JP7152197B2 - Battery housing device - Google Patents

Description

Article 30, Paragraph 2 of the Patent Act applies (1) Date of sale: May 1, 2018 Place of sale: Uni Sharyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (2) Date of sale: May 1, 2018 Sale Venue: Furukawa Unic Co., Ltd. Mounting Center Publisher: Furukawa Unic Co., Ltd. (3) Date of sale: May 2, 2018 Place of sale: Hashimoto Automobile Repair Shop Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (4) Date of sale : May 7, 2018 Sale location: Fuji Kogyo Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (5) Sale date: May 7, 2018 Sale location: Aichi Service Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. ( 6) Sale date: May 7, 2018 Sale location: Daiei Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (7) Sale date: May 8, 2018 Sale location: Hokuetsu Heavy Vehicle Co., Ltd. Publisher : Furukawa Unic Co., Ltd. (8) Date of sale: May 8, 2018 Place of sale: Akita Transportation Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (9) Date of sale: May 8, 2018 Place of sale: Sun Auto Publisher: Furukawa Unic Co., Ltd. (10) Date of sale: May 9, 2018 Place of sale: Maruki Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

Application of Article 30, Paragraph 2 of the Patent Act (11) Date of sale: May 9, 2018 Place of sale: Imai Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (12) Date of sale: May 9, 2018 Location: Fukuchi Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (13) Date of sale: May 10, 2018 Location of sale: Crane Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (14) Date of sale: May 2018 March 11 Sale place: Kubota Diesel Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (15) Sale date: May 11, 2018 Sale place: Sanki Techno Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (16) Sale date: May 11, 2018 Sales location: Sanko Automobile Body Factory Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (17) Sales date: May 14, 2018 Sales location: Kochiya Automobile Industry Co., Ltd. Publisher: Furukawa UNIC (18) Date of sale: May 14, 2018 Place of sale: Shinwa Diesel Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (19) Date of sale: May 14, 2018 Place of sale: Maruzen Kasei Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (20) Date of sale: May 14, 2018 Place of sale: Takeda Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

Article 30, Paragraph 2 of the Patent Law applies (21) Date of sale: May 15, 2018 Place of sale: Oshita Jidosha Seiki Kogyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (22) Date of sale: May 2018 16th Sale place: Yamaguchi Automobile Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (23) Sale date: May 16, 2018 Sale place: Ichikawa Crane Maintenance Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (24) Sale date : May 17, 2018 Sale location: Aoba Heavy Industries Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (25) Sale date: May 17, 2018 Sale location: Tanaka Sanshiji Co., Ltd. Publisher: Furukawa Unic (26) Date of sale: May 18, 2018 Location of sale: Joshin Shaxx Takasaki, Inc. Publisher: Furukawa Unic Co., Ltd. (27) Date of sale: May 18, 2018 Location of sale: Isuzu Nishihiroshima Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (28) Date of sale: May 18, 2018 Place of sale: Seiwa Tech Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (29) Date of sale: May 21, 2018 Sales location: Kisshoin Automobile Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (30) Sales date: May 21, 2018 Sales location: Yutaka Service Publisher: Furukawa Unic Co., Ltd.

Article 30, Paragraph 2 of the Patent Act applies (31) Date of sale: May 21, 2018 Place of sale: Water crane service Publisher: Furukawa Unic Co., Ltd. (32) Date of sale: May 23, 2018 Place of sale : Sanbe Automobile Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (33) Date of sale: May 23, 2018 Place of sale: Ishida Diesel Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (34) Date of sale: 2018 May 25 Sales location: Fukuoka Kyoei Motors Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (35) Sales date: May 29, 2018 Sales location: Kanra Crane Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (36) Sale date: May 30, 2018 Sale location: Goyome Jidosha Kogyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (37) Sale date: May 30, 2018 Sale location: Suganuma Jidosha Kogyo Co., Ltd. Publisher : Furukawa Unic Co., Ltd. (38) Date of sale: June 1, 2018 Place of sale: San-ai Automobile Industry Co., Ltd. Third Factory Publisher: Furukawa Unic Co., Ltd. (39) Date of sale: June 5, 2018 On sale Location: Shinei Automobile Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (40) Date of sale: June 6, 2018 Location of sale: Momose Body Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

Application of Article 30, Paragraph 2 of the Patent Law (41) Date of sale: June 7, 2018 Location of sale: Otsuka Automobile Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (42) Date of sale: June 7, 2018 Sales location: Koyo Service Publisher: Furukawa Unic Co., Ltd. (43) Sales date: June 7, 2018 Sales location: Shuichi Auto Publisher: Furukawa Unic Co., Ltd. (44) Sales date: June 8, 2018 Sales location: Morihara Automobile Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (45) Sales date: June 11, 2018 Sales location: Hokkaido Shatai Co., Ltd. Ishikari Plant Publisher: Furukawa UNIC Co., Ltd. (46) Sales date: June 11, 2018 Sales location: Suzuken Kogyo Co., Ltd. Construction Department Publisher: Furukawa Unic Co., Ltd. (47) Sales date: June 13, 2018 Sales location: Transport General Maintenance Co., Ltd. Publisher: Furukawa Unic (48) Sale date: June 15, 2018 Sale location: Kakazu Heavy Industries Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (49) Sale date: May 1, 2018 Sale location: UNIC Chushikoku Sales Publisher: Furukawa Unic Co., Ltd. (50) Date of sale: May 1, 2018 Sales location: Furukawa Unic Co., Ltd. Nagano Sales Office Publisher: Furukawa Unic Co., Ltd.

Article 30, Paragraph 2 of the Patent Act applies (51) Date of sale: May 1, 2018 Place of sale: Kitanihon Kenki Kogyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (52) Date of sale: May 1, 2018 Date of sale: Fuji Motor Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (53) Date of sale: May 1, 2018 Location of sale: Hitachi Motors Corporation Publisher: Furukawa UNIC Co., Ltd. (54) Date of sale: Heisei May 1, 2018 Sales location: Sato Toksha Publisher: Furukawa UNIC Co., Ltd. (55) Sales date: May 2, 2018 Sales location: Komatsu Miyazaki Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (56) Sales Date: May 2, 2018 Sale location: UNIC Hiroshima Sales Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (57) Sale date: May 7, 2018 Sale location: Hatta Motor Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. Company (58) Date of sale: May 7, 2018 Place of sale: Yutaka Service Yokkaichi Plant Publisher: Furukawa Unic Co., Ltd. (59) Date of sale: May 7, 2018 Place of sale: Gifu Unic Service Co., Ltd. Released Owner: Furukawa Unic Co., Ltd. (60) Date of sale: May 7, 2018 Sales location: Unic Shizuoka Sales Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

