JP2008278625A - Battery charging rack - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To make a connector of batteries connected or disconnected without the requirement of labor and time. <P>SOLUTION: A battery charging rack includes rails 8, which slide batteries 100 in the front and rear directions; rack side charging connectors 2, 3, which can be connected to battery side charging connectors 102, 103 provided on each battery front 100a; activating means 20, 30, which activate the connection surfaces of the rack side charging connectors 2, 3 to the batteries 100 side; and lock means 7, which fix and release the position of the batteries 100 on the rails 8. The batteries 100 are slid to the front along the rails 8, the battery side charging connectors 102, 103 are connected to the rack side charging connectors 2, 3 in a state of opposing the activation force of the activating means 20, 30. The lock means 7 are configured to fix the position of the batteries 100 in that state. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a battery charging rack used for charging a battery such as a turret car or a forklift.

  Vehicles such as turret cars and forklifts are equipped with a battery as a power source. When the remaining battery level is low, the used battery is removed from the vehicle and transported to a place with a charging facility. The used battery is stored in a predetermined place such as a rack (for example, see Patent Document 1). Then, the battery stored in the rack is charged by the charger, and when the charging is completed, it is reused as a new battery.

This rack is not particularly suitable for charging a battery. Therefore, when charging the battery, it is necessary to insert and connect a plurality of plugs from the charger to the plurality of battery-side charging connectors, which requires much effort and time.
JP 2002-128492 A, rack 200, FIG. 1, etc.

  Therefore, the problem to be solved by the present invention is to provide a battery charging rack capable of easily connecting / disconnecting battery connectors without requiring time and effort.

  A battery charging rack for charging a plurality of vehicle batteries, a rail for sliding each battery in the front-rear direction, and a rack-side charging connector connectable to a battery-side charging connector on the front of each battery And an urging means for urging the connection surface of the rack-side charging connector toward the battery, and a locking means for fixing and releasing the position of the battery on the rail. The battery is moved forward along the rail. Slide and connect the battery-side charging connector to the rack-side charging connector in a state that opposes the urging force of the urging means, and in that state, the locking means fixes the position of the battery. It is configured.

  Preferably, a battery is provided with a guide bar extending toward the front of the battery, the battery having a guide hole that can be inserted in conformity with the guide bar slides forward along the rail, and the guide hole serves as a guide. The battery is configured to be inserted into the bar to regulate the positional deviation of the battery in the left-right direction.

  More preferably, a plurality of guide bars are provided in the vertical direction, the lowermost guide bar is longer than the other guide bars, and the tip is sharp.

  In the battery charging rack according to the present invention, as described above, the battery is slid forward along the rail, and the battery side charging connector is biased to the rack side charging connector by the biasing means. It connects in the state which opposes, and the position of a battery can be fixed with the locking means in that state.

  Thus, unlike the prior art, there is no need to connect each connector one by one, and each connector can be connected by simply sliding the battery along the rail and fixing the position by the locking means. Further, the battery-side charging connector and the rack-side charging connector can be reliably connected with a predetermined pressing force by the biasing force of the biasing means. Further, each connector can be disconnected by simply releasing the locking means. Therefore, the battery connector can be easily connected and disconnected in a short time.

  Hereinafter, a battery charging rack according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 shows a battery charging rack, and is a cross-sectional side view taken along the line II of FIG. 2 is a cross-sectional front view taken along line II-II in FIG. FIG. 3 is an enlarged perspective view showing a part of the battery charging rack. FIG. 4 is a perspective view showing the battery.

  As shown in FIGS. 1 and 2, the battery charging rack includes a plurality of column members 10 and beam members 11. The column member 10 and the beam member 11 are combined and connected, thereby constituting an outer frame of the battery charging rack. In this embodiment, the battery charging rack includes four shelves 1, 1,..., And the battery 100 can be stored for each shelf 1. The battery 100 is used as a power source for vehicles such as turret cars and forklifts.

