is in operation and the mode selection means 18 selects the normal mode, the process proceeds from S1 to S8, and the control operated by the operation levers 12 and 13 with the hydraulic pressure from the main hydraulic pump 3 in S8. The hydraulic actuators 8 and 9 are actuated based on the valves 10 and 11, and the process proceeds to S9. In S9, since the electric motor 6 is not operating, the process immediately returns to S1. That is, the routine is a repetition routine of S1, S8, S9, and S1, in which the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and based on the control valves 10 and 11 operated by the operation levers 12 and 13. Each hydraulic actuator 8, 9 is actuated.

When the economy mode is selected by the mode selection means 18, if the remaining capacity of the work battery 5 is not equal to or greater than the predetermined amount, the routine through S1, S2, S3, S8, S9, and S1 is repeated. In the routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13.

When the economy selection mode is selected by the mode selection means 18 and the remaining capacity of the work battery 5 is detected to be a predetermined amount or more, when the temperature of the electric motor 6 reaches the predetermined temperature, S1, S2, S3, S4 , S8, S9, and S1 are repeated. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the control valves 10 and 11 operated by the operation levers 12 and 13 are applied. Based on this, the hydraulic actuators 8 and 9 are operated.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 is detected to be greater than or equal to a predetermined amount, and it is detected that the temperature of the electric motor 6 has not reached the predetermined temperature. When an operation signal from the second operation detectors 12a and 13a is received and the control valve 10 or the control valve 11 is not operated, the routine that passes S1, S2, S3, S4, S5, and S1 is repeated. This routine is repeated until it is operated. In S5, when an operation signal is received from the first or second operation detector 12a, 13a and the control valve 10 or the control valve 11 is operated, the process proceeds to S6. In S6, from the controller 19 to the electric motor drive relay 16 In response to the operation command, the electric motor 6 is driven and hydraulic pressure is generated by the sub hydraulic pump 7, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively. move on. In S7, in order to stop the vehicle engine 1, the controller 19 outputs an engine stop command signal to the fuel injection pump control device 1c of the vehicle engine 1, stops the vehicle engine 1, and returns to S1.

That is, the routine through S1, S2, S3, S4, S5, S6, S7, and S1 is repeated, and the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7. In this routine, the operation of the control valve 10 and the control valve 11 is stopped, the normal mode is selected by the mode selection means 18, or the remaining capacity of the work battery 5 does not detect a predetermined value or more. Unless it is detected that the temperature of the motor 6 has reached a predetermined temperature, the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7.

In the first embodiment according to the present invention which operates in this way, when the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 is detected by the first remaining capacity detection means 17 to be a predetermined amount or more. If it is detected by the electric motor temperature detection means 6a that the temperature of the electric motor 6 has not reached the predetermined temperature and the operation detection means 12a, 13a has not been detected, the electric motor 6 cannot be driven. Therefore, when the remaining capacity of the working battery 5 is reduced, the temperature of the electric motor 6 reaches a predetermined temperature, the operating means 12 and 13 are not operated, and the electric motor 6 cannot be driven. . That is, since the electric motor 6 cannot be driven when the remaining capacity of the work battery 5 is reduced, excessive discharge of the work battery 5 can be prevented. Since the electric motor 6 cannot be driven when the temperature of the electric motor 6 reaches a predetermined temperature, it is possible to prevent the electric motor 6 from being damaged due to heat generated by using a long time. Since the electric motor 6 can be driven only when it is necessary to operate the operating means 12 and 13, the electric motor 6 can be driven only when necessary, and the discharge of the work battery 5 is prevented as much as possible. can do.

Even if the economy mode is selected by the mode selection means 18, when the remaining capacity of the work battery 5 detects other than the above by the first remaining capacity detection means 17, or the temperature of the electric motor 6 reaches a predetermined temperature. Since the hydraulic actuators 8 and 9 are driven by the hydraulic pressure of the main hydraulic pump 3, the operation can be continued without switching the mode selection means 18 to the normal mode. Therefore, the operator is free from troublesome operations without interrupting the work.
In the hydraulic pressure supply device for a working machine according to the present invention, the working battery 5 is charged by using the alternator 1b of the vehicle engine 1. Therefore, a special generator for charging the working battery 5 is used. Therefore, it is possible to reduce the weight and to secure the degree of freedom of the arrangement space for the work battery 5 and the like. Since the main hydraulic pump 3 can be automatically driven by the vehicle engine 1 when the electric motor 6 cannot be driven, the work battery 5 has a large capacity so that the electric motor 6 can operate for a long time. There is no need to Therefore, the working battery 5 can be made to have a relatively small capacity, and the weight can be reduced by that amount, and the degree of freedom of the space for arranging the working battery 5 can be secured.

