JP2015150930A - Battery box of electric assist bicycle - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery box which is unlikely to cause strength degradation, prevents cracks, has excellent appearance, achieves effective drainage, and effectively inhibits intrusion of dust.SOLUTION: A battery box 1 stores a battery and is attached to a pedestal 7 to be supported thereby. In the battery box 1, drain holes 10 are opened at attachment support mediums 6, 6 of the battery box 1 which are attached to and supported by support medium receiving parts 9, 9 formed in the pedestal 7. The structure provides a drainage structure which allows the drain holes to be effectively reinforced by the attachment support mediums and has excellent appearance in which cracks etc. are unlikely to occur.

Description

  The present invention relates to a battery box that houses a battery and is mounted and supported on a pedestal, and more particularly to a drainage structure for a battery box that is mounted on a power-assisted bicycle.

Conventionally, in electrically assisted bicycles and the like, when a battery box is mounted and supported on a pedestal attached to an appropriate part of the bicycle body and the battery stored inside is used for use, the battery is exhausted. The box is removed from the car body and the battery is charged. In general, since the battery box is exposed to wind and rain and dust, it is inevitable that wind and rain and dust enter from the joint edge or the like which is the assembled surface of the battery box. In addition, it is inevitable that condensation occurs inside the battery and electrical components due to hot air generated during energization. For this reason, it is necessary to provide a drainage hole in the battery box that houses the battery, and to remove moisture such as moisture inside the battery box to always ensure an appropriate operating environment for the battery. It was.

Various technologies have been proposed and used as a drainage structure in which a drain hole is formed in a battery box that houses a battery therein. For example, a battery pack as a first conventional example as described in Patent Document 1 below has been proposed. A drainage structure in such a conventional battery box (case) will be described with reference to FIG. 6. Both ends of a plurality of secondary batteries 51 are connected to a pair of holders 52 to form a battery set 53 in upper and lower cases 54A and 54B. It is stored in. In the case 54, drainage ventilation holes 71,... Are opened on the bottom surface, and water that enters the case 54 is exhausted to the outside from the drainage ventilation hole 71. With such a configuration, it is possible to prevent harmful effects caused by water entering the case 54 while effectively cooling the battery 51 housed in the case 54.

Similarly, a battery assembly as a second conventional example as described in Patent Document 2 has been proposed as a drainage structure in which a drain hole is formed in a battery box that houses a battery therein. A drainage structure in such a conventional battery box (housing) will be described with reference to FIG. 7. A battery assembly 110 includes a housing 1 having an inner surface and an outer surface.
14 and the outer surface has a bottom surface portion 142, a side surface portion 146 and a junction 150 between these surface portions. The inner surface defines an inner cavity, and a discharge hole 154 extends through the wall from the outer surface to the inner cavity at the junction. A discharge passage 158 is provided for each discharge hole 15.
4 extending from the bottom surface portion 142 to the side surface portion 146 across the junction. Each discharge passage 158 and 154 defines a drain hole 162 together. With such a configuration, water or steam that has entered the housing 114 is discharged from the drain hole 162 to prevent accumulation of moisture, and various problems such as corrosion and short circuits can be solved.

Furthermore, a battery pack and an electric bicycle as a third conventional example as described in Patent Document 3 have been proposed as a drainage structure in which a drain hole is formed in a battery box that houses a battery therein. The drainage structure in such a conventional battery box (case body) will be described with reference to FIG. 8. The compartments 601 and 602 in the case body that accommodates two battery structures on which a plurality of flat batteries are placed; Each having a compartment 603 for accommodating a protection circuit board that protects the battery when charging and discharging, and a drain hole 682 is provided at the bottom of the battery pack, and the top compartment 680 for attaching the protection circuit board is also drained. By providing the hole 681, the moisture that has entered the compartment of the case body is released to the outside through the drain holes 681 and 682, and it is possible to avoid the adverse effects of moisture.

Japanese Patent Laid-Open No. 2006-196277 (see abstract, etc.) JP 2013-84603 A (see FIGS. 4, 5 etc.) Japanese Unexamined Patent Application Publication No. 2012-212597 (see abstract, etc.)

