JP2013131433A - Battery size conversion spacer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery size conversion spacer better in usability, which can solve a problem that a conventional battery size conversion spacer is poor in usability, because a battery often gets out of the conventional battery size conversion spacer from a positive terminal side thereof when the battery is set in the conventional battery size conversion spacer or when the conventional battery size conversion spacer is set in an apparatus.SOLUTION: A plurality of engagement pieces 5 for preventing a battery 8 from getting out are arranged in a positive terminal side holding portion 4 of a case body 1 for the battery 8 at predetermined intervals, and a case cover plate 7 for preventing rattle of the battery 8 is provided in a negative terminal side opening portion 6 for the battery 8. Consequently, the battery 8 is stably held when the battery 8 is set in the battery size conversion spacer or when the battery size conversion spacer is set in an apparatus.

Description

  The present invention relates to a battery size conversion spacer for converting a single-cell rechargeable battery (hereinafter referred to as a battery) such as an AA or AAA nickel-metal hydride battery to a larger battery size. It relates to a spacer that converts to two sizes.

  Conventionally, a battery size conversion spacer for converting a battery to a larger battery size is provided with a plurality of battery holding ribs that contact the peripheral surface of the battery housed on the inner surface of the case body formed in a hollow shape by an insulator, A battery size conversion spacer provided with a holding portion for holding the end face of the battery so that one output terminal portion of the battery housed on one end face protrudes, and an opening for exposing the other end of the battery on the other end face; It has become.

  The above-described battery size conversion spacer will be described below with reference to the drawings. In FIG. 4, the case body 1 of the battery size conversion spacer is molded in a hollow shape with an insulating resin material, and a plurality of battery holding ribs 2 that abut on the outer peripheral surface of the battery 8 to be housed are formed on the inner surface thereof. Is provided. A protrusion 3 that engages with a groove of the battery 8 is also provided at the tip of the battery holding rib 2. Furthermore, a holding part 4 for projecting the positive electrode of the battery 8 to be stored and an opening 6 for projecting the negative electrode are provided.

  In FIG. 5, how to use the battery size conversion spacer will be described. The positive electrode side of the battery 8 to be stored is inserted from the opening 6 side of the battery size conversion spacer and pushed into the protrusion 3 at the tip of the battery holding rib 2 until the groove of the battery 8 is engaged. When the hand is released from the battery 8 in this state, the positive electrode and the negative electrode of the battery 8 are stationary with slightly protruding, so that they can be used by being attached to the battery box of the device to be used.

  As another conventional example, there is one in which a case body is formed by two hollow semi-cylindrical bodies and has a similar function. (For example, refer to JP 2002-63879 A)

JP 2002-63879 A

  However, in the conventional battery size conversion spacer, when the battery is mounted on the battery box of the device to be used, the battery protrudes from the positive electrode slightly without being kept stationary, and the device is used. There was a problem that it was difficult to install.

  In addition, with other conventional battery size conversion spacers, when the AA battery is converted to AA size, the case thickness on the negative pole side is increased, so that it can be attached to the equipment used. It had the problem of decreasing.

Therefore, the battery size conversion spacer of the present invention does not protrude from the positive electrode side, and the total length does not change even when an AA type battery is converted to an AA size. An object is to provide a size conversion spacer.

  In order to achieve the above object, the battery size conversion spacer of the present invention is provided with a plurality of battery holding ribs that come into contact with the peripheral surface of the battery housed on the inner surface of the case body formed hollow by an insulator, In a battery size conversion spacer provided with a holding portion for holding the end face of the battery so that one output terminal portion of the battery housed on one end face protrudes, and having an opening for exposing the other end of the battery on the other end face The case main body has a structure in which a plurality of locking pieces having openings smaller than the outer dimensions of the battery are provided at one end face of the case main body so as to have a constant interval.

  Further, the plurality of locking pieces provided on the holding portion on the one end surface of the case main body are configured to protrude outward from one end surface of the case main body and engage with one end surface of the battery. Further, the battery holding rib is composed of a plurality of elastic pieces projecting in the center direction from the inner wall of the case main body, and the tip end portion is provided with a protrusion that engages with the groove portion of the battery.

