JP2006348620A - Opening/closing system and its program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a door lock to be manually opened/closed when an energy source is measured to be less than a specified value. <P>SOLUTION: This opening/closing system equipped with the energy source 102 and remotely operable to open/close, has a door side terminal 101 comprising the energy source 102 for supplying energy, an energy residual quantity measuring means 103 for measuring the residual quantity of the energy source 102, and the lock 105 for opening/closing the door. When the energy source 102 is measured to be less than the specified value by the measurement of the energy residual quantity measuring means 103, the door side terminal 101 opens a keyhole closing instrument 104 to allow the lock 105 to be manually opened/closed. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an opening / closing system capable of remotely operating opening / closing of doors or locks, or both, and a program thereof.

  Conventionally, this type of opening and closing system uses an energy source by a DC power source such as an AC power source or a battery, and a control terminal is built in a conventional door, and can be manually or electrically opened and closed (for example, Patent Document 1).

  FIG. 6 shows a conventional opening / closing system described in Patent Document 1. In FIG. As shown in FIG. 6, a door 601, a remote control key 602, a send button 609, a mechanical key 603, a receiving pack 604 that is a receiving unit built in the door 601, a lid 610, and a door 601 for opening and closing the door 601. The knob 605, the keyhole 606, the lock 607, and the insertion slot 608 of the receiver pack 604 are configured.

  As shown in FIG. 7, the reception unit pack 604 includes a reception antenna 701, an ID registration / deletion unit 702, a reception processing unit 703, a control processing unit 704, a power supply unit 705, and a mechanism unit 706.

  An insertion port 608 for inserting the reception unit pack 604 is provided on the side surface of the door 601. The reception unit pack 604 is inserted into the insertion port 608, and the insertion port 608 is closed with a lid 610, not shown. Secure with screws.

  The power supply unit 705 uses a dry battery, a rechargeable battery, or the like, and serves as a power source for an ID registration / deletion unit 702, a reception processing unit 703, a control processing unit 704, a mechanism unit 706, and the like. The mechanical key 603 is a so-called commonly used key that does not have a signal transmission function, and can be locked and unlocked by being inserted into the keyhole 606 and rotated. The remote control key 602 is inserted into the keyhole 606 of the door 601 and rotated. It can also be locked and unlocked.

The ID registration / deletion unit 702 deletes the identification code ID data for identifying whether or not the remote control key 602 is suitable for the door 601. The control signal is a radio wave signal including an identification code ID. When the control signal is received by the receiving antenna 701, the identification code ID included in the control signal matches the identification code ID data registered in advance. Lock and unlock.
JP 09-256701 A

  However, in the conventional configuration, a key hole is provided so that the door can always be opened with either a mechanical key or a remote control key. However, if a keyhole is provided, there is a possibility of damage due to entry due to picking. Further, when an energy source such as a battery is used to simplify the installation of the opening / closing system, there is a possibility that the door cannot be opened when the power is turned off.

  In other words, there is a problem of preventing the situation where the lock cannot be unlocked when the energy source runs out of energy while using only the power supply on the mobile terminal side without using wiring to the power supply and protecting the picking measures. Was.

An object of the present invention is to solve the above-described conventional problems, and to provide an opening / closing system in which a lock can be manually opened / closed when an energy source falls below a value designated by an energy remaining amount confirmation unit. And

  In order to solve the above-described conventional problems, an opening / closing system and a program therefor according to the present invention include an energy source that supplies energy necessary for remote operation in an opening / closing system that includes an energy source and can remotely open and close the lock, A door-side terminal comprising energy remaining amount measuring means for measuring the remaining amount of the energy source and a lock that is opened and closed by the remote operation, wherein the door-side terminal is designated with the energy source by measurement of the energy remaining amount measuring means; When it is measured that the value is lower than the above value, the lock can be manually opened and closed.

  As a result, the lock can be opened and closed even when the energy source is out of energy without using a wiring to a complicated power source using the energy source.

