JP3728268B2 - Battery pack - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a battery pack having a latch portion, and more particularly to a technique for improving the assembly workability of the latch portion.
[0002]
[Prior art]
In recent years, a secondary battery such as a lithium ion battery or a nickel cadmium battery is packed as a power source in a portable device such as a notebook-type portable personal computer (hereinafter referred to as a notebook personal computer) with an outer package made of molded plastic or the like. Thus, a battery pack is used in which a part of the exterior body functions as a part of the exterior body of the portable device. Such an outer package of a battery pack is usually composed of a case for storing a battery and a cover for covering the case. For example, in a notebook computer, a part of the case is exposed, that is, the notebook computer. Functions as a part of the exterior body. In this case, the battery pack can be easily removed from the computer to prevent abnormal current from flowing when the hardware is added, or to replace the battery pack as the battery deteriorates. In general, a latch portion is provided.
[0003]
FIG. 6 is a development view of the case 90 in the conventional battery pack.
As shown in the figure, the case 90 is provided with a latch portion including a knob 941, a latch 942, and a spring 943.
The case 90 has a peripheral wall 901 erected on the periphery of a rectangular base portion 900, and a plurality of cylindrical secondary batteries can be juxtaposed in a region surrounded by the peripheral wall 901. .
[0004]
The knob 941 has a H-shaped hanger portion 9410 protruding from both ends of one side of the flat plate, and a pair of prismatic slide guides 9412 protruding from one main surface of the flat plate.
The latch 942 is provided with a pair of triangular protrusions 9421 on one main surface of a rectangular flat plate, and a support portion 9423 for vertically supporting the flat plate on the other main surface side. ing.
[0005]
In the base portion 900 of the case 90, a pair of slide grooves 9101 are formed side by side on one short side (front side in the figure), and a pair of slide grooves 9101 projecting from the knobs 941 is provided. The slide guides 9412 are attached so as to be immersed. Here, a screw hole 9412a is formed at the top of each slide guide 9412, while a support portion 9423 provided with a hole for allowing the screw 9424 to pass is protruded from the latch 942. By screwing 9424 into the screw hole 9412a through the hole of the support portion 9423, the support portion 9423 of the latch 942 is attached in contact with the slide guide 9412 of the knob 941. As a result, the slide guide 9412 of the knob 941 is guided by the slide groove 9101 of the base portion 900 and can slide while the knob 941 and the latch 942 are fixed via the base portion 900. A cylindrical support bar 902 for supporting the spring 943 is projected between the pair of slide grooves 9101 in the base portion 900.
[0006]
The spring 943 is a linear spring that has a ring portion 943a formed by turning a substantially central portion of the linear shape in a ring shape, and is bent into a substantially V shape at the ring portion 943a. The spring 943 is held in a state where the ring portion 943 a is inserted into the support rod 902 in the base portion 900 and attached to the case 90, while the both ends of the spring press the back surface of the latch 942. Although not shown here, the top portion 902a of the support bar 902 is heated and melted after the ring portion 943a of the spring 943 is inserted, and is spread flat. Thereby, it is suppressed that the ring 943a is detached from the support rod 902 and the spring 943 jumps out.
[0007]
The peripheral wall 901 has a pair of cutout portions 915 cut out in a U shape on the slide groove 9101 side of the base portion 900, and each latching projection 9421 in the latch 942 is directed outward from the battery pack. It is arranged in the state. Between the notch part 915 and the notch part 915 of the surrounding wall 901, the hole 9151 for letting a pair of hanger parts 9410 of the knob 941 pass is each pierced. Further, the peripheral wall 901 has a notch 916 further cut out at a position aligned with the notch 915, and a connector (not shown) used for electrical connection with the personal computer main body is arranged in the notch 916. Is done.
[0008]
As described above, the latch 942 is attached to the knob 941 and is elastically biased by the spring 943 attached to the case 90, so that the latching protrusion 9421 protrudes from the peripheral wall 901 in accordance with the movement of the knob 941. It is configured to retract. The latching protrusion 9421 is latched with a latching groove on the personal computer side (not shown), so that the battery pack is attached in a state of being latched on the notebook computer. When removing the battery pack, the operator may slide the knob 941 opposite to the direction in which the spring 943 is urged. As a result, the latching protrusion 9421 is pulled into the battery pack, and the latching with the personal computer side is released.
