JP2014167237A - Battery housing structure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery housing structure capable of easily performing battery replacement work and appropriately maintaining electrical connection state.SOLUTION: The present invention is a battery housing structure 31 and the like of a battery-powered electric lock provided to an indoor side handle 3 mounted on a wall surface of a door 2. The battery housing structure 31 includes: a cartridge 33 having a battery housing part 36 for housing a battery 32 in a vertical orientation; and an indoor lower side pedestal 14 of the indoor side handle 3 having a power source space S2 in which the cartridge 33 is provided. One of end parts of the cartridge 33 is supported by the indoor lower side pedestal 14 so that the cartridge 33 is rotatable toward an outside of the power source space S2.

Description

  The present invention relates to a battery housing structure suitably used for a battery-type electric lock.

  2. Description of the Related Art In recent years, electric locks that lock and unlock by electrically driving a dead bolt by placing an IC card or the like over a reader are installed at entrances and exits of commercial facilities and apartment buildings, etc. A battery using a battery as a power source for such an electric lock is generally known.

  For example, Patent Document 1 discloses a technique for fixing a battery box holding two batteries serving as a power source for a motor or the like that moves a dead bolt forward and backward in an electric lock container.

JP 2003-269018 A

  However, in the conventional technique, when replacing the battery of the battery box fixed in the container, an operator is forced to perform the work of attaching and detaching the battery to and from the battery box in a narrow space in the container. For this reason, there existed a problem that the replacement | exchange operation | work of a battery could not be performed easily. In particular, when replacing a plurality of batteries, the labor and time required for the replacement work are increased, and the work efficiency is greatly reduced.

  In addition, when a battery is attached or detached, a load is applied to the wiring between the battery box and a drive circuit such as a motor, so that the wiring may be damaged (possibility of connector disconnection in the case of connector connection). .

  An object of this invention is to provide the battery accommodating structure which can perform the replacement | exchange operation | work of a battery easily, and can maintain an electrical connection state appropriately.

  The battery housing structure of the present invention is a battery housing structure of a battery-type electric lock provided on a handle attached to a wall surface of a door, wherein a cartridge in which a battery housing portion for housing a battery in a vertical direction is formed, and the cartridge And a pedestal of the handle in which a space is formed, and the cartridge is supported by the pedestal at either one of upper and lower sides so that the cartridge can be rotated outward from the space. .

  According to this configuration, by rotating and tilting the cartridge, it is possible to move the cartridge to the outside where it is easy to replace the battery. This makes it easy to replace the battery. In particular, when replacing a plurality of batteries, the labor and time required for the replacement work can be effectively reduced, and the work efficiency can be greatly improved.

  In this case, the pedestal has a cover capable of opening and closing the space, the cover is detachably provided on the pedestal, and the cartridge is rotatably supported on the pedestal. To do.

  According to this configuration, after removing the cover from the pedestal, the cartridge can be exposed to the outside of the pedestal by rotating and tilting the cartridge. Thereby, the replacement | exchange operation | work of a battery can be performed easily.

  In another case, the pedestal has a cover capable of opening and closing the space, and the cover is supported by the pedestal so as to be rotatable integrally with the cartridge.

  According to this configuration, the cover and the cartridge can be rotated (tilted) as a unit. As a result, the cartridge can be pulled out of the pedestal in conjunction with the opening operation of the cover, so that the process for battery replacement can be simplified.

  In these cases, the cartridge includes the cartridge body in which the battery housing portion is installed and supported at one of the upper and lower ends so that the battery housing portion can be rotated outward from the space, and the battery housed in the battery housing portion. And a cartridge lid portion that is detachably attached to either one of the upper and lower ends.

  According to this configuration, for example, by rotating the cartridge body to be exposed to the outside of the pedestal, and then opening the cartridge lid, the battery in the battery housing portion can be replaced. The cartridge lid may be opened prior to the rotation of the cartridge body. In this case, the battery replacement operation is performed by inserting and removing the battery in the axial direction. Thereby, the replacement | exchange operation | work of a battery can be performed easily and rapidly. In addition, since excessive force is prevented from acting on the cartridge when the battery is inserted and removed (replaced), for example, the power cable extending from the cartridge is not loaded, and the power cable is damaged or the power It is possible to effectively suppress the detachment of the connector that is the connecting portion of the cable. When the rotation center of the cartridge is provided on the lower end side, the mounting can be completed by inserting the battery into the cartridge body so as to slide from the upper side by utilizing the weight of the battery. On the other hand, when the center of rotation is provided on the upper end side, when the cartridge lid is opened, the battery falls off due to its own weight, so that the battery can be easily taken out.

  In this case, the cartridge lid portion is supported so as to be rotatable with respect to the cartridge main body.

  According to this configuration, the cartridge main body can be rotated in a state where the battery housing portion is closed by the cartridge lid portion. Thereby, it is possible to prevent the battery from dropping off while being rotated. This configuration is particularly effective when the rotation center is provided on the upper end side.

  In these cases, the cartridge is supported so as to be rotatable at the lower end side, and the cartridge is provided with a stopper for restricting the outward rotation.

  According to this configuration, since the rotation center is on the lower end side of the cartridge, the cartridge tries to rotate outward due to its own weight, but the rotation of the cartridge is restricted by the stopper, and the tilt angle of the cartridge is maintained. This can prevent the cartridge from unintentionally rotating outwardly.