  The opening and closing system and the program of the present invention can manually open and close the lock when the energy source falls below a specified value.

  The first invention is an opening / closing system provided with an energy source and capable of remotely controlling the opening and closing of the lock, the energy source for supplying energy required for remote operation, and an energy remaining amount measuring means for measuring the remaining amount of the energy source; A door-side terminal comprising a lock that is opened and closed by the remote operation, and when the door-side terminal is measured by the measurement of the remaining energy measuring means that the energy source is below a specified value, the lock Since it can be manually opened and closed, the lock can be opened and closed even when the energy source runs out of energy while going out, and can be prevented from being closed.

  A second aspect of the present invention is an opening / closing system including an energy source and capable of remotely controlling the opening / closing of a lock, and a portable terminal side energy source for supplying energy to the portable terminal, and a portable terminal side energy for measuring the remaining amount of the portable terminal side energy source. When the portable terminal is provided with the remaining amount measuring means, and the portable terminal is measured by the measurement of the portable terminal side energy remaining amount measuring means that the portable terminal side energy source is less than a specified value, Since the lock can be manually opened and closed, the lock can be opened and closed even when the energy source is out of energy while going out, and can be prevented from being closed.

  In particular, the third aspect of the invention relates to the portable terminal side energy remaining amount from the portable terminal side transceiver installed in the portable terminal of the opening / closing system of the second invention to the door side transceiver installed in the door side terminal. Even if the portable energy source is cut off, it is possible to grasp the remaining amount of the energy source and the remaining amount of the portable terminal side energy source at the door side terminal by sending the measurement result of the measuring means. Even when the side energy source is cut off, the lock can be manually opened and closed.

  According to a fourth aspect of the invention, in particular, in the opening / closing system of the first, second or third aspect of the invention, the energy source is less than a value designated by the remaining energy measuring means, or the door side transceiver is When the information indicating that the energy source on the portable terminal side has fallen below the specified value, the lock can be manually opened and closed by opening a keyhole closing device for closing the keyhole, so that the energy source can be energized while going out. Even if it is cut, the lock can be opened and closed, and the lock can be prevented.

In the fifth aspect of the invention, in particular, in the portable terminal, the opening and closing system of the fourth aspect of the invention is inserted into the keyhole to open and close the lock, or to rotate by inserting and rotating the lock. Key fixing means for fixing to the portable terminal is provided, and the key fixing means is opened only when the keyhole closing device is open, and the key can be used so that the key can be locked when the energy source is out of energy. You can prevent losing keys that you do not have.

  According to a sixth aspect of the present invention, at least a part of the functions of the open / close system is programmed to facilitate at least a part of the communication system of the present invention by cooperating hardware resources such as electrical / information equipment, a computer, and a server. Can be realized.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. Note that the present invention is not limited to the embodiments.

(Embodiment 1)
FIG. 1 is a configuration diagram of an opening / closing system according to a first embodiment of the present invention.

  In FIG. 1, a door-side terminal 101 includes an energy source 102 that supplies energy without requiring a wired connection to a power source, an energy remaining amount measuring unit 103 that measures the remaining amount of energy, and a keyhole closing device 104 that closes the keyhole. A door 105 that opens and closes the door, a door-side state notification means 106 that detects the open / closed state of the door or the lock 105, a door-side transceiver 107 that communicates with the mobile terminal 111, and a controller 108 that controls the operation thereof. And an operation button 109 for operating it and an energy source exchange recognizing means 110 for recognizing that the energy source has been exchanged.

  The portable terminal 111 includes a portable terminal-side transceiver 112 that communicates with the door-side terminal 101, a portable-terminal-side energy source 113 that supplies energy to the portable terminal 111, and a portable-terminal-side state notification unit 114 that notifies the state of the lock. A portable terminal side energy remaining amount measuring means 115 for measuring the remaining amount of energy, a portable terminal side controller 116 for controlling them, a portable terminal side operation button 117 for operating it, and a portable terminal side energy source. It comprises mobile terminal side energy source exchange recognition means 118 for recognizing the exchange.