However, in the drainage structure in the battery box (case) in the battery pack of the first conventional example, the drainage ventilation holes 71,... Are simply provided on the bottom surface of the lower battery case 54B. Further, cracks were easily generated around the case, and the strength of the case itself was inevitably lowered, and the appearance was not good. Further, in the drainage structure in the battery assembly of the second conventional example, each of the discharge passages 158 and 154 defining the drain hole 162 extends from the bottom surface portion 142 to the side surface portion 146 across the joint portion. Although provided, the discharge passages 158 and 154 that define the drain holes 162 are formed in large numbers from the bottom surface to the side surface, resulting in a decrease in strength and a decrease in appearance. Furthermore, in the drainage structure in the battery pack and the electric bicycle of the third conventional example, drain holes 681 and 682 are respectively provided on the mating surfaces in the sections 601 and 602 which are joint edges of the case body in the assembly as the battery pack. Therefore, these drain holes 681 and 682 cause a decrease in strength of the case body itself, and may be used for pruning by a driver or the like when the case body is disassembled or mischief, and there is a risk of damage or deformation. It was not preferable.

Therefore, in the present invention, the problems in the conventional battery box are solved, there is no risk of a decrease in strength, no cracks, etc. occur, the appearance is excellent, and there is no possibility that tools etc. will be inserted into the delirium, An object of the present invention is to provide a battery box for an electrically assisted bicycle that can effectively suppress effective drainage and intrusion of dust.

Therefore, according to the present invention, a drainage hole is formed in a mounting support in a battery box that is mounted and supported on a support receiving part formed on the pedestal in a battery box that houses a battery therein and is supported on the pedestal. It was set up. Further, the present invention is characterized in that the mounting support in the battery box is formed so as to project at the lower part of the side surface with respect to the swinging direction when the battery box is attached to and detached from the pedestal. Further, the present invention is characterized in that the side of the drainage hole in the mounting support is closed by the side wall of the pedestal.
Further, the present invention is characterized in that a reinforcing rib is formed on the mounting support in the battery box. The present invention is characterized in that the mounting support in the battery box is formed so as to be offset from the lower surface of the battery box. The present invention also provides
The lower end portion of the drain hole is substantially flush with the inner bottom surface of the battery box. Further, the present invention is characterized in that the drain hole is formed in the protruding direction of the mounting support, and these are used as means for solving the problems.

According to the present invention, in the battery box that accommodates the battery therein and is mounted and supported on the pedestal, the battery that is mounted and supported on the support body receiving portion formed on the pedestal. Since the drainage hole is drilled in the mounting support in the box, the drainage hole is drilled in the mounting support formed on the battery box in order to mount the battery box on the support receiving part of the base. The drainage hole is effectively reinforced by the mounting support, and a drainage structure that does not cause cracks and has an excellent appearance is provided. In addition, since it is sufficient to form only the mounting support on the lower side surface of the battery box, there is no inconvenience that the wall can hinder the view like the conventional one with a reinforcing wall provided near the drain hole,
When the battery box is mounted on the support receiving part of the pedestal, only the mounting support in the battery box needs to be viewed with good visibility, so that the mounting of the battery box on the pedestal becomes extremely easy and simple.

In addition, when the mounting support in the battery box, which is a constituent element of claim 2, is formed to project at the lower part of the side surface with respect to the swinging direction when the battery box is attached to and detached from the base, the battery for the base When forming the mounting support that will be the swing support shaft with respect to the swing direction when detaching the box toward the side on the lower side of the battery box,
Along with the side molding in the left-right direction and the side release by the slide mold, the water drain hole can be molded in the same direction, and the molding becomes easy. Furthermore, when the side of the drainage hole in the mounting support body is closed by the side wall of the pedestal, the side of the drainage hole is the side of the mounting support body. At the time of mounting on the pedestal, since it is in a state of being blocked by the side wall of the pedestal, entry of wind and rain and dust from the outside is almost certainly prevented. Furthermore,
5. When the reinforcing support is formed on the mounting support in the battery box, which is a constituent requirement according to claim 4, the strength of the mounting support itself is improved and the swing mounting on the base of the battery box is performed. As well as being carried out stably and securely, it is sufficient to compensate for the decrease in strength caused by the formation of the drain hole.

