JP2004043125A - Battery forklift - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a battery forklift capable of easily performing daily maintenance and inspection by supporting the battery cover at a half-opening position. <P>SOLUTION: The end part of a stopper 21 is rotatably supported on the battery cover 12 which is opened/closed over the fully closed position covering upper surface of the battery case 9 and the fully opened position started from the full closed position around a fulcrum shaft 11 arranged at the one side of the battery case 9 storing the battery. The stopper 21 is urged to the position where the other end part perpendicularily abuts to a receiving surface 24 provided on the battery cover 9 with an urging means 23. If the battery cover 12 is returned to a half-opened position after opening the battery cover 12 at more than a half-opened position, the stopper 21 is perpendicularily received to the receiving surface 24 and the battery cover 12 is restrained at the half-opened position. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a battery forklift equipped with a battery as a driving energy source.
[0002]
[Prior art]
As shown in the side view of FIG. 6, a battery case 101 that houses the battery, a closed position that covers the upper surface of the battery case 101 around a fulcrum shaft 102 disposed on one side of the battery case 101, for example, the rear side, A battery forklift including a battery cover 103 that is opened and closed from a fully opened position raised from the closed position is widely used.
[0003]
In this type of battery forklift, a so-called gas spring 104 is mounted between the battery case 101 and the battery cover 103 to facilitate opening and closing, and to lock the battery cover 103 at a fully open position.
[0004]
When the battery cover is fully closed, the battery cover 103 is supported at two points on the left and right on the fulcrum shaft 102 at the rear end, and the battery cover is attached to the battery case 101 at two points on the left and right of the front end of the battery cover 103. An anti-vibration support is provided, and an appropriate space is provided between the battery case 101 and the battery cover 103 to prevent the battery cover 103 and the battery case 101 from interfering with each other. So that it can communicate with the atmosphere.
[0005]
[Problems to be solved by the invention]
By the way, in this type of battery forklift, the fully open position of the battery cover 103 is set to a position where an open space where the battery can be replaced is secured above the battery case 101.
[0006]
The daily maintenance and inspection work performed while the battery is stored in the battery case 101, such as inspection of the battery, replenishment of the battery fluid, water replenishment for adjusting the specific gravity of the battery fluid, and charging, are performed by using the battery cover 103. Although the battery cover 103 can be held without being fully opened, the battery cover 103 cannot be held at the half-open position. Therefore, the battery cover 103 is opened to the fully open position even when performing these routine maintenance work and inspection work. Therefore, extra work is required of the user.
[0007]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a battery forklift capable of solving the problem of the related art and holding a battery cover at a half-open position required for daily maintenance and inspection work.
[0008]
[Means for Solving the Problems]
In order to achieve this object, a battery forklift according to the present invention includes a battery case for accommodating a battery, a closed position covering an upper surface of the battery case around a fulcrum shaft arranged on one side of the battery case, A battery forklift including a battery cover that is opened and closed over a fully open position raised from a stopper, one end of which is rotatably supported by one of the battery case and the battery cover; A receiving surface provided on one of the other ends for receiving the other end of the stopper, and an urging means for urging the stopper to a position where the other end of the stopper comes into contact with the receiving surface at a predetermined angle. The technical means of having a feature is adopted.
[0009]
According to this, in the state where the battery cover is closed, the weight of the battery cover overcomes the urging force of the urging means, and the stopper is laid between the battery cover and the battery case. With the opening, the inclination angle of the stopper with respect to the receiving surface is gradually increased by the urging means.
[0010]
When the other end of the stopper rotates to a position where the other end contacts the receiving surface at a predetermined angle, the urging force of the urging means is lost, and even if the battery cover is further opened, the one end of the stopper is rotatably supported. The angle of the stopper with respect to the battery cover or the battery case is kept constant.
[0011]
Therefore, when the battery cover is opened wider than the position where the other end of the stopper contacts the receiving surface at a predetermined angle and then returned to that position, the other end of the stopper contacts the receiving surface at a predetermined angle. become.