  In these cases, the cartridge is supported so as to be rotatable on the upper end side.

  According to this configuration, since the rotation center is located on the upper end side of the cartridge, excessive rotation of the cartridge due to its own weight can be prevented. Thereby, the member which controls rotation of the cartridge by dead weight can be omitted.

  ADVANTAGE OF THE INVENTION According to this invention, the battery accommodation structure which can maintain the electrical connection state appropriately while being able to perform the replacement | exchange operation | work of a battery easily can be obtained.

It is the schematic which shows the electric lock system which concerns on 1st Embodiment of this invention. It is a sectional side view showing the indoor side handle and the outdoor side handle of the electric lock system concerning a 1st embodiment of the present invention. It is a perspective view which shows the battery accommodating structure which concerns on 1st Embodiment of this invention, (a) shows the state which removed the cover, (b) has shown the state which rotated the electric power supply apparatus. It is a sectional side view which shows the battery accommodating structure which concerns on 1st Embodiment of this invention, (a) shows the state which attached the cover, (b) has shown the state which rotated the electric power supply apparatus. It is a perspective view which shows the electric power supply apparatus which concerns on 1st Embodiment of this invention. It is a perspective view which shows the battery accommodating structure which concerns on 2nd Embodiment of this invention, (a) shows the state which attached the cover, (b) has shown the state which rotated the cover and the electric power supply apparatus. . It is a sectional side view which shows the battery accommodating structure which concerns on 2nd Embodiment of this invention. It is a perspective view which shows the battery accommodating structure which concerns on 3rd Embodiment of this invention. It is a sectional side view which shows the battery accommodating structure which concerns on 4th Embodiment of this invention.

<First Embodiment>
Hereinafter, an electric lock system including the battery housing structure according to the first embodiment of the present invention will be described with reference to the drawings. Here, FIG. 1 is a schematic view showing an electric lock system according to the first embodiment, and FIG. 2 is a side sectional view showing an indoor handle and an outdoor handle. 3A and 3B are perspective views showing the battery housing structure, in which FIG. 3A shows a state where the cover is removed, and FIG. 3B shows a state where the power supply device is rotated. 4A and 4B are side sectional views showing the battery housing structure. FIG. 4A shows a state where a cover is attached, and FIG. 4B shows a state where the power supply device is rotated. Hereinafter, for convenience of explanation, unless otherwise specified, in FIG. 2, the left side that is the outdoor side of the door is defined as the front (front), and the right side that is the indoor side of the door is defined as the back (rear).

  As shown in FIGS. 1 and 2, the electric lock system 1 can be rotated by an indoor handle 3 and an outdoor handle 4 fixed to both indoor and outdoor wall surfaces of the door 2, and the handles 3 and 4, respectively. An indoor operation lever 5 and an outdoor operation lever 6 that are supported, a latch lock 7 in which a latch bolt 7a is provided so as to be able to advance and retreat with respect to the mouth 2a of the door 2 as the operation levers 5 and 6 rotate; The lock / unlock operating device 8 installed on the outer handle 4, the main electric lock 9 and the sub electric lock 10 for driving the dead bolts 9 a and 10 a based on signals sent from the lock / unlock operating device 8, and the inside of the door 2 And a power supply device 12 that supplies power to the control device 11, a lock / unlock operation device 8, electric locks 9 and 10, and a control device 11.

  As shown in FIG. 2, the indoor handle 3 connects the pedestals 13 and 14 to the indoor upper pedestal 13 and the indoor lower pedestal 14 that are fixed to the indoor side wall surface of the door 2 so as to be spaced apart from each other. The interior side connection part 15 extended in this way is formed, and as a whole, it is formed in the arch shape slightly curved to the back side (indoor side).

  On the front side (front side) of the portion extending from the indoor upper pedestal 13 to the center in the vertical direction of the indoor side connecting portion 15, an operation lever insertion portion 16 provided with the indoor operation lever 5 is formed in a concave shape.

  The lower side of the indoor upper pedestal 13 is hollow, and an arrangement space S1 is formed. The indoor side operation lever 5 is supported by the rotating shaft portion 17 provided in the upper portion of the arrangement space S1 so as to be pivotable in the front-rear direction while being urged forward by a torsion coil spring 18. The indoor side latch bar 19 is fixed to the upper part of the indoor side operation lever 5, and the protrusion 19a at the tip thereof extends into the door 2 so as to contact an operating piece (not shown) for operating the latch lock 7. ing.

  On the upper side of the indoor lower pedestal 14, a recess 14 a that forms the power source space S <b> 2 is provided so as to be recessed forward. The opening 14b of the recess 14a is formed by opening the back side of the indoor lower pedestal 14 and cutting the left and right side walls halfway in the front-rear direction (see FIG. 3). Moreover, the indoor lower pedestal 14 has a cover 20 that can open and close the power source space S2, and the cover 20 is detachably attached to the recess 14a. The indoor lower pedestal 14 has an appearance as if the indoor upper pedestal 13 is turned upside down with the cover 20 closing the power supply space S2 (opening 14b).

