JP7137412B2 - electric construction machine - Google Patents

Description

The present invention relates to an electric construction machine.

Patent Document 1 discloses an electric hydraulic excavator as an example of an electric construction machine. An electric hydraulic excavator has an electric motor driven by a battery instead of the engine of a conventional hydraulic excavator.
A battery unit having a large number of batteries is provided at the rear portion of the upper revolving body of the electric hydraulic excavator. The battery unit is covered by a rear cover as part of the exterior cover.
In addition to the electric motor, devices such as an inverter, a hydraulic pump, and a cooling unit are provided on the side of the upper revolving body of the hydraulic excavator. These instruments are covered by side covers that are part of the exterior cover.

JP 2012-1933 A

By the way, in the electric hydraulic excavator of Patent Document 1, for example, if the side cover is removed during maintenance of the hydraulic pump, cooling unit, etc., the electric motor and inverter as high-voltage equipment can be accessed at the same time.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electric construction machine capable of improving safety during maintenance.

An electric construction machine according to one aspect of the present invention includes a horizontally extending base plate, an inverter provided on the base plate to which power is supplied from a power source, and an electric motor driven by the power converted by the inverter. a hydraulic pump provided in a region different from the high voltage device on the base plate and driven by the electric motor; a hydraulic valve for distributing hydraulic oil discharged by the hydraulic pump; Non-high-voltage equipment including a cooling unit that cools various equipment, a high-voltage equipment cover that can open and close an area in which the high-voltage equipment is provided on the base plate, and the non-high-voltage equipment on the base plate. an exterior cover having a non-high-voltage equipment cover that can open and close a provided area; and inside the exterior cover, a high-voltage area provided with the high-voltage equipment on the base plate and the non-high-voltage equipment on the base plate. and a partition section that separates the non-high voltage area in which the voltage equipment is provided.

According to the electric construction machine of the aspect described above, it is possible to improve safety during maintenance.

1 is a side view of an electric hydraulic excavator according to an embodiment of the present invention; FIG. FIG. 2 is a schematic plan view showing the internal structure of the upper revolving body of the electric hydraulic excavator according to the embodiment of the present invention; FIG. 2 is a schematic left side view showing the internal structure of the upper revolving body of the electric hydraulic excavator according to the embodiment of the present invention; FIG. 2 is a schematic right side view showing the internal structure of the upper revolving body of the electric hydraulic excavator according to the embodiment of the present invention; 1 is a plan view of an upper rotating body of an electric hydraulic excavator according to an embodiment of the present invention; FIG. FIG. 2 is a left side view of the upper rotating body of the electric hydraulic excavator according to the embodiment of the present invention; FIG. 4 is a right side view of the upper rotating body of the electric hydraulic excavator according to the embodiment of the present invention;

Embodiments of the present invention will be described in detail below with reference to FIGS. 1 to 7. FIG.
<Electric hydraulic excavator (electric construction machine)>
As shown in FIG. 1 , an electric hydraulic excavator 200 as an example of an electric construction machine includes a lower traveling body 210 and an upper swing body 220 . Hereinafter, the direction in which gravity acts when the electric hydraulic excavator 200 is installed on a horizontal plane is referred to as the vertical direction.

<Lower running body>
Undercarriage 210 has a pair of crawler belts 211 . These crawler belts 211 are driven by a traveling hydraulic motor (not shown) to cause the lower traveling body 210 to travel. The running direction of the lower running body 210 is referred to as the front-rear direction, the forward side in the running direction (the normal forward direction, the side where the blade 212 described below is provided) is referred to as the front, and the rear in the running direction, which is the opposite side to the front, is referred to as the rear. In addition, when viewed in the forward direction, the right side is called "right", and the left side is called "left". A pair of crawler belts 211 are provided on the left and right sides.
A blade 212 is provided on the front portion of the lower traveling body 210 as a blade plate extending in the vehicle width direction of the lower traveling body 210 (hereinafter simply referred to as the width direction). The blade 212 is adjustable in height position by being driven by a hydraulic cylinder.

<Upper revolving body>
The upper swing body 220 is provided on the lower traveling body 210 . The upper revolving structure 220 is connected to the lower running structure 210 via a swing circle 215 . The swing circle 215 has an annular shape centered on the pivot axis extending in the vertical direction. The swing circle 215 allows the upper swing body 220 to swing about the swing axis with respect to the lower travel body 210 .
The upper revolving body 220 includes a work machine 221, a revolving frame 10, a portal frame 20, a partition wall 24 (partition section), a high voltage device 30, a non-high voltage device 40, a revolving motor 70, an operating space 80, a protector 95, and an exterior. A cover 100 is provided.

<Work machine>
The working machine 221 has a boom 222, an arm 223 and a bucket 224, as shown in FIG. The work machine 221 performs various works such as excavation by driving the boom 222, the arm 223, and the bucket 224 by respective hydraulic cylinders. Hereinafter, the width direction of the upper revolving body 220 when the work implement 221 faces the front of the electric hydraulic excavator 200 is simply referred to as the "width direction." Further, the direction toward the center in the width direction is referred to as the "inner side in the width direction", and the direction toward the left side (one side in the width direction) or the right side (the other side in the width direction) from the center in the width direction is referred to as the "outer side in the width direction".

<Rotating frame>
The swing frame 10 has a base plate 11 , a horizontal partition plate 12 , a front vertical partition plate 13 , a front reinforcing plate 14 , a bracket 15 and a rear vertical partition plate 16 .