(Second Embodiment) Next, a second embodiment for explaining the present invention will be described with reference to FIGS. FIG. 3 is a circuit diagram illustrating a second embodiment of the hydraulic pressure supply device for a working machine according to the present invention. What is illustrated and described in FIG. 1 is that the electric motor temperature detecting means 6a is not arranged, the second remaining capacity detecting means for detecting the remaining capacity of the vehicle battery 4 is arranged, and the control by the controller 19 The difference is that the contents are partially different and the display contents of the display means 20 are partially different. Therefore, in the following description, this difference will be mainly described, and the same components as those illustrated and described in FIG.
In FIG. 3, 21 is a second remaining capacity detecting means for detecting the remaining capacity of the vehicle battery 4 described above, and is a detecting means for measuring the voltage or specific gravity of the vehicle battery 4 to detect the remaining capacity. 19a is a controller which receives signals from the mode selection means 18 and the detection means 17, 21 and drives the hydraulic actuators 8, 9 with the hydraulic pressure of the main hydraulic pump 3 when the normal mode is selected, When the economy mode is selected, the remaining capacity of the work battery 5 by the first remaining capacity detecting means 17 and the remaining capacity of the vehicle battery 5 by the second remaining capacity detecting means 21 detect a predetermined amount or more and the operation detecting means. When 12a, 13a detects the operation, the hydraulic actuators 8, 9 are driven by the hydraulic pressure of the sub hydraulic pump 7, and when the remaining capacity of the work battery 5 is detected by the first remaining capacity detection means 17 other than the above, or When the remaining remaining capacity of the vehicle battery 4 is detected by the second remaining capacity detecting means 21 other than the above, the hydraulic pressure of the main hydraulic pump 3 It controls to drive the actuator 8,9. 20a receives a signal from the controller 19 and displays the remaining capacity of the working battery 5 detected by the first remaining capacity detecting means 17 and the remaining capacity of the vehicle battery 4 detected by the second remaining capacity detecting means 21. It is a display means to display on the.

Here, detailed control of the controller 19a will be described based on the flowchart shown in FIG. In the flowchart shown in FIG. 2 and the flowchart shown in FIG. 4, whether or not the remaining capacity of the vehicle battery 4 is greater than or equal to a predetermined amount is determined in S4 as to whether or not the electric motor 6 has reached a predetermined temperature. The only difference is that the process is changed to S10 for determining whether or not. Therefore, since other parts are the same, only different parts will be described in the following description.
In S10, the detection signal from the second remaining capacity detecting means 21 is received, and it is determined whether or not the remaining capacity of the vehicle battery 4 is a predetermined amount or more. Here, the predetermined amount is a remaining capacity of the vehicle battery 4 that is sufficient to start the vehicle engine 1 with the cell motor 1a. If it is not less than the predetermined amount in S10, the process proceeds to S5, and if not, the process proceeds to S8.
The hydraulic pressure supply device for a working machine according to the second embodiment configured as described above operates as follows. In addition, since the process in S1-S3, S5-S7, S8, S9 is the same as 1st Embodiment, description about these is abbreviate | omitted here.

First, when the vehicle engine 1 is in operation and the mode selection means 18 selects the normal mode, the routine is repeated S1, S8, S9, and S1, as in the first embodiment. 1, the main hydraulic pump 3 is driven to generate hydraulic pressure, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively.

When the economy mode is selected by the mode selection means 18 and the remaining capacity of the work battery 5 does not detect a predetermined amount or more, the routine in which S1, S2, S3, S8, S9, and S1 pass is repeated. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively. This is the same as the embodiment.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 is detected to be a predetermined amount or more, but when the remaining capacity of the vehicle battery 4 is not detected to be the predetermined amount or more, S1, S2, S3 , S10, S8, S9, and S1 are repeated. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the control valve 10 operated by the operation levers 12 and 13 is operated. 11, the hydraulic actuators 8 and 9 are operated.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 is detected to be a predetermined amount or more, and the remaining capacity of the vehicle battery 4 is detected to be a predetermined amount or more. When the operation signal from the detectors 12a and 13a is received and the control valve 10 or the control valve 11 is not operated, the routine through S1, S2, S3, S10, S5, and S1 is repeated. This routine will be repeated until it is done.