Application of Article 30, Paragraph 2 of the Patent Law (61) Date of sale: May 8, 2018 Place of sale: Terui Automobile Industry Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (62) Date of sale: May 9, 2018 Sale location: Rotary Motor Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (63) Sale date: May 9, 2018 Sale location: Suntech Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (64) Sale date: May 2018 Date of sale: Seiwa Jiko Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (65) Date of sale: May 10, 2018 Location of sale: Daiwa Motor Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (66) Sales Date: May 11, 2018 Sale location: Ark Sangyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (67) Sale date: May 15, 2018 Sale location: Tahara Motor Body Co., Ltd. Publisher: Furukawa Unic Co., Ltd. Company (68) Date of sale: May 15, 2018 Place of sale: Naemura Jiko Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (69) Date of sale: May 16, 2018 Place of sale: Iida Jidosha Co., Ltd. Owner: Furukawa Unic Co., Ltd. (70) Date of sale: May 17, 2018 Place of sale: Eiwa Sangyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

Application of Article 30, Paragraph 2 of the Patent Law (71) Date of sale: May 18, 2018 Place of sale: Fukamachi Heavy Vehicle Maintenance Factory Publisher: Furukawa Unic Co., Ltd. (72) Date of sale: May 2018 18th Sale place: Higashi Kyushu Heavy Industries Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (73) Sale date: May 24, 2018 Sale place: Sankyo Jidosha Kogyo Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (74) Sale Date: May 25, 2018 Sale location: Eiko Co., Ltd. Publisher: Furukawa UNIC Co., Ltd. (75) Sale date: May 25, 2018 Sale location: Sasashima Motor Co., Ltd. Tateno Factory Publisher: Furukawa UNIC Co., Ltd. Company (76) Date of sale: May 28, 2018 Place of sale: Hydraulic Construction Equipment Service Co., Ltd. Publisher: Furukawa Unic Co., Ltd. (77) Date of sale: June 4, 2018 Place of sale: Mitsuwa Corporation Public Owner: Furukawa Unic Co., Ltd. (78) Date of sale: June 12, 2018 Place of sale: Fuji Kogyo Co., Ltd. Publisher: Furukawa Unic Co., Ltd.

The present invention relates to a battery housing device having a battery housing section for housing dry batteries.

Conventionally, there is a battery holder described in Patent Document 1, for example, as a battery housing device for connecting a plurality of dry batteries.
In such a battery holder, the leading edge of the synthetic resin outer plate covering the side surface of the dry battery accommodated in the battery accommodating portion is curved along the outer surface of the dry battery, and the leading edge holds the dry battery when the battery is accommodated. It is configured so that the dry battery does not slip out of the storage portion.

Japanese Utility Model Laid-Open No. 4-102157

In the prior art described above, the portion that holds the dry battery (hereinafter referred to as "battery holding portion") like the tip edge is configured to be easily deformed for accommodating and removing the dry battery. Therefore, for example, in situations where the battery is used frequently and the battery is replaced frequently, or in situations where the battery is replaced in a complicated manner outdoors or in a dark place, the deformation load on the battery holding part increases and damages the battery. It's easy to do. As a result, frequent repairs of the battery containing device are required.

However, in the conventional technology described above, since the battery holder is integrally formed with the battery holder, if the battery holder is damaged, the entire battery holder must be replaced, resulting in increased repair costs. In addition, when increasing the strength of the battery holding portion by changing the material, it is necessary to change the material of the entire battery accommodating device or to integrally mold different materials, which may increase the cost.

Accordingly, the present invention has been made by paying attention to such problems, and has a battery containing portion and a battery holding portion which are separated from each other so that even if the battery holding portion is damaged, it can be easily replaced. An object is to provide an apparatus.

In order to solve the above-mentioned problems, a battery housing device according to a first aspect of the present invention includes a battery housing section for housing a dry battery, and the battery housing section in a state in which the dry battery housed in the battery housing section can be taken out. and a locking portion that is biased against the housing of the. The engaging portion is a component configured separately from the battery housing portion and fixed to the battery housing portion.

According to the present invention, since the battery accommodating portion and the battery holding portion are configured separately, for example, even if the locking portion (battery holding portion) of the battery made of resin is damaged, only the part can be easily replaced. becomes possible. Also, since only the damaged parts need to be replaced, repair costs can be reduced. In addition, since they are separate bodies, they can be easily constructed from different materials, making it possible to suppress an increase in cost.

1 is a front view of a battery housing device according to an embodiment; FIG. 1 is a perspective view of a battery housing device according to an embodiment; FIG. 1 is an exploded perspective view of a battery housing device according to an embodiment; FIG. It is a rear view of the state which removed the electrode component of the battery accommodating part which concerns on embodiment. FIG. 2 is a cross-sectional view taken along the line AA of FIG. 1; (a) is an enlarged view of the E portion of FIG. 5, and (b) is a cross-sectional view taken along line BB of FIG. It is a rear view of the battery holding part which concerns on embodiment. It is a front view of the battery holding part which concerns on embodiment. FIG. 9 is a view in the direction of arrow G in FIG. 8; FIG. 9 is a cross-sectional view taken along line HH of FIG. 8; 9A is a cross-sectional view taken along line KK of FIG. 9, and FIG. 9B is a cross-sectional view taken along line LL of FIG. 4 is a cross-sectional view taken along line DD of FIG. 3; FIG. (a) is a rear view of a state where the electrode component of the battery housing portion according to the embodiment is mounted, and (b) is a rear view of the battery housing device according to the embodiment. It is a figure which shows the state which accommodated the battery in the battery accommodation apparatus which concerns on embodiment. FIG. 15 is a cross-sectional view taken along line NN of FIG. 14; 1 is a cross-sectional view showing an example of an industrial wireless transmitter housing a battery housing device according to an embodiment; FIG. In the figure, only the contour line represents a portion other than the holder accommodating portion.

Hereinafter, one embodiment of a battery housing device according to the present invention will be described with appropriate reference to the drawings. Note that the drawings are schematic. Therefore, it should be noted that the relationship, ratio, etc., between the thickness and the planar dimension may differ from the actual one, and even between the drawings, there are parts where the relationship and ratio of the dimensions are different. Sometimes. Further, the embodiments shown below are examples of devices and methods for embodying the technical idea of the present invention. etc. are not specified in the following embodiments.

(embodiment)
(overall structure)
As shown in FIGS. 1 to 3, a battery housing device 1 according to an embodiment of the present invention includes a battery housing portion 2 and a battery holding portion 3. As shown in FIGS. As shown in FIG. 3, the battery containing portion 2 and the battery pressing portion 3 are configured separately. The battery housing device 1 is configured in

(Structure of Battery Housing 2)
As shown in FIGS. 1 to 3, the battery housing portion 2 is formed in a box shape having a substantially rectangular opening when viewed from the front (FIG. 1). It has short walls 10 and 11 and long walls 13 and 14 on both longitudinal sides. Furthermore, it has a partition wall 12 provided over both ends at the central position in the longitudinal direction, and threshold portions 15a and 15b provided over both ends at the central position in the lateral direction. The battery containing portion 2 is made of synthetic resin such as polycarbonate.

The inner lower halves of the long wall portions 13 and 14 are curved in a recessed shape along the shape of the dry battery to be housed and rise.
Further, the short walls 10 and 11 and the partition wall 12 are configured to have the same height, and the long walls 13 and 14 are configured lower than the short walls 10 and 11 and the partition wall 12 .
The thresholds 15a and 15b are configured to further divide each room divided by the partition wall 12 into two. Further, the threshold portions 15a and 15b are formed lower than the long wall portions 13 and 14, and have curved skirts along the outer shape of the batteries to be accommodated. That is, the cross section is formed in a substantially mountain-like shape (see FIG. 6(b)).

