JP7378730B2 - power unit - Google Patents

Description

TECHNICAL FIELD The present invention relates to a power unit for driving a drive device such as a loading platform or a wing installed in a vehicle.

Conventionally, in a lifting device for lifting and lowering a loading platform installed at the rear of a freight vehicle, the cumulative number of rotations of the motor during lifting and lowering is counted, and when the count reaches a set value, A device that performs a slow stop is known (for example, see Patent Document 1).

Patent No. 4555841

By the way, for example, if the descent of the loading platform is counted as a positive value and the rising of the loading platform is counted as a negative value, in slow stop control, the loading platform is raised from the grounded state (planned count number CM) and the count number drops to CS. Start slow stop at the same time. That is, the count number CS for starting the slow stop is set on the premise that the count number when the loading platform touches the ground is CM.

However, for example, if the user's stop operation is delayed during the descending operation, the count may continue even though the loading platform has touched the ground and has not descended, that is, the motor is idling. It will end up being gone.

Therefore, for example, even if the descending operation is stopped at the scheduled count number CM + α and the loading platform is raised, the slow stop will not start until the count number falls to CS, so the start of the slow stop will be longer than originally expected. I'll be late. As a result, the loading platform may reach the upper limit position at high speed, potentially causing significant damage to the vehicle, lifting device, and the like.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a power unit that can appropriately perform a slow stop.

In order to solve the above problems, the present invention provides a power unit for driving a drive device for raising and lowering a loading platform supported by a vehicle, the power unit supplying hydraulic oil in an oil tank to a hydraulic cylinder of the drive device. A hydraulic pump to be supplied, a motor that drives the hydraulic pump, a counter that counts the cumulative number of rotations of the motor, and a planned cumulative number of rotations of the motor until the loading platform descends from the upper limit position and touches the ground. a storage unit capable of storing a corresponding scheduled count number in advance; and a motor configured to start a slow stop of the loading platform when the counting number by the counter reaches a predetermined value when raising the loading platform. a control unit that controls, when the count number by the counter reaches the scheduled count number during the lowering operation of the loading platform, the control unit controls the counting by the counter until the lifting operation of the loading platform starts. We offer power units that are characterized by stopping.

With this configuration, even if there is a delay in stopping the lowering or opening operation of the loading platform, the slow stop will start at the position corresponding to the original count number, so the vehicle or drive device will This prevents major damage from occurring. Further, it is possible to prevent the start point of the slow stop from shifting significantly due to accumulation of errors in the count due to repeated opening/closing and lifting/lowering operations of the loading platform.

In addition, conventionally, when lowering a loading platform installed at the rear of a freight vehicle, a return route for hydraulic oil was provided and the loading platform's own weight was used to lower the loading platform, but in this case, the motor It is necessary to reverse the rotation of the brush, and in a typical brushed motor, if the brush is reversed, the life of the brush will be approximately half that of a conventional brush. Therefore, it is preferable that the motor is a brushless motor.

Furthermore, to prevent the speed of the receiving platform from increasing too much due to gravity when opening or lowering the receiving platform, the potential energy of the receiving platform can be converted into voltage (regeneration) by applying a brake on the reverse rotation of the motor. Therefore, battery consumption can be suppressed compared to conventional methods, and problems such as battery exhaustion can be alleviated. In addition, the route for hydraulic oil to return from the single-acting hydraulic cylinder for opening/closing or the single-acting hydraulic cylinder for lifting has been made common, as well as the route for sending hydraulic oil to the single-acting hydraulic cylinder for opening/closing or the single-acting hydraulic cylinder for lifting/lowering. Therefore, there is no need to separately provide a return route for the hydraulic fluid, and as a result, electromagnetic switching opening/closing for the return route and flow control valves and restriction valves provided on the return route are no longer necessary.

According to another aspect of the present invention, there is provided a power unit for driving a drive device for opening and closing a loading platform or a wing supported by a vehicle, the power unit being configured to supply hydraulic oil in an oil tank to hydraulic pressure of the drive device. A hydraulic pump that supplies the cylinder, a motor that drives the hydraulic pump, a counter that counts the cumulative number of rotations of the motor, and a planned cumulative number of rotations of the motor until the loading platform changes from a fully closed state to a fully open state. a storage unit capable of storing in advance a scheduled count number corresponding to the loading platform; a control unit that controls a motor, and the control unit is configured to control a motor until the count number by the counter reaches the scheduled count number during the opening operation of the loading platform and the closing operation of the loading platform or wing starts. The present invention provides a power unit characterized in that counting by the counter is stopped.