  The opening on the other end of the case body is made up of a case lid with an opening that is the same size as or slightly larger than the external dimensions of the battery to be stored, and this case lid is connected to the other end of the case body. It is composed.

  According to the present invention, the battery can be easily set on the battery size conversion spacer, and when the battery is set on the battery size conversion spacer or when the battery size conversion spacer is set on the device to be used, from the positive electrode side of the battery. Since it does not come out and also functions to protect the positive electrode side battery label from tearing, it improves usability and safety.

  Further, the battery positive electrode side has substantially the same shape as that of the single-type battery, and the backlash of the battery can be suppressed without increasing the holder wall thickness on the battery negative electrode side, so that the usability is further improved.

External view of battery size conversion spacer in the embodiment of the present invention Battery size conversion spacer sectional view in an embodiment of the present invention The figure of the use condition in embodiment of this invention External view of conventional battery size conversion spacer Cross section of conventional battery size conversion spacer Figure of conventional battery size conversion spacer usage

  According to a first aspect of the present invention, there is provided a plurality of battery holding ribs that come into contact with the peripheral surface of the battery housed on the inner surface of the case body that is formed hollow by an insulator, and one of the batteries housed on one end face. A battery size conversion spacer provided with a holding part for holding the end face of the battery so that the output terminal part of the battery protrudes, and having an opening for exposing the other end of the battery on the other end face. A plurality of locking pieces having openings smaller than the external dimensions are provided so as to have a constant interval. With this configuration, the battery can be easily set on the battery size conversion spacer. In addition, when the battery is set to the battery size conversion spacer or when the battery size conversion spacer is set to the device to be used, the battery does not come out from the positive electrode side of the battery, and the positive electrode side battery label is also protected against tearing. can get.

  According to a second aspect of the present invention, a plurality of locking pieces provided on a holding portion on one end face of the case body in the first aspect protrude outward from one end face of the case body and engage with one end face of the battery. Thus, in addition to the effect of the first aspect of the invention, the effect of improving the compatibility of the equipment used with the battery box can be obtained.

  According to a third aspect of the present invention, the battery holding rib of the case main body according to the first aspect is composed of a plurality of elastic pieces protruding in the center direction from the inner wall of the case main body, and the tip end portion engages with the groove portion of the battery. In addition to the effect of the first aspect of the invention, an effect that the battery holding position is constant can be obtained.

  According to a fourth aspect of the present invention, there is provided a case cover plate having an opening having a size that is the same as or slightly larger than the outer dimension of the battery that houses the opening of the other end face of the case main body according to the first aspect. The lid plate is coupled to the other end face of the case body, and in addition to the effect of the first invention, the effect that the negative electrode of the battery is stable at the substantially central position can be obtained.

  Hereinafter, the best mode for carrying out the present invention will be described in detail with reference to the drawings.

(Embodiment)
FIG. 1 is an overall view of a battery size conversion spacer in the embodiment of the present invention, and FIG. 2 is a cross-sectional view of the battery size conversion spacer in the embodiment of the present invention.

  The battery size conversion spacer is composed of two types of resin-molded parts having insulating properties, the case body 1 and the case cover plate 7, and the integrally formed triangular rib 9 is provided on the case cover plate 7 on the side in contact with the case body 1. It is provided and is fixed to the case body 1 by an ultrasonic welding method.

  The case body 1 is formed in a hollow shape, and is provided with three battery holding ribs 2 that come into contact with the peripheral surface of the battery 8 housed on the inner surface. The three battery holding ribs 2 are elastic pieces projecting in the center direction from the inner wall of the case body 1 and are provided with a protrusion 3 that engages with a groove of the battery at the tip.

  The battery 8 here is an AA nickel metal hydride battery.

  A holding portion 4 that holds the end face of the battery 8 is provided on the side of the case body 1 opposite to the positive electrode of the battery 8 so that the positive electrode output terminal portion of the battery 8 protrudes. Three locking pieces 5 having smaller openings are provided so as to protrude outward from one end surface of the case body 1 so as to have a constant interval and to engage with one end surface on the positive electrode side of the battery 8. ing.

