JP2007000499A - Notice device of delivery - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that an installing place is restricted by the restriction of power supply in a mailbox with a call-incoming display function of a conventional technique. <P>SOLUTION: This device comprises a detection means for detecting the state of the inside of the mailbox utilizing power generated by a generator provided for generating power by opening and closing movement of a door, and a notice means which notices outside of the state of the inside of a container detected by the detection means. Thus, the restriction of the installing place due to power supply is solved. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a delivery notification device that automatically notifies a remote place of the presence or absence of a delivery item using a detection device when receiving a mail or parcel (hereinafter referred to as “postal mail or the like”).

  Conventionally, it has been necessary to confirm the presence or absence of delivery of newspapers and postal items to a mailbox installed outdoors by directly observing the inside of the mailbox. When a mailbox is installed at a place away from the entrance, such as a gate, it is necessary to walk out from the entrance to check the delivery, especially in the case of bad weather Met. In addition, in the mailboxes etc. provided in the first floor part of the apartment house, residents on the second floor and above need to go up and down the stairs to confirm delivery (hereinafter referred to as “delivery confirmation”). There was a problem.)

For this “delivery confirmation problem”, a mailbox with an incoming call display function (hereinafter “conventional”) comprising a delivery detection device, a detection signal transmission device, and a communication device that receives the detection signal and reports the delivery. Device ") is disclosed in JP-A-8-439.
This conventional device is disposed on opposing wall surfaces inside a mailbox, etc., and a pair of detection devices that detect mail pieces existing between them, and when a detection device detects a mail piece, it receives incoming mail. The “delivery confirmation problem” described above has been solved by providing a display device for display.

The applicant has not yet found prior art documents related to the present invention by the time of filing other than the prior art documents specified by the prior art document information described in this specification.
JP-A-8-000439

However, in the conventional device, it is necessary to supply power to the detection device and the communication device, and in particular, since optical detection or ultrasonic detection is used as the detection device, at least until the mail is posted, the detection device It was necessary to always supply power.
In addition, when installing a mail box or the like in a place away from a house such as a gate or an outer wall, power is often not supplied near the place of installation.

As a technique for solving this power supply problem (hereinafter referred to as “power supply problem”), a technique using a solar cell as a power source of a conventional device is disclosed.
However, there is a problem that sufficient power is not obtained when a mailbox is installed under the eaves of the entrance, the shadow of planting, under the stairs, or the gate pillar facing the north side, and power wiring is required. In addition, there will be restrictions on the location of the mailbox.
It is also possible to install a battery such as a dry battery in a mailbox and supply power to the detection device. However, it is necessary to constantly monitor the remaining capacity of the battery and replace the battery when the capacity decreases. is there. Furthermore, in a door phone device that combines a door phone device with a mail detection means, the customer information from the door phone slave unit and the detection signal from the mail detection means from the mailbox are transmitted to the door phone parent device via the same transmission path. Therefore, it is preferable to install the doorphone slave unit and the mailbox in a place that is somewhat close to each other, such as a housing complex such as a collective housing where the doorphone and the mailbox are located in completely different places. In this case, the advantage of combining the mail detection means with the door phone is small.

  Therefore, the delivery notification apparatus according to the present invention is made to solve the above-mentioned “power supply problem”, and the delivery of the postal matter etc. is made without restricting the installation place such as the mailbox. The purpose is to automatically notify the location away from the mailbox etc. to improve convenience.

Therefore, the delivery notification device according to the present invention includes at least one opening, a receiving box 101 that accommodates a delivery article that is put in through the opening, a door provided in the opening, A generator that generates electric power by opening and closing movement, a capacitor that stores electric power generated by the generator, a detection unit that detects a state in the receiving box 101, and a state in the receiving box 101 that is detected by the detecting unit. Notification means for notifying the outside, wherein the battery supplies power to the detection means and the notification means.
Here, the door and the generator may be anything as long as they generate electricity using kinetic energy generated by loading or unloading a delivery item. For example, the door has a structure that opens and closes an opening by rotating around a single axis, and each axis of the door is configured to be connected to a rotary generator via a gear. Can be used. The door may be formed of a plate-like member that closes the opening. However, the shape of the door is limited to a plate shape, such as a bar shape or a lattice shape, as long as the door is linked to the insertion or removal of the delivery item. It is not a thing.