<Base plate>
As shown in FIGS. 2 to 4, the base plate 11 is a horizontally extending plate-like member. That is, the base plate 11 extends in the front-rear direction and width direction. The base plate 11 may be configured by a single steel plate, or may be configured by combining a plurality of steel plates. The lower surface of base plate 11 is fixed on swing circle 215 . Thereby, the swing frame 10 is supported by the swing circle 215 from below.

<Horizontal partition plate>
The horizontal partition plate 12 is a plate-shaped member that protrudes upward from the upper surface of the base plate 11 and extends in the width direction. The horizontal partition plate 12 extends with the width direction as its longitudinal direction. The lateral partition plate 12 is arranged in a portion on the front side of the center of the base plate 11 in the front-rear direction. The horizontal partition plate 12 extends over both widthwise end portions of the base plate 11, that is, over both left and right end portions.

<Front vertical partition plate>
The front vertical partition plate 13 is a plate-shaped member that protrudes from the upper surface of the base plate 11 and extends in the front-rear direction. A pair of front vertical partition plates 13 are provided in front of the horizontal partition plate 12 on the upper surface of the base plate 11 and are spaced apart from each other in the width direction. That is, a pair of front vertical partition plates 13 are provided with an interval left and right. The pair of front vertical partition plates 13 are arranged on the inner side in the width direction of both ends of the base plate 11 in the width direction.

The front vertical partition plate 13 is connected to the front-facing surface of the horizontal partition plate 12 at its rear end. That is, the front vertical partition plate 13 is provided so as to extend forward from the horizontal partition plate 12 . As shown in FIG. 2, the pair of front vertical partition plates 13 are provided so as to approach each other as they go forward from the rear end portion where they are connected to the horizontal partition plate 12 .

<Front reinforcement plate>
The front reinforcement plate 14 is integrally fixed to the pair of front vertical partition plates 13 at the front of the pair of front vertical partition plates 13 . The front reinforcement plate 14 has a shape in which the distance in the width direction decreases toward the front in plan view according to the arrangement of the pair of front vertical partition plates 13 .

<Bracket>
Brackets 15 are fixed to the front ends of the pair of front vertical partition plates 13 and front reinforcement plates 14 . The bracket 15 is a cylindrical member penetrating vertically. Front ends of a pair of front vertical partition plate 13 and front reinforcing plate 14 are integrally fixed to the cylindrical outer peripheral surface. A working machine 221 is supported by the base plate 11 via the bracket 15 .

<Rear Vertical Partition Plate>
The rear vertical partition plate 16 is a plate-shaped member that protrudes from the upper surface of the base plate 11 and extends in the front-rear direction. A pair of rear vertical partition plates 16 are provided behind the horizontal partition plate 12 on the upper surface of the base plate 11 and are spaced apart from each other in the width direction. That is, a pair of rear vertical partition plates 16 are provided on the left and right. The widthwise interval between the pair of rear vertical partition plates 16 is greater than the widthwise interval between the pair of front vertical partition plates 13 at their rear ends.

<gate type frame>
As shown in FIGS. 2 to 4, the portal frame 20 is fixed on the base plate 11. As shown in FIG. The portal frame 20 has a pair of pillars 21 and beams 22 .

The pair of pillars 21 are provided behind the lateral partition plate 12 on the base plate 11 and spaced apart in the width direction. The column portion 21 extends vertically and has its lower end fixed to the base plate 11 .
The beam portion 22 extends across the upper ends of the pair of column portions 21 in the width direction. The beam portion 22 is provided above the upper surface of the base plate 11 with a space therebetween. A pair of column portion 21 and beam portion 22 are integrally fixed. The portal frame 20 has an inverted U shape when viewed from the front-rear direction.

<High voltage area>
A high-voltage region H is defined as a rear region on the base plate 11 extending in the width direction and rearward of the portal frame 20 in a plan view.

<Regular inspection area>
An area in front of and to the left of the high voltage area H on the base plate 11 is designated as a normal inspection area N. As shown in FIG. The normal inspection area N of this embodiment includes the area on the width direction outside of the left front vertical partition plate 13 on the base plate 11 and in front of the horizontal partition plate 12, and the area on the left side of the rear vertical partition plate 16 and the horizontal partition plate 12 includes a portion on the front side from the portal frame 20 in the left region of .

<Daily inspection area>
A region on the front and right side of the high voltage region H on the base plate 11 is defined as a daily inspection region D. As shown in FIG. The daily inspection area D of this embodiment includes the right portion of the area on the width direction outside of the right front vertical partition plate 13 on the base plate 11 and in front of the horizontal partition plate 12, and the right side and horizontal area of the rear vertical partition plate 16. It includes the part on the front side from the portal frame 20 in the right area of the partition plate 12 .
A non-high voltage area L is formed by the normal inspection area N and the high voltage area H. As shown in FIG.

<Partition wall>
The partition wall 24 is integrally fixed to the portal frame 20 . The partition wall 24 has a plate shape extending in the vertical direction and the width direction. The partition wall 24 is provided so as to protrude outward in the width direction from the upper portion of the left column portion 21 of the pair of column portions 21 . The partition wall 24 is fixed to the rearward surface of the left column portion 21 . The upper end of the partition wall 24 is positioned at the same height as the upper end of the portal frame 20 . A lower end of the partition wall 24 extends to the upper surface of the base plate 11 . A partition wall 24 separates the high-voltage area H and the normal inspection area N in the front-rear direction on the left side of the base plate 11 . The partition wall 24 is formed with a hole portion 24a passing through the partition wall 24 in the front-rear direction.