In S5, when an operation signal is received from the first or second operation detector 12a, 13a and the control valve 10 or the control valve 11 is operated, the process proceeds to S6. In S6, from the controller 19 to the electric motor drive relay 16 In response to the operation command, the electric motor 6 is driven and hydraulic pressure is generated by the sub hydraulic pump 7, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively. move on. In S7, in order to stop the vehicle engine 1, the controller 19 outputs an engine stop command signal to the fuel injection pump control device 1c of the vehicle engine 1, stops the vehicle engine 1, and returns to S1.

That is, the routine through S1, S2, S3, S10, S5, S6, S7, and S1 is repeated, and the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7. In this routine, the operation of the control valve 10 or the control valve 11 is stopped, the normal mode is selected by the mode selection means 18, or the remaining capacity of the work battery 5 does not detect a predetermined value or more. As long as the remaining capacity of the battery 4 does not detect a predetermined amount or more, the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7.
In the second embodiment according to the present invention which operates in this way, when the economy mode is selected by the mode selection means 18, the remaining capacity of the working battery 5 and the second remaining capacity detection means 21 by the first remaining capacity detection means 17 are selected. If the remaining capacity of the vehicle battery 4 is detected to be equal to or greater than a predetermined amount and the operation detection means 12 and 13 are not detected, the electric motor 6 cannot be driven. When the remaining capacity of the vehicle battery 4 is reduced, the electric motor 6 cannot be driven when the operating means 12 and 13 are not operated. That is, since the electric motor 6 cannot be driven when the remaining capacity of the work battery 5 or the vehicle battery 4 is reduced, excessive discharge of the work battery 5 and the vehicle battery 4 can be prevented. Further, when the hydraulic actuators 8 and 9 are driven by the hydraulic pressure by the main hydraulic pump 3 from the hydraulic pressure by the sub hydraulic pump 7, the vehicle engine 1 cannot be started as the capacity of the vehicle battery 4 decreases, and the operation is stopped. And the vehicle engine 1 cannot be started and the work machine itself cannot be moved.

Even if the mode selection means 18 selects the economy mode, the first remaining capacity detection means 17 detects the remaining capacity of the work battery 5 other than the above, or the second remaining capacity detection means 21 detects the vehicle battery. When the remaining capacity of 1 is detected other than the above, the hydraulic actuators 8 and 9 are driven by the hydraulic pressure of the main hydraulic pump 3, so that the operation can be performed without switching the mode selection means 18 to the normal mode. You can continue. Therefore, the operator is free from troublesome operations without interrupting the work.

In the hydraulic pressure supply device for a working machine according to the present invention, the working battery 5 is charged by using the alternator 1b of the vehicle engine 1. Therefore, a special generator for charging the working battery 5 is used. Therefore, it is possible to reduce the weight and to secure the degree of freedom of the space for arranging the work battery. In addition, when the electric motor 6 cannot be driven, the main hydraulic pump 7 can be automatically driven by the vehicle engine 1, so that the work battery 5 has a large capacity so that the electric motor 6 can be operated for a long time. There is no need to Therefore, the working battery 5 can be made to have a relatively small capacity, and the weight can be reduced by that amount, and the degree of freedom of the space for arranging the working battery 5 can be secured.

(Third Embodiment) Next, a third embodiment for explaining the present invention will be described with reference to FIGS. FIG. 5 is a circuit diagram for explaining a third embodiment of the hydraulic pressure supply device for a working machine according to the present invention. From that shown and described in FIG. 1, that was placed a second remaining capacity detecting means for detecting a remaining capacity of the vehicle battery 4, as shown and described in FIG. 3, the temperature of the electric motor 6 This is different from the above in that an electric motor temperature detecting means 6a for detecting the above is arranged. That is, in the third embodiment shown in FIG. 5, both the second remaining capacity detecting means 21 and the electric motor temperature detecting means 6a are arranged.

Therefore, the control contents of the controllers 19 and 19a and the display contents of the display means 20 and 20a are different from each other, and in the following description, this difference will be mainly described and illustrated and described with reference to FIGS. The same components are denoted by the same reference numerals, and detailed description thereof is omitted.