[0012]
The position of the battery cover when the stopper comes into contact with the receiving surface at a predetermined angle is the half-open position, and after the battery cover is widely opened, when the battery cover is closed to the half-open position, the other end of the stopper comes into contact with the receiving surface. A state where the battery cover contacts the battery at a predetermined angle is reproduced, and the battery cover is held at the half-open position by holding the lower end of the stopper at that position.
[0013]
In the present invention, as a method of holding the other end of the stopper at a position in contact with the receiving surface at a predetermined angle, a method of setting the predetermined angle to a right angle, and a method of setting the lower end of the stopper to a fulcrum shaft by the weight of the battery cover. There is a method of providing a restraint means for restraining movement to the side or the opposite side, and a method of using these methods in combination.According to the method of setting the predetermined angle at a right angle, the weight of the battery cover Since there is no component force in the direction along the surface, the other end of the stopper is held at that position, and the battery cover is held at the half-open position.
[0014]
If the angle of the treatment is other than a right angle, a component force in the direction along the receiving surface is generated from the weight of the battery cover, and the other end of the stopper slides along the receiving surface due to the component force. It is necessary to provide a restraining means for receiving the other end of the stopper at a position where the stopper contacts the receiving surface at a predetermined angle from the fulcrum shaft side or the opposite side.
[0015]
Here, the position at which the restraining means restrains the stopper may be a position where the stopper is perpendicular to the receiving surface, or a position where the stopper is inclined more sharply than perpendicular to the receiving surface. The position may be inclined beyond a right angle to the receiving surface.
[0016]
If the stopper is to be restrained at a position where the stopper inclines more sharply than at right angles to the receiving surface, the stopper should be restrained from the fulcrum shaft side, and the stopper should be tilted beyond the right angle to the receiving surface. When restraining the stopper, the stopper is restrained from the opposite side of the fulcrum shaft, and when restraining at a position perpendicular to the receiving surface, the stopper is restrained from both the fulcrum shaft side and the opposite side. Should be checked.
[0017]
This restraint means restrains the stopper at one end, that is, at the end rotatably supported by the battery cover or the battery case, but at the other end, that is, at the end received at the receiving surface. It may be one that checks a part or one that checks an intermediate part of a stopper.
[0018]
By the way, the stopper of the present invention needs to have an appropriate length to hold the battery cover at a predetermined half-open position, and have a bending rigidity that does not cause buckling due to the weight of the battery cover. However, the cross-sectional shape is not particularly limited, and an arbitrary shape such as a circle, an ellipse, and a polygon having three or more triangles can be adopted.
[0019]
Further, the material of the stopper is not particularly limited, and for example, iron, steel including stainless steel, metal such as phosphor bronze alloy and titanium alloy, and synthetic resin including FRP may be used.
[0020]
The structure for rotatably supporting one end of the stopper on the battery cover or the battery case is not particularly limited. For example, a structure using a hinge, an eye plate provided on the back surface of the battery cover or an eye hole formed on the battery case is provided with the stopper. A structure in which a pin formed at the end is inserted, a structure in which a pin supported on the back side of the battery cover or the side surface of the battery cover is inserted into an eye hole formed at one end of the stopper, or the like may be adopted.
[0021]
The other end of the stopper slides or slides along the battery case or the battery cover as the battery cover opens and closes while being pressed by the battery case or the battery cover by the urging means.
[0022]
Therefore, in the present invention, it is preferable to smooth the sliding or sliding, reduce noise caused by opening and closing, and prevent wear of the other end of the stopper and the battery case or the battery cover. For example, the other end of the stopper may support a roller that is in contact with the battery case or the battery cover, or a shoe made of synthetic resin, metal, or the like may be worn on the other end of the stopper, or made of, for example, synthetic resin or metal. It is preferable to attach the rubbing plate to the receiving surface.