In addition, conventionally, when lowering a loading platform installed at the rear of a freight vehicle, a return route for hydraulic oil was provided and the loading platform's own weight was used to lower the loading platform, but in this case, the motor It is necessary to reverse the rotation of the brush, and in a typical brushed motor, if the brush is reversed, the life of the brush will be approximately half that of a conventional brush. Therefore, it is preferable that the motor is a brushless motor.

According to the power unit of the present invention, it becomes possible to appropriately perform a slow stop.

An explanatory diagram of the operation at the time of opening and closing of the drive device according to the embodiment of the present invention An explanatory diagram of the operation of the drive device according to the embodiment of the present invention during lifting and lowering Schematic configuration diagram of a power unit according to an embodiment of the present invention An explanatory diagram of slow start and slow stop of a loading platform according to an embodiment of the present invention

Hereinafter, a power unit 1 according to an embodiment of the present invention will be described with reference to FIGS. 1 to 4.

As shown in FIGS. 1 and 2, the power unit 1 is for driving a drive device 3 of a cargo receiving platform (tailgate) 2 provided at the rear of a vehicle such as a freight car.

The drive device 3 includes an opening/closing arm 31, an opening/closing single-acting hydraulic cylinder 32 provided on the opening/closing arm 31, an elevating arm 33, and an elevating single-acting hydraulic cylinder 34 provided on the elevating arm 33. , is equipped with.

As hydraulic oil is supplied into the single-acting hydraulic cylinder 32 for opening/closing, the cargo receiving platform 2 expands and moves, approaches the vertical state as shown in FIG. As the hydraulic oil is discharged from the cylinder, the cylinder contracts and approaches a horizontal state as shown in FIG. 1(b). In this embodiment, a locking mechanism (not shown) is configured so that the loading platform 2 can only extend until it reaches a substantially vertical state, and retract only until it reaches a substantially horizontal state. Note that "vertical" and "horizontal" in this embodiment mean "perpendicular" and "horizontal" with respect to (the ground contact surface of) the vehicle body.

Further, as hydraulic oil is supplied into the single-acting hydraulic cylinder 34 for lifting, the loading platform 2 expands and moves to the upper limit position at the same height as the vehicle floor as shown in FIG. 2(a). As the hydraulic oil is discharged from the single-acting hydraulic cylinder 34 for lifting and lowering, it retracts and is located at the lowering limit position as shown in FIG. 2(b). In this embodiment, a locking mechanism (not shown) is configured so that the load receiving platform 2 can only extend until it reaches approximately the upper limit position. On the other hand, regarding retracting, it is possible to retract to below the ground, but in this embodiment, the lowering limit position is the position where the loading platform 2 touches the ground.

Next, the configuration of the power unit 1 will be explained.

As shown in FIG. 3, the power unit 1 includes an oil tank 11, a hydraulic pump 12, a motor 13, a relief valve (safety valve) 14, electromagnetic switching valves 15a and 15b, a counter 16, a storage section 17, A control unit 18 is provided.

When the loading platform 2 is closed or raised, the hydraulic pump 12 rotates to suck up the hydraulic oil in the oil tank 11, and pumps the opening/closing unit shown in FIGS. 1 and 2 through the opening/closing port or the lifting port. Hydraulic oil is supplied into the dynamic hydraulic cylinder 32 or the single-acting hydraulic cylinder 34 for lifting/lowering. In this embodiment, the rotation direction of the hydraulic pump 12 is defined as the rotation in the direction of sucking up the hydraulic oil.

In addition, when the loading platform 2 opens or descends, the loading platform 2 moves downward due to gravity, and accordingly, the operation in the opening/closing single-acting hydraulic cylinder 32 or the lifting/lowering single-acting hydraulic cylinder 34 is activated. Oil returns into the power unit 1 via the opening/closing port or the lifting port, and returns to the oil tank 11 via the hydraulic pump 12. At this time, the hydraulic pump 12 is rotated in the opposite direction due to the load pressure of the hydraulic oil.