[0009]
[Problems to be solved by the invention]
By the way, the assembly of the latch portion (knob 941, latch 942 and spring 943) shown in FIG. 6 to the case 90 is performed as follows.
First, the knob 941 is assembled to the case 90. At this time, the slide guide 9412 is immersed in the slide groove 9101 in the base portion 900 of the case 90 while passing the hanger portion 9410 through the hole 9151 in the case 90.
[0010]
Next, a latch 942 is attached to the knob 941. At this time, the support portion 9423 of the latch 942 is fixed to the top portion of the slide guide 9412 of the knob 941 by using a screw 9424.
Next, the spring 943 is attached to the support bar 902. At this time, the ring portion 943 a is inserted into the support rod 902 projecting from the base portion 900 while pressing against the latch 942 while spreading both ends of the spring 943.
[0011]
In this state, there is a possibility that the spring 943 will jump off the support rod 902. Finally, the top portion 902a of the support rod 902 is heated and melted to spread it flat to prevent the spring from skipping. In this way, the latch portion is assembled to the case 90.
However, in such a battery pack, in a very small work area where the latch 942 of the case 90 is attached, detailed work such as tightening the screw 9424 or inserting the spring 9431 is required, and the assembly of the latch part is necessary. There is a problem that it is very difficult. In particular, when the ring portion 943a of the spring 943 is inserted into the support rod 902, the spring 943 must be inserted while being spread out in the narrow region, and at that time, the spring 943 pops off and is assembled. Therefore, it is desired to improve the assembly workability of the latch portion.
[0012]
An object of this invention is to provide the battery pack which can improve the assembly workability | operativity of a latch part conventionally compared with the said subject.
[0013]
[Means for Solving the Problems]
In order to solve the above-described problems, a battery pack according to the present invention has a latching projection of a latch that can be projected and retracted from a battery pack outer body on a hooked portion on a mounting target device side to the mounting target device. A battery pack that is mounted and supplies power to the device, wherein a knob is slidably disposed along a sliding groove formed in the exterior body, and the latch is attached to the knob. An elastic body is attached, and the free end side of the elastic body is elastically contacted with the wall surface in the battery pack, and the reaction force from the wall surface elastically urges the latching protrusion of the latch, It is characterized by a configuration in which it is hooked to a hooked portion on the mounting target device side.
[0014]
If it is a battery pack which has such a structure, since an elastic body can be attached to a latch, after attaching an elastic body to a latch beforehand in a wide area | region, this latch can be attached to an exterior body. Therefore, unlike the prior art, in the narrow region after the latch is attached to the exterior body, the work of attaching the elastic body is not necessary, and the work of assembling the latch portion can be improved.
[0015]
Further, the elastic body is attached to the latch by a fitting structure. According to this, since the elastic body can be attached to the latch only by the fitting operation, the operation of melting and spreading the top portion of the support rod to which the spring is attached as in the prior art becomes unnecessary. Therefore, the man-hour at the time of assembling the latch portion can be reduced.
[0016]
Specifically, the elastic body is a leaf spring having an engagement protrusion for engaging with the latch, and the latch has an engagement groove for engaging with the engagement protrusion of the leaf spring, and the plate with respect to the latch It is desirable that the spring is attached by a fitting structure in which the engaging protrusion of the leaf spring is press-fitted into the engaging groove of the latch.
Further, if the latch and the knob are attached by a fitting structure, it is not necessary to screw and attach the screw as in the conventional case, and the latch and the knob can be easily attached by fitting operation.
[0017]
A specific application of this battery pack is suitable for a device in which a knob is exposed when the battery pack is mounted. If the battery pack is used in such a device, the battery can be easily removed from the device to be mounted by sliding the knob.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which a battery pack according to the present invention is applied to a battery pack of a notebook computer will be described with reference to the drawings.
<Overall configuration of battery pack>
FIG. 1 is a perspective view showing the configuration of the battery pack according to the present embodiment.
[0019]
As shown in the figure, the battery pack includes a rectangular dish-shaped case 1 for storing a battery (see FIG. 3), and a dish-shaped cover 2 fixed to the case 1 by ultrasonic welding so as to cover the case 1. A connector 3 for supplying power to the notebook computer and a latch portion 4 for attaching the battery pack to the notebook computer are provided side by side on the side of the short side of the case 1.