  This opening / closing system can have one door-side terminal 101 and a plurality of portable terminals 111.

  FIG. 2 shows a flowchart of the procedure for detecting the remaining energy of the door side terminal. FIG. 3 shows a flowchart of a procedure for detecting the remaining energy on the portable terminal side. FIG. 4 is an external view of the door side terminal 101 including the keyhole closing device 104 and the keyhole 404. FIG. 5 shows an external view of the mobile terminal 111.

  The operation and action of the open / close system configured as described above will be described below.

  First, the case where this opening / closing system is attached to a single house, an apartment, or a condominium where a general household lives will be described.

  First, (1) the case of detecting the remaining amount of energy of the energy source 102, and (2) the case of detecting the remaining amount of energy of the portable terminal side energy source 112 will be described with reference to FIGS.

First, (1) the remaining energy measuring means 103 measures the remaining energy of the energy source 102 in S1 of the flowchart of the procedure for detecting the remaining energy of the door side terminal in FIG. It is assumed that a certain time or interval is incorporated in the controller 108 in advance for the timing of measurement.

  It is also possible to grasp by operating the portable terminal side operation button 117 or the operation button 109 at a timing when the user wants to check the remaining energy.

  Here, the structure which looked at the door side terminal 101 from the inner side of the door is demonstrated using Fig.4 (a). The door-side terminal 101 includes an operation button 109 inside, and the door-side state notifying unit 106 includes, for example, a sound generating unit 401, a light emitting unit 402, and a display unit 403.

  Next, when the remaining amount of the energy source 102 exceeds the energy level preset in the controller 108 in S2, a state notification is made on the door side in S3. The door-side state notifying means 106 informs that the remaining energy is above a certain level.

  Here, the notification method of the door side state notifying unit 106 and the portable terminal side state notifying unit 114 will be described. Both means can use the same structure or different structures.

  For example, the door-side state notifying unit 106 and the portable terminal-side state notifying unit 114 include a light emitting unit 402, which is set to glow blue when energy is above a certain level, glow red when below energy. It is possible. Further, it is possible to turn on or sound from the sound generation means 402 or both only when the level is below a certain level.

  In addition to comparing the remaining amount of energy with a certain level, it is also possible to display as a graph on the display means 403 how much energy remains until it falls below a certain level. In the portable terminal side state notifying unit 114, vibration can be used.

  It is possible to select how the user wants the door state notification means 106 to notify the state of the energy source 102 by pressing the operation button 109.

  Next, in S4, information with energy is transmitted to the portable terminal 111 by the door-side transceiver 107.

  In S <b> 5, the mobile terminal 111 receives information with energy by the mobile terminal side transceiver 112. As a result, both the door-side terminal 101 and the portable terminal 111 have a common recognition that the remaining amount of the energy source 102 is equal to or higher than a certain level.

  Here, the configuration of the mobile terminal 111 will be described with reference to FIG. The mobile terminal 111 includes a mobile terminal side operation button 117, a mobile terminal side state notifying unit 114, a key 501, and a key fixing unit 119. The mobile terminal side state notifying unit 114 is, for example, a mobile terminal side light emitting device. Means 502, portable terminal side sound generation means 503, and portable terminal side display means 504 are provided.

  In S6, the portable terminal 111 uses the portable terminal side state notifying unit 114 to confirm that the remaining energy level of the energy source 102 is equal to or higher than a certain level by using the portable terminal side sound generating unit 503 to generate sound or portable terminal side light emitting unit. In 502, at least one of the graphs is transmitted using light or the portable terminal side display means 504.

  It is possible to select how the user wants the portable terminal side state notifying unit 114 to notify the state of the energy source 102 by pressing the operation button 109 or the portable terminal side operation button 117.