In FIG. 5, 19 b is a controller which receives signals from the mode selection means 18 and the detection means 17, 21 and 6 a, and when the normal mode is selected by the mode selection means 18, the hydraulic pressure of the main hydraulic pump 3 is used. When the hydraulic actuators 8 and 9 are driven and the economy mode is selected by the mode selection means 18, the remaining capacity of the working battery 5 and the vehicle battery 4 by the second remaining capacity detection means 21 are detected by the first remaining capacity detection means 17. If the remaining capacity of the electric motor 6 detects a predetermined amount or more and the electric motor temperature detecting means 6a detects that the temperature of the electric motor 6 has not reached the predetermined temperature and the operation detecting means 12, 13 detects an operation, the sub hydraulic pressure is detected. The hydraulic actuators 8 and 9 are driven by the hydraulic pressure of the pump 7, and the remaining capacity of the work battery 5 is detected by the first remaining capacity detection means 17. When the other than the above is detected, when the remaining capacity of the vehicle battery 4 is detected by the second remaining capacity detecting means 21, or when the temperature of the electric motor 6 has reached a predetermined temperature by the electric motor temperature detecting means 6a. When detected, the hydraulic actuators 8 and 9 are controlled to be driven by the hydraulic pressure of the main hydraulic pump 3.
20b receives a signal from the controller 19b, the remaining capacity of the working battery 5 detected by the first remaining capacity detecting means 17, and the remaining capacity of the working battery 5 detected by the second remaining capacity detecting means 21; The electric motor temperature detecting means 6a is a display means for displaying the detected temperature of the electric motor 6 on a display or the like.

Here, detailed control of the controller 19b will be described based on the flowchart shown in FIG. The flowchart illustrated in FIG. 6 is obtained by processing S4 of the flowchart illustrated in FIG. 2 and S10 of the flowchart illustrated in FIG. 4 between S3 and S5. Therefore, since other parts are the same, only different parts will be described in the following description.
In S10, the detection signal from the second remaining capacity detecting means 21 is received, and it is determined whether or not the remaining capacity of the vehicle battery 4 is a predetermined amount or more. Here, the predetermined amount is a remaining capacity of the vehicle battery 4 that is sufficient to start the vehicle engine 1 with the cell motor 1a. If it is not less than the predetermined amount in S4, the process proceeds to S4, and if not, the process proceeds to S8.
In S4, the detection signal from the electric motor temperature detecting means 6a is received, and it is determined whether or not the temperature of the electric motor 6 has reached a predetermined temperature. When the temperature of the electric motor 6 does not reach the predetermined temperature, the process proceeds to S5, and when it reaches, the process proceeds to S8. Here, the predetermined temperature is set to a temperature at which the electric motor 6 can be driven at a temperature at which the heat generated when the electric motor 6 is continuously used does not hinder the driving of the electric motor 6.
The hydraulic pressure supply device for a working machine according to the third embodiment configured as described above operates as follows. In addition, since the process in S1-S3, S5-S7, S8, S9 is the same as 1st Embodiment and 2nd Embodiment, description about these is abbreviate | omitted here.
First, when the vehicle engine 1 is in operation, if the mode selection means 18 selects the normal mode, it becomes a repetitive routine of S1, S8, S9, and S1, as in the first and second embodiments. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13.

  When the economy mode is selected by the mode selection means 18, if the remaining capacity of the work battery 5 does not detect a predetermined amount or more, the routine through S1, S2, S3, S8, S9, S1 is repeated. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively. This is similar to the embodiment and the second embodiment.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 is detected to be a predetermined amount or more, but when the remaining capacity of the vehicle battery 4 is not detected to be the predetermined amount or more, S1, S2, S3 , S10, S8, S9, and S1 are repeated. In this routine, the main hydraulic pump 3 is driven by the vehicle engine 1 to generate hydraulic pressure, and the control valve 10 operated by the operation levers 12 and 13 is operated. 11, the hydraulic actuators 8 and 9 are operated, which is the same as in the second embodiment.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 detects a predetermined amount or more and the remaining capacity of the vehicle battery 4 detects a predetermined amount or more. In S4, the electric motor When it is detected that the temperature 6 has reached the predetermined temperature, the routine in which S1, S2, S3, S10, S4, S8, S9, and S1 are repeated is repeated. The hydraulic pressure is generated by driving the pump 3, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13.