Thus, the battery housing portion 2 is formed with four battery chambers 16a, 16b, 16c and 16d, which are divided by the partition wall 12 and the threshold portions 15a and 15b. That is, in this embodiment, one dry battery is accommodated in each of these four battery chambers 16a to 16d.
A side wall portion 13a, which is a wall portion of the battery chamber 16a of the long wall portion 13, is provided with a notch portion 100a having a substantially rectangular shape in plan view at the center in the longitudinal direction. Similarly, the side wall portion 13b of the battery chamber 16b has a notch portion 100b at its longitudinal center, the side wall portion 14a of the battery chamber 16c has a notch portion 100c at its longitudinal center, and the side wall portion 14b of the battery chamber 16d. is provided with a notch portion 100d at its longitudinal center.

The notch portions 100a to 100d are configured by notching from the lower end to the upper end of each side wall portion, and divide the side wall portions 13a, 13b, 14a and 14b into two in the longitudinal direction.
With this configuration, when the battery holder 3 is not fixed and the batteries are accommodated in the battery chambers 16a to 16d, part of the side surface of each battery is exposed to the outside through the cutouts 100a to 100d. It's becoming

Further, inside the battery housing portion 2, negative electrodes 4a, 4b, 4c and 4d and positive electrodes 5a, 5b, 5c and 5d are attached.
In addition, concave portions 20, 21, 22 and 23 that can loosely accommodate the positive terminals of the dry batteries are formed at the mounting positions of the positive electrodes 5a, 5b, 5c and 5d on the inner wall portion of the battery housing portion 2. FIG. note that,
The negative electrodes 4a to 4d are electrodes that electrically contact the negative terminals of the dry batteries accommodated in the battery chambers 16a to 16d, and are made of metal coil springs. The positive electrodes 5a to 5d are electrodes that are in conductive contact with the positive terminals of the dry batteries housed in the battery chambers 16a to 16d, and are made of metal leaf springs.

Although not shown, the negative electrodes 4b to 4d straightly extend the ends of the metal wires forming the coil springs on the side opposite to the coil side. Its ends are bent in a U shape at each tip.
Also, the plus electrodes 5a to 5d are pushed by the plus terminal when the dry battery is accommodated, and are elastically deformed toward the inner side of the recesses 20, 21, 22 and 23 at the respective mounting positions. Then, it is configured to press itself against the positive terminal of the dry battery by the elastic force at that time.

The negative electrode 4b and the positive electrode 5a are intermediate electrodes for serially connecting the battery chamber 16a and the dry batteries housed in the battery chamber 16b. The negative electrode 4d and the positive electrode 5c are intermediate electrodes for serially connecting the battery chamber 16c and the dry batteries housed in the battery chamber 16d. That is, in this embodiment, the dry batteries are not directly connected to each other, but are connected to each other via the intermediate electrodes with the partition wall 12 interposed therebetween.

In this embodiment, although not shown, the negative electrode 4a and the positive electrode 5d are electrically connected, and the negative electrode 4c and the positive electrode 5b are not electrically connected. That is, the battery housing device 1 of this embodiment has a configuration in which four dry batteries housed in the battery chambers 16a to 16d are connected in series.
As shown in FIGS. 2 and 3, a terminal plate 24 electrically connected to the negative electrode 4c is provided on the back surface of the short wall portion 11b forming the battery chamber 16c on the side of the outer wall portion 11e. This terminal plate 24 has a role as an external terminal (-). Although not shown, the terminal plate 24 is partially bent toward the back side of the battery accommodating portion 2 and attached. Then, it is configured to be electrically connected to the negative electrode 4c on the back side of the battery housing portion 2 via a conductive portion 24C (described later) which is the bent portion.

In addition, a fitting convex portion 25 for positioning when attaching the battery pressing portion 3 is provided at the lower central portion of the outer wall portion 11e of the short wall portion 11 in the lateral direction.
Mounting holes 19a and 19b and mounting holes 19c and 19d for mounting the battery holding portion 3 are provided at the lower end portions on both sides of the cutout portions 100a and 100b of the side wall portions 13a and 13b of the battery chambers 16a and 16b. ing. Further, mounting holes 19e and 19f and mounting holes 19g and 19h for mounting the battery holding portion 3 are provided at the lower end portions on both sides of the cutout portions 100c and 100d of the side wall portions 14a and 14b of the battery chambers 16c and 16d. ing.

Moreover, as shown in FIGS. 5 and 6(a), the positive electrode 5a is bent in a substantially L shape and attached. Specifically, a conducting portion 50Ca, which is a short side portion of a substantially L-shape, extends from the wall portion 12ia side to the lower portion of the rear wall portion 12ib side through a through hole 17a provided in the lower portion of the recess portion 20. installed to The electrode portion 50Ea, which is the long side portion of the inverted L shape on the side of the wall portion 12ia of the positive electrode 5a, is the portion that directly contacts the positive terminal of the dry battery. Further, the positive electrode 5a has an approximately L-shaped corner portion 50Ra that is convexly curved downward. The portion 50Ra is accommodated in a spring retracting portion 35a (described later) of the battery pressing portion 3. As shown in FIG. Here, the curved corners are formed to prevent plastic deformation due to repeated attachment and detachment of the dry battery.

The positive electrode 5c has the same configuration as the positive electrode 5a, and extends from the wall portion 12ic to the lower portion of the wall portion 12id on the back side through a through hole 17b provided in the lower portion of the recess 22. mounted to extend. The positive electrode 5c is the same as the positive electrode 5a except that the suffix "a" of each component is replaced with "c".
Moreover, the plus electrodes 5b and 5d are also bent and attached in a substantially L shape.

Further, as shown in FIG. 4, the battery housing portion 2 has screw holes 27a, 27b, 27c and 27d for screwing the positive electrodes 5a to 5d, and through holes 17a and 17a for attaching the positive electrodes 5a and 5c. 17b and through holes 18a and 18b for mounting the positive electrodes 5b and 5d. In addition, it has through holes 28a and 28b for mounting the negative electrodes 4b and 4d and for inserting the spring retainers 34a and 34b, and through holes 29a and 29b for mounting the negative electrodes 4a and 4c. .

The screw holes 27a and 27c are provided on the back side of the top portion 150a of the mountain-shaped threshold portion 15a formed on the front side of the battery housing portion 2, and the screw holes 27b and 27d are provided on the mountain-shaped threshold portion 15b. is provided on the rear side of the top portion 150b of the . That is, in this embodiment, the screw holes 27a to 27d are formed along the rear side of the thickest portions of the thresholds 15a and 15b.

This thick structure is suitable for forming tappings for the screw holes 27a to 27d. damage to the screw threads is prevented.
Moreover, the screw holes 27b and 27d are provided at positions near the ends of the threshold portions 15a and 15b of the battery accommodating portion 2, unlike the center in the longitudinal direction.