  Similarly, the lock 105 can be opened and closed by pressing the operation button 117 on the portable terminal side, and the state of the lock 105 is lit. It is also possible to set the portable terminal side operation button 117 to shine only when it is desired to check the state of the lock 105 in order to reduce energy.

  Next, the case where the remaining energy level of the energy source 102 is below a certain level in S2 will be described.

  In S7, the controller 108 recognizes that the remaining energy level of the energy source 102 is below a certain level by reading the result of the remaining energy measuring unit 103, and opens the keyhole closing device 104.

  In this case, as shown in the view of the door-side terminal 101 in FIG. 4B viewed from the side facing the outside of the door, for example, the keyhole closing device 104 is shifted to the upper side of the door-side terminal 101 and the keyhole 404 is locked. It becomes possible to point.

  As shown in FIG. 5B, the key 501 is configured such that the key 501 fixed to the portable terminal 111 by the key fixing means 119 can be taken out. When the remaining energy is below a certain level, the key hole 404 is used. It becomes possible to touch.

  It is also possible to set the portable terminal side controller 116 so that the key fixing means 119 can take out the key 501 only when the remaining energy is below a certain level.

  Next, in S8, the door-side terminal 101 uses the door-side state notifying means 106 to notify that the remaining energy is below a certain level using at least one of sound, light, or an image.

  Next, in S <b> 9, the door-side terminal 101 transmits the out-of-energy information to the portable terminal 111 using the door-side transceiver 107.

  In step S <b> 10, the portable terminal 111 receives the out-of-energy information by the portable terminal side transceiver 112.

  If the setting is such that the key 501 can be taken out only when the remaining energy is below a certain level, the key fixing means 119 is opened in S11.

  Next, in S12, the portable terminal side controller 116 recognizes that the remaining energy of the energy source 102 is below a certain level by reading out of energy information received by the portable terminal side transceiver 112, and notifies the portable terminal side state notification. Means 114 communicates at least one of sound, light or image.

  The user who notices that the energy has been exhausted replaces the energy source 102, and in S13, the energy source replacement recognition unit 110 recognizes that the energy source 102 has been replaced. At this time, since the user may accidentally replenish the energy source 102 that has run out of energy, the remaining energy measurement unit 103 measures the remaining energy again in S14.

  If the remaining energy level is measured by the remaining energy level measuring means 103 in S15, the door side state notification is made using sound in S16 so that the user will immediately notice. Means 106 informs the user that the energy has run out.

  If the remaining amount of energy of the energy source 102 is equal to or higher than a certain level in S15, the controller 108 reads the result of the remaining energy measuring means 103 in S17, so that the remaining energy level of the energy source 102 is equal to or higher than a certain level. And the keyhole closing device 104 is closed.

  If the setting is such that the key 501 can be taken out only when the remaining energy is below a certain level, the key fixing means 119 is closed in S18.

  Next, in S19, the door-side terminal 101 uses the door-side state notifying means 106 to notify that the remaining energy level is equal to or higher than a certain level using at least one of sound, light, or an image.

  In step S <b> 20, the door-side terminal 101 transmits information with energy to the portable terminal 111 using the door-side transceiver 107.

  In step S <b> 21, the portable terminal 111 receives information with energy by the portable terminal side transceiver 112.

  Finally, in S22, the portable terminal side controller 116 recognizes that the remaining energy level of the energy source 102 is equal to or higher than a certain level by reading the information with energy received by the portable terminal side transceiver 112, and the portable terminal side state notifying means. 114 communicates at least one of sound, light or image.

  In addition, although the case where the one portable terminal 111 was utilized was demonstrated in this Embodiment, when there are two or more portable terminals 111, all the information transmitted to the portable terminal 111 from the door side terminal 101 is all. It is transmitted to the portable terminal 111.

  Next, (2) the case where the remaining energy of the portable terminal side energy source 112 has become below a certain level will be described with reference to the flowchart of FIG.