<High voltage equipment>
The high-voltage equipment 30 is electrical equipment that handles relatively high voltage (for example, voltage of several hundred volts) that may give an electric shock to the human body. A high voltage device 30 is provided in a high voltage area H on the base plate 11 . In this embodiment, the high-voltage equipment 30 includes a battery unit 31, an inverter 36, a power delivery unit 37, a charging connector connecting portion 38, an electric motor 39, and a battery cable (not shown).

<Battery unit>
The battery unit 31 is a power source for the electric hydraulic excavator 200 . As shown in FIGS. 2 to 4, the battery unit 31 is provided near the center of the rear part on the base plate 11. As shown in FIGS. As shown in FIGS. 3 and 4, the battery unit 31 of this embodiment is assembled by vertically stacking a plurality of (four in this embodiment) battery modules 32 .

Each battery module 32 has a battery case 33 , a battery body (not shown), and a sensor box 34 .
The battery case 33 has a rectangular frame shape extending in the front-rear direction and the width direction in plan view. A plurality of battery bodies are horizontally arranged inside the battery case 33 . A battery circuit is configured by electrically connecting the battery main body to the entire battery unit 31 . The sensor box 34 is provided so as to protrude further rearward from the rear surface of the battery case 33 . The sensor box 34 has a box shape extending in the width direction. Various sensors, contactors, and the like are housed inside the sensor box 34 . A service plug 35 is provided in the uppermost sensor box 34 so as to protrude backward from the sensor box 34 . By pulling out the service plug 35, the battery circuit of the battery unit 31 is cut off.

Each battery module 32 is stacked vertically so that the rear surface and side surface of each battery case 33 are aligned in plan view. Of the plurality of battery modules 32, the battery cases 33 of the battery modules 32 other than the uppermost battery module 32 have the same shape. As a result, the battery cases 33 of the battery modules 32 excluding the uppermost part are aligned not only in the rear surface and the side surface but also in the front surface in a plan view. The uppermost battery case 33 is shorter in the front-rear direction than the other battery modules 32 . As a result, the front surface of the uppermost battery case 33 is arranged so as to recede further rearward than the other battery cases 33 .

A side surface 31 a of the battery unit 31 is formed by the side surfaces of the plurality of battery cases 33 . A first front surface 31b of the battery unit 31 is formed by the front surface of the battery case 33 excluding the uppermost portion. The front surface of the uppermost battery case 33 serves as the second front surface 31 c of the battery unit 31 .
The front portion of the upper surface of the second battery module 32 from the top is exposed upward without the uppermost battery module 32 being stacked. This portion is closed by a first lid portion 31f provided with a fan (not shown). The upper surface of the first lid portion 31f serves as the first upper surface 31d of the battery unit 31 .

The upper surface of the uppermost battery module 32 is closed by a second lid portion 31g provided with a fan (not shown). The upper surface of the second lid portion 31g serves as the second upper surface 31e of the battery unit 31. As shown in FIG.
In the battery unit 31, the air flowing from below the lowermost battery case 33 flows upward while cooling the battery body. Then, the air is discharged to the outside of the battery unit 31 through the fans provided in the first lid portion 31f and the second lid portion 31g.

The battery unit 31 is fixed on the rear vertical partition plate 16 at both left and right ends of the lower surface. As shown in FIG. 2, the pair of left and right side surfaces 31a of the battery unit 31 extend in the front-rear direction along the rear vertical partition plate 16 in plan view. A first front surface 31 b of the battery unit 31 extends along the lateral partition plate 12 . The first front surface 31b of the battery unit 31 is in contact with the rear surface of the lateral partition plate 12 across the width. A first upper surface 31 d of the battery unit 31 faces below the beam portion 22 of the portal frame 20 . A second front surface 31 c of the battery unit 31 faces the rear of the beam portion 22 of the portal frame 20 . That is, the battery unit 31 is configured such that only the front portions of the battery units 31, which are composed of the front portions of the plurality of battery modules 32 excluding the uppermost battery module 32, are inserted through the inside of the gate-shaped frame 20 forming an inverted U shape. , and arranged on the front side of the portal frame 20 .

<Inverter>
As shown in FIGS. 2 to 4, the inverter 36 is provided on the second upper surface 31e of the battery unit 31 via a frame-shaped carrier 36a. The inverter 36 converts the DC power supplied from the battery unit 31 into AC power.

<Power delivery unit>
The power delivery unit 37 is provided on the right side of the battery unit 31 in the high voltage area H on the base plate 11, as shown in FIGS. The front surface of the power delivery unit 37 is arranged on the rear side of the column portion 21 on the right side of the portal frame 20 with a space therebetween. A lower end of the power delivery unit 37 is fixed on the base plate 11 . The power delivery unit 37 has a rectangular shape with the front-rear direction as the longitudinal direction and the width direction as the lateral direction in plan view shown in FIG. The power delivery unit 37 has a rectangular shape with the front-rear direction as the short side and the up-down direction as the long side when viewed from the right side in FIG. 4 . The height of the power delivery unit 37 is the same as the height of the battery unit 31 .

The power delivery unit 37 supplies DC power charged in the battery unit 31 to the inverter 36 . That is, the inverter 36 is supplied with DC power from the battery unit 31 via the power delivery unit 37 . The power delivery unit 37 is provided with various electric devices such as a contactor, a DC-DC converter, and an onboard charger.

<Charging connector connection>
The charging connector connecting portion 38 is provided on the battery unit 31 as shown in FIGS. 2 to 4 . Like the inverter 36 , the charging connector connecting portion 38 is fixed to a carrier 36 a fixed on the second upper surface 31 e of the battery unit 31 . The charging connector connecting portion 38 is arranged directly above the sensor box 34 . The charging connector connecting portion 38 has a normal charging port and a quick charging port.