[0023]
The urging means refers to a means for urging the stopper whose one end is pivotally attached to the battery cover or the battery case in a direction in which the depression angle with respect to the battery cover increases from a state where the stopper is laid down along the battery cover, for example, a torsion coil spring, Examples thereof include a spring such as a tension coil spring and a compression coil spring, and a so-called gas spring. In the case where the stopper is rotatably supported by the battery cover, the weight of the stopper and the weight attached thereto are also included. .
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
The following is a detailed description of a battery forklift according to an embodiment of the present invention, with reference to the accompanying drawings.
[0025]
FIG. 2 is a side view of a battery forklift according to one embodiment of the present invention. The battery forklift includes a frame 2 supported on the ground or the floor by four wheels 1, and a front portion of the frame 2. A tiltable mast 3 is supported, and a lift bracket 4 is supported by the mast 3 so as to be able to move up and down. Further, the fork 5 is supported by the lift bracket 4 so as to be slidable in the left-right direction, that is, in the width direction of the vehicle body. ing.
[0026]
A tilt cylinder 6 for tilting the mast 3 and a lift cylinder 7 for raising and lowering the lift bracket 4 are hydraulic cylinders, and supply power to a motor for driving an oil pump for supplying pressure oil to these cylinders and a traveling motor for traveling the vehicle body. The battery to be mounted is stored in a battery case 9 mounted on the rear part of the frame 2.
[0027]
A counterweight 10 is mounted on the rear end of the frame 2, and a battery cover 12 is supported so as to be rotatable around a left and right axis centered on left and right fulcrum shafts 11 arranged on the counterweight 10.
[0028]
The battery cover 12 is provided to open and close the open upper surface of the battery case 9. In a closed position lying above the battery case 9, the left and right sides of its front end are formed by the front edge of the battery case 9. And is fixed by a buckle 13 to a center cover 14 that covers the front surface of the battery case 9.
[0029]
Then, the operator sits forward on a seat 15 fixed on the front part of the battery cover 12, and operates a handle 17, a lever 18, a pedal, a switch, and the like provided on a driver's cab 16.
[0030]
When the battery cover 12 is spread to the fully open position, the battery cover 12 is locked at the fully open position by the gas spring 19 mounted between the battery cover 12 and the battery case 9. Is closed.
[0031]
FIG. 1 is a side view of a portion of the battery case 9 and the battery cover 12, and as shown in FIG. One end of the stopper 21 is rotatably connected to the left and right axes, and the other end of the stopper 21 is connected to the battery case by urging means 23 comprising a helical coil spring wound around a fulcrum shaft 11 comprising a hinge pin of the hinge 20. 9 against the receiving surface 24 consisting of the upper edge surface.
[0032]
The other end of the stopper 21 has a synthetic surface with excellent surface lubrication to reduce frictional noise between the stopper 21 and the receiving surface 24 as needed and to prevent wear of the stopper 21 and the receiving surface 24. A shoe 25 made of resin, oil-impregnated metal, dry metal, or the like is worn.
[0033]
The length of the stopper 21 including the shoe 25 is set, for example, to a length that abuts the receiving surface 24 at a right angle when the battery cover 12 is opened by 30 ° from the fully closed position. The stopper 21 is formed so as to urge the stopper 21 to a position where the stopper 21 is perpendicular to the receiving surface 24.
[0034]
When the battery cover 12 is located at the fully closed position, the stopper 21 is laid between the battery cover 12 and the battery case 9. When the stopper 21 is urged by the urging force of the means 22 to increase the angle of the stopper 21 with respect to the receiving surface 24, and the battery cover 12 is opened by 30 °, the stopper 21 moves with respect to the receiving surface 24 provided in the battery case 9. At the same time, the urging force of the urging means 22 becomes zero, and the stopper 21 is held at that position.
[0035]
When the battery cover 12 is further opened, the stopper 21 rises from the receiving surface 24 while maintaining the angle at which the stopper 21 is perpendicular to the receiving surface 24 with respect to the battery cover 12.
[0036]
Accordingly, when the opening of the battery cover 12 is returned to 30 ° after opening the battery cover 12 more than 30 °, the stopper 21 is received at right angles to the receiving surface 24, and the battery cover 12 is restrained to the opening. Will do.