  First, in S <b> 23, the portable terminal side energy remaining amount measuring means 115 measures the remaining energy of the portable terminal side energy source 113. A predetermined time and interval are set in advance in the portable terminal side controller 116 at the timing of measurement.

  It is also possible to grasp by operating the portable terminal side operation button 117 at the timing when the user wants to check the remaining energy.

  Next, when the remaining amount of the portable terminal side energy source 113 exceeds the energy level set in advance in the portable terminal side controller 116 in S24, the state notification is performed on the portable terminal side in S25. The portable terminal side state notifying means 114 notifies that the remaining energy is above a certain level.

  Next, in S26, information with energy is transmitted to the door side terminal 101 by the portable terminal side transceiver 112.

  In S <b> 27, the door-side terminal receives information with energy by the door-side transceiver 107. In S28, the door-side terminal 101 uses the door-side state notifying means 106 to notify that the remaining energy level of the portable terminal-side energy source 113 is equal to or higher than a certain level using at least one of sound, light, or an image. .

  Next, the case where the remaining energy level of the portable terminal side energy source 113 is below a certain level in S24 will be described.

  In S29, the portable terminal side controller 116 recognizes that the remaining energy of the portable terminal side energy source 113 is below a certain level by reading the result of the portable terminal side energy remaining amount measuring means 115, and in S30. The out-of-energy information is transmitted to the door-side terminal 101 by the portable terminal-side transceiver 112.

  In S31, the door-side terminal 101 receives the out-of-energy information by the door-side transceiver 107, and opens the keyhole closing instrument 104 in S32.

  If the setting is such that the key 501 can be taken out only when the remaining energy is below a certain level, the key fixing means 119 is opened in S33.

  In S34, the door-side state notifying means 106 is used to notify that the remaining energy level of the portable terminal-side energy source 113 is below a certain level using at least one of sound, light or image.

  The user who notices that the energy has run out replaces the portable terminal side energy source 113 and recognizes that the portable terminal side energy source exchange recognition means 118 has been replaced in S35. At this time, since there is a possibility that the user will accidentally replenish the portable terminal side energy source 113 which has run out of energy, the portable terminal side energy remaining amount measuring means 115 measures the remaining amount of energy again in S36.

  If the remaining amount of energy is measured by the remaining energy measuring means 115 at S37 if the remaining amount of energy is below a certain level, the mobile terminal side uses the sound at S38 so that the user will immediately notice it. The state notification means 114 notifies the energy outage state.

  If the setting is such that the key 501 can be taken out only when the remaining energy is below a certain level, the key fixing means 119 is opened in S39.

  If the remaining energy level of the portable terminal side energy source 113 is equal to or higher than a certain level in S37, the portable terminal 111 uses the portable terminal side state notifying means 114 in S40 and the remaining energy level is equal to or higher than a certain level. Communicate using at least one of sound, light or image.

  In S <b> 41, the portable terminal 111 transmits information with energy to the door-side terminal 101 by the portable terminal-side transceiver 112.

  In S <b> 42, the door-side terminal 101 receives information with energy by the door-side transceiver 107.

  In S43, the controller 108 recognizes that the remaining energy of the portable terminal side energy source 113 is equal to or higher than a certain level by reading the received information with energy, and closes the keyhole closing device 104.

  Finally, in S44, the door-side terminal 101 uses the door-side state notifying means 106 to notify that the remaining energy is above a certain level using at least one of sound, light, or an image.

  When there are a plurality of mobile terminals 111 and the mobile terminal side energy source 112 of one mobile terminal 111 has run out of energy, the out of energy information is sent from the terminal that has run out of energy to the door side terminal 101, The keyhole closing device 104 is opened, and the opening is sent to all the portable terminals 111.