  As shown in FIG. 3 (a), the cover 20 includes a back surface portion 20a that is curved so as to be integrated with the exterior of the indoor handle 3, and a pair of left and right side surface portions 20b that extend forward from the back surface portion 20a. Are integrally formed. The cover 20 is formed in a rectangular shape that is long in the vertical direction when viewed from the back, a substantially triangular shape when viewed from the side, and a substantially U shape when viewed from the vertical direction. In addition, hook portions 20c that engage with hook engaging portions 14c provided on the left and right side walls of the indoor lower pedestal 14 extend forward at the front end portion of each side surface portion 20b.

  Although details will be described later, a power supply rotation shaft portion 21 that rotatably supports the power supply device 12 is provided on the lower end side of the recess 14a (power supply space S2). The left and right end surfaces of the power rotation shaft 21 are fixed substantially horizontally to the left and right side walls of the indoor lower pedestal 14. Note that a wiring hole 14d that allows the power supply space S2 and the inside of the door 2 to communicate with each other is opened at the lower end of the recess 14a.

  Further, as well shown in FIG. 4, a lock lever 22 that engages with the upper end portion of the power supply device 12 is provided on the upper end side of the recess 14 a (power supply space S <b> 2). The lock lever 22 is bent by approximately 180 ° in the vertical direction on the front side (front side) and exerts an urging force downward, and extends upward from the upper rear end of the plate spring portion 22a. A fixing portion 22b fixed to the upper end portion and an engaging protrusion 22c protruding downward from the lower rear end portion of the leaf spring portion 22a are provided.

  A thumb turn opening 3a is formed through the upper part of the indoor upper pedestal 13 and the lower part of the indoor lower pedestal 14, respectively. Further, a pair of upper and lower screw insertion holes 3b are opened between the lower end of the indoor upper base 13 and between the arrangement space S1 and the thumb turn opening 3a. Similarly, a pair of upper and lower screw insertion holes 3 b are also opened at both upper and lower ends of the indoor lower pedestal 14.

  Subsequently, as shown in FIG. 2, the outdoor handle 4 is configured in the same manner as the indoor handle 3 described above, and includes an outdoor upper pedestal 23 that is fixed to the outdoor wall surface of the door 2 so as to be spaced apart vertically. It has an outdoor lower pedestal 24 and an outdoor side connecting portion 25 extending so as to connect the pedestals 23 and 24, and is formed in an arch shape slightly curved on the front side (outdoor side) as a whole. ing.

  An operation lever insertion portion 26 provided with the outdoor operation lever 6 is formed in a concave shape on the back side (rear side) of the portion extending from the outdoor upper base 23 to the center in the vertical direction of the outdoor connection portion 25.

  In the arrangement space S3 formed on the lower side of the outdoor upper pedestal 23, the outdoor operation lever 6 is rotatably supported by the rotary shaft portion 27 while being urged rearward by the torsion coil spring 28. Yes. An outdoor latch bar 29 having a protruding portion 29 a extending in the door 2 is fixed to the upper part of the outdoor operation lever 6.

  In addition, the lower side of the outdoor lower pedestal 24 is formed in a hollow shape. Cylinder openings 4a are formed through the upper portion of the indoor upper pedestal 13 and the lower portion of the indoor lower pedestal 14, respectively.

  Each pedestal 23, 24 is provided with a pair of upper and lower screw holes 4b at positions corresponding to the respective screw insertion holes 3b. The outdoor upper pedestal 23 and the outdoor lower pedestal 24 are arranged so as to sandwich the door 2 between the indoor upper pedestal 13 and the indoor lower pedestal 14, respectively. The door 2 is inserted into each screw insertion hole 3b. The tip of the penetrating screw B2 is screwed into each screw hole 4b to be fixed to the door 2.

  In order to open the door 2 from the outside in the above configuration, the outdoor handle 4 is grasped and the outdoor operation lever 6 is pushed forward (pulled outward), together with the outdoor operation lever 6 and the outdoor side. The latch bar 29 rotates forward about the rotation shaft portion 27, and the protrusion 29a of the outdoor latch bar 29 moves downward. Then, when the projection 29a pushes down the operating piece, the latch bolt 7a is unlocked, and the latch bolt 7a can be retracted from the door 2a of the door 2. In addition, since the effect | action at the time of pressing operation of the indoor side operation lever 5 of the indoor side handle 3 is the same as the above-mentioned effect | action, the description is abbreviate | omitted.

  The locking / unlocking operation device 8 includes, for example, a non-contact IC card, a key head, a tag or a touch key that is contacted with a finger, a biometric authentication reader such as a numeric keypad or a fingerprint (not shown).

  As shown in FIGS. 1 and 2, the main electric lock 9 is provided inside the door 2 along the sill 2 a at the upper part of the indoor upper base 13 and the outdoor upper base 23. The main electric lock 9 is provided with a driving means such as a motor and a solenoid for moving the dead bolt 9a forward and backward with respect to the wooden mouth 2a of the door 2 and an electric board (none of which is shown) for controlling the driving means. The main electric lock 9 is provided with a thumb turn (not shown) for manually moving the dead bolt 9a forward and backward so as to be exposed from the thumb turn opening 3a of the indoor upper pedestal 13 to the room. Further, the main electric lock 9 is provided with a cylinder lock (not shown) that is locked and unlocked by inserting a mechanical key so as to be exposed to the outside from the cylinder opening 4 a of the outdoor upper base 23. .