The through-holes 17a and 17b are through-holes formed through the bottom portion of the battery housing portion 2 to communicate with the recesses 20 and 22, and the through-holes 18a and 18b are formed to communicate with the recesses 21 and 23 to house the battery. It is a through hole formed through the bottom of the portion 2 .
The through holes 28 a and 28 b are provided on both sides of the partition wall 12 . Furthermore, along with the through holes 28a and 28b, grooves 280a and 280b for fixing the negative electrodes 4b and 4d are formed.

The grooves 280a and 280b are grooves for guiding the negative electrodes 4b and 4d and preventing them from coming off, and have a width slightly wider than the diameter of the metal wire forming the coil springs of the negative electrodes 4b and 4d.
The through holes 29a and 29b are guide long holes for screwing the negative electrodes 4a and 4c at both ends of the battery housing portion 2 to the back surface of the battery housing portion 2, and constitute coil springs for the negative electrodes 4a and 4c. It has a width slightly wider than the diameter of the metal wire used.

(Structure of Battery Holding Part 3)
As shown in FIG. 3, the battery holding portion 3 is configured to be fixed from the back side of the battery containing portion 2 . As shown in FIGS. 3, 8 and 9, the battery holding portion 3 includes a plate-like base portion 30 having a substantially rectangular shape in a front view along the back surface shape of the battery housing portion 2, and a base portion 30 extending along the length of the base portion 30. It has pressing claws 31a and 31b erected on one side in the direction and pressing claws 31c and 31d erected on the other side.

Further, the battery pressing portion 3 includes fixing claw portions 32a, 32b, 32c, and 32d erected on one side in the longitudinal direction of the base portion 30, fixing claws 32e erected on the other side, 32f, 32g, and 32h, and a fitting recess 33 for positioning provided upright in the center of the other end side of the base portion 30 in the longitudinal direction.
Further, the battery holding portion 3 includes spring holding portions 34a and 34b provided upright at both ends of the base portion 30 at approximately the center in the longitudinal direction, and spring holding portions 34a and 34b at approximately the center in the longitudinal direction of the base portion 30 and at one end of the base portion 30 in the longitudinal direction. It has a spring retraction portion 35a formed on the upper surface of the side surface and a spring retraction portion 35b formed on the upper surface of the other side surface.

Further, as shown in FIG. 8, the battery holding portion 3 includes a screw head retracting portion 36a formed in the center of the longitudinal direction of the front side of the base portion 30 and a longitudinal direction opposite to the screw head retracting portion 36a. A screw head retracting portion 36b is formed in the front side center of the fitting recess 33 at the other end. Further, the base portion 30 has screw head retracting portions 36c and 36d formed in parallel in the longitudinal direction in the central portion on the front side.

Furthermore, the battery holding portion 3 has a spring position fixing portion 37a provided on the other end side in the longitudinal direction with respect to the spring retracting portion 35a on the front side, and a spring position fixing portion 37a provided on the other end side in the longitudinal direction with respect to the spring retracting portion 35b. and a spring position fixing portion 37b provided.
As shown in FIGS. 8 and 9, the pressing claw portion 31a is provided with a rectangular plate-shaped lateral pressing claw portion 310a and two protrusions above the lateral pressing claw portion 310a with a predetermined space therebetween. It is provided with book upper pressing claws 311a and 312a.

The pressing claw portion 31b includes a rectangular plate-shaped lateral pressing claw portion 310b and two upper pressing claw portions 311b and 312b provided above the lateral pressing claw portion 310b with a predetermined space therebetween and protruding upward. It has
As shown in FIGS. 8 and 10, the pressing claw portion 31c includes a rectangular plate-shaped lateral pressing claw portion 310c erected at a position facing the pressing claw portion 31b, and a lateral pressing claw portion 310c. Two upper pressing claws 311c and 312c are provided on the upper part at a predetermined interval and protrude upward.

Further, the pressing claw portion 31d has a rectangular plate-like lateral pressing claw portion 310d erected at a position facing the pressing claw portion 31a, and a predetermined space above the lateral pressing claw portion 310d and upward. It has two protruding upper pressing claws 311d and 312d.
7 to 10, the pressing claws 31a to 31d are formed in the same shape. In addition, as shown in FIGS. 2 and 3, when fixed to the battery housing portion 2, it is provided at a position overlapping the cutouts 100a to 100d and configured to have a width narrower than the width of the cutouts 100a to 100d. It is

Further, as shown in FIG. 11A, the pressing claws 31a and 31d have a configuration in which the lower halves of the lateral pressing claws 310a and 310d are curved and raised so that the battery accommodating portion 2 is accommodated inside. The upper halves of the lateral pressing claws 310a and 310d stand straight up vertically. In addition, the upper pressing claws 312 a and 311 d are curved and raised in an R shape having a diameter slightly smaller than the radius of the dry battery housed in the battery housing section 2 . This also applies to the upper pressing claws 311b and 312d.

Further, the pressing claws 31b to 31d also have the same shape as the pressing claw 31a.
As shown in FIGS. 8 and 9, the fixing claws 32a and 32b are arranged at both ends of the pressing claw 31a. The fixing claw portion 32a includes a rectangular plate-shaped claw plate portion 320a and a toe portion 321a provided at the tip portion of the claw plate portion 320a so as to protrude inward in the lateral direction of the battery holding portion 3. As shown in FIG. Similarly, the fixing claw portion 32b is composed of a nail plate portion 320b and a toe portion 321b provided at the tip of the nail plate portion 320b so as to protrude inward in the lateral direction of the battery holding portion 3. As shown in FIG.

The fixing claws 32c and 32d are also configured in the same manner as the fixing claws 32a and 32b, and are composed of nail plate portions 320c and 320d and toe portions 321c and 321d.
The fixing claws 32e to 32h are also formed facing each other across the longitudinal center line HH in FIG. 7, and have the same structure as the fixing claws 32a to 32d.

As shown in FIG. 11(b), the fixing claws 32a and 32h have claw plates 320a and 320h that are curved along the contours of the lower halves of the side walls 13a and 14b of the battery housing portion 2. It has a standing configuration. In addition, the toe portions 321a and 321h are configured to face each other and protrude inward. This also applies to the fixing claws 32b and 32g, 32c and 32f, 32d and 32e.

In addition, the fixing claws 32a to 32h are configured in the same shape, and when the battery holding portion 3 is fixed to the battery containing portion 2, each of the claws 321a to 321h has the same end of the mounting hole 19a to 19h. It is configured to have a positional relationship and height that fits the one of the code.
As shown in FIGS. 3, 9, and 10, the spring retainers 34a and 34b have an elongated plate shape that is convexly curved outward. It has the structure which protruded to the one end side and the other end side of.