[0037]
It is preferable that the operation of closing the battery cover 12 opened at 30 ° or more to 30 ° is performed by attaching a hand to the front end portion or the intermediate portion of the battery cover 12. When the battery cover 12 is closed at an angle of 30 °, the battery cover 12 is restrained by the stopper 21 and does not close any more. Therefore, there is no possibility that a hand is caught between the battery case 9 and the battery cover 12.
[0038]
In this way, if the battery cover 12 is configured to be restrained to the half-open position, the battery cover 12 can be half-opened and easily and safely performed for daily inspection work and maintenance work.
[0039]
According to this embodiment, the half-open angle can be arbitrarily set and changed by changing the length and / or the mounting position of the stopper 21.
[0040]
In this half-open state, if the lower end of the stopper 21 is slid along the receiving surface 24 along the receiving surface 24 with, for example, the hinge 20 while holding the leading end or the intermediate portion of the battery cover 12 with one hand, the stopper 21 tilts. Therefore, the battery cover 12 is closed to the fully closed position by the weight of the battery cover 12 and the driver's seat 15.
[0041]
However, in this half-open state, even if the user holds the tip or middle portion of the battery cover 12 with one hand and slides the lower portion of the stopper 21 along the receiving surface 24 with the other hand, for example, to the side opposite to the fulcrum shaft 11, Since the stopper 21 can be tilted, the battery cover 12 is closed to the fully closed position by the weight of the battery cover 12 and the driver's seat 15.
[0042]
However, in order to reduce the impact sound at the time of closing the cover, close the battery cover 12 while holding the battery cover 12 with one hand until near the fully closed position, and release the battery cover 12 after approaching the fully closed position. Is preferred. Also, the other hand is provided with an inclination angle of the stopper 21 with respect to the receiving surface 24 so as not to pinch the hand between the battery cover 21 and the battery case 9, a side cover covering the side surface of the battery case 9, the center cover 14, and the like. Is preferably released from the stopper 21 at an appropriate time after the angle becomes smaller than the right angle or after the inclination angle of the stopper 21 with respect to the receiving surface 24 becomes larger than the right angle.
[0043]
Note that when the battery cover 12 is fully closed, whether the lower end of the stopper 21 is tilted toward the fulcrum shaft 11 or toward the opposite side is determined by design convenience.
[0044]
Further, in this embodiment, the position where the battery cover 12 is opened by 30 ° is set to the half-open position, but the length of the stopper 21 is changed, the position of the hinge 20 is changed, and the length and the hinge of the stopper 21 are changed. By changing the position of 20, the half-open position can be easily set to a larger open position or a smaller open position.
[0045]
However, this half-open position is a position where the battery cover 12 is opened to the extent that a space larger than the minimum space can be secured for daily maintenance work and inspection work between the battery cover 12 and the battery case 9. It is necessary to be.
[0046]
FIG. 3 is a side view of a main part of a battery forklift according to another embodiment of the present invention. In the embodiment shown in FIG. 3, the stopper 21 of the preceding example is restrained to a position where it can be received at right angles to the receiving surface 24. The other configuration is the same as that of the previous example.
[0047]
The restraining means 26 is made of, for example, a synthetic resin fixed to the receiving surface 24, has a restraining groove 27 recessed from the upper surface thereof, and fits the lower part of the stopper 21 with the shoe 25 over the restraining groove 27. As a result, the stopper 21 is restrained at a position where it comes into contact with the receiving surface 24 at right angles.
[0048]
In order to ensure that the lower end of the stopper 21 descending from above is inserted into the restraining groove 27, the upper part thereof is formed in a bell mouth shape with an upper spread.