  Similar to the main electric lock 9, the auxiliary electric lock 10 is provided inside the door 2 along the sill 2a below the indoor lower pedestal 14 and the outdoor lower pedestal 24, and drives the dead bolt 10a forward and backward. And an electric board (not shown). Further, the auxiliary electric lock 10 is provided with a thumb turn exposed from the thumb turn opening 3a of the indoor lower pedestal 14 to the room and a cylinder lock exposed outside from the cylinder opening 4a of the outdoor lower pedestal 24. (Both not shown).

  As shown in FIG. 1, the control device 11 is provided inside the door 2 above the main electric lock 9 and is constituted by a microcomputer (not shown) having a CPU, a ROM, a RAM, and the like. The control device 11 has a function of determining whether or not the authentication information read and transmitted by the locking / unlocking operation device 8 (a reader thereof) is correct authentication information. In addition, the control device 11 unlocks only one of the two electric locks 9 and 10 when the main electric lock 9 is locked, and also locks the sub electric lock 10 at the same time. When the electric lock is not unlocked, one unlocked electric lock is automatically and again locked.

  In order to realize the various functions by the control device 11, the control device 11 is electrically connected to the locking / unlocking operation device 8, the main electric lock 9, and the sub electric lock 10 via the cables 30. Has been. That is, control information and the like are transmitted through the cable 30.

  Next, the operation of the electric lock system 1 will be briefly described. It is assumed that power is supplied from the power supply device 12 to the locking / unlocking operation device 8, the electric locks 9 and 10, and the control device 11.

  First, when a person who wants to enter the room from outside the room holds the IC card or the like over the locking / unlocking operation device 8, authentication information is transmitted to the control device 11. The control device 11 determines whether or not the received authentication information matches specific authentication information stored in advance. As a result, if it is determined that they match, an unlock signal is output from the control device 11 to the main electric lock 9, and the main electric lock 9 is unlocked. Further, in conjunction with the unlocking of the main electric lock 9, an unlock signal is output from the control device 11, and the sub electric lock 10 is unlocked. On the other hand, when it is determined that they do not match, the main electric lock 9 is not unlocked.

  Next, the battery housing structure according to the first embodiment will be described in detail with reference to FIGS. 3 to 5. FIG. 5 is a perspective view showing the power supply device 12. In the following description, the front-rear direction is also referred to as “depth direction”, the front side is also referred to as “back side”, and the back side is also referred to as “front side”.

  The battery housing structure 31 is provided on the indoor handle 3 attached to the inner wall surface of the door 2, and includes the power supply device 12, the indoor lower pedestal 14, and the cover 20.

  As shown in FIGS. 3 to 5, the power supply device 12 is disposed in a power source space S <b> 2 (in the recess 14 a) formed in the indoor lower pedestal 14 of the indoor handle 3 described above, and includes a plurality of batteries. 32 and a cartridge 33 for holding each battery 32. In the first embodiment, four cylindrical dry batteries are used as the plurality of batteries 32.

  The cartridge 33 includes a cartridge main body 34 having a main appearance, and a cartridge lid 35 provided at the upper end of the cartridge main body 34.

  The cartridge main body 34 includes a battery accommodating portion 36 that can accommodate each battery 32 in a vertical direction, a cartridge base portion 37 that is fixed to the lower end of the battery accommodating portion 36, and a stopper 38 that is attached to the middle of the battery accommodating portion 36 in the vertical direction. 4), and is integrally formed of an insulating resin material.

  As well shown in FIGS. 3 and 5, the battery accommodating portion 36 is formed in a substantially cross shape in which four corner portions of a square are hollowed out in a plan view. The four hollowed portions are accommodation spaces S4 for accommodating the batteries 32. Accordingly, the four accommodation spaces S4 are formed in a grid of 2 rows and 2 columns in plan view. Each accommodation space S <b> 4 is formed in a semi-cylindrical shape whose vertical length (height) is substantially the same as the axial length of the battery 32. Note that lead metal fittings 40 (see FIG. 5) extend in the vertical direction on both the left and right side surfaces of the battery housing portion 36.

  The cartridge base portion 37 is integrally formed by a plate-like portion 41 formed in a flat plate shape and a pair of left and right rotating shaft support portions 42 protruding downward from the lower surface of the plate-like portion 41.

  On the upper surface of the plate-like portion 41, two rectangular first connection terminals 44 (conductive material such as metal) that are long in the left-right direction are arranged side by side in the depth direction. Each first connection terminal 44 comes into contact with a first electrode 32a (a negative electrode in the first embodiment) provided on one end (lower end) in the axial direction of each battery 32 accommodated in each accommodation space S4. .

  Further, a power cable 43 is connected to the lower first connection terminal 44 (negative electrode) and the lower end portion of the left lead fitting 40 (positive electrode) in FIG. The power cable 43 extends from the power supply space S2 through the wiring hole 14d into the door 2, and a receptacle connector 45 is attached to the tip of the power cable 43. The receptacle connector 45 is connected to a plug connector 30 a attached to the cable 30. Thus, the power supply device 12 supplies power to the locking / unlocking operation device 8, the main electric lock 9, the sub electric lock 10, the control device 11 and the like via the power cable 43 and the cable 30 ( (See FIG. 1). The cable 30 includes a power line and the like in addition to the control line.

