JP2861503B2 - Battery storage structure in battery forklift - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a battery storage structure for a battery forklift equipped with a battery serving as a driving source.

[0002]

2. Description of the Related Art As shown in FIGS. 3 and 4, a battery forklift generally has a structure in which a battery 21a is mounted on a floor frame 22 below a seat 20 in an operator's cab. The front and front and side frame plates 24, 2 of the counterweight 23
The upper surface is openable and closable by a battery hood 26 pivotally mounted on the upper portion of the front surface of the counterweight.

In such a battery forklift, it is necessary to charge a battery whose power has been consumed during use.
a is exchanged. In this battery exchange, the battery hood 26 is opened and the battery 21a is taken in and out from above the battery storage chamber 21, but since the battery 21a is considerably heavy, a hoist crane or the like is used. . In this case, the head guard 28 serving as the ceiling surface of the cab is formed with a cutout portion 29 that is open on one side so that the lifted battery 21a can be moved laterally to a position above the battery storage room 21.

[0004]

By the way, the front and front and side frame plates 2 of the counterweight 23
A side portion of the battery storage chamber 21 defined by 4 and 25 is formed in a size close to the battery 21a so as to hold the stored battery 21a. For this reason, when the battery 21a is lifted and moved laterally by the hoist crane when the battery 21a is stored in the battery storage chamber 21 and is lowered in a state where the battery 21a is displaced from the battery storage chamber 21, the battery 21a is moved to the front and side frame plates. 24 and 25, not only cannot be stored in the battery storage chamber 21 but also the front and side frame plates 2
Inconveniences such as deformation and breakage of 4, 25 occur. Therefore, the laterally moving battery 21a must be accurately stopped at a predetermined position above the battery storage chamber 21, so that it takes a long time to perform the alignment and causes a significant decrease in work efficiency.

The present invention has been devised in view of the above circumstances, and an object of the present invention is to improve work efficiency at the time of battery replacement.

[0006]

SUMMARY OF THE INVENTION In order to solve the above-mentioned problems, according to the present invention, a counterweight projects from a front surface of a counterweight slightly inside and above an upper end of the frame plate on a side opposite to a battery loading / unloading side. It has a novel configuration that has a stopper portion.

[0007]

In the battery forklift according to the present invention, when the battery lifted by a hoist crane or the like is laterally moved along the front surface of the counter weight when the battery is stored in the battery storage chamber, the battery is positioned at an appropriate position above the battery storage chamber. When it reaches, it contacts the stopper. When the battery is lowered from this state, the battery is regulated in two directions by the front surface of the counter weight and the stopper, and is accurately stored in an appropriate position in the battery storage chamber. Therefore, the positioning above the battery storage chamber can be performed extremely easily and accurately, thereby improving the working efficiency.

[0008]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 is a cross-sectional view of a battery storage chamber of a battery forklift according to the present embodiment, and FIG. 2 is a cross-sectional view of a portion corresponding to line II-II in FIG. In the figure, reference numeral 1 denotes a battery storage room in a battery forklift. The side of the battery storage chamber 1 is
a front surface of a counterweight 3 disposed at the rear of the vehicle, a front frame plate 4 erected on the floor frame 2 at the vehicle front side, and both sides. And a pair of left and right side frame plates 5 erected on the floor frame 2. The front frame plate 4 and the side frame plates 5 are integrally formed of a steel plate material, and the upper ends thereof are lower than the upper ends of the counterweights 3. At the upper end of the front surface of the counterweight 3, a battery hood 6 having a sheet (not shown) attached to the upper surface thereof is pivotally mounted.
Thereby, the upper surface of the battery storage chamber 1 can be freely opened and closed. Side walls 6a bent at substantially right angles are formed at three edges of the battery hood 6, and a gap is formed between the lower end of the side wall 6a and the upper ends of the front and side frame plates 4, 5 when the lid is closed. Is formed.

At the left end of the counterweight 3, a stopper 7 projecting from the front surface of the counterweight is formed integrally with the counterweight at a space between the side wall 6a and the side frame plate 5. The stopper 7 is
The inner side surface is provided so as to be located slightly inside the inner side surface of the left side frame plate 5. The stopper 7 is provided on the battery insertion / removal side, that is, on the side opposite to the opening side of the notch 9 formed to open on the right side of the head guard (not shown).

When the battery is to be replaced in the battery forklift having the above structure, the battery hood 6 is first opened, and the battery 1a is lifted by the hoist crane through the notch 9 of the head guard to lift the battery 1a. Remove from. Next, the charged new battery 1a is lifted by a hoist crane to a position slightly higher than the side frame plate 5, and the rear surface of the battery 1a is laterally moved from the opening side of the notch 9 so that the rear surface of the battery 1a is along the front surface of the counterweight 3. . When the battery 1a comes into contact with the stopper portion 7, the battery 1a is at an appropriate position above the battery storage chamber 1, and the state of the battery 1a is changed from that state.
a is lowered. As a result, the battery 1a is regulated in two directions by the front surface of the counter weight 3 and the stopper, and is accurately stored in the battery storage chamber 1. afterwards,
The battery hood 6 is closed, and the battery replacement operation is completed.

As described above, according to the battery forklift of this embodiment, the stopper 7 is provided at the predetermined position of the counter weight 3 so that the laterally moving battery 1a can be moved to the proper position above the battery storage chamber 1. Position can be accurately and easily adjusted. Therefore, the work efficiency at the time of battery replacement can be significantly improved, and the deformation and breakage of the front frame plate 4, side frame plate 5, and battery hood 6 caused by the collision of the battery 1a can be prevented.

The stopper 7 is provided with a counter weight 3
Since it is formed integrally with the counterweight, it can be formed firmly, and it is advantageous in terms of cost because it is not necessary to newly add a part only by partially changing the shape of the counterweight 3.

[0013]

According to the present invention, the counter weight is
Since the stopper portion protrudes from the front surface of the counterweight slightly inside and above the upper end of the frame plate on the side opposite to the battery insertion / removal side, the laterally moving battery can be accurately positioned at an appropriate position above the battery storage chamber. Positioning can be performed, thereby significantly improving work efficiency at the time of battery replacement, and preventing deformation and breakage of the frame plate due to battery collision.

[Brief description of the drawings]

FIG. 1 is a sectional view of a battery storage room of a battery forklift according to an embodiment.

FIG. 2 is a cross-sectional view of a portion corresponding to line II-II in FIG.

FIG. 3 is a perspective view of the battery forklift when a battery is mounted.

FIG. 4 is a sectional view of a battery storage chamber of a conventional battery forklift. DESCRIPTION OF SYMBOLS 1 ... Battery storage room 1a ... Battery 3 ... Counter weight 4 ... Front frame plate 5 ... Side frame plate
6 Battery hood 7 Stopper 9 Notch

Claims (1)

(57) [Claims] 1. A battery storage chamber having a front side and a side wall sectioned by a frame plate, and a lifted battery is laterally moved in a direction parallel to the front side of the counterweight to store a battery from above the battery storage chamber. In the battery forklift, the counterweight has a stopper portion projecting from the front surface of the counterweight slightly inside and above the upper end of the frame plate on the side opposite to the battery loading / unloading side. Battery storage structure.