[0049]
According to this embodiment, when closing the battery cover 12 in the half-open state, the battery cover 12 is slightly opened slightly from 30 ° with one hand, and the lower end of the stopper 21 is made to escape from the restraint groove 27, and then the other is opened. The lower end of the stopper 21 is manually held at a position off the fulcrum shaft 11 side or the opposite side from the restraint groove 27, and then the battery cover 12 is closed. When the stopper 21 is released when the lower end of the stopper 21 is no longer likely to return to the restraining groove 27, the weight of the battery cover 12 and the driver's seat 15 overcomes the urging force of the urging means 23, and the stopper 21 is laid down. The battery cover 12 moves to the fully closed position.
[0050]
Other functions and effects of this embodiment are the same as those of the previous embodiment.
[0051]
FIG. 4 is a side view of a main part of a battery forklift according to still another embodiment of the present invention. In this battery forklift, the position where the stopper 21 is at 100 ° with respect to the receiving surface 24 provided on the battery case 9. As a result, the urging force of the urging means 22 becomes zero, and the stopper 21 is held at that position.
[0052]
Therefore, when the battery cover 12 is opened more than 30 °, for example, the stopper 21 rises from the receiving surface 24 while maintaining the angle at which the stopper 21 becomes 100 ° with respect to the receiving surface 24 with respect to the battery cover 12. Thereafter, when the battery cover 12 is closed to 30 °, the stopper 21 abuts on the receiving surface 24 at an angle of 100 °, and the weight of the battery cover 12 and the driver's seat 15 urges the battery cover 12 in the closing direction.
[0053]
The lower end of the stopper 21 is urged by the urging force in a direction away from the fulcrum shaft 11 along the receiving surface 24, but the lower end of the stopper 21 is applied to the restraining means 26, which is a projection fixed to the receiving surface 24. Is received from the side opposite to the fulcrum shaft 11, the opening degree of the battery cover 21 is suppressed to 30 °.
[0054]
When closing the battery cover 12, once open the battery cover 12 more than 30 ° with one hand and move the lower end of the stopper 21 with the other hand until the stopper 21 has an angle smaller than a right angle with respect to the receiving surface 24. When the battery cover 21 is closed to 30 ° or less while being moved to the fulcrum shaft 11 side, the weight of the battery cover 12 and the driver's seat 15 causes the stopper 21 to lie on the fulcrum shaft 11 side, and the battery cover 12 is closed.
[0055]
However, once the battery cover 12 is opened by more than 30 ° with one hand, the lower end of the stopper 21 is moved with the other hand to the opposite side to the fulcrum shaft 11 beyond the position where the stopper 21 rides on the restraint means 26. When the angle 21 is closed to 30 ° or less, the weight of the battery cover 12 and the driver's seat 15 causes the stopper 21 to lie on the side opposite to the fulcrum shaft 11 with respect to the restraint means 26, and the battery cover 12 is closed.
[0056]
The restraining means 26 may have a restraining surface 28 for receiving the lower end of the stopper 21 from the side opposite to the fulcrum shaft 11 hinge 20, but may have a restraining groove 27 as shown in the previous example. Is also good.
[0057]
The position where the stopper 21 is restrained is not limited to a position where the stopper 21 contacts the receiving surface 24 at an angle of 100 °, but may be a position where the stopper 21 contacts the receiving surface 24 at an obtuse angle.
[0058]
Other configurations, operations and effects of this embodiment are the same as those of each of the above embodiments.
[0059]
FIG. 5 is a side view of a main part of a battery forklift according to still another embodiment of the present invention. In this battery forklift, the position at which the stopper 21 is at 80 ° with respect to the receiving surface 24 provided on the battery case 9. As a result, the urging force of the urging means 22 becomes zero, and the stopper 21 is held at that position.
[0060]
Therefore, when the battery cover 12 is opened more than, for example, 30 °, the stopper 21 rises from the receiving surface 24 while maintaining the angle at which the stopper 21 becomes 80 ° with respect to the receiving surface 24 with respect to the battery cover 12. Thereafter, when the battery cover 12 is closed to 30 °, the stopper 21 abuts on the receiving surface 24 at an angle of 80 °, and the weight of the battery cover 12 and the driver's seat 15 urges the battery cover 12 in the closing direction.