A normal charging connector is connected to the normal charging port from the outside. Electric power from the normal charge connector is supplied to the battery unit 31 via the normal charger and contactor of the power delivery unit 37 .
A quick charge connector is connected to the quick charge port from the outside. Electric power from the quick charge connector is supplied to the battery unit 31 through the contactor of the power delivery unit 37 .
The power delivery unit 37 electrically connects the battery unit 31 , the inverter 36 and the charging connector connecting portion 38 .

<Electric motor>
The electric motor 39 is driven by AC power supplied from the inverter 36 . The electric motor 39 is provided on the left side of the battery unit 31 in the high voltage region H on the base plate 11, as shown in FIGS. The electric motor 39 is provided such that its drive shaft extends in the front-rear direction. In the plan view shown in FIG. 2 , the front end surface of the electric motor 39 faces the rear side of the partition wall 24 . In the side view shown in FIG. 3, the electric motor 39 is arranged above the base plate 11 by being fixed to a support portion (not shown). The longitudinal dimension of the electric motor 39 is shorter than the longitudinal dimension of the battery case 33 of the battery unit 31 . The electric motor 39 is provided at a front-rear position between the front surface and the rear surface of the battery case 33 .

<Non-high voltage equipment>
The non-high voltage equipment 40 is equipment that does not handle electricity or equipment that handles low voltage, in contrast to the high voltage equipment 30 that handles high voltage. In this embodiment, as shown in FIG. 2, the non-high voltage equipment 40 includes a normal inspection equipment 50 and a daily inspection equipment 60 .

<Normal inspection equipment>
The normal inspection device 50 is a device on which work such as maintenance and repair work (for example, work such as pressure inspection of the hydraulic pump 51 and the hydraulic valve 52 described below) is performed by a maintenance worker of the electric hydraulic excavator 200 . A normal inspection device 50 is provided in a normal inspection area N on the base plate 11 . The normal inspection equipment 50 is mainly hydraulic equipment. In this embodiment, a hydraulic pump 51 , a hydraulic valve 52 and an operation pattern switching unit 53 are provided as the normal inspection equipment 50 .

<Hydraulic pump>
The hydraulic pump 51 is driven by the rotation of the drive shaft of the electric motor 39 to discharge hydraulic oil. As shown in FIG. 2, the hydraulic pump 51 is provided in front of the partition wall 24 in the normal inspection area N and near the front and rear positions of the lateral partition plate 12 . The hydraulic pump 51 is arranged such that its rotating shaft extends in the front-rear direction.

As shown in FIG. 3, the hydraulic pump 51 is provided above the base plate 11 with a space therebetween by being supported by a support portion (not shown). The axis of the rotary shaft of the hydraulic pump 51 extends in the front-rear direction so as to coincide with the rotary axis of the drive shaft of the electric motor 39 . The rotary shaft of the hydraulic pump 41 and the drive shaft of the electric motor 39 are connected by a connecting shaft 51a that passes through the hole 24a of the partition wall 24. As shown in FIG.

<Hydraulic valve>
The hydraulic valve 52 is provided on the left side of the front vertical partition plate 13 and the front side of the horizontal partition plate 12 in the normal inspection area N on the base plate 11, as shown in FIG. The hydraulic valve 52 is connected to the hydraulic pump 51 . The hydraulic valve 52 distributes hydraulic fluid discharged from the hydraulic pump 51 to hydraulic equipment such as various hydraulic cylinders.

The hydraulic valve 52 extends along the left front vertical partition plate 13 with its longitudinal direction aligned with the extension direction of the front vertical partition plate 13 in plan view shown in FIG. The hydraulic valve 52 is fixed to the upper surface of the base plate 11, as shown in FIG. The upper end of the hydraulic valve 52 is arranged at a position lower than the hydraulic pump 51 .

<Operation pattern switching section>
The operation pattern switching unit 53 is connected to the hydraulic valve 52 and changes the distribution destination of the hydraulic oil by the hydraulic valve 52 by changing the setting by the maintenance worker. As a result, the hydraulic cylinder that is moved by the driver's manipulation of various levers is changed. As a result, the operation pattern of various lever operations by the driver can be switched.
As shown in FIG. 2, the operation pattern switching unit 53 is arranged on the left side (outside in the width direction) of the hydraulic valve 52 in plan view. The operation pattern switching section 53 is fixed on the base plate 11 . The position of the upper end of the operation pattern switching portion 53 is equal to or lower than the hydraulic valve 52 .

<Daily inspection equipment>
The daily inspection device 60 is a device on which an operator of the electric hydraulic excavator 200 performs daily inspections (for example, inspection of the amount of cooling water and the amount of hydraulic oil). The daily inspection equipment 60 has a higher inspection frequency than the normal inspection equipment 50 . As shown in FIG. 2 , the daily inspection equipment 60 is provided in the normal inspection area N on the base plate 11 . In this embodiment, a cooling unit 61 , an auxiliary battery 64 and an oil tank 65 are provided as daily inspection equipment 60 .

<Cooling unit>
The cooling unit 61 is provided on the front side of the lateral partition plate 12 in the daily inspection area D on the base plate 11, as shown in FIG. As shown in FIG. 4, the cooling unit 61 is provided above the upper surface of the base plate 11 via a support (not shown).
The cooling unit 61 has a cooling fan 62 and a heat exchange section 63 .

The cooling fan 62 is rotationally driven about an axis extending in the front-rear direction. By driving the cooling fan 62, air is blown from the rear side toward the front side at the location where the cooling fan 62 is arranged.