12, the upper end portion 340a has an inclined surface 341a that becomes lower from the outside to the inside of the battery pressing portion 3. As shown in FIG. This inclined surface 341a corresponds to the root of the coil spring of the minus electrode 4b on the coil side. The portion where the root vortex starts is formed so as to start sloping outward from the upright portion. Therefore, the inclined surface 341a is formed along the same shape as the inclination of the root. In mounting the coil spring, the through hole 28a has a larger diameter than the metal wire of the coil spring. This is to fix the

The upper end portion 340b also has the same structure as the upper end portion 340a, and has an inclined surface 341b. The inclined surface 341b fixes the movement of the negative electrode 4d.
As shown in FIG. 8, the spring retracting portions 35a and 35b are formed of grooves having a semicircular cross section. These semicircular arc shapes are formed along the curved shapes of the corners 50Ra and 50Rb of the positive electrodes 5a and 5c.

The screw head retreating portion 36a is formed of a substantially elliptical impermeable recess with one end on the long axis side missing in plan view, and the screw head retreating portion 36b is formed of a substantially elliptical impenetrable recess in plan view. It is In addition, the screw head retracting portions 36c and 36d are formed of circular impenetrable depressions in a plan view.
Each of the screw head retracting portions 36a to 36d has a role of retracting the screw heads for fixing the positive electrodes 5a and 5c provided on the back surface of the battery housing portion 2, and the battery holding portion 3 is retracted. It is provided at a position where the head of each screw can be accommodated when fixed to the battery housing portion 2 . Further, the screw head retracting portions 36a and 36b are formed in an elliptical shape to secure a stroke for mounting by sliding in the longitudinal direction.

The spring position fixing portions 37a and 37b are formed of circular depressions in a plan view, and when the battery holding portion 3 is fixed to the battery housing portion 2, the fixing protrusions 26a and 26b formed on the back surface of the battery housing portion 2. (described later) has a role of fitting. Therefore, the spring position fixing portions 37a and 37b have a shape and a depth that allow fitting of the fixing convex portions 26a and 26b of the positive electrodes 5a and 5c when the battery pressing portion 3 is fixed to the battery housing portion 2. is configured to

The battery holding portion 3 is made of a synthetic resin such as polycarbonate, and the plate-shaped holding claw portions 31a to 31d and the fixing claw portions 32a to 32h are arranged in the reverse R direction of the battery holding portion 3 at least at room temperature. is configured to be elastically deformable.

(Circuit configuration on the back side)
Next, the circuit configuration on the back side of the battery containing portion 2 will be described.
As shown in FIG. 13(a), the ends of the negative electrodes 4b and 4d are inserted into the guide grooves 280a and 280b (see FIG. 4) through the through holes 28a and 28b. are placed in Also, although not shown, U-shaped portions at the tips of the negative electrodes 4b and 4d are arranged along the outer peripheries of the screw holes 27a and 27b.
Then, the positive electrodes 5a and 5c are arranged on the back side of the battery housing portion 2 through the through holes 17a and 17b, with the conductive portions 50Ca and 50Cc and the corner portions 50Ra and 50Rc overlapping the negative electrodes 4b and 4d. are placed.

Here, the conductive portions 50Ca and 50Cc and the corner portions 50Ra and 50Rc are substantially L-shaped in a plan view from the rear side, and are positioned near one end of the short side of the substantially L-shaped long side. through-holes for inserting the fixing protrusions 26a and 26b are formed in the long side portion, and through-holes for inserting the screw portion are formed at positions near the other end of the long side portion. One end of the long side of the conductive portions 50Ca and 50Cc extends to cover the screw holes 27a and 27b and their surroundings.

In the present embodiment, the conductive portion 50Ca is coaxially overlapped with the screw hole 27a through the screw portion insertion hole, and the fixing protrusion 26a is inserted through the through hole for the fixing protrusion 26a. placed in a state. As a result, the long side of the conductive portion 50Ca contacts the negative electrode 4b and the other end overlaps the U-shaped portion at the tip of the negative electrode 4b surrounding the screw hole 27a. By screwing the screws 270a in this state, the positive electrode 5a and the negative electrode 4b are fixed in a conductive state.

The negative electrode 4d is also arranged in the same manner as the negative electrode 4b, and is screwed with a screw 270b via the conductive portion 50Cc, so that the positive electrode 5c and the negative electrode 4d are electrically connected. Fixed.
On the other hand, as shown in FIG. 13(a), the negative electrode 4a is arranged on the back side of the battery containing portion 2 via the through hole 29a. Although not shown, the negative electrode 4c is also arranged on the back side of the battery containing portion 2 via the through hole 29b.

These are laid along the elongated through-holes 29a and 29b to a position where the U-shaped tip portion surrounds the screw holes 27c and 27d.
Moreover, the positive electrode 5d is arranged on the back side of the battery containing portion 2 in a state in which the conductive portion 50Cd overlaps the negative electrode 4a via the through hole 18b (see FIG. 4).
Here, the conductive portion 50Cd has a substantially L-shape in plan view from the rear side, and the fixing convex portion 26c is inserted at a position near one end of the substantially L-shaped long side portion on the short side portion side. A general through-hole is formed, and a through-hole for inserting the screw portion is formed at a position near the other end of the long side. One end of the long side of the conductive portion 50Cd extends to cover the screw hole 27c and its surroundings.

In the present embodiment, the conductive portion 50Cd is coaxially overlapped with the threaded through hole 27c, and the fixing protrusion 26c is inserted through the through hole for the fixing protrusion 26c. placed in a state. As a result, the long side of the conductive portion 50Cd contacts the negative electrode 4a and the other end overlaps the U-shaped portion at the tip of the negative electrode 4a surrounding the screw hole 27c. By screwing the screws 270c in this state, the positive electrode 5d and the negative electrode 4a are fixed in a conductive state.

Moreover, the negative electrode 4c is fixed in a state of being electrically connected to the conductive portion 24C of the terminal plate 24. As shown in FIG.
Here, the conductive portion 24</b>C has a shape that is bent in two steps into a trapezoidal shape in plan view on the back side of the battery housing portion 2 . Specifically, at the point where it is bent along the longitudinal direction from the front side to the back side, it is first bent obliquely inward and extended to the side of the screw hole 27d, and then further bent and extended straight toward the screw hole 27d to screw the screw. It has a shape extending to a position covering the hole 27d and its surroundings. A through hole for inserting the threaded portion is formed at a position overlapping the threaded hole 27d on the distal end side of the conductive portion 24C.

In the present embodiment, the conductive portion 24C is arranged in a state in which the through hole for inserting the screw portion is coaxially overlapped with the screw hole 27d. As a result, the conductive portion 24C is brought into contact with the negative electrode 4c and the tip overlaps the U-shaped portion of the tip of the negative electrode 4c surrounding the screw hole 27d. By screwing the screws 270d in this state, the negative electrode 4c and the terminal plate 24 are fixed in a conductive state.

(Fixing method of battery holding part 3)
Next, a method for fixing the battery holding portion 3 to the battery accommodating portion 2 will be described.
As shown in FIG. 3 , the battery holding portion 3 is fixed from the back side of the battery containing portion 2 .
Specifically, first, the battery containing portion 2 is fitted between the pressing claws 31a and 31d and between the pressing claws 31b and 31c. At this time, the spring retainers 34a and 34b are inserted into the through holes 28a and 28b, and the fitting protrusions 25 of the battery containing portion 2 are fitted into the fitting recesses 33 of the battery retainer 3. do.