[0061]
The lower end of the stopper 21 is urged by the urging force in a direction approaching the hinge 20 along the receiving surface 24, but the lower end of the stopper 21 is attached to a restraining means 26 formed of a projection fixed to the receiving surface 24. By receiving from the hinge 20 side, the opening degree of the battery cover 21 is suppressed to 30 °.
[0062]
The restraining means 26 may have a restraining surface 29 for receiving the lower end of the stopper 21 from the side opposite to the hinge 20, but may have a restraining groove 27 as shown in the embodiment of FIG. Good.
[0063]
When the battery cover 12 is closed, the battery cover 12 is once opened by more than 30 ° with one hand, and the stopper 21 is rotated with the other hand toward the branch shaft 11 beyond the position where the lower end of the stopper 21 rides on the check means 26. When the battery cover 21 is closed to 30 ° or less after the stopper 21 is rotated on the opposite side to the fulcrum shaft 11 by an angle exceeding a right angle with respect to the receiving surface 24 and then the weight of the battery cover 12 and the driver seat 15 is reduced. Thereby, the battery cover 12 is closed.
[0064]
Other configurations, operations and effects of this embodiment are the same as those of each of the above embodiments.
[0065]
In each of the embodiments described above, one end of the stopper 21 is rotatably supported by the battery cover 21, and the receiving surface 24 and the restraining means 26 are provided on the battery case 9. It is also possible that the part is rotatably supported by the battery case 9 and the receiving surface 24 and the restraint means 26 are provided on the battery cover 21.
[0066]
【The invention's effect】
As described above, the battery forklift of the present invention has a battery case for storing a battery, a closed position covering the upper surface of the battery case around a fulcrum shaft arranged on one side of the battery case, and In a battery forklift including a battery cover that is opened and closed over a fully opened position, a stopper whose one end is rotatably supported by one of the battery case and the battery cover, and the other of the battery case and the battery cover A receiving surface for receiving the other end of the stopper, and urging means for urging the stopper to a position where the other end of the stopper comes into contact with the receiving surface at a predetermined angle. When the battery cover is opened more than the half-open position and returned to the half-open position, the battery cover is It is possible to obtain an effect that it is possible to hold the over to the half-open position.
[0067]
By this operation, it is possible to obtain an effect that daily maintenance work and inspection work can be easily performed by opening the battery cover halfway without fully opening the battery cover.
[0068]
Further, by this action, even if the hand slips away from the battery cover with the battery cover opened more than half open, the battery cover is stopped in the half open state, so that the hand is caught between the battery cover and the battery case and the like. Therefore, the effect that the safety can be improved can be obtained.
[0069]
Further, according to the present invention, the half-open position can be freely set according to the size of the battery cover and the like by the length and / or the mounting position of the stopper, and the effect of high design freedom can be obtained. Can be.
[Brief description of the drawings]
FIG. 1 is a side view of the present invention.
FIG. 2 is a side view of the present invention.
FIG. 3 is a side view of the present invention.
FIG. 4 is a side view of the present invention.
FIG. 5 is a side view of the present invention.
FIG. 6 is a side view of a conventional example.
[Explanation of symbols]
9 battery case 11 fulcrum shaft 12 battery cover 21 stopper 24 receiving surface 23 biasing means 26 restraining means

Claims (3)

A battery case accommodating a battery, a closed position covering a top surface of the battery case around a fulcrum shaft arranged on one side of the battery case, and a battery cover that is opened and closed over a fully open position raised from the closed position. Equipped with a battery forklift
A stopper whose one end is rotatably supported on one of the battery case and the battery cover, a receiving surface provided on one of the other of the battery case and the battery cover, and for receiving the other end of the stopper, And a biasing means for biasing the stopper to a position where the other end of the stopper comes into contact with the receiving surface at a predetermined angle. A battery forklift, wherein the urging means urges the stopper to a position perpendicular to the receiving surface. The battery forklift according to claim 1 or 2, further comprising a restraint means for restraining the stopper at a position at a predetermined angle with respect to the receiving surface.

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