When the economy mode is selected by the mode selection means 18, the remaining capacity of the work battery 5 detects a predetermined amount or more, the remaining capacity of the vehicle battery 4 detects a predetermined amount or more, and the temperature of the electric motor 6 is When it is detected that the predetermined temperature has not been reached and the operation signal from the first or second operation detector 12a, 13a is received and the control valve 10 or the control valve 11 is not operated, S1, S2 , S3, S10, S4, S5, and S1 are repeated, and this routine is repeated until it is operated.
In S5, when an operation signal is received from the first or second operation detector 12a, 13a and the control valve 10 or the control valve 11 is operated, the process proceeds to S6. In S6, from the controller 19 to the electric motor drive relay 16 In response to the operation command, the electric motor 6 is driven and hydraulic pressure is generated by the sub hydraulic pump 7, and the hydraulic actuators 8 and 9 are operated based on the control valves 10 and 11 operated by the operation levers 12 and 13, respectively. move on. In S7, in order to stop the vehicle engine 1, the controller 19 outputs an engine stop command signal to the fuel injection pump control device 1c of the vehicle engine 1, stops the vehicle engine 1, and returns to S1.

That is, the routine through S1, S2, S3, S10, S4, S5, S6, S7, and S1 is repeated, and the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7. In this routine, the operation of the control valve 10 or the control valve 11 is stopped, the normal mode is selected by the mode selection means 18, or the remaining capacity of the work battery 5 does not detect a predetermined value or more. Unless the remaining capacity of the battery 4 detects a predetermined amount or more or detects that the temperature of the electric motor 6 has reached a predetermined temperature, the hydraulic actuators 8 and 9 are operated by the hydraulic pressure of the sub hydraulic pump 7. It will be.

In the third embodiment according to the present invention that act in this manner, when selecting the economy mode by the mode selecting means 18, the remaining capacity of the working Battery 5 by the first remaining capacity detection unit 17 and the second remaining capacity detection means 21 detects that the remaining capacity of the vehicle battery 4 is equal to or greater than a predetermined amount, and detects that the temperature of the electric motor 6 has not reached the predetermined temperature by the electric motor temperature detecting means 6a, and the operation detecting means 12, 13 If the operated state is not detected, the electric motor 6 cannot be driven. Therefore, when the remaining capacity of the work battery 5 or the vehicle battery 4 is reduced, the temperature of the electric motor 6 reaches a predetermined temperature. When the operating means 12 and 13 are not operated, the electric motor 6 cannot be driven. That is, since the electric motor 6 cannot be driven when the remaining capacity of the work battery 5 or the vehicle battery 4 is reduced, excessive discharge of the work battery 5 and the vehicle battery 4 can be prevented. In addition, when the hydraulic actuators 8 and 9 are driven from the hydraulic pressure of the sub hydraulic pump 7 by the hydraulic pressure of the main hydraulic pump 3, the vehicle engine 1 can be started as the capacity of the vehicle battery 4 decreases when the vehicle engine 1 is started. Thus, it is possible to eliminate the situation that the work is stopped or the vehicle engine 1 cannot be started and the work machine itself cannot move.

Further, since the electric motor 6 cannot be driven when the temperature of the electric motor 6 reaches a predetermined temperature, it is possible to prevent the electric motor 6 from being damaged due to heat generated by long-term use. Since the electric motor 6 can be driven only when necessary by operating the operation means 12 and 13, the electric motor 6 can be driven only when necessary, and the work battery 5 is discharged as much as possible. Can be blocked.

Even if the mode selection means 18 selects the economy mode, the first remaining capacity detection means 17 detects when the remaining capacity of the work battery 5 is other than the above, or the second remaining capacity detection means 21 detects the vehicle battery 4. The hydraulic actuators 8 and 9 are driven by the hydraulic pressure of the main hydraulic pump 3 when the remaining capacity of the motor is detected other than the above, or when the temperature of the electric motor 6 reaches a predetermined temperature by the electric motor temperature detecting means 6a. Therefore, the operation can be continued without switching the mode selection means 18 to the normal mode. Therefore, the operator is free from troublesome operations without interrupting the work.