The heat exchange unit 63 is a heat exchanger that cools various devices. The heat exchange portion 63 is provided behind the cooling fan 62 and integrated with the cooling fan 62 . The heat exchange section 63 has a radiator, a main oil cooler and a sub oil cooler.

Cooling water heated to a high temperature by exchanging heat with the inverter 36 and the power delivery unit 37 flows through the radiator. Hydraulic oil discharged by a hydraulic pump 51 flows through the main oil cooler. Lubricating oil heated to a high temperature by exchanging heat with the electric motor 39 flows through the sub oil cooler. The radiator, the main oil cooler, and the sub oil cooler each have a communicating portion through which air flows in the longitudinal direction. Cooling water, hydraulic oil, and lubricating oil are cooled by air blown by the cooling fan 62 circulating through the communication portion.
The heat exchange section 63 of the present embodiment is configured by stacking a radiator, a sub oil cooler, and a main oil cooler in this order from the rear side to the front side.

<Auxiliary Battery>
The auxiliary battery 64 is provided below the cooling unit 61 in the daily inspection area D on the base plate 11, as shown in FIGS. Auxiliary battery 64 is fixed to the upper surface of base plate 11 . The auxiliary battery 64 supplies power to auxiliary equipment such as lights and various controllers. The auxiliary battery 64 outputs a voltage lower than the voltage handled by the high-voltage device 30 (for example, several tens of volts, for example 24 volts). The auxiliary battery 64 is charged via the DC-DC converter of the power delivery unit 37 .

<Oil tank>
The oil tank 65 is provided on the front side of the cooling unit 61 in the daily inspection area D on the base plate 11, as shown in FIG. As shown in FIG. 4, the oil tank 65 is provided above the base plate 11 via a support portion (not shown). The oil tank 65 stores hydraulic oil to be supplied to each hydraulic cylinder and hydraulic motor.

<Swivel motor>
The swing motor 70 is a hydraulically driven motor rotationally driven by hydraulic oil supplied from the hydraulic valve 52 . The swing motor 70 is provided so as to pass through the base plate 11 at a position between the pair of front vertical partition plates 13 on the base plate 11 . The rotating motor 70 has the axis of the rotating shaft aligned in the vertical direction. By hydraulically driving the swing motor 70, the driving force of the swing motor 70 is transmitted to the swing circle 215 via a swing pinion (not shown). As a result, the upper rotating body 220 is driven to rotate with respect to the lower traveling body.

<Driving space>
The operating space 80 is a portion where an operator rides and the electric hydraulic excavator 200 is operated by the operator. As shown in FIG. 5 , the operating space 80 is provided in the leftward portion of the front and upper parts of the upper revolving body 220 .

As shown in FIGS. 5 and 6, the operating space 80 includes a floor panel 81, an operating space partition panel 82, a side partition panel 83, a driver's seat 84, a right console 85, a left console 86, an operating lever 87, and an operating pedal 88. and a canopy 90 .

The floor panel 81 forms the floor surface of the operating space 80 . The floor panel 81 is arranged above the upper surface of the base plate 11 with a space therebetween. The floor panel 81 covers the normal inspection area N on the floor panel 81 and the area between the pair of front vertical partition plates 13 from above. Thus, the space between the floor panel 81 and the upper surface of the base plate 11 accommodates the hydraulic valve 52 , the operation pattern switching section 53 and the turning motor 70 . As shown in FIG. 3 , the height position of the bottom surface of the floor panel 81 is the same as the height of the front vertical partition plate 13 .
A left portion of the upper surface of the floor panel 81 is open to the outside of the upper revolving body 220 . The operator can enter the operating space 80 from the left side of the opened floor panel 81 .

The operating space partition panel 82 is a member that separates the operating space 80 in front of and above the battery unit 31, as shown in FIGS. The operating space partition panel 82 has a horizontal panel 82a and upper and lower panels 82b.

The horizontal panel 82a has a plate-like shape extending in the front-rear direction and width direction with a space above the first upper surface 31d of the battery unit 31 . A rear end of the horizontal panel 82a is fixed to the beam portion 22 of the portal frame 20 across the width direction. The front end of the horizontal panel 82 a is positioned forward of the first front surface 31 b of the battery unit 31 .

The upper and lower panels 82b are plate-shaped and extend in the vertical and width directions. The upper ends of the upper and lower panels 82b are connected to the front ends of the horizontal panels 82a. The lower ends of the upper and lower panels 82 b are positioned at the height of the pair of front vertical partition plates 13 . Various controllers may be accommodated in the space on the rear side of the upper and lower panels 82b. Side panels covering the battery unit 31 from the outside in the width direction may be provided on both sides of the horizontal panel 82a and the upper and lower panels 82b.

As shown in FIGS. 5 and 6, the side partition panel 83 is a panel extending in the front-rear direction and the vertical direction, and partitions the operating space 80 from the right side. As shown in FIG. 2 , the side partition panel 83 partitions the daily inspection area D on the right side of the base plate 11 . The cooling unit 61 , the auxiliary battery 64 and the oil tank 65 provided in the daily inspection area D are separated from the operating space 80 in the width direction by the side partition panel 83 .

The operator's seat 84 is a portion on which the operator sits when operating the electric hydraulic excavator 200, and has a seat portion 84a and a backrest portion 84b. The seat portion 84a is fixed on the horizontal panel 82a of the operating space partition panel 82. As shown in FIG. The backrest portion 84b extends upward from the rear portion of the seat portion 84a.