  Each rotation shaft support portion 42 has a flat plate shape, is arranged in parallel in the left-right direction, and is supported by the power supply rotation shaft portion 21 provided in the power supply space S2. That is, the cartridge 33 is rotatably supported with respect to the indoor lower pedestal 14. Thereby, the cartridge main body 34 rotates in the front-rear direction about the power supply rotation shaft portion 21.

  As well shown in FIG. 4, the stopper 38 is formed in a strip shape having flexibility by an insulating resin material. The rear side end of the stopper 38 is fixed to the approximate center of the bottom surface (front side) of the recess 14 a in the vertical direction, and the near side end is fixed to the approximate center of the left side surface of the battery housing portion 36 in the vertical direction.

  Subsequently, the cartridge lid portion 35 is formed in a flat plate shape with an insulating resin material, and is attached to the upper end of the battery housing portion 36 via a lid hinge portion 46 provided at a substantially central portion in the left-right direction at the front end portion thereof. It has been. The cartridge lid portion 35 is supported so as to be pivotable in the front-rear direction around the axis of the lid hinge portion 46, and can open and close each housing space S4 of the battery housing portion 36.

  Two rectangular second connection terminals 47 (conductive material such as metal) that are long in the left-right direction are arranged in parallel in the depth direction on the lower surface of the cartridge lid portion 35. Each second connection terminal 47 is a second electrode 32b (in the first embodiment) provided on the other axial end (upper end) side of each battery 32 in a state in which each accommodation space S4 containing each battery 32 is closed. Contact with the positive electrode). Further, the second connection terminal 47 on the back side is connected to the first connection terminal 44 on the near side via the lead fitting 40 on the right side in FIG. 5, and the second connection terminal 47 on the near side is connected to the left side in FIG. It is connected to the power cable 43 through the lead fitting 40. That is, each lead metal fitting 40, each first connection terminal 44, and each second connection terminal 47 are electrically connected so as to form an appropriate electric circuit.

  Next, a procedure for replacing the battery 32 in the battery housing structure 31 will be described.

  First, the operator releases the engagement of the hook portion 20c with the hook engaging portion 14c, removes the cover 20 from the indoor lower pedestal 14, and exposes the power supply device 12 in the power supply space S2. In this state, the cartridge lid part 35 is urged downward by the leaf spring part 22 a of the lock lever 22. Further, the engagement protrusion 22 c of the lock lever 22 is engaged with the rear side end surface of the cartridge lid portion 35. Further, the stopper 38 is bent and hangs downward due to its own weight (see both FIG. 3A and FIG. 4A).

  Subsequently, the operator bends the leaf spring portion 22 a of the lock lever 22 upward to release the engagement between the cartridge lid portion 35 and the engagement protrusion 22 c, and removes the cartridge 33 around the power rotation shaft portion 21. Turn to the front side. When the rotation of the cartridge 33 proceeds, the stopper 38 is in a tensioned state, and the rotation of the cartridge 33 is restricted (see FIGS. 3B and 4B). That is, the cartridge 33 is tilted to a predetermined angle (for example, about 30 ° with respect to the inner wall surface of the door 2), and this predetermined angle is maintained. Thereby, it is possible to prevent the cartridge body 34 from rotating unintentionally and excessively outward. Note that the length of the stopper 38 is set to be a predetermined angle (tilt). Such a configuration in which the stopper 38 is provided is particularly effective when the rotation center is on the lower side of the cartridge main body 34 as in the battery housing structure 31 according to the first embodiment.

  With the cartridge 33 tilted to the front side in this way, the operator rotates the cartridge lid part 35 by flipping it up to the back side (for example, about 90 ° with respect to the upper surface of the battery housing part 36). . Thereby, each accommodation space S4 of the battery accommodating part 36 is open | released (refer FIG.3 (b)). Then, after each battery 32 whose upper end surface is exposed is pulled out obliquely upward along the axial direction, the battery 32 is replaced by inserting a new battery 32 into each accommodation space S4 from obliquely above. In the battery housing structure 31 according to the first embodiment, since the power rotation shaft portion 21 and the rotation shaft support portion 42 are provided at the lower end portion of the cartridge 33, each battery 32 is utilized by utilizing its own weight. The insertion (replacement) can be completed by inserting the cartridge 32 into the cartridge body 34 so as to slide from above.

  Next, the operator again rotates the cartridge lid 35 to the near side, closes each accommodation space S4, and rotates the cartridge 33 to the back side. As the rotation of the cartridge 33 progresses, the stopper 38 is bent and folded, and the engagement protrusion 22c of the lock lever 22 starts to slidably contact the upper surface of the cartridge lid portion 35, and the leaf spring portion 22a bends upward. . Further, when the rotation of the cartridge 33 is advanced, the engaging protrusion 22c is locked to the front end surface of the cartridge lid portion 35 by the restoring force of the leaf spring portion 22a. In this state, the cartridge 33 is immovably held in the recess 14a (power supply space S2) of the indoor lower pedestal 14. Further, the cartridge lid portion 35 is biased downward by the leaf spring portion 22 a of the lock lever 22, and the connection terminals 44 and 47 of the cartridge 33 are in contact with the electrodes 32 a and 32 b of the battery 32. Yes.