[0020]
FIG. 2 is a bottom perspective view of the notebook computer 700 with the battery pack removed.
As shown in the figure, a rectangular recess 71 for accommodating the battery pack is formed on the bottom side of the notebook computer 700, and one end of the recess 71 is connected to the connector 3 of the battery pack. Connector 73 and each latching groove 7431 to be engaged with each latching protrusion 431 of the battery pack.
[0021]
When the case 1 shown in FIG. 1 is attached to the notebook computer 700 shown in FIG. 2, the upper main surface in FIG. 1 functions as the bottom surface of the notebook computer 700, and indicates the remaining battery level. An indicator 12a provided with an LED (not shown), a leg fixing part 12b to which a non-slip rubber to be a leg part of the personal computer is adhered and fixed, and a latch part 4 used when removing the battery pack from the notebook computer. A knob 41 is arranged.
[0022]
FIG. 3 is a perspective view of the battery pack with the cover 2 in FIG. 1 removed.
As shown in the figure, the case 1 is provided with a connector 3 and a latch portion 4 on one short side, and a battery portion 5 is accommodated in the center portion.
The connector 3 has a plurality of terminal boards arranged in a fin shape, and is electrically connected by fitting with the connector 73 of the notebook computer 700 in FIG. 2, and the battery pack supplies power to the notebook computer 700. be able to.
[0023]
The latch portion 4 functions as a fixing tool for detachably attaching the battery pack from the notebook computer 700, and the latch projection 431 engages with the latching groove 7431 of the notebook computer 700 in FIG. Attach the battery pack to the.
The battery unit 5 is a lead that connects a plurality of cylindrical secondary batteries 51 (here, six lithium ion batteries having an output voltage of 3.6 V are used) and the positive and negative terminals of each secondary battery 51. It includes a board 52a, printed circuit boards 52b and 54 that are divided into two pieces and arranged at right angles, and a temperature detection unit 53 that includes a thermistor for detecting the temperature in the battery pack. The printed circuit boards 52b and 54 detect the temperature detection result of the temperature detection unit 53 and the current and voltage of the secondary battery 51, and based on these, charge and charge are performed so as to prevent overcharge and overdischarge of each secondary battery 51. A control circuit unit is provided for controlling the discharge state and displaying the remaining battery level on the indicator 12a.
[0024]
Six secondary batteries 51 are arranged in parallel so that the long axis direction is along the short side direction of the case 1, each of which is a part of the groove 16 provided in the base portion 10 of the case 1 shown in FIG. 4. Is buried and held. Here, a lithium ion battery is used as the secondary battery 51, but it is not particularly limited to a lithium ion battery. For example, as a battery other than the lithium ion battery, a nickel cadmium battery, a nickel hydrogen battery, or the like can be used. In this case, what is necessary is just to change a connection method according to the number of the secondary batteries 51, and the output voltage of the secondary battery to be used so that it can respond to the supply voltage which a notebook personal computer requires.
[0025]
The battery unit 5 is configured such that two secondary batteries 51 connected in parallel are connected in series so that the output voltage is 10.8 V, and the control provided on the printed circuit boards 52b and 54 is provided. Connected to the circuit section.
The temperature detection unit 53 is connected to the control circuit unit and is used for temperature detection inside the battery pack.
[0026]
The printed board 54 is a circuit board having a notch portion 540a in which a part of the board is cut into a U-shape so as to pass the fixing portion 432 of the latch 43. The secondary battery 51, the connector 3, and the latch portion 4 is inserted in the gap between the two. The secondary battery 51 and the connector 3 are electrically connected via the printed circuit board 54, and the control circuit unit periodically determines the current and voltage of the secondary battery 51 and the temperature detected by the temperature detection unit 53. The circuit configuration prevents overcharge and overdischarge of the secondary battery 51 by controlling so that the connection with the connector 3 is disconnected when each value is equal to or less than a predetermined value. Yes.
[0027]
(Configuration of the latch unit 4)
Next, the configuration of the latch unit 4 will be described.
FIG. 4 is an exploded perspective view of the case 1 and the latch portion 4.