The motor 13 is for driving the hydraulic pump 12. In this embodiment, a brushless motor is used as the motor 13, and when the motor 13 rotates in the normal direction, the hydraulic pump 12 also rotates in the normal direction to suck up the hydraulic oil. Furthermore, in the present embodiment, when the hydraulic pump 12 is rotated in the reverse direction by the hydraulic oil returned from the opening/closing single-acting hydraulic cylinder 32 or the lifting/lowering single-acting hydraulic cylinder 34, the motor 13 is also rotated in the reverse direction accordingly. .

The relief valve 14 is for limiting the pressure of the hydraulic oil discharged from the hydraulic pump 12 to a predetermined value, and opens when the pressure exceeds the predetermined value to release the hydraulic oil into the oil tank 11 via another route. Discharge.

The electromagnetic switching valve 15a is energized and opened when an opening/closing operation switch (not shown) is operated, and allows hydraulic oil to pass through the opening/closing port.

The electromagnetic switching valve 15b is energized and opened when a lift operation switch (not shown) is operated, and allows hydraulic oil to pass through the lift port.

The counter 16 counts the number of rotations of the motor 13. In this embodiment, when the motor 13 rotates in reverse, that is, when the loading platform 2 opens and descends, the count is positive, and when the motor 13 rotates forward, that is, when the loading platform 2 closes, the count is positive. And when it rises, it is counted as a negative value.

In particular, in this embodiment, in order to separately count the opening/closing and lifting/lowering of the loading platform 2, an opening/closing counter 16a and a lifting/lowering counter 16b are provided. Therefore, when the loading platform 2 is opened or closed, the opening/closing counter 16a counts, and when the loading platform 2 is raised or lowered, the lifting counter 16b counts.

The storage unit 17 stores a planned count number CM1 corresponding to the planned cumulative number of rotations of the motor 13 until the loading platform 2 changes from the closed state to the open state, and the planned count number CM1 corresponding to the planned cumulative number of rotations of the motor 13 from the ascent limit position (open state, horizontal state) to the descending limit position. A scheduled count number CM2 corresponding to the scheduled cumulative number of rotations of the motor 13 until it reaches the (grounding state) is stored in advance. The planned count numbers CM1 and CM2 are obtained when the user actually opens and closes the loading platform 2, raises and lowers it, and presses a memory button (not shown) in the closed state and lowering limit position when the user uses the power unit 1 for the first time. Therefore, a method such as storing the planned count numbers CM1 and CM2 in the storage unit 17 can be considered.

The control unit 18 controls the motor 13 in order to control the opening/closing operation of the loading platform 2 and the raising/lowering operation of the loading platform 2.

Further, the control unit 18 of this embodiment performs slow start control and slow stop control shown in FIG. 4 in addition to normal opening/closing/elevating control. The slow start starts when any one of "open", "close", "rise", and "fall" starts, and ends after a predetermined period of time has elapsed from the start of the slow start. On the other hand, the slow stop is started when the number of rotations of the motor 13 counted by the counter 16 reaches a predetermined number of rotations. Note that FIG. 4 shows an example of slow start control and slow stop control during a rising operation and a closing operation. During a descending operation and an opening operation, the slow start is a count of "zero". , and the slow stop is also performed with a different count from CS1 and CS2.

Next, the opening/closing and lifting/lowering operations of the loading platform 2 will be explained.
(1) Opening operation

As shown in FIG. 1, the opening operation is an operation of horizontally opening the cargo receiving platform 2 which is vertically closed (closed→open). In this embodiment, it is assumed that the loading platform 2 is located at the same height as the vehicle floor (the upper limit position) in a completely opened (horizontally opened) state.

This opening operation is performed while an open switch (not shown) is operated. When the open switch is operated, the electromagnetic switching valve 15a is excited and opened, and the hydraulic oil in the opening/closing single-acting hydraulic cylinder 32 returns to the oil tank 11 via the opening/closing port and the hydraulic pump 12. At this time, the hydraulic pump 12 is rotated in the reverse direction by the load pressure of the hydraulic oil, and the motor 13 is also rotated in the reverse direction accordingly. The total amount of hydraulic oil returned to the oil tank 11 during the opening operation period is proportional to the number of rotations of the motor 13 during that period, that is, the number counted by the counter 16.