Here, the distance between the tips of the toe portions of the pressing claws 31a and 31d and the distance between the tips of the toe portions of the pressing claws 31b and 31c are larger than the width of the battery accommodating portion 2 in the lateral direction. narrow. Therefore, the battery accommodating portion 2 is fitted between the pressing claws 31a and 31d and 31b and 31c while elastically deforming the pressing claws 31a to 31d outward on the long wall side of the battery accommodating portion 2. .

Subsequently, when the fitting protrusion 25 is fitted in the fitting recess 33, the pressing claws 31a and 31d and 31b and 31c are positioned between the notches 100a and 100d and 100b and 100c. In addition, the fixing claws 32a to 32h are in a state in which the mounting holes 19a to 19h having the same reference numerals at the ends face each other. 4 and 9, the heads of the screws screwed into the screw holes 27a to 27d are located in the screw head retracting portions 36a to 36d in the rear portion of the battery containing portion 2 and the front portion of the battery pressing portion 3. The corner portions 50Ra and 50Rc of the positive electrodes 5a and 5c are accommodated in the spring retracting portions 35a and 35b. In addition, the fixing projections 26a and 26b are fitted into the spring position fixing portions 37a and 37b.

For example, as shown in FIG. 6A, the corner portion 50Ra is accommodated in the spring retracting portion 35a, and the fixing protrusion 26a is fitted in the spring position fixing portion 37a.
Subsequently, the fixing claw portions 32a to 32h are pushed from the outside to fit the toe portions 321a to 321h into the mounting holes 19a to 19h, thereby fitting the fixing claw portions 32a to 32h into the battery housing portion 2 to hold the battery. The fixation of part 3 is completed. At this time, the toe portions 321a to 321h of the fixing claw portions 32a to 32h act as barbs, and the fixing claw portions 32a to 32h are firmly connected to the battery accommodating portion 2. FIG.

After completion of the fixation, as shown in FIG. 13( b ), the back surface of the battery containing portion 2 is covered with the base portion 30 of the battery pressing portion 3 .
Moreover, when replacing the battery holding part 3, the battery holding part 3 needs to be removed from the battery containing part 2, but the battery holding part 3 is firmly connected to the battery containing part 2 by the fixing claws 32a to 32h. state. Therefore, the operator manually destroys the fixing claws 32a to 32h to remove them.

The reason why the battery pressing part 3 cannot be removed without damage after being attached to the battery containing part 2 is to prevent the operator from easily removing it.
It should be noted that replacement is required when the battery holding portion 3 is damaged, and the damaged battery holding portion 3 is a part that cannot be reused. In addition, the battery holding portion 3 of the present embodiment has a structure that allows replacement without requiring a tool.

Therefore, when replacing the battery holding part 3, the operator can manually remove the parts remaining in the battery containing part 2, and the replacement can be easily performed.
Moreover, the reason why the battery holding portion 3 is not fixed from the back side by screwing is that the following problems can be considered.

(1) If the removal work occurs frequently, the tap grooves of the screw holes 27a to 27d made of resin may be deformed or worn, and the battery holder 3 may not be attached.
(2) Workers may be electrocuted.
Here, when replacing the battery or the like, the rear surface of the battery holding portion 3 is a portion that is directly touched by an operator's hand. Therefore, for example, when there is a risk of electric leakage such as when water enters the gap between the battery housing portion 2 and the battery holding portion 3, the screws, which are metal parts, are exposed from the back surface of the battery holding portion 3. If you do, the screw and the electrode will short-circuit, and you may get an electric shock.

(Action)
Next, the operation of each part when a dry battery is housed in the battery housing device 1 having the above configuration will be described.
As shown in FIG. 14, in the battery housing device 1, dry batteries B are housed in battery chambers 16a to 16d, respectively. The dry battery B has a projecting plus terminal P on one end in the longitudinal direction and a flat disk-shaped minus terminal M on the other end.

When housed in the normal orientation, each positive terminal P contacts a corresponding one of the positive electrodes 5a-5d and each negative terminal M contacts a corresponding one of the negative electrodes 4a-4d. It is in a state of
Since the positive electrode 5d and the negative electrode 4a are electrically connected, the four stored dry batteries B are connected in series. In this state, for example, as shown in FIG. 16, when the battery housing device 1 is housed in the holder housing portion 401 of the industrial radio transmitter 400, the external terminal (+) and the external terminal (-) are connected to the industrial terminal (not shown). It is electrically connected to the positive and negative terminals of the power circuit of the wireless transmitter 400 . This allows power to be supplied to the industrial wireless transmitter 400 .

Here, a terminal portion 50Cb, which is a portion of the inner wall portion 10ia of the plus electrode 5b on the side of the outer wall portion 10e on the back side, functions as an external terminal (+).
On the other hand, when the dry battery B is housed in the battery chambers 16a to 16d, as shown in FIGS. A part of the lateral side of is pressed from the outside. In addition, the upper pressing claw portions 311a to 311d and 312a to 312d of the pressing claw portions 31a to 31d hold down part of the upper side of the dry battery B from above.

As shown in FIG. 6(b), the pressing claws 31a and 31d are partially curved and inserted inwardly from the storage position of the dry battery when the dry battery is not collected. . Therefore, when the dry battery B is accommodated, as shown in FIG. 15, the pressing claws 31a and 31d are elastically deformed outward along the shape of the battery. The elastic force due to this elastic deformation presses the inner surfaces of the pressing claws 31a and 31d against the dry battery B, thereby depressing the dry battery B toward the housing. This also applies to the pressing claws 31b and 31c.

(Action and effect of embodiment)
The battery housing device 1 according to the embodiment includes a battery housing portion 2 for housing a dry battery, and positive electrodes 5a to 5d provided at a portion facing a positive terminal of the dry battery inside the battery housing portion 2 and in contact with the positive terminal. , negative electrodes 4a to 4d provided at a portion facing the negative terminal of the dry battery inside the battery housing portion 2 and in contact with the negative terminal, and the dry battery housed in the battery housing portion 2 in a detachable state. A locking portion 3 biased toward the housing of the housing portion 2 is provided. Further, the battery holding portion 3 is configured separately from the battery accommodating portion 2 and fixed to the battery accommodating portion 2 .

With this configuration, the battery containing portion 2 and the battery holding portion 3 are separated from each other. Therefore, even if the battery holding portion (battery holding portion 3) made of resin, for example, is damaged, only that part can be easily removed. can be exchanged for Moreover, since only the battery holder 3 needs to be replaced, the repair cost can be reduced. Moreover, since they are separate bodies, it is easy to configure them from different materials or to configure them with different colors. As a result, it is possible to suppress an increase in material cost when changing the strength of the material, or to improve the appearance by changing the color.

Here, as described above, the battery housing device 1 according to the embodiment is used by being housed in the holder housing portion 401 of the industrial wireless transmitter 400 shown in FIG. 16, for example. This industrial wireless transmitter 400 is used, for example, as a remote controller for heavy equipment outdoors or in a building under construction. Therefore, when the battery runs out during remote control of heavy machinery, the replacement condition is likely to be poor, for example, when the battery is replaced in the field with gloves on or in the dark. As a result, the battery holder 3 is likely to be damaged. In such a situation, with the battery containing device 1 according to the embodiment, it is possible to replace only the damaged battery holding portion 3, so that the repair cost can be kept low. In addition, it is possible to carry a spare battery holder 3, and when damage occurs, it is possible to replace it with a spare on the spot for quick repair.