As shown in the figure, the case 1 has a notch portion 14 for arranging the connector 3 and a latch portion 4 on one short side of the peripheral wall 11 erected on the edge of the base portion 10. And a latch arrangement portion 15 having a knob 41 and a latch 43 slidably attached to the latch arrangement portion 15.
[0028]
The base 10 is a rectangular flat plate, and six grooves 16 for fixing the battery are formed side by side on the main surface facing the secondary battery 51 (FIG. 3). The groove 16 is provided in order to reduce the thickness of the battery pack as much as possible. By fixing the secondary battery 51 in a state where it is buried in the battery pack, the groove 16 has a depth of the groove 16. The thickness can be reduced. In addition, a pair of rectangular slide grooves 101 are provided on the side of the latch portion 15 of the base portion 10 so that the knob 41 and the latch 43 can be slidably attached so that the longitudinal direction of the groove is along the major axis direction of the base portion 10. Has been drilled. A rectangular partition wall 13 is erected on the groove 16 side of the slide groove 101 in the base portion 10.
[0029]
The notch 14 is formed by cutting a part of the peripheral wall 11 into a U-shape, and the connector 3 is inserted and fixed therein.
The latch arrangement portion 15 is provided adjacent to the notch portion 14 and is formed in a square shape with a pair of notch portions 151 formed by cutting a part of the peripheral wall 11 into a U shape. A pair of holes 152 are formed.
[0030]
The knob 41 has an L-shaped hanger portion 410 projecting from both end portions on one side of the flat plate to form a J shape in side view, and a pair of corners on the main surface side where the hanger portion 410 projects. A columnar slide portion 420 is projected.
Each hanger part 410 is suspended from the hole 152 by being inserted into the hole 152 in the latch disposition part 15 from the tip side. Therefore, the knob 41 is slidably supported with respect to the case 1.
[0031]
The slide part 420 includes a quadrangular prism-shaped slide guide 421 and engagement protrusions 422 that are L-shaped in side view and are provided on the top of the slide guide 421. The slide guide 421 is immersed in the slide groove 101 of the base portion 10 when the knob 41 is assembled to the case 1. As a result, the knob 41 can slide in the direction along the slide groove 101.
[0032]
The latch 43 has a pair of latching protrusions 431 protruding on one main surface of the rectangular flat plate portion 430, and a fixing portion 432 for fixing the leaf spring 44 on the other main surface. A support portion 433 (FIG. 5) for attaching and supporting the latch 43 to the knob 41 is provided.
The latching protrusion 431 has a substantially triangular shape when viewed from the side, and is arranged so as to protrude from the notch 151 in the latch disposition portion 15. The latching protrusion 431 is latched with the latching groove 7431 of the notebook computer 700 in FIG.
[0033]
(About the attachment of the leaf | plate spring 44 to the latch 43, and the fitting structure of the knob 41 and the latch 43)
FIG. 5 is a perspective view of the latch portion in FIG. 4 as viewed from the back side.
As shown in the drawing, two notch grooves 432a are notched in the fixing portion 432 of the latch 43, and a latching protrusion 441 in the leaf spring 44 is press-fitted and attached to the notch groove 432a.
[0034]
A pair of holes 433a for engaging with the engaging protrusions 422 in the knob 41 are formed in the support portion 433 of the latch 43. By pushing the engaging protrusions 422 into the respective holes 433a, the engaging protrusions 422 are formed. The L-shaped barb is caught (so-called fitting structure), and the knob 41 and the latch 43 are hooked.
The leaf spring 44 is a metallic leaf spring having a bow shape, and a latching protrusion 441 having substantially the same width as the notch groove 432a in the latch 43 is projected at the apex of the curve. The hooking protrusion 441 has a barb formed on the tip side thereof, and when this is pressed into the notch groove 432a, the barb becomes difficult to get caught in the notch groove 432a.
[0035]
(Assembly of the latch part 4)
The latch unit 4 having such a configuration is assembled by the following method.
First, the latching protrusion 441 in the leaf spring 44 shown in FIG. 5 is press-fitted into the notch groove 432 a in the latch 43, and the leaf spring 44 is attached to the latch 43.
[0036]
Next, each hanger portion 410 of the knob 41 shown in FIG. 4 is inserted into each hole 152 in the latch placement portion 15, and each slide guide 421 in the knob 41 is inserted into each slide groove 101 in the base portion 10. Hold in a state of being immersed from the lower surface of the.