  The locking piece 5 of the holding portion 4 has a shape in which the inner surface protrudes outward so as to be a slope, and the upper end is cut into a flat surface. The locking piece 5 is as small and thin as possible, but has a molding thickness that maintains the required strength.

  Further, the case cover plate 7 is provided with an opening 6 that exposes the negative electrode side of the battery 8, and the opening 6 has a dimension that is the same as or slightly larger than the outer dimension of the battery 8 to be stored.

  The operation of the battery size conversion spacer in the embodiment of the present invention will be described in detail. Insert the positive electrode side of the battery 8 through the opening 6 of the battery size conversion spacer and push it in until the groove of the battery 8 is engaged with the protrusion 3 at the tip of the battery holding rib 2. It is held and converted into a single size battery. In that state, the battery is mounted on a battery box of a device that uses a single size battery.

  In a state where the battery 8 is held by the battery holding rib 2, the battery 8 has a dimensional relationship that does not contact the locking piece 5 provided on the holding portion 4 of the case body 1.

  However, when the battery 8 is held, the negative electrode side of the battery 8 is strongly pressed with a finger or the like, or the battery 8 is strongly pressed with a spring on the negative electrode side in the process of being attached to the battery box of the device used. There may be a dimensional relationship that comes into contact with the locking piece 5 having an opening smaller than the outer dimension of the battery 8 provided in the holding portion 4 of the case body 1.

  In this case, the battery 8 does not come out of the battery size conversion spacer by the locking piece 5.

  As a result, the battery 8 can be easily set in the battery size conversion spacer, and when the battery 8 is set in the battery size conversion spacer or when the battery size conversion spacer is set in the device to be used, the positive electrode side of the battery 8 In addition, the positive electrode side battery label can be protected against tearing without being pulled out of the battery.

  In the embodiment of the present invention, the case main body 1 and the case cover plate 7 are fixed by an ultrasonic welding method, but can be realized by a fixing method by adhesion or a fixing method by providing a screw groove. It is. The shape is provided with tooth grooves on the outer peripheral surface of the case cover plate 7, but may be flat.

  The case body 1 has a thickness made of flame retardant ABS as a resin molding material, but may be made smaller and thinner by using a stronger resin molding material.

  The battery size conversion spacer according to the present invention is a battery size conversion spacer that temporarily converts the size of an AA rechargeable battery as a power source for a device that uses an AA battery, and prevents the battery from popping out. Since it is possible to structurally ensure safety when using a rechargeable battery as a substitute for a dry battery, it is useful as a battery size conversion spacer for temporary use.

DESCRIPTION OF SYMBOLS 1 Case main body 2 Battery holding rib 3 Protruding part 4 Holding part 5 Locking piece 6 Opening part 7 Case cover plate 8 Battery 9 Triangular rib

Claims (4)

While providing a plurality of battery holding ribs that contact the peripheral surface of the battery stored in the inner surface of the case body formed in a hollow shape by an insulator,
A holding part is provided to hold the end face of the battery so that one output terminal part of the battery stored in the one end face protrudes,
In the battery size conversion spacer provided with an opening that exposes the other end of the battery on the other end surface,
A battery size conversion spacer characterized in that a plurality of locking pieces having openings smaller than the outer dimensions of the battery are provided on one end face of the case main body so as to have a constant interval.   The plurality of locking pieces provided in the holding portion on one end surface of the case body are configured to protrude outward from one end surface of the case body and engage with one end surface of the battery. Battery size conversion spacer.   The battery holding rib of the case body is composed of a plurality of elastic pieces projecting in the center direction from the inner wall of the case body, and the tip end portion is provided with a protrusion that engages with the groove portion of the battery. The battery size conversion spacer according to claim 1.   The opening on the other end surface of the case body is formed by a case cover plate having an opening having a size that is the same as or slightly larger than the outer dimensions of the battery to be stored, and the case cover plate is connected to the other end surface of the case body. The battery size conversion spacer according to claim 1.

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