In addition, in the battery housing device 1 according to the embodiment, the battery holding portion 3 further includes a base portion 30 having a shape that follows the shape of the back surface of the battery housing portion 2, and when fixed to the battery housing portion 2, the base portion 30 It is configured to cover the back surface of the battery containing portion 2 .
With this configuration, the threaded portion of the electrode portion on the back side of the battery housing portion 2 can be covered with the base portion 30 when fixed. It is possible to prevent it from being exposed. In addition, since it becomes easy to screw or the like on the back side of the battery housing portion 2, the size of the battery housing device 1 can be reduced compared to the case where a coupling space or the like is formed on the front side. .

Further, in the battery housing device 1 according to the embodiment, the battery housing portion 2 further has notch portions 100a to 100d formed by cutting out portions of the side wall facing the side surface of the housed dry battery. The battery holding portion 3 includes holding claw portions 31a to 31d erected at positions corresponding to the formation positions of the notch portions 100a to 100d on both side ends of the base portion 30. As shown in FIG. Then, when the battery pressing portion 3 is fixed to the battery housing portion 2, the lateral pressing claw portions 310a to 310d, the upper pressing claw portions 311a to 311d, and the upper pressing claw portions 311a to 311d of the pressing claw portions 31a to 31d are arranged through the cutout portions 100a to 100d. 312a to 312d are configured to bias the side surfaces and part of the top surface along the outer shape of the dry battery.

With this configuration, it is possible to press the dry battery from above with the claw portion, so that the dry battery can be prevented from dropping out of the battery housing portion 2 more reliably. In addition, since the battery holding portion 3 is provided separately, it is possible to increase the length of the holding claw portions 31a to 31d. Even when configured, it is possible to facilitate bending.

The battery housing device 1 according to the embodiment further includes fixing claws 32 a to 32 h for fixing the locking portion 3 itself to the battery housing portion 2 . The battery accommodating portion 2 includes mounting holes 19a-19h for fitting the fixing claw portions 32a-32h. The locking portion 3 is held by fitting the fixing claw portions 32a to 32h into the mounting holes 19a to 19h.
With this configuration, it is possible to reduce the cost of parts and the number of assembly man-hours compared to a configuration in which parts such as screws are used for holding.

Further, in the battery containing device 1 according to the embodiment, the battery holding portion 3 is fixed in a state of being firmly coupled to the battery containing portion 2 by the fixing claws 32a to 32h, and is removed from the battery containing portion 2. They are joined with such a strength that at least part of the joining portions (fixing claw portions 32a to 32h) are broken when they are joined.
With this configuration, it is possible to configure the battery holding portion 3 so that it cannot be easily removed from the battery containing portion 2, and it is possible to prevent wear due to attachment and detachment of the battery holding portion 3.

In addition, the battery housing device 1 according to the embodiment is further divided by the partition wall 12 provided at the center position in the longitudinal direction inside the battery housing portion 2 over both ends in the short direction, and the partition wall 12. Threshold portions 15a and 15b are provided over both ends in the longitudinal direction at the central position in the lateral direction of each divided room. The partition wall 12 and the thresholds 15a and 15b form four battery chambers 16a, 16b, 16c and 16d.

With this configuration, the partition wall 12 can prevent the dry batteries from coming into direct contact with each other. As a result, for example, problems such as an increase in contact resistance due to an oxide film formed by rubbing the terminals of a dry battery together, or the easy dropout of a battery due to an unstable holding state of the battery can be prevented or reduced. becomes possible.
Further, in the battery housing device 1 according to the embodiment, the threshold portions 15a and 15b are formed in a mountain shape having a curved base along the outer shape of the dry battery to be housed. Further, screw holes 27a to 27d for fixing the respective electrodes formed on the back surface of the battery containing section 2 are provided. These screw holes 27a to 27d are provided on the rear side of the peaks of the mountain-shaped thresholds 15a and 15b.

With this configuration, it is possible to concentrate the screwing positions for fixing the electrodes to the central position in the width direction of the battery housing portion 2 . This makes it possible to avoid direct impact on the screwed portion when it receives a drop impact or the like. That is, when receiving an impact, the screwed portion prevents the resin portion from bending, thereby preventing cracks from occurring.

Further, the battery housing device 1 according to the embodiment further includes spring holding portions 34a and 34b that hold down the negative electrodes 4b and 4d from the lateral side (outside in the lateral direction) when the battery holding portion 3 is fixed to the battery housing portion 2. was established.
With this configuration, it is possible to suppress lateral movement of the negative electrodes 4b and 4d, and it is possible to prevent the occurrence of poor contact with the dry battery.

Further, in the battery housing device 1 according to the embodiment, the upper ends 340a and 340b of the spring holding portions 34a and 34b are inclined surfaces 341a and 341b that are lowered from the outer side to the inner side of the battery holding portion 3 in the lateral direction. It has
With this configuration, the inclined surfaces 341a and 341b abut the negative electrodes 4b and 4d along the curved shape of the metal wire that constitutes the coil spring of the negative electrodes 4b and 4d, thereby preventing lateral movement of the negative electrodes 4b and 4d. can be suppressed more reliably.

(Modification)
In the above-described embodiment, the battery holding portion 3 is configured to cover the back side of the battery accommodating portion 2 with the base portion 30 thereof, but the configuration is not limited to this. For example, when there is no need to cover the back side, such as when there is no wiring on the back side of the battery housing portion 2, only the claw portion for holding the battery is separately fixed to the battery housing portion. It is good also as other composition, such as doing.

In addition, in the above-described embodiment, a configuration in which coil springs are employed as the negative electrodes 4a to 4d and leaf springs are employed as the positive electrodes 5a to 5d has been described as an example, but the present invention is not limited to this configuration. For example, the negative electrodes 4a to 4d may be composed of leaf springs, and if the negative electrodes 4a to 4d are composed of springs with sufficient biasing force, the positive electrodes 5a to 5d need not be composed of spring members. do not have. In addition, other springs may be employed in addition to the coil springs and leaf springs as long as they have the same effect.

In addition, in the above-described embodiment, four dry batteries are accommodated and the dry batteries are connected in series, but the configuration is not limited to this. For example, four dry batteries may be connected in parallel. Further, the configuration is not limited to the one that accommodates four dry batteries, and other configurations such as a configuration that accommodates one to three dry batteries, or a configuration that accommodates five or more dry batteries may be employed.
Further, in the above-described embodiment, the dry batteries are arranged in two rows and two columns in the battery housing portion 2, but other structures may be employed.