  As shown in FIG. 2, the battery charging rack includes upper and lower two-stage support plates 12 and 12 extending in the left-right direction at the front end (the right end in FIG. 1). Both ends of the support plate 12 are held by column members 10 and 10. The support plate 12 supports rack-side charging connectors 2, 3 and the like which will be described later. The battery charging rack can be stored in each shelf 1 by inserting the battery 100 from the rear (left side in FIG. 1).

  Each shelf 1 includes a pair of L-shaped rails 8 and 8 extending in the front-rear direction (left-right direction in FIG. 1). The L-shaped rails 8 and 8 are arranged in parallel in the left-right direction (left-right direction in FIG. 2). The L-shaped rails 8 and 8 face each other as shown in FIGS. In each L-shaped rail, the vertical portions 8a and 8a are arranged on the left and right sides.

  The battery 100 slides in the front-rear direction along the pair of L-shaped rails 8 and 8. In other words, the battery 100 slides while being placed on the horizontal portions 8b and 8b while both sides are sandwiched between the vertical portions 8a and 8a of the L-shaped rails and the movement in the left-right direction is restricted. .

  The shelf 1 includes a base 13 fixed to the support plate 12. The base 13 is provided at the front part (right side in FIG. 1) of the L-shaped rails 8 and 8. As shown in FIG. 2, a pair of left and right bases 13 is provided for each of the support plates 12 and 12. A pair of rack-side charging connectors 2 and 3, an upper guide bar 4, a lower guide bar 5, and a temperature detection terminal 6 are arranged on the base 13 in the vertical direction. 2, 3, 4, 5, and 6 extend in the horizontal direction and extend toward the rear of the battery charging rack (to the left in FIG. 1).

  The rack-side charging connectors 2 and 3 are connected to a charger (not shown) so that the battery 100 can be charged via the charger. As shown in FIG. 3, the compression springs 20 and 30 are fitted to the rack-side charging connectors 2 and 3. The compression springs 20 and 30 bias the end portions 2a and 3a of the rack-side charging connector backward (leftward in FIGS. 1 and 3). The lower guide bar 5 is longer than the upper guide bar 4. Further, the lower guide bar 5 has a sharp tip.

  As shown in FIGS. 1 and 4, the battery 100 has a battery-side charging connectors 102 and 103, an upper guide hole 104, a lower guide hole 105, and a terminal hole on the front surface (the right side in FIG. 1, the left side in FIG. 4) 100 a. 106 is provided in the vertical direction. The battery-side charging connectors 102 and 103 are inserted in conformity with the rack-side charging connectors 2 and 3 described above, and are connected inside holes provided in the battery front surface 100a.

  The upper guide hole 104 is inserted into the upper guide bar 4, the lower guide hole 105 is inserted into the lower guide bar 5, and the terminal hole 106 is inserted into the temperature detection terminal 6. Yes. In this embodiment, since the battery 100 is a nickel metal hydride battery, the temperature detection terminal 6 monitors the temperature inside the battery 100.

  As shown in FIG. 1, the battery charging rack includes a lock member 7 for each shelf 1. The lock member 7 has a latching portion 7b that can be protruded and retracted from the horizontal portions 8b and 8b of the L-shaped rail by the urging force of the tension spring 7b. The locking member 7 is normally configured such that the latching portion 7b protrudes from the horizontal portions 8b and 8b of the L-shaped rail by the tension spring 7b. And the locking member 7 can be arrange | positioned so that the latching | locking part 7b may be immersed from the horizontal parts 8b and 8b of an L-shaped rail by pushing down the lever 7c.

  As shown in FIGS. 1 and 4, the battery 100 includes a positioning hole 107 on the bottom surface. The positioning hole 107 can be inserted into the locking portion 7b of the lock member. Therefore, the battery 100 can be fixed at a predetermined position on the L-shaped rails 8 and 8 by fitting the latching portion 7 b of the lock member into the positioning hole 107.

  First, the operator pushes down the lever 7c of the lock member so that the latching portion 7a is submerged from the L-shaped rails 8 and 8 so that the battery 100 is not caught by the latching portion 7a. Slide forward along the mold rails 8,8. At this time, the locking member 7 is in a state in which the latching portion 7a is always in contact with the bottom surface of the battery 100 by the urging force of the tension spring 7b.