A predetermined period of time from the start of the opening operation is a slow start period, in which the loading platform 2 is slowly opened (rotated) by gradually increasing the voltage applied to the motor 13. After the slow start section has elapsed, the loading platform 2 opens at a normal speed, but the count by the counter 16a drops to the count number set before the loading platform 2 reaches the horizontal state (ascent limit position). At this time, a slow stop section is started, and the voltage applied to the motor 13 is gradually lowered to gradually open the loading platform 2 to a horizontal state (the upper limit position). When the loading platform 2 reaches the horizontal state (the upper limit position), the loading platform 2 abuts against the locking mechanism, and at this time the user stops operating the open switch. Counting by the counter 16a also stops when the operation of the open switch stops.

In this embodiment, when opening the loading platform 2, control is performed to apply a brake to the reverse rotation of the motor 13 so that the speed of the loading platform 2 does not increase too much due to gravity.
(2) Lowering operation

As shown in FIG. 2, the lowering operation is an operation of lowering the horizontally opened loading platform 2 (located at the upper limit position). In this embodiment, it is assumed that the cargo receiving platform 2 is located at the lowest lowering position corresponding to the ground in a state of being lowered to the maximum.

This lowering operation is performed while a lowering switch (not shown) is operated. When the lowering switch is operated, the electromagnetic switching valve 15b is energized and opened, and the hydraulic oil in the single-acting lifting hydraulic cylinder 34 returns to the oil tank 11 via the lifting port and the hydraulic pump 12. At this time, the hydraulic pump 12 is rotated in the reverse direction by the load pressure of the hydraulic oil, and the motor 13 is also rotated in the reverse direction accordingly. The total amount of hydraulic oil returned to the oil tank 11 during the descending operation period is proportional to the number of rotations of the motor 13 during that period, that is, the number counted by the counter 16.

A predetermined period of time after the start of the lowering operation is a slow start section, in which the loading platform 2 is gradually lowered by gradually increasing the voltage applied to the motor 13. After the slow start section, the loading platform 2 will descend at a normal speed, but when the loading platform 2 reaches the ground contact state (lowering limit position), the loading platform 2 will hit the ground, so at that time Then, the user stops operating the lowering switch. Counting by the counter 16b also stops when the operation of the down switch stops.

In addition, in this embodiment, when the loading platform 2 is lowered, control is performed to apply a brake to the reverse rotation of the motor 13 so that the speed of the loading platform 2 does not increase too much due to gravity.

In addition, as mentioned above, in the case of an opening operation, the operation is normally performed from fully closed to fully open, and since the number of rotations of the motor 3 from fully closed to fully open is known in advance, the counter 16 (opening/closing counter When the number of rotations of the motor 13 counted by step 16a) reaches a predetermined number of rotations, the slow stop is started. Since the number of rotations of the motor 3 is different, there is no need to perform a slow stop.
(3) Rising operation

The raising operation is an operation of raising the loading platform 2 from the lower limit position to the upper limit position.

This rising operation is performed while a rising switch (not shown) is operated. When the up switch is operated, the electromagnetic switching valve 15b is excited and opened, and the control unit 18 rotates the motor 13 in the forward direction. As a result, the hydraulic pump 12 also rotates forward, and hydraulic oil is pumped up from the oil tank 11 and sent to the single-acting hydraulic cylinder 34 for lifting/lowering. The total amount of hydraulic oil sent out from the oil tank 11 during the rising operation period is proportional to the number of rotations of the motor 13 during that period, that is, the number counted by the counter 16.

In this rising operation, as shown in FIG. will continue to rise. After the slow start section has elapsed, the loading platform 2 rises at the normal speed, but when the count by the counter 16b drops to the count number CS2 set before the lifting limit position of the loading platform 2, the slow stop section is started. By starting and gradually lowering the voltage applied to the motor 13, the loading platform 2 is gently raised to the upper limit position.

Then, when the loading platform 2 reaches the horizontal state (the upper limit position), the loading platform 2 collides with the above-described locking mechanism, and at that time, the user stops operating the lift switch. Counting by the counter 16b also stops when the operation of the up switch stops.
(4) Closing operation

The closing operation is an operation of closing the cargo receiving platform 2, which is opened in a horizontal state, into a vertical state.

This closing operation is performed while a closing switch (not shown) is operated. When the close switch is operated, the electromagnetic switching valve 15a is excited and opened, and the control unit 18 rotates the motor 13 in the forward direction. As a result, the hydraulic pump 12 also rotates forward, and hydraulic oil is pumped up from the oil tank 11 and delivered to the single-acting hydraulic cylinder 32 for opening and closing. The total amount of hydraulic oil sent out from the oil tank 11 during the closing operation period is proportional to the number of rotations of the motor 13 during that period, that is, the number of counts of the counter 16.