  According to the battery housing structure 31 according to the first embodiment described above, the cartridge main body 34 is tilted by turning to expose the cartridge main body 34 to the outside of the indoor lower pedestal 14, and then the cartridge lid 35 is mounted. By opening, each battery 32 in the cartridge body 34 can be replaced. This replacement operation is performed by inserting and removing the battery 32 in the axial direction. Thereby, the replacement | exchange operation | work of the battery 32 can be performed easily and rapidly. Further, it is possible to prevent an excessive force from acting on the cartridge 33 when the battery 32 is inserted and removed (exchanged). Therefore, no load is applied to the power cable 43 extending from the cartridge 33, and damage to the power cable 43, detachment of the receptacle connector 45, and the like can be effectively suppressed. In particular, when a plurality of batteries 32 are replaced, the labor and time required for the replacement work can be effectively reduced, and the work efficiency can be greatly improved.

  A so-called resin hinge made of a flexible resin may be used in place of the power supply rotation shaft portion 21 and the rotation shaft support portion 42. In this case, a portion extending downward from the lower surface of the cartridge base 37 is fixed to the lower end portion of the recess 14a, and a resin hinge is provided between the fixed portion and the cartridge base 37 so that the resin hinge is the center. The cartridge 33 rotates. Moreover, you may comprise the cover hinge part 46 with a resin hinge.

Second Embodiment
Next, a battery housing structure according to a second embodiment of the present invention will be described with reference to FIGS. 6A and 6B are perspective views showing the battery housing structure, in which FIG. 6A shows a state where a cover is attached, and FIG. 6B shows a state where the cover and the power supply device 12 are rotated. FIG. 7 is a side sectional view showing the battery housing structure and shows a state where the cover and the power supply device 12 are rotated. Hereinafter, the same components as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted.

  In the battery housing structure 31 according to the first embodiment described above, the cover 20 is configured to be completely removed from the indoor lower pedestal 14, but in the battery housing structure 50 according to the second embodiment, the cover 51 is The cover is supported by a cover hinge portion 52 provided on the lower end side of the indoor lower pedestal 14 so as to be rotatable. Further, in the battery housing structure 50 according to the second embodiment, the power supply rotation shaft portion 21 of the indoor lower pedestal 14 and the rotation shaft support portion 42 of the cartridge base 37 are omitted, and the cartridge 33 (power supply device 12). Is fixed to the inside of the cover 51.

  Specifically, the cover 51 includes a cover body 53 formed so as to be able to close the power supply space S2 (opening 14b) and a cover hinge 52 attached to the lower edge of the opening 14b. And a cover fixing portion 54 connected to each other, and is integrally formed of an insulating resin material.

  The cover main body 53 has a back surface portion 53a and a pair of left and right side surface portions 53b substantially the same as the cover 20 according to the first embodiment, but instead of the hook portion 20c, a cover lock engaging portion is provided at the upper end portion thereof. 55 is formed. The cover lock engaging portion 55 is engaged with a cover lock knob 56 provided at the upper edge of the opening 14b of the indoor lower pedestal 14. The cover lock knob 56 is always biased downward by a spring (not shown), and the cover lock knob 56 is disengaged from the cover lock engagement portion 55 by sliding the cover lock knob 56 upward. ing.

  As shown well in FIG. 7, the cover fixing portion 54 extends from the lower end of the cover main body 53 into the power source space S <b> 2 and is bent upward at the back end portion. The cover fixing portion 54 is fixed to the lower end portion of the concave portion 14a by a screw B3 at the bent portion.

  The cover hinge portion 52 is thinner than the cover main body 53 and the cover fixing portion 54 and is formed of a flexible resin (so-called resin hinge). Thereby, the cover main body 53 is supported by the cover fixing portion 54 so as to be rotatable around the cover hinge portion 52.

  The cartridge 33 is substantially the same as that according to the first embodiment, and is formed smaller than the back surface portion 53 a of the cover main body 53. The cartridge 33 is fixed inside the back surface portion 53a (on the side of the power supply space S2 with the opening 14b closed) so as not to protrude from the back surface portion 53a in the back view. Therefore, the cartridge 33 faces the space surrounded by the back surface portion 53a and the side surface portions 53b, and faces the power source space S2 when the cover body 53 is rotated to close the power source space S2. . In addition, the fixing method of the cartridge 33 with respect to the cover main body 53 (back surface part 53a) can use arbitrary means, such as screwing, an adhesive agent, and other engagement mechanisms.

  In the state where the cover main body 53 closes the power supply space S2, the cartridge lid portion 35 of the cartridge 33 is pressed against the lock lever 57 (the engagement protrusion 22c is omitted) provided at the upper end portion of the concave portion 14a. The connection terminals 44 and 47 of the cartridge 33 are in contact with the electrodes 32 a and 32 b of the battery 32. Thereby, an appropriate electric circuit is formed in the power supply device 12.

  Next, a procedure for replacing the battery 32 in the battery housing structure 50 will be described.

  The operator pushes up the cover lock knob 56 to release the engagement with the cover lock engagement portion 55, and then rotates the cartridge 33 together with the cover 51 around the cover hinge portion 52. When the rotation is restricted by the stopper 38, the cover 51 and the cartridge 33 are maintained at a predetermined angle (see FIGS. 6B and 7).