  The detection means may detect a state in the receiving box based on a change in the output of the generator. Further, the receiving box may have a plurality of the openings, and the door and the generator may be provided corresponding to the openings. Still further, the detection unit described above includes a measurement unit that measures a change in the output of the generator, an estimation unit that estimates a state in the receiving box based on a measurement result of the measurement unit, and Control means for designating a generator to be measured by the measurement means based on the estimation, and the measurement means may measure the generator designated by the control means. Further, the control means may selectively designate a generator to be measured by the measurement means.

  In addition, the notification unit may include a communication unit that wirelessly communicates a state in the receiving box, and an output unit that outputs the state in the receiving box obtained by the communication unit to the outside. . Further, the communication means may perform communication using one of radio waves and infrared rays.

  According to the present invention, by automatically notifying a suitable indoor place away from the receiving box that mail or the like has been delivered to a receiving box installed outdoors, it is possible to go to the receiving box and In a delivery notification device that aims to improve convenience by eliminating the trouble of directly checking the presence / absence of power, the power required for the operation of the receiving box is linked to at least one of the delivery door and the delivery door. By supplying from the power generated by the opening and closing movement of the door linked to the generator, the receiving box can be installed in any desired place without being restricted by power supply ("power supply problem") .

Further, according to the present invention, the delivery input door is interlocked with the generator, and a change in output generated from the generator when the delivery input door is opened and closed, such as a voltage (hereinafter referred to as “output change”). By detecting the input of a delivery item by detection, a conventionally provided detection device is not required, and operation with smaller power is possible.
Further, according to the present invention, both the delivery input door and the delivery output door are linked to individual generators, and once the delivery input door is opened and closed, the output change generated from the generator is detected. After detecting the delivery input, stop the function to measure the output change of the generator linked to the delivery door, and activate the function to measure the output change of the generator linked to the delivery door. Next, after detecting the removal of the delivery item from the receiving box by detecting the change in output generated from the generator when the delivery door is opened and closed, the output of the generator linked to the delivery door is again detected. The function to measure the change is stopped, and the function to measure the output change of the generator linked to the delivery input door is activated to resume the detection of the input of the delivery, so that the delivery enters the receiving box. If the delivery door is further opened in the open state, or if the delivery door is opened when there is no delivery, unnecessary delivery signals and reset signals are prevented from being transmitted from the receiving box, and power consumption is prevented. Can be reduced.

Further, according to the present invention, when detecting the output change from the generator that is interlocked with the delivery door when the delivery door is opened and closed to detect the delivery from the receiving box, By sending a signal from the inbox to the receiver and erasing the delivery indication on the display provided on the receiver, it is not necessary to manually turn off the delivery indication on the receiver after taking out the delivery, Usability of the delivery notification device can be improved.
Furthermore, according to the present invention, it is necessary to lay a wiring from the receiving box to the receiver through the wall of the house by using radio waves or infrared radio as signal transmission means from the receiving box to the receiver. The delivery notification device can be installed more easily.

Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a configuration diagram illustrating a configuration example of a delivery notification device according to an embodiment of the present invention.
The receiving box 101 has a box-like shape having two openings, and is provided with two doors, a delivery input door 102a and a delivery take-out door 102b, which are rotatably supported by the opening. It has been.
Each of the doors has a structure that opens and closes by rotating around one shaft 103a, 103b. The shafts of the doors are connected to rotary generators 104a and 104b via gears, and power is generated by opening and closing the doors. Each door is biased by a spring, and the opened door is automatically closed. The output terminal of each generator is connected to a capacitor 105 having a rectifier circuit and a nickel cadmium secondary battery, and the generated power is stored in the capacitor 105.

The accumulator 105 is also connected to the measurement detection device 106 and the notification device 107, and supplies electric power b-106 and b-107 for driving the devices and transmitting signals. The measurement detection device 106 performs opening / closing detection of each door, and the notification device 107 performs transmission circuit control for transmitting a signal at the time of delivery or the like. Transmitting circuit 107-1 is connected to estimating unit 106-2 and transmitting antenna 107-2, and transmits a waveform for signal transmission h to transmitting antenna 107-2 in accordance with an instruction from control unit 106-3. On the other hand, the output device 107-3 has a receiving antenna 107-4 and a delivery display unit 107-5, receives a radio wave transmitted from the receiving box 101, and displays the presence / absence of delivery on the delivery display unit 107-5.
The delivery display unit 107-5 performs display by a light emitting diode (LED), and the driving power of the output device 107-3 is supplied from a built-in dry battery.