In this closing operation, as shown in FIG. 4, a predetermined period of time from the start of the closing operation (planned count number CM1) is a slow start period, and by gradually increasing the voltage applied to the motor 13, the loading platform Close (rotate) 2. After the slow start section has passed, the receiving platform 2 closes at the normal speed, but when the count by the counter 16a drops to the count number CS1 set before the vertical position, the slow stop section starts and the motor By gradually lowering the voltage applied to 13, the loading platform 2 is rotated gently until it becomes vertical.

Then, when the loading platform 2 reaches the vertical state, the loading platform 2 collides with the above-described locking mechanism, and at that time, the user stops operating the close switch. Counting by the counter 16a also stops when the operation of the up switch stops.

Here, for example, if the user's stop operation is delayed during the lowering operation, the count will advance even though the loading platform 2 has touched the ground and has not lowered. In other words, even though the lifting single-acting hydraulic cylinder 34 cannot be compressed any further, the motor 13 idles (reversely rotates) and the count number becomes equal to or greater than the planned count number CM2.

After that, for example, even if the descending operation is stopped at the planned count number CM2+α and the loading platform 2 is raised, the slow stop will not start until the count number drops to CS2, so the start of the slow stop will be slower than originally. I'm also late. As a result, the loading platform 2 remains in a horizontal state at high speed, which may cause significant damage to the vehicle, drive device 3, etc.

Further, since the planned count numbers CM1 and CM2 stored in the storage unit 17 are actually measured values, there may be a slight error from the original count numbers. In that case, as the loading/unloading platform 2 is repeatedly opened/closed/raised/lowered, errors accumulate, and as a result, the starting point of the slow stop shifts significantly.

Therefore, in the present embodiment, when the count number by the counter 16 increases to CM1 and CM2, the control unit 18 stops the counter 16 from increasing the count any further. Then, when the rising operation is started, counting by the counter 16 is restarted, and the count number is decreased.

As a result, the slow stop starts at a position corresponding to the original count number CS1 or CS2, thereby preventing major damage to the vehicle, drive device 3, etc.

As explained above, in the power unit 1 according to the present embodiment, when the count number by the counter 16 reaches the scheduled count number CM2 (or CM1) during the lowering operation (or opening operation) of the loading platform 2, Counting by the counter 16 is stopped until the lifting operation (or closing operation) of the loading platform 2 starts.

According to such a configuration, even if there is a delay in stopping the lowering operation or opening operation of the loading platform 2, the slow stop is started at the position corresponding to the original count number CS2 or CS1. Great damage to the vehicle, drive device 3, etc. is prevented. Further, the start point of the slow stop is prevented from being significantly shifted due to accumulation of errors in the count due to repeated opening/closing and raising/lowering operations of the loading platform 2.

In addition, conventionally, when lowering a loading platform installed at the rear of a freight vehicle, a return route for hydraulic oil was provided and the loading platform's own weight was used to lower the loading platform, but in this case, the motor The motor 13 is a brushless motor in this embodiment because it is necessary to reverse the rotation of the motor 13, and in the case of a typical brushed motor, if the brush is reversed, the brush life will be approximately half that of a conventional brush.

Furthermore, if the reverse rotation of the motor 13 is braked so that the speed of the loading platform 2 does not increase too much due to gravity when opening or lowering the loading platform 2, the potential energy of the loading platform 2 can be converted into voltage (regeneration). As a result, battery consumption can be suppressed compared to the conventional method, and problems such as a dead battery can be alleviated.

In addition, there is a route in which hydraulic oil returns from the opening/closing single-acting hydraulic cylinder 32 or the lifting single-acting hydraulic cylinder 34, and a route in which the hydraulic oil is sent to the opening/closing single-acting hydraulic cylinder 32 or the lifting single-acting hydraulic cylinder 34. , can be made common, so there is no need to provide a separate return route for the hydraulic oil, and as a result, there is no need for electromagnetic switching opening/closing for the return route, or for flow control valves and restriction valves installed on the return route. Become.

Note that the power unit of the present invention is not limited to the embodiments described above, and various modifications and improvements can be made within the scope of the claims.