  Next, the operator rotates the cartridge lid part 35 to open the battery accommodating part 36, whereby the batteries 32 accommodated in the accommodating spaces S4 are exchanged. Thereafter, the cartridge 33 is accommodated in the power source space S2 and the opening 14b is closed by the cover 51 by a procedure reverse to the above.

  According to the battery housing structure 50 according to the second embodiment described above, the cover 51 and the cartridge 33 can be integrally rotated (tilted). Accordingly, the cartridge main body 34 in a state of being tilted in conjunction with the opening operation of the cover 51 and closed by the cartridge lid 35 can be exposed to the outside of the indoor lower pedestal 14. Thereby, since the cartridge main body 34 can be easily pulled out to the outside of the indoor lower pedestal 14 (opening 14b), the process for replacing the battery 32 can be simplified. That is, the battery 32 can be replaced quickly and easily. In the battery housing structure 50, since the cover hinge portion 52 is provided at the lower end portion, by using the own weight of each battery 32, each battery 32 is inserted into the cartridge body 34 so as to slide from above. Installation (replacement) can be completed.

  Instead of the cover hinge portion 52 made of resin, the power supply rotation shaft portion 21 may be provided to support the cover 51 in the same manner as in the first embodiment.

  In the cartridge 33 according to the first and second embodiments described above, the cartridge lid portion 35 is attached to the cartridge main body 34. Instead, the indoor lower pedestal 14 is provided via the lid hinge portion 46. It may be attached to (concave part 14a). In this case, in a state where the cartridge 33 is accommodated in the power supply space S2, the cartridge lid 35 closes the battery accommodating portion 36, and the cartridge lid 35 is prior to the rotation (tilting) of the cartridge body 34 accompanying the replacement operation. Is rotated to open the battery housing 36. In addition, the cartridge lid 35 may be attached to the covers 20 and 51, or a mechanism for rotating the cartridge lid 35 in conjunction with the rotation (tilting) of the cartridge body 34 may be provided. Good.

<Third Embodiment>
Next, a battery housing structure according to a third embodiment of the present invention will be described with reference to FIG. FIG. 8 is a perspective view showing the battery housing structure, and shows a state where the power supply device 12 is rotated. Hereinafter, the same components as those in the first embodiment described above are denoted by the same reference numerals, and the description thereof is omitted.

  In the cartridge 61 of the battery housing structure 60 according to the third embodiment, the cartridge lid 35 is omitted, and each second connection terminal 47 is provided in the cartridge main body 62.

  Specifically, the cartridge main body 62 is integrally formed of an insulating resin material in a frame shape that penetrates in the left-right direction and has an opening, and includes a pair of holding surface portions 63 that form both front and rear end surfaces, and upper and lower end surfaces. And a pair of terminal forming portions 64 that form the same.

  Two batteries 32 are housed side by side in the front, rear, left, and right in a space surrounded by each holding surface portion 63 and each terminal forming portion 64. Although not shown, two first connection terminals 44 are provided on the upper surface of the lower terminal formation portion 64, and two second connection terminals 47 are provided on the lower surface of the upper terminal formation portion 64. ing. Further, on the lower surface of the lower terminal forming portion 64, a rotation shaft support portion 42 that is supported by the power supply rotation shaft portion 21 of the power supply space S2 is provided. On the upper surface of the upper terminal forming portion 64, there is provided an engagement piece portion 65 that engages with the lock lever 22 of the recess 14a (power supply space S2). A so-called resin hinge made of a flexible resin may be used in place of the power supply rotation shaft portion 21 and the rotation shaft support portion 42.

  In order to replace each battery 32 in the battery housing structure 60 described above, first, the cover 20 is completely removed, and then the engagement between the lock lever 22 and the engagement piece portion 65 is released, and the power rotation shaft portion 21 is removed. And the cartridge 61 is rotated forward until it is regulated by the stopper 38. Then, two batteries 32 are taken out from each of the left and right side surfaces of the cartridge body 62. Thereafter, a new battery 32 is mounted, and the cartridge 61 (cartridge main body 62) is rotated into the power source space S2 by a procedure reverse to the above, and the cover 20 is attached to the indoor lower pedestal 14.

  According to the battery housing structure 60 according to the third embodiment described above, the cartridge 61 can be moved to the outside where the replacement work of the battery 32 can be easily performed by rotating and tilting the cartridge 61. 32 replacement operations can be easily performed.

<Fourth embodiment>
Next, a battery housing structure according to a fourth embodiment of the present invention will be described with reference to FIG. FIG. 9 is a side sectional view showing the battery housing structure, and shows a state where the power supply device 12 is rotated. Hereinafter, the same components as those in the first to third embodiments described above are denoted by the same reference numerals, and the description thereof is omitted.

  In the battery housing structures 31, 50, 60 according to the first to third embodiments described above, the rotation centers of the cartridges 33, 61 and the like are provided on the lower side, but the battery housing structure 70 according to the fourth embodiment is provided. Then, the rotation center of the cartridge 71 is provided on the upper side.