As shown in FIG. 5, a right console 85 and a left console 86 are provided on the right and left sides of the driver's seat 84, respectively. Various controllers and the like are accommodated in the right console 85 and the left console 86 .
The operating lever 87 is a lever operated by an operator, and is provided on the right console 85 , the left console 86 , and the front portion of the floor panel 81 . The operation pattern of these operation levers 87 is switched by the operation pattern switching unit 53 described above.
A plurality of operation pedals 88 are provided on the floor panel 81 .

The canopy 90 partitions the operating space 80 from above. The canopy 90 has a rear strut 91, a front strut 92 and a ceiling 93, as shown in FIG.
A pair of rear struts 91 are fixed to the upper end of the portal frame 20 at intervals in the width direction. A pair of the front struts 92 are fixed to the front portion of the floor panel 81 with a space therebetween in the width direction.
The ceiling part 93 is fixed to the upper ends of the pair of rear struts 91 and front struts 92 and covers the operating space 80 from above.

<Protector>
As shown in FIGS. 6 and 7, a pair of protectors 95 are provided at both rear and lower corners of the upper rotating body 220 at intervals in the width direction. The protector 95 is made of a high-strength member such as steel. The protectors 95 are integrally fixed to both corners of the rear end of the base plate 11 and extend upward. The protector 95 protects the upper revolving body 220 from an impact when the rear portion of the upper revolving body 220 collides during revolving.

<Exterior cover>
The exterior cover 100 is a cover that forms the outer shape of the upper revolving body 220, as shown in FIGS. Various devices of the upper revolving body 220 are accommodated inside the exterior cover 100 .
The exterior cover 100 has a rear cover 110 , a left cover 120 and a right cover 130 . The rear cover 110 is a high voltage equipment cover that covers the high voltage equipment 30 . The left cover 120 and the right cover 130 are non-high voltage equipment covers that cover the non-high voltage equipment 40 . Left cover 120 and right cover 130 are side covers.

<Rear cover>
As shown in FIGS. 5-7, the rear cover 110 forms the rear portion of the exterior cover 100. As shown in FIGS. As shown in FIGS. 2 to 4, the high-voltage area H on the base plate 11 and the equipment housed in the high-voltage area H are covered from the rear, upper and widthwise sides of the upper rotating body 220. FIG. A high voltage area H is defined inside the rear cover 110 . The rear cover 110 is configured by combining a plurality of exterior panels, and each exterior panel is removable. By removing part or all of the rear cover 110, each high-voltage device 30 can be accessed from the outside. Thus, the high-voltage area H and each high-voltage device 30 are covered with the rear cover 110 so as to be openable and closable.

<Left cover>
As shown in FIGS. 5 and 7, the left cover 120 forms the left portion of the exterior cover 100. As shown in FIGS. A normal inspection area N is defined inside the left cover 120 and the floor panel 81 . The left cover 120 has a left cover body 121 (first side cover body) and an underfloor cover 122 .

As shown in FIGS. 2 and 5, the left cover main body 121 covers the rear portion of the normal inspection area N on the base plate 11 from above, in the width direction, and from the front. As shown in FIG. 6, the left cover main body 121 is connected to the front end of the rear cover 110, and the height position of the upper end is the same as that of the driver's seat 84. As shown in FIG. Inside the left cover main body 121, a hydraulic pump 51 of the normal inspection equipment 50 is accommodated. The left cover main body 121 is detachably provided on the upper revolving body 220 . By removing the left cover main body 121, the hydraulic pump 51 can be accessed from the outside.

As shown in FIGS. 5 and 6, the underfloor cover 122 covers the front portion of the normal inspection area N on the base plate 11 from the left side and the front. That is, the underfloor cover 122 closes the portion between the floor panel 81 and the base plate 11 in the normal inspection area N from the left side and the front. The rear end of the underfloor cover 122 is connected to the front end of the left cover body 121 . A side surface of the underfloor cover 122 is provided with a first door portion 122a that can be opened and closed. By opening the first door portion 122a, the operation pattern switching portion 53 arranged in the normal inspection area N can be accessed from the outside. The underfloor cover 122 and floor panel 81 are detachably fixed to the upper revolving body 220 . By removing the underfloor cover 122 and the floor panel 81, the hydraulic valves 52 and the upper revolving body 220 can be accessed from the outside.
Thus, the left cover 120 covers the normal inspection area N and the normal inspection equipment 50 so as to be openable and closable.

<Right cover>
As shown in FIGS. 5 and 7, the right cover 130 forms the right portion of the exterior cover 100. As shown in FIGS. A daily inspection area D is defined inside the right cover 130 . The right cover 130 has an outer wall panel 131 and an opening/closing panel 132 .

The outer wall panel 131 covers the daily inspection area D on the base plate 11 from the right side. As shown in FIG. 7 , the rear end of the outer wall panel 131 is connected to the front end of the rear cover 110 . A cooling unit 61 , an auxiliary battery 64 and an oil tank 65 are accommodated inside the outer wall panel 131 in the width direction.

The outer wall panel 131 is formed with a first opening 131a and a second opening 131b communicating in the width direction. The first opening 131 a is formed at a position corresponding to the air intake side of the cooling unit 61 . Air entering the daily inspection area D is sucked into the cooling unit 61 through the first opening 131a. The second opening 131 b is formed at a position corresponding to the air discharge side of the cooling unit 61 . The air discharged from the cooling unit 61 is discharged to the outside of the daily inspection area D, that is, the upper rotating body 220 through the second opening 131b.

A second door portion 131c that can be opened and closed is provided at the lower portion of the side surface of the outer wall panel 131 . By opening the second door portion 131c, the auxiliary battery 64 arranged in the daily inspection area D can be accessed from the outside.