Further, in the case where the mounting support in the battery box is formed to be offset from the lower surface of the battery box, which is a constituent requirement according to claim 5, the mounting support is offset from the lower surface of the battery box as much as possible. It is possible to make the drain hole close to the inner bottom surface of the battery box. Furthermore, when the lower end of the drainage hole, which is a constituent requirement of claim 6, is configured to be substantially flush with the inner bottom surface of the battery box, smooth drainage of water is promoted.

Furthermore, when the drainage hole is formed in the protruding direction of the mounting support, which is a constituent requirement according to claim 7, when the mounting support is molded, the mounting and releasing are performed laterally. The drain hole can be efficiently molded simultaneously with the molding direction of the slide mold or the like to be performed, and the moldability is excellent.

It is a whole perspective view which shows the state just before mounting and supporting the battery box which employ | adopted the battery box of the electrically assisted bicycle of this invention to a base. It is the whole battery box perspective view. It is a principal part enlarged side view which shows the offset state of a mounting support body same as the above. It is a principal part expansion perspective view of a mounting support body vicinity similarly. It is a principal part perspective view of the internal side of the battery box of the water drain hole vicinity similarly. It is explanatory drawing of the battery pack as a 1st prior art example. It is explanatory drawing of the battery assembly as a 2nd prior art example. It is explanatory drawing of the battery pack and electric bicycle as a 3rd prior art example.

Hereinafter, a battery box of an electric assist bicycle according to the present invention will be described with reference to the drawings.
As shown in FIG. 1, the battery box of the electric assist bicycle according to the present invention has a battery received therein, and in the drainage structure of the battery box 1 mounted and supported on the pedestal 7, the support body formed on the pedestal 7. The drainage holes 10 are formed in the mounting supports 6 and 6 in the battery box 1 mounted and supported by the portions 9 and 9.

1 to 5 show a first embodiment of a battery box of an electric assist bicycle according to the present invention. As shown in FIG. 2, a battery box 1 for storing a battery (not shown) is
A pair of front part 2 and rear part 3 in the form of a deep dish are configured by integrating a plurality of appropriate engaging parts formed on the mating surface 23 or by combining them with screws or the like. . An inclined surface 14 is formed on the front surface 4 of the front portion 2 of the battery box 1, and a handle 13 is provided across the left and right of the inclined surface 14. The front surface 4 and the handle 13 of the battery box 1 are preferably configured to be substantially flush with each other. As for the handle 13, it is easier to pick it when it protrudes forward from the front surface 4. It is optimal to keep it almost flush in order to achieve both ease of picking the handle 13 and ease of boarding. Further, an inclined surface 14 formed on the lower surface of the handle 13.
Acts as a smooth guide function and ensuring the width when the handle 13 is picked.

On the one side (right side in the illustrated example) of the front surface 4 in the front part 2 of the battery box 1, a battery remaining amount display part 11 is provided. The battery remaining amount display unit 11 is an unillustrated display unit (a plurality of indicator lamps arranged vertically according to the battery remaining amount, and a vertical direction displayed with a length according to the remaining amount). And a confirmation button 12 at the top. The lower part of the side surface 5 in the front part 2 of the battery box 1 is mounted and supported on support body receiving parts 9 and 9 of a base 7 attached to an appropriate part of a bicycle body to be described later toward the side. The mounting supports 6 and 6 are formed to protrude. In this embodiment, as shown in FIG. 1 to be described later, in order to be housed and mounted in support body receiving portions 9 and 9 provided on both side walls 8 and 8 of the pedestal 7,
Similarly, as will be described later, in order to facilitate molding with a slide mold whose mounting and releasing directions coincide with the forming direction of the mounting support 6 on the side of the battery box 1, the mounting support 6
, 6 are preferably formed in the lower part of the side surface 5 of the front part 2 of the battery box 1, but if allowed by design, the lower part of the side part of the rear part 3, the lower part of the front side of the front part 2, or the rear part 3 It is not excluded to integrally project by projecting downward at the lower part on both sides of the rear surface. It is only necessary that the mounting support 6 can be swingably mounted on the base 7.