Since the hydraulic pressure supply device for the working machine according to the present invention charges the working battery 5 using the alternator 1b of the vehicle engine, a special generator is used for charging the working battery 5. Since it is not necessary, the weight can be reduced correspondingly, and the degree of freedom of the space for arranging the work battery 5 and the like can be secured. Since the main hydraulic pump 3 can be automatically driven by the vehicle engine 1 when the electric motor 6 cannot be driven, the work battery 5 has a large capacity so that the electric motor 6 can operate for a long time. There is no need to Therefore, the working battery 5 can be made to have a relatively small capacity, and the weight can be reduced by that amount, and the degree of freedom of the space for arranging the working battery 5 can be secured.

In any of the first to third embodiments, when the hydraulic actuators 8 and 9 are driven by the hydraulic pressure of the sub hydraulic pump 7, the vehicle engine 1 is stopped and the hydraulic pressure of the main hydraulic pump 3 is used. When the hydraulic actuators 8 and 9 are driven, the electric motor 6 is stopped. Therefore, when the hydraulic actuators 8 and 9 are driven by the electric motor 6, the vehicle engine 1 is stopped and wasteful fuel is discharged. Consumption (energy saving), noise reduction, exhaust gas reduction can be achieved, and environmental problems can be dealt with. When the vehicle engine 1 is required, the electric motor 6 is automatically started and stopped by the unnecessary driving of the electric motor 6, and the electric motor 6 is damaged due to heat generation or the like by uselessly preventing consumption of the work battery 5 or using it for a long time. Can be prevented.

In the above embodiment, the work battery 5 is charged by the charge controller 14 having the vehicle battery priority charge circuit when the vehicle battery 4 is in a fully charged state. It is possible to prevent the vehicle battery 4 from being excessively discharged because the vehicle battery 4 cannot be charged. Therefore, even if the capacity of the work battery 5 is reduced, the capacity of the vehicle battery 4 can be ensured, and the start of the vehicle engine 1 can be ensured during work or travel.

In the above embodiment, the reason for the embodiment in which the work machine is mounted on a vehicle such as an aerial work vehicle has been described. . For example, the present invention can also be applied to a vehicle carrier described below. That is, the vehicle transporter operates a hydraulic actuator that tilts the loading platform in order to load another vehicle on the loading platform of the vehicle. This hydraulic actuator may be selected by the mode selection means as in the present invention and switched between the hydraulic pump by the electric motor and the hydraulic pump by the traveling vehicle engine so that the same can be implemented.

1 is a circuit diagram illustrating a first embodiment of a hydraulic pressure supply device for a working machine according to the present invention. It is a flowchart explaining 1st Embodiment of the hydraulic pressure supply apparatus of the working machine which concerns on this invention. It is a circuit diagram explaining 2nd Embodiment of the hydraulic supply apparatus of the working machine which concerns on this invention. It is a flowchart explaining 2nd Embodiment of the hydraulic pressure supply apparatus of the working machine which concerns on this invention. It is a circuit diagram explaining 3rd Embodiment of the hydraulic supply apparatus of the working machine which concerns on this invention. It is a flowchart explaining 3rd Embodiment of the hydraulic supply apparatus of the working machine which concerns on this invention.

DESCRIPTION OF SYMBOLS 1 Vehicle engine 1b Alternator 3 Main hydraulic pump 4 Vehicle battery 5 Working battery 6 Electric motor 6a Electric motor temperature detection means 7 Sub hydraulic pump 8 Hydraulic actuator 9 Hydraulic actuator 12a First operation detector (operation detection means)
13a Second operation detector (operation detection means)
17 first remaining capacity detecting means 18 mode selecting means 19 controller 19a controller 19b controller 21 second remaining capacity detecting means

Claims (4)