The opening/closing panel 132 covers the daily inspection area D from above and from the front. The opening/closing panel 132 is provided below the front end of the right cover 130 so as to be rotatable about an axis extending in the width direction. That is, the open/close panel 132 is located between a closed position covering the daily inspection area D together with the outer wall panel 131 and an open position where the daily inspection area D is opened by rotating forward from the closed position about the axis. It is possible to rotate with The opening/closing panel 132 in the closed position is in contact with the outer wall panel 131 and the rear cover 110 . By setting the opening/closing panel 132 to the open position, the cooling unit 61 and the oil tank 65 can be accessed from the outside.
In this manner, the right cover 130 covers the daily inspection area D and the daily inspection equipment 60 so as to be openable and closable.

<Effect>
In the electric hydraulic excavator 200 configured as described above, the high-voltage area H where the high-voltage equipment 30 is arranged is covered with the rear cover 110 of the exterior cover 100, and the non-high-voltage area L where the non-high-voltage equipment 40 is arranged. are covered with the left cover 120 and the right cover 130 of the exterior cover 100 .
Maintenance and inspection of the high-voltage equipment 30 is performed by a special worker such as a person who has received training on handling the high-voltage equipment 30 or a person who is qualified to handle the high-voltage equipment 30. The rear cover 110 is opened. It is done by

On the other hand, when an operator or a general maintenance worker accesses the non-high voltage equipment 40, the left cover 120 or the right cover 130 is opened. At this time, the equipment covered by the left cover 120 and the right cover 130 is only the non-high voltage equipment 40, and even if the left cover 120 and the right cover 130 are opened, the high voltage equipment 30 is not opened. As such, operators and general maintenance personnel cannot access the high voltage equipment 30 . That is, when accessing the non-high voltage equipment 40, it is not possible to access the high voltage equipment 30 at the same time. can.
Particularly in this embodiment, the normal inspection area (N), which is the non-high voltage area L, is separated from the high voltage area H by the partition wall 24 . Therefore, it is possible to further ensure the safety of the maintenance worker who inspects the normal inspection equipment 50 in the normal inspection area (N).

In this embodiment, a battery unit 31 as a power source is provided on the rear side of the base plate 11 . As a result, the battery unit 31, which is a heavy object, can be configured to also serve as a counterweight. Since the high-voltage equipment 30 including the battery unit 31 and the inverter 36 is covered with the rear cover 110, a special worker can easily access the high-voltage equipment 30 by opening the rear cover 110. can be done.

In this embodiment, a charging connector connecting portion 38 to which a charging connector from the outside is connected and a power delivery unit 37 are also provided in the high voltage region H. FIG. Therefore, it is possible to prevent the operator or general workers from touching not only the battery unit 31 and the inverter 36 but also the charging connector connecting portion 38 and the high-voltage equipment 30 of the power delivery unit 37 .

In this embodiment, a hydraulic pump 51 and a hydraulic valve 52 as the normal inspection equipment 50 are accommodated in the normal inspection area N covered by the inside of the left cover 120 . A heat exchange section 63 as a daily inspection area D is accommodated in the daily inspection area D covered by the right cover 130 .

In general, the regular inspection of the equipment 50 such as the hydraulic pump 51 and the hydraulic valve 52 is performed not by an operator but by a maintenance worker who performs maintenance and repair work, and maintenance frequency is relatively low. On the other hand, the daily inspection equipment 60 such as the cooling unit 61 is equipment that is inspected daily by an operator, and maintenance frequency is relatively high. In this manner, each inspection can be efficiently performed by dividing the housing areas for the normal inspection equipment 50 and the daily inspection equipment 60 into left and right according to the operator and maintenance frequency. That is, when the operator performs daily inspection, it is sufficient to open only the right cover 130 and the left cover 120 does not have to be opened. When a maintenance worker performs a normal inspection, the left cover 120 should be opened first, so that the maintenance worker can efficiently perform the necessary normal inspections and repairs on the hydraulic pump 51 and the hydraulic valve 52. can.

Further, since the operation pattern switching unit 53 is also arranged in the normal inspection area N, the operation pattern switching unit 53 can be accessed at the same time as the hydraulic pump 51 and the hydraulic valve 52 during maintenance by maintenance workers.

Furthermore, an auxiliary battery 64 and an oil tank 65 are also provided in the daily inspection area D, and the operator can easily access these auxiliary battery 64 and oil tank 65 during daily inspection.

<Other embodiments>
Although the embodiment of the present invention has been described above, the present invention is not limited to this and can be modified as appropriate without departing from the technical idea of the invention.

For example, in the present embodiment, the rear cover 110 is used as the high-voltage equipment 30 cover, and the left cover 120 and the right cover 130 are used as the non-high-voltage equipment 40 covers, but the present invention is not limited to this. The high-voltage device 30 cover may be a cover that covers the high-voltage region H by forming the high-voltage region H not in the rear portion of the upper rotating body 220 but in another portion. Further, according to the arrangement of the high voltage area H, the non-high voltage area L may be arranged in another portion and the non-high voltage area L may be covered with the non-high voltage equipment 40 cover.

In the embodiment, the non-high-voltage equipment 40 is divided into normal inspection equipment 50 and daily inspection equipment 60, which are arranged in different areas and covered with different covers. However, the configuration is not limited to this, and the normal inspection equipment 50 and the daily inspection equipment 60 may be arranged in the same area as the non-high voltage equipment 40, and the area may be covered with the same cover.

The high voltage equipment 30 may include at least one of the inverter 36 and the battery unit 31 .
The normal inspection equipment 50 may include at least one of the hydraulic pump 51 and the hydraulic valve 52 .
The daily inspection equipment 60 may include at least one of the cooling unit 61 and the oil tank 65 .