  As described above, in the present embodiment, when the energy source 102 falls below the value specified by the controller 108, the lock 105 can be manually opened and closed, so that the energy source 102 is turned off. The lock 105 can be opened and can be prevented from being closed. In addition, when the portable terminal side energy source 113 falls below a value specified by the portable terminal side controller 116, the portable terminal side energy source 102 is cut off because the lock 105 can be manually opened and closed. The lock 105 can be opened and can be prevented from being closed.

  The keyhole closing device and the key fixing means described in the embodiment of the present invention are not limited to the methods shown in FIGS. 4 and 5, but are examples, and other methods may be used.

  Note that the means described in this embodiment causes hardware resources such as a CPU (or microcomputer), a RAM, a ROM, a storage / recording device, an electrical / information device including an I / O, a computer, a server, and the like to cooperate. You may implement with the form of a program. In the form of a program, new functions can be easily distributed / updated and installed by recording them on a recording medium such as magnetic media or optical media or distributing them via a communication line such as the Internet.

  As described above, the opening / closing system and the program according to the present invention provide an opening / closing system in which the lock can be manually opened / closed when the energy source falls below the value specified by the remaining energy checking means. Therefore, it can be applied to uses such as an automobile opening / closing system.

The block diagram of the opening-closing system in Embodiment 1 of this invention The flowchart of the procedure which detects the remaining energy of the door side in Embodiment 1 of this invention. Flowchart of the procedure for detecting the remaining energy on the portable terminal side in Embodiment 1 of the present invention External view of the door side terminal in Embodiment 1 of this invention External view of the portable terminal in Embodiment 1 of this invention External view of conventional switching system Block diagram of a receiver pack of a conventional switching system

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 Door side terminal 102 Energy source 103 Energy remaining amount measurement means 104 Keyhole closing instrument 105 Lock 106 Door side state notification means 107 Door side transceiver 108 Controller 109 Operation button 111 Portable terminal 112 Portable terminal side transceiver 113 Portable terminal side energy source 114 portable terminal side state notifying means 115 portable terminal side energy remaining amount measuring means 116 portable terminal side controller 117 portable terminal side operation button 119 key fixing means 404 key hole 501 key

Claims (6)

In an opening and closing system that has an energy source and can remotely open and close the lock,
The energy source for supplying energy necessary for remote operation, energy remaining amount measuring means for measuring the remaining amount of the energy source, and a door side terminal comprising a lock that is opened and closed by the remote operation,
The door-side terminal is an opening / closing system in which the lock can be manually opened / closed when it is measured by the remaining energy measuring means that the energy source falls below a specified value. In an opening and closing system that has an energy source and can remotely open and close the lock,
The portable terminal comprising: a portable terminal-side energy source that supplies energy to the portable terminal; and a portable terminal-side energy remaining amount measuring unit that measures a remaining amount of the portable terminal-side energy source,
An opening / closing system in which the portable terminal can manually open and close the lock when the portable terminal side energy source is measured by the measurement of the portable terminal side energy remaining amount measuring means to be below a specified value. By sending the measurement result of the portable terminal side energy remaining amount measuring means from the portable terminal side transceiver installed in the portable terminal to the door side transceiver installed in the door side terminal, the door side terminal The opening / closing system according to claim 2, wherein the remaining amount of the energy source and the remaining amount of the portable terminal side energy source are grasped. When receiving information that the energy source is less than the specified value in the remaining energy measuring means or the portable terminal side energy source is less than the specified value in the door-side transceiver, The opening / closing system according to any one of claims 1 to 3, wherein a keyhole closing device to be closed is opened and the lock can be manually opened and closed. In the mobile terminal,
A key that is inserted into the keyhole to open and close the lock, or is inserted and rotated to open and close the lock, or both; and a key fixing means for fixing the key to the portable terminal, the key fixing means being the keyhole The opening / closing system according to claim 4, wherein the key can be used only when the closing device is open. The program for making a computer implement | achieve at least one part of the function of the opening / closing system of any one of Claims 1-5.