For example, in the above embodiment, in the power unit 1, the drive device 3 drives the loading platform 2 of the truck, but it may also drive the wing of the truck, and similar control can be performed in this case as well. It is.

Further, in the above embodiment, the counter 16 and the control section 18 are separate bodies, but they may be integrated.

Further, in the above embodiment, the opening operation and the lowering operation are counted as positive, and the closing operation and the raising operation are counted as negative, but the counting may be performed in the opposite direction.

Further, in the above embodiment, in FIG. 4, the slow start section and slow stop section during the rising operation and the closing operation are performed at the same timing for ease of understanding, but they may be performed at other timings.

Further, in the above embodiment, the opening/closing and lifting/lowering of the loading platform 2 are counted separately, but assuming that the structure is such that the closing operation cannot be performed unless it is at the upper limit position, or the lowering operation cannot be performed unless it is fully opened, both can be counted consecutively. You can count it.

Furthermore, in the embodiment described above, control is performed to stop the count in order to start the slow stop at a position corresponding to the original count number CM1 or CM2, but in the case of a configuration in which the slow start is ended at a predetermined count number. It is also possible to perform similar control. In this case, since the slow start ends at a position corresponding to the original count number, stress caused by short or long normal speed periods is alleviated.

Further, the count may be reset at the closed state or the upper limit position when the closed state (vertical state) is reached in the closing operation or when the upper limit position is reached during the upward motion. It is conceivable to determine whether the closed state (vertical state) or the upper limit position has been reached based on the current generated when hitting a locking mechanism or the like.

For example, when the relief valve 14 is activated, the hydraulic oil returns to the oil tank via a different route that does not pass through the hydraulic pump 12, so the amount of hydraulic oil that has moved and the number counted by the counter 16 are no longer proportional. However, by resetting the count in the closed state or the upper limit position, it becomes possible to perform a slow stop appropriately from the next operation. Note that, contrary to the above embodiment, when opening operations and descending operations are counted as negative values and closing operations and raising operations are counted as positive values, the count is reset to CM1 and CM2 in the closed state or the upper limit position. I will do it.

1 Power unit 2 Loading platform 3 Drive device 11 Oil tank 12 Hydraulic pump 13 Motor 14 Relief valve 15a Solenoid switching valve 15b Solenoid switching valve 16 Counter 16a Opening/closing counter 16b Lifting counter 17 Storage section 18 Control section 31 Opening/closing arm 32 Opening/closing Single acting hydraulic cylinder 33 Lifting arm 34 Single acting hydraulic cylinder for lifting

Claims (4)

A power unit for driving a drive device for raising and lowering a loading platform supported by a vehicle,
a hydraulic pump that supplies hydraulic oil in an oil tank to a hydraulic cylinder of the drive device;
a motor that drives the hydraulic pump;
a counter that counts the cumulative number of rotations of the motor;
a storage unit capable of storing in advance a scheduled count number corresponding to a scheduled cumulative number of rotations of the motor until the loading platform descends from the upper limit position and touches the ground;
a control unit that controls the motor so as to start slow stop of the loading platform when the count by the counter reaches a predetermined value when raising the loading platform;
Equipped with
The power unit is characterized in that, when the count number by the counter reaches the scheduled count number during the lowering operation of the loading platform, the control section stops counting by the counter until the lifting operation of the loading platform starts. . The power unit according to claim 1, wherein the motor is a brushless motor. A power unit for driving a drive device for opening and closing a loading platform or a wing supported by a vehicle, the power unit comprising:
a hydraulic pump that supplies hydraulic oil in an oil tank to a hydraulic cylinder of the drive device;
a motor that drives the hydraulic pump;
a counter that counts the cumulative number of rotations of the motor;
a storage unit capable of storing in advance a scheduled count number corresponding to a scheduled cumulative number of rotations of the motor until the loading platform or wing changes from a fully closed state to a fully open state;
a control unit that controls the motor so as to start slow stop of the loading platform or wing when the count by the counter reaches a predetermined value when closing the loading platform or wing;
Equipped with
When the count number by the counter reaches the scheduled count number during the opening operation of the loading platform or the wing , the control unit may stop counting by the counter until the closing operation of the loading platform or the wing starts. Features a power unit. The power unit according to claim 3, wherein the motor is a brushless motor.

Images