The measurement detection device 106 includes a measurement unit 106-1, an estimation unit 106-2, and a control unit 106-3.
The control unit 106-3 determines the generator that the measurement unit 106-1 measures. The measurement unit 106-1 is connected to each generator, and measures the determined generator. The measurement unit 106-1 measures an output change for generating a trigger α that is interlocked with opening and closing of the door. That is, the change in the generated voltage, that is, the change in output accompanying the opening and closing of the door is as schematically shown in FIG. 2. When the voltage drops from a value higher than the trigger level β to exceed the trigger level β, the measurement unit 106 −1 is set to generate a trigger α.
Based on the trigger α and the door to be measured, the estimation unit 106-2 estimates the state in the receiving box 101, and inputs the estimated result to the communication device 106 as a delivery signal g. Specifically, when the measurement unit 106-1 is measuring the generator 104a linked to the delivery input door 102a, the delivery signal g is a signal “there is a delivery”, and the measurement unit 106-1 In the case where the generator 104b linked with the delivery door 102b is being measured, the delivery signal g is a signal that “there is no delivery (empty)”.

As shown in FIG. 4, the internal configuration of the measurement unit 106-1 in the present embodiment includes a measurement circuit 106-1a and a measurement circuit 106-1b, and each measurement circuit is installed for each generator to be measured. ing. The measurement unit control signal f is an ON / OFF signal for starting / stopping each measurement circuit. The activated measurement circuit starts measurement e for the generator to be measured, and inputs the trigger α to the estimation unit 106-2 based on the output change of the generator. The stopped measurement circuit stops measurement until an ON signal is received.
Therefore, by selectively determining ON / OFF of each measurement circuit by a predetermined setting of the control unit, it is possible to reduce power consumption applied to the measurement unit. This specific operation will be described in “(B) Detection step and notification step” below.
Note that the measurement unit is not limited to the above-described configuration. For example, as shown in FIG. 5, a plurality of generators and one measurement unit are connected via a switch (hereinafter referred to as “SW”), and a measurement unit control signal f. Depending on the case, the SW may be switched.

The circuit configuration of the receiving box 101 is as shown in FIG. In the following, the operation principle in the present embodiment will be described by dividing into “(A) power generation step” and “(B) detection step and notification step”, taking as an example the case where the delivery item X is put into the receiving box 101. To do.
(A) Power generation step First, when no delivery item is contained, the measurement unit 106-1 of the measurement detection device 106 measures the power generation voltage, that is, the output of the generator 104a linked to the delivery item input door 102a. All other functions are in a stopped state. When the delivery item X is inserted, the delivery item insertion door 102 a is opened and closed, and the electric power c−a generated by the generator 104 a is stored in the capacitor 105.

  FIG. 2 is a graph of the power generation amount of the generator 103a until the delivery item X is put into the receiving box 101. The movement of the door 102 and the delivery item X is represented by the time axis t and the generated power y axis. It is. The “(A) power generation step” is divided into “input operation P” and “extraction operation Q” in FIG. 2, and will be specifically described with reference to FIG.

“Throwing operation P”
At t = t ₁ , the door 102a that is rotatably supported is urged in the closing direction and thus closes the opening.
At t = t ₂ , the door 102 a that is rotatably supported is rotated in the opening direction by the operation during the delivery of the delivery item X, and the opening is opened. The shaft 103a that accompanies the opening movement of the door 102a is converted into a rotational movement of a rotor (not shown) of the generator 104a through a gear, and the generator 104a generates electric power. The generated power c−a is sent to the battery 105 and stored.
At t = t ₃ , after the delivery item X is inserted, the opening operation of the door 102 a is finished. At this time, the delivery X is stored in the receiving box 101, and the generator 104a does not generate power.
At t = t ₄ , the door 102 a that is rotatably supported is urged in the closing direction, and thus is rotated in the closing direction to close the opening. The shaft 103a accompanying the closing movement of the door 102a is converted into a rotational movement of a rotor (not shown) of the generator 104a through a gear, and the generator 104a generates electric power. The generated power c−a is sent to the battery 105 and stored.
At t = t ₅ , the door 102a is biased in the closing direction, and therefore closes the opening.