As shown in FIG. 1, in this embodiment, the battery box 1 is swingably attached to the base 7. In the illustrated example, the relation with the bicycle body is not clear, but can be swingably mounted in various forms. In this embodiment, the battery box 1 is swingably mounted from the side of the vehicle body behind the seat pipe. That is, for example, an ellipse is formed on the support body receiving portion 9, 9 formed on the front side of the side walls 8, 8 of the pedestal 7 (the leftmost side with respect to the vehicle body) and projecting below the side surface 5 of the battery box 1. For example, the left side surface of the battery box 1 can be inserted and locked from above by swinging back and forth (left and right with respect to the vehicle body) within the support receiving portions 9 and 9. The lock mechanism 24 installed on the seat pipe or the like is mounted and locked to a lock portion or the like installed on the seat pipe or the like, thereby completing the mounting. In this embodiment, the battery box 1 is swingably mounted on the pedestal 7 from the side of the vehicle body. However, the mounting support 6 is formed on the support receiving portion 9 having a shape for receiving the mounting support 6 only from above, for example. The present invention can also be applied to a configuration that is mounted by sliding from above. Alternatively, the mounting support 6 can be applied to a structure in which the mounting support 6 is slidably mounted on the support receiving portion 9 of the pedestal 7 in the horizontal direction from the side of the vehicle body.

The most important point of the present invention is that a drainage hole 10 is formed in the projecting direction of a mounting support 6 formed at the bottom of the side surface of the battery box 1 so that the battery box 1 can be mounted on the base 7. It is in drilling. As shown in FIG. 3, a mounting support is provided by projecting by an offset S downward from the lower surface 21 of the front portion 2 toward the side (front of the paper in FIG. 3) below the side surface 5 of the front portion 2 of the battery box 1. The body 6 is integrally formed with the front portion 2 of the battery box 1 by a slide mold or the like that moves sideways. At the same time, the drain hole 10 is also drilled. As described above, when the mounting support 6 is formed so as to protrude at the lower side of the battery box 1 (toward the side), the mounting and releasing directions of the slide mold and the like coincide with the lateral direction of the battery box 1. Therefore, molding becomes easy and simple. As shown in FIG. 1, when the battery box 1 is mounted and supported on the pedestal 7, the side of the drainage hole 10 in the mounting support 6 is closed by the side wall 8 of the pedestal 7. The rain and dust from the outside can be almost surely prevented through the drain hole 10.

As shown in FIG. 1, a mounting support 6 that is formed to project from the lower side of the battery box 1.
6 is formed in an elliptical shape, for example, in order to facilitate the swinging support in the support body receiving portions 9 and 9 in the base 7. As shown in FIG. 4, the mounting support 6 is formed with oblong circumferential ribs 15 and reinforcing ribs composed of longitudinal ribs 16 and transverse ribs 17 that connect the major and minor axes thereof. These vertical and horizontal ribs 16 and 17 improve the strength of the mounting support 6 itself so that the swing mounting on the pedestal 7 of the battery box 1 can be performed stably and safely, and the drain hole 10 is provided. This compensates for the strength reduction caused by the drilling. The drain hole 1
In the illustrated example, 0 is drilled in a form in which the lower side of the vertical rib 16 is cut off on the lower side of the mounting support 6. Thus, by forming the drain hole 10 on the lower side of the mounting support 6, the lower end portion of the mounting support 6 is offset S from the lower surface 21 of the battery box 1 as shown in FIG. 3. In combination with this, as will be described later, it is possible to make the drain hole 10 as close to the inner bottom surface of the battery box 1 as possible.

FIG. 5 is a perspective view of an essential part on the inner side of the battery box near the drain hole. As described above with reference to FIG. 3, the lower end portion of the mounting support 6 is offset S from the lower surface 21 of the battery box 1 by an appropriate amount, and the drain hole 10 is formed at an appropriate position on the lower side of the mounting support 6. By selecting to drill, as clearly shown in FIG. 5, the lower end portion of the drain hole 10 can be brought close to the inner bottom surface 22 of the battery box 1, and is preferably substantially flush. can do. Thereby, smooth discharge of water is promoted. Needless to say, the position of the lower end of the drain hole 10 may be lower than the inner bottom surface 22 of the battery box 1. Note that FIG.
Reference numerals 19 and 20 denote support members for batteries and electrical components.