A non-high voltage device such as a lubricating oil tank that stores lubricating oil for the electric motor 39 may be arranged in the high voltage region H. Other equipment such as an oil filter may be arranged in the daily inspection area D. That is, in each area, other devices whose description is omitted in the embodiment may be arranged.

A partition wall 24 that separates the high voltage area H and the daily inspection area D may be provided separately. In other words, there may be a partition wall 24 that separates the high voltage area H and the non-high voltage area L from each other. The partition wall 24 that separates the high voltage area H and the non-high voltage area L is not limited to a wall-shaped partition wall. Any other structure may be used as long as the partition has a structure that makes access to the high-voltage equipment 30 inaccessible. For example, the partition may be grid-shaped or bar-shaped.

Although the electric hydraulic excavator 200 has been described as an example of the electric construction machine in the embodiment, the construction machine is not limited to this. For example, the present invention may be applied to an electric excavator in which the work machine 221 and the like are all electrically driven, and further to an electric hydraulic excavator to which electric power is supplied from the outside via a cable. Also, the present invention may be applied to other electric construction machines.

DESCRIPTION OF SYMBOLS 10... Pivot frame, 11... Base plate, 12... Horizontal partition plate, 13... Front vertical partition plate, 14... Front reinforcing plate, 15... Bracket, 16... Rear vertical partition plate, 20... Portal frame, 21... Column Part 22 Beam 24 Partition wall (partition) 24a Hole 30 High-voltage device 31 Battery unit 31a Side 31b First front 31c Second front 31d First upper surface 31e Second upper surface 31f First lid 31g Second lid 32 Battery module 33 Battery case 34 Sensor box 35 Service plug 36 Inverter 36a Carrier 37 Power delivery unit 38 Charging connector connection portion 39 Electric motor 40 Non-high voltage equipment 50 Normal inspection equipment 51 Hydraulic pump 51a Connecting shaft 52 Hydraulic valve 53 Operation pattern switching unit 60 Daily inspection equipment 61 Cooling unit 62 Cooling fan 63 Heat exchange unit 64 Auxiliary battery 65 Oil tank 70 Swivel motor 80 Operating space 81 Floor panel 82 Operating space partition panel 82a Horizontal panel 82b Top and bottom panel 83 Side partition panel 84 Driver's seat 84a Seat 84b Backrest 85 Right console 86 Left Console, 87 Operation lever 88 Operation pedal 90 Canopy 91 Rear support 92 Front support 93 Ceiling 95 Protector 100 Exterior cover 110 Rear cover 120 Left cover , 121... left cover body, 122... underfloor cover, 122a... first door part, 130... right cover, 131... outer wall panel, 131a... first opening part, 131b... second opening part, 131c... second door part, DESCRIPTION OF SYMBOLS 132... Opening-and-closing panel, 200... Electric hydraulic excavator, 210... Lower traveling body, 211... Track, 212... Blade, 215... Swing circle, 220... Upper revolving body, 221... Working machine, 222... Boom, 223... Arm, 224: bucket, H: high voltage area, L: non-high voltage area, N: normal inspection area, D: daily inspection area

Claims (6)

a horizontally extending base plate;
a high-voltage device provided on the base plate and including an inverter supplied with power from a power supply and an electric motor driven by the power converted by the inverter;
A hydraulic pump driven by the electric motor, a hydraulic valve for distributing hydraulic oil discharged by the hydraulic pump, and a cooling unit for cooling various devices, provided on the base plate in a region different from the high-voltage device. non-high voltage equipment, including
A high-voltage equipment cover openable and closable covering an area provided with the high-voltage equipment on the base plate, and a non-high-voltage equipment cover openable and closable covering an area provided with the non-high-voltage equipment on the base plate. an exterior cover having
a partition for partitioning a high-voltage area provided with the high-voltage equipment on the base plate and a non-high-voltage area provided with the non-high-voltage equipment on the base plate inside the exterior cover;
electric construction machine. The high-voltage equipment further has a battery unit as the power supply,
The high-voltage device is provided in a rear region on the base plate,
The electric construction machine according to claim 1, wherein the high-voltage equipment cover is a rear cover that covers a rear side area on the base plate. The high voltage equipment is
a charging connector connecting portion to which a charging connector is connected from the outside when charging the battery unit;
a power delivery unit that connects the inverter, the battery unit, and the charging connector connection portion;
The electric construction machine according to claim 2, further comprising: The non-high voltage equipment is
a normal inspection device including at least one of the hydraulic pump and the hydraulic valve;
a daily inspection device including at least one of the cooling unit and the oil tank;
including
The normal inspection device is provided on the front side of the area covered by the rear cover on the base plate and on one side in the width direction of the base plate,
The daily inspection equipment is provided on the front side of the area covered by the rear cover on the base plate and on the other side in the width direction of the base plate,
The non-high voltage equipment cover,
a first side cover that covers a region on one side in the width direction of the base plate where the normal inspection equipment is provided;
a second side cover covering an area on the other side in the width direction on the base plate where the daily inspection equipment is provided;
The electric construction machine according to claim 2 or 3, comprising: The normal inspection equipment is
The electric construction machine according to claim 4, further comprising an operation pattern switching unit that switches an operation pattern of the operation lever by switching a distribution destination of the hydraulic oil by the hydraulic valve. The daily inspection equipment is
an auxiliary battery for supplying electric power to the auxiliary equipment;
an oil tank in which the hydraulic oil discharged by the hydraulic pump is stored;
The electric construction machine according to claim 4 or 5, further comprising:

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