The operation in the case of taking out the delivery item X is as follows.
"Taking action Q"
At t = t ₁ , the door 102b that is rotatably supported is urged in the closing direction, and thus closes the opening.
At t = t ₂ , the door 102 b that is rotatably supported is rotated in the opening direction by the operation while the delivery item X is being taken out, and the opening is opened. The shaft 103b that accompanies the opening movement of the door 102b is converted into the rotational movement of a rotor (not shown) of the generator 104b through a gear, and the generator 104b generates electricity. The generated power c−b is sent to the battery 105 and stored.
At t = t ₃ , the opening operation of the door 102b ends. At this time, the delivery X is in the middle of being taken out from the receiving box 101, and the generator 104b does not generate power.
At t = t ₄ , the door 102b that is rotatably supported is urged in the closing direction, and thus is rotated in the closing direction to close the opening. The shaft 103b associated with the closing motion of the door 102b is converted into rotational motion of a rotor (not shown) of the generator 104b through a gear, and the generator 104b generates power. The generated power c−b is sent to the battery 105 and stored.
At t = t ₅ , the door 102b is urged in the closing direction, so the opening is closed.
And the measurement detection apparatus 106 and the notification apparatus 107 in this invention operate | move by this electric power supply d-106 and d-107 from the battery 105.

Therefore, since the delivery notification apparatus according to the present embodiment receives the necessary power from the battery 105 that is a component of the apparatus, it is not necessary to receive any other power supply. Therefore, the “power supply problem” described above can be solved.
Note that in the present invention, a power source such as a solar cell or a dry cell may be used in combination, and the capacitor 105 may be charged from the power source.

(B) Detection and Notification Step In the “loading operation P” of FIG. 2, the trigger α is generated in the measurement unit 106-1 when the door 102a is almost opened, and the measurement unit 106-1 uses the trigger signal γ as the estimation unit. input. Based on the trigger signal γ and the measurement object of the measurement unit 106-1, the estimation unit 106-2 estimates that the state in the receiving box 101 is “there is a delivery item” and sends it to the control unit 106-3 as a delivery signal g. input. The control unit 106-3 drives the notification device 107 and inputs a delivery signal g to the transmission circuit 107-1. The notification device 107 converts the delivery signal g of the transmission circuit 107-1 into a transmission signal h, and transmits the transmission signal h from the transmission antenna 107-2 toward the reception antenna 107-4.
Further, once the delivery signal is sent, the control unit 106-3 stops the voltage measurement ea of the generator 104a connected to the delivery door 102a until the next reset signal is sent, and the delivery door is taken out. A signal f for starting voltage measurement eb of the generator 104b linked to 102b is input to the measurement unit 106-1. As a result, the delivery item is inserted again before the delivery item X is taken out, and even if the delivery item entry door 102a is opened and closed to generate power, the capacitor 105 is only charged and the trigger α is not generated. Signals are not transmitted and wasteful power consumption is suppressed.

  On the other hand, the output device 107-3 that has received the transmission signal h by the receiving antenna 107-4 restores the delivery signal g from the transmission signal h, turns on the delivery display of the delivery display section 107-5, Indicates that there is a delivery X. Next, when the delivery item take-out door 102b is opened to take out the delivery item X, the electric power generated by the generator 104b linked to the delivery item take-out door 102b is stored in the capacitor 105, and at the time when the door is almost opened. The trigger α is generated in the measurement unit 106-1, and the measurement unit 106-1 inputs the trigger signal γ to the estimation unit. Based on the trigger signal γ and the measurement object of the measurement unit 106-1, the estimation unit 106-2 estimates that the state in the receiving box 101 is “no delivery (empty)”, and uses the reset signal g as the reset signal g. -3. The control unit 106-3 drives the notification device 107 and inputs a reset signal to the transmission circuit 107-1. The notification device 107 converts the reset signal of the transmission circuit 107-1 into a transmission signal h, and transmits the transmission signal h from the transmission antenna 107-2 toward the reception antenna 107-4.

  Further, the control unit 106-3 stops the voltage measurement eb of the generator 104b that is linked to the delivery item take-out door 102b, and also measures the voltage measurement ea of the generator 104a connected to the delivery item input door 102a. Is input to the measurement unit 106-1. As a result, even if the delivery door 102b is opened and closed and power is generated, the capacitor 105 is only charged, the trigger α is not generated, and the reset signal is not transmitted, so that wasteful power consumption is suppressed. . On the other hand, the output device 107-3 that has received the reset signal turns off the delivery display and indicates that the inside of the receiving box 101 is empty.