  For example, the cartridge 71 of the battery housing structure 70 has a cartridge fixing portion 73 that extends upward via a resin hinge 72 provided on the front side of the upper end portion. The cartridge fixing portion 73 is fixed to the upper end portion of the indoor lower pedestal 14 with a screw B4. Thereby, the cartridge 71 is suspended in the power supply space S2 so as to rotate in the front-rear direction around the resin hinge 72. In this case, the lock lever 22 is disposed below the concave portion 14a (power supply space S2), and an engagement piece portion 74 that engages with the lock lever 22 is provided on the lower surface of the cartridge 71.

  Instead of the resin hinge 72, the cartridge 71 may be pivotally supported by the power pivot shaft 21 disposed on the upper end side via the pivot shaft support portion 42 as in the first embodiment. Moreover, the cover hinge part 52 which concerns on 2nd Embodiment may be provided in the upper end side (upper edge part of the opening part 14b) of the indoor lower pedestal 14, and you may comprise so that the cover 51 can be suspended.

  When the rotation center of the cartridge 71 is provided on the upper end side as in the battery housing structure 70 according to the fourth embodiment described above, for example, when the cartridge lid 35 is opened, each battery 32 falls off due to its own weight. Therefore, each battery 32 can be easily taken out. In addition, since the cartridge main body 34 can be rotated in a state in which the battery housing portion 36 is closed by the cartridge lid portion 35, it is possible to prevent the batteries 32 from dropping off during the rotation.

  Further, since the cartridge 71 is suspended from the upper end, even if the lock lever 22 is released, it does not rotate excessively due to its own weight. For this reason, the stopper 38 can be omitted, and the battery housing structure 70 can have a simpler configuration.

  In the power supply device 12 according to the first to fourth embodiments described above, the four cylindrical batteries 32 are used. However, the number (number) of the batteries 32 may be one or more. Further, for example, a rectangular parallelepiped or flat battery 32 may be used. The battery 32 may be a primary battery or a secondary battery. Furthermore, the direction of each electrode 32a, 32b of the battery 32 is not limited to the above. Further, the number of accommodation spaces S4 may be set according to the number of batteries 32 accommodated. For example, two or more accommodation spaces S4 may be provided in parallel in the front, rear, left, and right directions, or the accommodation spaces S4 may be arranged in a staggered manner.

  The stopper 38 may be provided on both the left and right side surfaces of the battery housing part 36, or the front end thereof may be fixed to the upper part of the battery housing part 36 or the cartridge lid part 35. In the case of the battery housing structure 50 according to the second embodiment, the rear end of the stopper 38 may be fixed to the cover 51. Further, a link mechanism using a plurality of rigid bodies may be used as the stopper 38 in place of the belt-like stopper 38 having flexibility. Further, the stopper 38 may be omitted.

  The power supply device 12 according to the first to fourth embodiments described above is installed in the indoor lower pedestal 14, but instead, the indoor upper pedestal 13, the indoor side connecting portion 15, or the room You may make it install in either of the outer side handles 4. FIG.

  In addition, since description of each embodiment of the above-mentioned this invention and its modification has demonstrated the preferred embodiment in the battery accommodating structure 31,50,60,70 which concerns on this invention, it is technically preferable various. However, the technical scope of the present invention is not limited to these embodiments unless specifically described to limit the present invention. Furthermore, the constituent elements in the above-described embodiments of the present invention can be appropriately replaced with existing constituent elements, and various variations including combinations with other existing constituent elements are possible. The descriptions of the embodiments and the like of the present invention described above do not limit the contents of the invention described in the claims.

2 Door 3 Indoor side handle (handle)
14 Indoor lower pedestal (pedestal)
14b Opening 20, 51 Cover 21 Power supply rotation shaft (rotation shaft)
31, 50, 60, 70 Battery housing structure 32 Battery 33, 61, 71 Cartridge 34, 62 Cartridge main body 35 Cartridge lid portion 36 Battery housing portion 38 Stopper 46 Lid hinge portion 52 Cover hinge portion S2 Power supply space

Claims (7)

A battery housing structure of a battery type electric lock provided on a handle attached to a wall surface of a door,
A cartridge in which a battery accommodating portion for accommodating the battery vertically is formed;
A pedestal of the handle in which a space for installing the cartridge is formed, and
One of the upper and lower ends of the cartridge is supported by the pedestal so that the cartridge can rotate outward from the space. The pedestal has a cover capable of opening and closing the space,
The cover is detachably provided on the pedestal,
The battery housing structure according to claim 1, wherein the cartridge is rotatably supported by the pedestal. The pedestal has a cover capable of opening and closing the space,
The battery housing structure according to claim 1, wherein the cover is rotatably supported on the base integrally with the cartridge.   The cartridge includes the cartridge body in which the battery housing portion is installed and supported at one of the upper and lower ends so that the battery housing portion can be rotated outward from the space, and either the upper or lower side of the battery housed in the battery housing portion. The battery housing structure according to claim 1, further comprising a cartridge lid portion that is detachably attached to the other end.   The battery housing structure according to claim 4, wherein the cartridge lid is rotatably supported with respect to the cartridge main body. The cartridge is supported so as to be rotatable at the lower end side,
The battery housing structure according to claim 1, wherein the cartridge is provided with a stopper that restricts outward rotation.   The battery housing structure according to claim 1, wherein the cartridge is supported so as to be rotatable at an upper end side.

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