A main hydraulic pump driven by a traveling vehicle engine, a working battery mounted separately from the vehicle battery mounted on the vehicle and charged by an alternator of the vehicle engine, and driven by an electric motor by the working battery A hydraulic pressure supply device for a work machine, wherein the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by a control valve with hydraulic pressure from the main hydraulic pump and the sub hydraulic pump,
A mode selection means for selecting a normal mode and an economy mode, a first remaining capacity detection means for detecting a remaining capacity of the work battery, an operation detection means for detecting that the control valve is operated, Electric motor temperature detecting means for detecting the temperature of the electric motor, and a controller,
The controller receives signals from the mode selection means and each detection means, and when the normal mode is selected by the mode selection means, drives the hydraulic actuator with the hydraulic pressure of the main hydraulic pump, and selects the economy mode by the mode selection means. The first remaining capacity detecting means detects that the remaining capacity of the work battery is equal to or greater than a predetermined amount, and the electric motor temperature detecting means detects that the temperature of the electric motor has not reached the predetermined temperature and detects the operation. When the means detects the operation, the vehicle engine is stopped, the hydraulic actuator is driven by the hydraulic pressure of the sub-hydraulic pump, and when the remaining capacity of the working battery is detected by the first remaining capacity detecting means other than the above, or the electric motor electric when the by the temperature detecting means temperature of the electric motor is detected that has reached a predetermined temperature Stop over motor, the hydraulic pressure supply device of the working machine and controls so as to drive the hydraulic actuator by the main hydraulic pump hydraulic. A main hydraulic pump driven by a traveling vehicle engine, a working battery mounted separately from the vehicle battery mounted on the vehicle and charged by an alternator of the vehicle engine, and driven by an electric motor by the working battery A hydraulic pressure supply device for a work machine, wherein the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by a control valve with hydraulic pressure from the main hydraulic pump and the sub hydraulic pump,
Mode selection means for selecting the normal mode and economy mode, first remaining capacity detection means for detecting the remaining capacity of the work battery, second remaining capacity detection means for detecting the remaining capacity of the vehicle battery, and the control An operation detecting means for detecting that the valve is operated, and a controller;
The controller receives signals from the mode selection means and each detection means, and when the normal mode is selected by the mode selection means, drives the hydraulic actuator with the hydraulic pressure of the main hydraulic pump, and selects the economy mode by the mode selection means. When the remaining capacity of the working battery by the first remaining capacity detecting means and the remaining capacity of the vehicle battery by the second remaining capacity detecting means detect a predetermined amount or more and the operation detecting means detects an operation , stop, wherein in the sub hydraulic pump hydraulic drives the hydraulic actuator, when the remaining capacity of the working battery is detected other than the by the first remaining capacity detection means, or the remaining of the second remaining capacity detection unit by the vehicle battery stop the electric motor when the capacity is detected other than above, the hydraulic Actuator in the main hydraulic pump hydraulic Hydraulic pressure supply device of the working machine and controls so as to drive the over data. A main hydraulic pump driven by a traveling vehicle engine, a working battery mounted separately from the vehicle battery mounted on the vehicle and charged by an alternator of the vehicle engine, and driven by an electric motor by the working battery A hydraulic pressure supply device for a work machine, wherein the hydraulic actuator of the work machine mounted on the vehicle is driven and controlled by a control valve with hydraulic pressure from the main hydraulic pump and the sub hydraulic pump,
Mode selection means for selecting the normal mode and economy mode, first remaining capacity detection means for detecting the remaining capacity of the work battery, operation detection means for detecting that the control valve is operated, vehicle A second remaining capacity detecting means for detecting a remaining capacity of the battery; an electric motor temperature detecting means for detecting a temperature of the electric motor; and a controller;
The controller receives signals from the mode selection means and each detection means, and when the normal mode is selected by the mode selection means, drives the hydraulic actuator with the hydraulic pressure of the main hydraulic pump, and selects the economy mode by the mode selection means. In this case, the first remaining capacity detecting means detects the remaining capacity of the working battery and the remaining capacity of the vehicle battery by the second remaining capacity detecting means at a predetermined amount or more, and the electric motor temperature detecting means detects the temperature of the electric motor. When the operation detection means detects the operation, the vehicle engine is stopped, the hydraulic actuator is driven by the hydraulic pressure of the sub hydraulic pump, and the first remaining capacity detection means detects the work battery. When the remaining capacity of the vehicle is detected other than the above or by the second remaining capacity detecting means. The amount may stop the electric motor when it detects that the temperature of the electric motor has reached a predetermined temperature or by the electric motor temperature detecting means when it detects the other than the above, so as to drive the hydraulic actuator by the main hydraulic pump hydraulic A hydraulic pressure supply device for a work machine, characterized in that The charging of each battery according to any one of claims 1 to 3 via a charge controller including a vehicle battery priority charging circuit that charges the work battery when the vehicle battery is in a fully charged state. A hydraulic pressure supply device for a work machine, characterized in that the operation is performed.

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