As described above, the embodiment of the present invention has been described, but within the scope of the present invention, the shape and type of the battery housed inside, the form and the storage form in the battery box, the mounting form of the mounting support portion on the base, Also, the electrical connection form when the battery box is mounted on the pedestal (it is preferable that the electrical terminals related to assist power and control signals from the battery are connected to each other at the time of mounting), and the support on the pedestal The shape of the receiving portion (in addition to the fan shape that can swing and support the mounting support in the embodiment, a straight groove shape that accepts the mounting support only from the side or from the top can also be adopted), the type and the vehicle body Mounting form (It is also possible to install a base mounting member on the hanger part or chain stay in the vehicle body or between the hanger part and the chain stay. As for the attachment to the vehicle body, welding, screwing, etc. can be adopted as appropriate), and the shape of the mounting support (preferably a vertically long oval shape in a side view that enables swing mounting in the embodiment) However, a vertically or horizontally long rectangle, circle, columnar body, dome shape, etc. can also be adopted), form and form in the battery box (a side lower portion facing the side is suitable, but a side lower portion at the rear, It is not excluded that the front part protrudes downward on both sides of the front part of the front part or the lower part of the rear part of the rear part and is integrally formed), and the reinforcing ribs are formed in the mounting support (the cross-shaped vertical ribs of the embodiment and A water drainage hole may be drilled in the vertical rib on the lower side of the horizontal rib, or a water drainage hole may be drilled between ribs in a state where the cross-shaped rib is left, or the rib shape is limited to the cross-shaped. ), Drain hole shape (in addition to square, The shape and direction of molding (preferably the protruding direction of the mounting support), the amount of offset of the mounting support from the lower surface of the battery box, the lower end of the drain hole and the inner bottom surface of the battery box It is possible to appropriately adopt a flush form (other than flush, the lower end of the drain hole may be lower than the inner bottom of the battery box). In addition, the specifications described in the examples are merely examples in all respects and should not be interpreted in a limited manner.

The battery box of the present invention is preferably applied to a battery box mounted on an electrically assisted bicycle. However, a replaceable rechargeable battery box such as a motorcycle or a replaceable rechargeable battery such as a nursing vehicle or a baby carriage. It can also be applied to boxes. Further, the present invention can be applied to an ordinary general exchangeable battery box.

DESCRIPTION OF SYMBOLS 1 Battery box 2 Front part 3 Rear part 4 Front surface 5 Side surface 6 Mounting support body 7 Base 8 Side wall 9 Support body receiving part 10 Drain hole 11 Battery residual amount display part 12 Confirmation button 13 Handle 14 Inclined surface 23 Matching surface 24 Locking mechanism

Claims (7)

A battery box that houses a battery therein and is mounted and supported on a pedestal, wherein a drainage hole is formed in the mounting support in the battery box that is mounted and supported on a support receiving portion formed on the pedestal. Electric assist bicycle battery box. The battery box of the electrically assisted bicycle according to claim 1, wherein the mounting support in the battery box is formed to protrude at a lower part of the side with respect to a swinging direction when the battery box is attached to and detached from the pedestal. The battery box of the electrically assisted bicycle according to claim 1 or 2, wherein a side of the drainage hole in the mounting support is closed by a side wall of the pedestal. The battery box for an electrically assisted bicycle according to any one of claims 1 to 3, wherein a reinforcing rib is formed on the mounting support in the battery box. 5. The battery box of the electrically assisted bicycle according to claim 1, wherein the mounting support in the battery box is formed so as to protrude from the lower surface of the battery box. 6. The battery box for an electrically assisted bicycle according to claim 5, wherein a lower end portion of the drain hole is configured to be substantially flush with an inner bottom surface of the battery box. The battery box for an electrically assisted bicycle according to any one of claims 1 to 6, wherein the drain hole is formed in a protruding direction of the mounting support.

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