The receiving box 101 may have a cylindrical shape, a polygonal column shape other than a square shape, a semi-cylindrical shape, or the like other than the rectangular parallelepiped shown in FIG. In this embodiment, the mail input door 102a and the mail pickup door 102b are arranged on the same surface of the mail box 101, but each one is arranged on two adjacent or opposite surfaces. It doesn't matter. Further, as the battery 105, a secondary battery other than nickel cadmium, such as lead, nickel metal hydride, or lithium, or a power storage element such as a capacitor or a capacitor may be used. Furthermore, the timing at which the trigger α is generated is generated by the generator 104a and the generator 104b in order to store a little electric power in the capacitor 105 before transmission of a delivery signal or a reset signal performed subsequent to the trigger α. The trigger α is set to be generated in the measurement unit 106-1 when the applied voltage drops from a value higher than the trigger level β to exceed the trigger level β. This corresponds to the time when the delivery input door 102a starts to open. The trigger α may be set to be generated in the measurement unit 106-1 when the voltage generated by the generator 104a rises from a value lower than the trigger level β to exceed the trigger level β. Further, the delivery display of the output device 107-3 uses an LED because it has an advantage of low power consumption, but it may be displayed by a light bulb or a liquid crystal.
In the present embodiment, the output change of the generator is a voltage change. However, it is possible to recognize the operation of the generator, for example, a change in current.
Further, although the dry battery is used as the power source of the receiver, a 100 V power source in the home or a power source combining a solar battery panel and a secondary battery may be used.

  The detection means shown in “(B) detection and notification step” in the present embodiment uses a change in the voltage of the generator. However, in the present invention, a known detection device such as an optical sensor is also used May be. In addition, the battery 105 may function as a power supply source in each device such as a light or a security sensor, which is completely different from the delivery notification. Furthermore, in the present invention, the notification device only needs to have a configuration and an operation that achieve the purpose of notifying the delivery signal to the outside. For example, in addition to the configuration using wireless as shown in this embodiment, wired communication instead of wireless A configuration to be used, a configuration in which the output device 107-3 is integrated with the receiving box 101, a configuration in which the delivery display unit 107-5 performs external notification by sound, and the like may be employed.

It is a block diagram of the delivery notification apparatus concerning embodiment of this invention. It is a schematic diagram showing the movement of the delivery thing concerning embodiment of this invention, the electric power generation amount, and the movement of a door. It is a component-related figure concerning embodiment of this invention. It is an internal structural example of the measurement part concerning embodiment of this invention. It is the other internal structural example of a measurement part.

Explanation of symbols

DESCRIPTION OF SYMBOLS 101 ... Receiving box, 102a, b ... Door, 103a, b ... Shaft, 104a, b ... Generator, 105 ... Capacitor, 106 ... Measurement detection device, 106-1 ... Measuring part, 106-1a, b, c ... Measurement Circuit, 106-2 ... Estimating section, 106-3 ... Control section, 107 ... Notification device, 107-1 ... Transmission circuit, 107-2 ... Transmission antenna, 107-3 ... Output device, 107-4 ... Reception antenna 107-5 ... delivery display unit, c ... power generation, d ... supply power, e-a, b ... measurement, f ... measurement unit control signal, g ... delivery signal, h ... transmission signal, X ... delivery item, t ... Time, y ... Power generation, α ... Trigger, β ... Trigger level, γ ... Trigger signal

Claims (7)

A receiving box comprising at least one opening and containing a delivery put in through the opening;
A door provided in the opening;
A generator for generating electricity by opening and closing the door;
A battery for storing electric power generated by the generator;
Detecting means for detecting a state in the receiving box;
A delivery notification device comprising: notification means for notifying the outside of the state of the receiving box detected by the detection means; and the storage device supplies power to the detection means and the notification means. In the delivery notification device according to claim 1,
The delivery notification device according to claim 1, wherein the detection means includes detecting a state in the receiving box based on a change in the output of the generator. In the delivery notification device according to claim 2,
The delivery box has a plurality of openings, and the door and the generator are provided corresponding to the openings, respectively. The delivery notification device according to claim 3, further comprising:
The detecting means is a measuring means for measuring a change in the output of the generator;
Estimating means for estimating a state in the receiving box based on a measurement result of the measuring means;
Control means for designating a generator to be measured by the measuring means based on the estimation of the estimating means,
The delivery notification device according to claim 1, wherein the measuring unit measures the generator specified by the control unit. The delivery notification device according to claim 4, further comprising:
The delivery notification device according to claim 1, wherein the control means selectively designates a generator to be measured by the measurement means. In the delivery notification device according to any one of claims 1 to 5,
The notifying means communicates the state in the receiving box by radio, and
A delivery notification device comprising: output means for outputting the state in the receiving box obtained by the communication means to the outside. In the delivery notification device according to claim 6,
The delivery notification device according to claim 1, wherein the communication means communicates using one of radio waves and infrared rays.

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