Then, a hole 433 a (FIG. 5) in the latch 43 is pushed into the engagement protrusion 422 of the knob 41 protruding from the slide groove 101. When the latch 43 is pushed in, the both ends of the leaf spring 44 on the free end side are pressed against the wall surface of the partition wall 13 in the case 1. As a result, the knob 41 and the latch 43 are attached to the case 1 by a fitting structure, and both ends of the leaf spring 44 are elastically contacted with the wall surface of the partition wall 13, receiving a reaction force from this, and the latch 43 is elastically released. Since it is biased, the engaging protrusion 423 of the latch 43 is biased and protrudes from the notch 151.
[0037]
As described above, when the latch portion 4 is assembled, the leaf springs 44 can be attached to the latch 43 in advance, and these can be assembled to the case 1, so that it is narrow after the latch and the knob are assembled to the case as in the prior art. There is no need to attach a spring in the region, and workability at the time of assembling the latch portion is improved. In addition, since it can be easily attached by press-fitting a leaf spring, it does not require a heat melting step for flatly spreading the top of the support rod as in the prior art, and the number of steps can be reduced compared to the conventional case. . Furthermore, since the latch 43 and the knob 41 are attached by a fitting structure without being screwed as in the conventional case, the number of steps in assembling the latch portion can be reduced as compared with the conventional case, and the assembly is facilitated. can do.
[0038]
In the above embodiment, the battery pack of the notebook computer has been described. However, the battery pack is used for portable devices such as DVD players and GPS, and the knob is exposed and the latch portion is provided in a relatively narrow area. The present invention can also be applied to battery packs arranged. Moreover, in the said embodiment, although the leaf | plate spring was used, you may make it use the linear spring which was used conventionally. In this case, it is necessary to change the shape of the fixing portion so that the spring ring portion can be attached to the fixing portion of the latch. In addition to the spring, an elastic body such as rubber may be used.
[0039]
【The invention's effect】
As described above, in the battery pack according to the present invention, the leaf spring can be attached to the latch, so that the leaf spring can be assembled to the case after being attached to the latch in advance. Therefore, the work of assembling the spring in a very small work area after attaching the latch to the case as in the prior art becomes unnecessary, and the work of assembling the latch can be improved compared to the conventional art.
[Brief description of the drawings]
FIG. 1 is a perspective view of a battery pack.
FIG. 2 is a perspective view of a notebook computer to which a battery pack is attached.
FIG. 3 is a perspective view of the battery pack with a cover removed.
FIG. 4 is an exploded perspective view of a case and a latch part.
FIG. 5 is an exploded perspective view of a latch portion.
FIG. 6 is an exploded perspective view of a case and a latch portion in a conventional battery pack.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Case 4 Latch part 5 Battery part 10 Base part 11 Perimeter wall 13 Partition 14.151,540a Notch part 15 Latch arrangement | positioning part 41 Knob 43 Latch 44 Leaf spring 51 Secondary battery 101 Slide groove | channel 152,433a hole 410 Hanger part 420 Slide part 421 Slide guide 422, 423 Engagement protrusion 432a Groove 430 Flat plate part 431, 441 Latching protrusion 432 Fixing part 433 Support part

Claims (3)

A battery pack that feeds power to the device by attaching a latching protrusion of a latch that can be projected and retracted from a battery pack exterior body to a hooked portion on the device to be mounted and mounting the device on the device to be mounted,
A knob is slidably disposed along a sliding groove formed in the exterior body, the latch is attached to the knob, an elastic body is attached to the latch, and the free end side of the elastic body is A configuration in which the latching protrusion of the latch is elastically abutted against the wall surface in the battery pack, and the latching protrusion of the latch is elastically biased by the reaction force from the wall surface, and is latched on the latched portion on the mounting target device side The elastic body is a leaf spring having an engagement protrusion for engaging with the latch, and the latch has an engagement groove for engaging with the engagement protrusion of the leaf spring, The battery spring is attached by a fitting structure in which the engagement protrusion of the leaf spring is press-fitted into the engagement groove of the latch. The battery pack according to claim 1 , wherein the latch and the knob are attached by a fitting structure. 3. The battery pack according to claim 1, wherein the battery pack is attached to a device in which the knob is exposed when the battery pack is attached to the device to be attached.

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