1 battery housing device 2 battery housing section 3 battery pressing section 4a-4d negative electrode 5a-5d positive electrode 10, 11 short wall section 10ia, 10ib, 11ia, 11ib inner wall section 10e, 11e outer wall section 12 partition wall 12ia, 12ib, 12ia , 12ib wall portions 13, 14 long wall portions 13a, 13b, 14a, 14b side wall portions 15a, 15b threshold portions 16a to 16d battery chambers 17a, 17b, 18a, 18b, 29a, 29b through holes 19a to 19h mounting holes 20 to 23 recesses 24 terminal plate 25 fitting projections 26a to 26c fixing projections 27a to 27d screw holes 30 base portion 31a to 31d pressing claws 32a to 32h fixing claws 33 fitting recesses 34a, 34b spring pressing portions 35a, 35b Spring retracting portions 36a to 36d Screw head retracting portions 37a, 37b Spring position fixing portions 50Ca, 50Cc, 50Cd Conductive portions 50Cb Terminal portions 50Ea to 50Ed Electrode portions 50Ra, 50Rc Corner portions 50Ta to 50Td Upper end portions 100a to 100d Notch portions 150a, 150b Top portion 280a, 280b Groove portion 310a-310d Side pressing claw portion 311a-311d, 312a-312d Upper pressing claw portion 320a-320h Nail plate portion 321a-321h Toe portion 400 Industrial wireless transmitter 401 Holder housing portion B1-B4 Dry battery P1~P4 Plus terminal M1~M4 Minus terminal S1~S4 Shoulder

Claims (10)

a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The locking portion includes a fixing claw portion for fixing itself to the battery housing portion,
The battery housing portion has a mounting hole for fitting the fixing claw portion,
The locking portion is a part configured separately from the battery containing portion, and the locking portion is fixed to the battery containing portion by fitting the fixing claw portion into the mounting hole. A battery housing device, characterized in that: a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The locking portion includes a fixing claw portion for fixing itself to the battery housing portion,
The battery housing portion has a mounting hole for fitting the fixing claw portion,
The locking portion is a part configured separately from the battery containing portion, and the locking portion is fixed to the battery containing portion by fitting the fixing claw portion into the mounting hole. ,
The locking portion is fixed in a state of being firmly coupled with the battery housing portion, and is coupled with such a strength that at least a part of the joint portion is damaged when removed from the battery housing portion. and a battery housing device. a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The locking portion includes a fixing claw portion for fixing itself to the battery housing portion,
The battery housing portion has a mounting hole for fitting the fixing claw portion,
The locking portion is a part configured separately from the battery containing portion, and the locking portion is fixed to the battery containing portion by fitting the fixing claw portion into the mounting hole. ,
A transverse cross section having skirts having a shape along the outer shape of the dry battery provided over both ends in the length direction at the center of the inside of the battery housing portion in a direction perpendicular to the length direction of the dry battery. a substantially mountain-shaped threshold;
a positive electrode provided at a portion facing the positive terminal of the dry battery inside the battery housing portion and in contact with the positive terminal;
a negative electrode provided at a portion inside the battery containing portion facing the negative terminal of the dry battery and in contact with the negative terminal;
A screw hole for screwing the positive electrode and the negative electrode is provided on the rear surface of the mountain-shaped top portion of the threshold portion in the rear surface portion of the battery housing portion. Battery housing device. a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The locking portion includes a fixing claw portion for fixing itself to the battery housing portion,
The battery housing portion has a mounting hole for fitting the fixing claw portion,
The locking portion is a part configured separately from the battery containing portion, and the locking portion is fixed to the battery containing portion by fitting the fixing claw portion into the mounting hole. ,
The locking portion is firmly fixed to the battery housing portion, and is bonded with such a strength that at least a part of the joint portion is damaged when removed from the battery housing portion,
A transverse cross section having skirts having a shape along the outer shape of the dry battery provided over both ends in the length direction at the center of the inside of the battery housing portion in a direction perpendicular to the length direction of the dry battery. a substantially mountain-shaped threshold;
a positive electrode provided at a portion facing the positive terminal of the dry battery inside the battery housing portion and in contact with the positive terminal;
a negative electrode provided at a portion inside the battery containing portion facing the negative terminal of the dry battery and in contact with the negative terminal;
A screw hole for screwing the positive electrode and the negative electrode is provided on the rear surface of the mountain-shaped top portion of the threshold portion in the rear surface portion of the battery housing portion. Battery housing device. The battery housing device according to any one of claims 1 to 4, wherein the locking portion is made of synthetic resin. a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The locking portion is a component configured separately from the battery housing portion ,
The locking portion is fixed in a state of being firmly coupled with the battery accommodating portion, and is coupled with such a strength that at least a part of the coupling portion is damaged when removed from the battery accommodating portion. battery housing device. a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The battery housing portion is provided in the center of the battery housing portion in a direction orthogonal to the length direction of the housed dry battery over both ends in the length direction, and has a shape that conforms to the outer shape of the dry battery. A threshold portion having a substantially mountain-shaped cross section having a foot of
a positive electrode provided at a portion facing the positive terminal of the dry battery inside the battery housing portion and in contact with the positive terminal;
a negative electrode provided at a portion inside the battery containing portion facing the negative terminal of the dry battery and in contact with the negative terminal;
a screw hole for screwing the positive electrode and the negative electrode provided on the rear surface of the mountain-shaped top portion of the threshold portion in the rear surface portion of the battery housing portion;
The battery accommodation device according to claim 1, wherein the locking portion is a part configured separately from the battery accommodation portion and fixed to the battery accommodation portion. a battery containing portion for containing a dry battery;
A battery housing device comprising a locking portion that biases a dry battery housed in the battery housing portion against a housing of the battery housing portion in a removable state,
The battery housing portion is provided in the center of the battery housing portion in a direction orthogonal to the length direction of the housed dry battery over both ends in the length direction, and has a shape that conforms to the outer shape of the dry battery. A threshold portion having a substantially mountain-shaped cross section having a foot of
a positive electrode provided at a portion facing the positive terminal of the dry battery inside the battery housing portion and in contact with the positive terminal;
a negative electrode provided at a portion inside the battery containing portion facing the negative terminal of the dry battery and in contact with the negative terminal;
a screw hole for screwing the positive electrode and the negative electrode provided on the back surface of the mountain-shaped top part of the threshold part in the back part of the battery housing part,
The locking portion is a component configured separately from the battery housing portion ,
The locking portion is fixed in a state of being firmly coupled with the battery accommodating portion, and is coupled with such a strength that at least a part of the coupling portion is damaged when removed from the battery accommodating portion. battery housing device. The engaging portion includes a base portion having a shape that follows the shape of the back surface of the battery housing portion, and is configured such that the base portion covers the back surface portion of the battery housing portion when fixed to the battery housing portion. The battery housing device according to any one of claims 1 to 8 . The battery housing portion has a cutout portion formed by cutting out a portion of a side wall facing the side surface of the dry battery,
The engaging portion includes claw portions that are erected at positions corresponding to the formation positions of the notch portions on both side ends of the base portion, and engages the notch portions when fixed to the battery housing portion. 10. The battery housing device according to claim 9 , wherein the claw portion is configured to urge a part of the side surface and the upper surface of the dry battery along the outer shape of the dry battery.

Images