  Then, the lower guide bar 5 of the rack is inserted into the lower guide hole 105 of the battery. As described above, the lower guide bar 5 is long with respect to the rack-side charging connectors 2 and 3 and the upper guide bar 4 and is disposed at the lowest level, and has a sharp tip. Even if 100 is displaced in the left-right direction, the battery 100 is reliably inserted into the lower guide hole 105 so that the battery 100 can be easily guided to a predetermined position.

  The battery-side charging connectors 102 and 103 are inserted into the rack-side charging connectors 2 and 3, the upper guide hole 104 is inserted into the upper guide bar 4, and the terminal hole 106 is inserted into the temperature detection terminal 6. The upper guide bar 4 guides the battery 100 to assist the lower guide bar 5. Even if the operator slides the battery 100 and simply contacts the battery-side charging connectors 102 and 103 with the rack-side charging connectors 2 and 3, the front surface 100a of the battery is not in contact with the base 13 (battery front surface). 100a and the base 13 are provided with a predetermined interval), and the position of the battery 100 is not fixed by the lock member 7.

  The operator slides the battery 100 further forward (to the right in FIG. 1) against the urging force of the compression springs 20 and 30 fitted to the rack-side charging connector, whereby the front surface 100a of the battery. Comes into contact with the base 13. In this state, the latching portion 7a of the lock member is fitted into the battery positioning hole 107 by the urging force of the tension spring 7b, and the lock member 7 fixes the position of the battery 100 (FIG. 1 two-dot chain line). The battery-side charging connectors 102 and 103 are connected to the end portions 2a and 3a of the rack-side charging connector while being pressed against each other with a predetermined pressure by the urging force of the compression springs 20 and 30. The

  Then, after charging the battery 100, the lever 7c of the lock member is pushed down. As a result, the latching portion 7a of the lock member is disengaged from the battery positioning hole 107, so that the battery 100 can be slid rearward (leftward in FIG. 1). Then, with the lock member 7 released, the battery 100 is removed from the rear of the battery charging rack (left side in FIG. 1) and reused as a new battery.

  The means for sliding the battery 100 in the front-rear direction is not limited to the L-shaped rails 8 and 8, but may be a U-shaped rail, a pair of I-shaped rails, or the like. The means for fixing / releasing the battery 100 at a predetermined position is not limited to the lock member 7 and may be a known chuck means or the like.

FIG. 3 is a cross-sectional side view taken along the line II of FIG. 2, showing a battery charging rack. It is the II-II sectional view taken on the line of FIG. It is a perspective view which expands and shows a part of rack for battery charging. It is a perspective view which shows a battery.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Shelves 2, 3 Rack side charging connectors 20 and 30 Compression spring 4 Upper guide bar 5 Lower guide bar 7 Lock member 8, 8 L-shaped rail 100 Battery 100a Battery front surface 102, 103 Battery side charging connector 104 Upper guide Hole 105 Lower guide hole 107 Positioning hole

Claims (3)

A battery charging rack for charging a plurality of vehicle batteries, wherein the rack side charging is connectable to a rail for sliding each battery in the front-rear direction and a battery-side charging connector on the front of each battery. Connector, biasing means for biasing the connection surface of the rack-side charging connector toward the battery side, and locking means for fixing and releasing the position of the battery on the rail,
The battery slides forward along the rail, and the battery-side charging connector is connected to the rack-side charging connector in a state that opposes the urging force of the urging means. The battery charging rack is characterized in that the locking means is configured to fix the position of the battery.   The battery is provided with a guide bar extending toward the front of the battery, and the battery having a guide hole that can be inserted in conformity with the guide bar slides forward along the rail. The battery charging rack according to claim 1, wherein the battery charging rack is configured to be inserted into the guide bar so as to regulate a displacement in a horizontal direction of the battery.   A plurality of the guide bars are provided in the vertical direction, and the lowermost guide bar is longer than the other guide bars and has a sharp tip. The battery charging rack described in 1.

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