JP2010281175A - Locking device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a motorized locking device for the private toilet, which can unlock the toilet without any contact with a locking device or the like in the toilet by the portion of a human body such as a hand or the like, or can perform locking and unlocking operation in the private toilet which is used by a male or a female. <P>SOLUTION: The locking device is intended for locking and unlocking a toilet door which is installed in the toilet specified so as to be in a door opening state when not in use. The toilet door is closed and locked after the toilet is occupied. For unlocking of the locking device, a human body detecting sensor is allowed to detect an unlocking signal by putting a hand over a predetermined position, and the locking device for use in locking and unlocking the toilet door locking and unlocking which receives the unlocking signal activates an unlocking operation part so as to remove a dead bolt from its receiving part, thereby unlocking the toilet door. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

The present invention relates to a toilet motor-type locking device which can unlock a toilet lock device by simply holding a hand over a sensor, for example, or which can be locked and unlocked.

2. Description of the Related Art Conventionally, for example, in a men's toilet, there is a toilet in which a sensor device in which a so-called detection sensor feels a person's presence and automatically flows water when standing in front of the toilet.
There has also been proposed an invention relating to a toilet that can be used by both men and women and that can flexibly cope with changes in the gender composition ratio of facility users, such as a multipurpose hall.
However, in a private toilet used by men or women, a locking device that unlocks or locks and unlocks the toilet without bringing a human body part such as a hand into contact with the locking device in the toilet, etc. Did not exist.

Japanese Laid-Open Patent Publication No. 8-151811

Thus, the present invention was devised to solve the above-described conventional problems, and in a private toilet used by a man or a woman, a human body part such as a hand is completely brought into contact with a locking device in the toilet. An object of the present invention is to provide a motor-type locking device for a toilet in a private room that can be unlocked or locked and unlocked without any problems.

A motor-type locking device for a private toilet according to the present invention,
It is a locking device for unlocking and unlocking toilet doors that can be attached to toilets that are open when not in use.
After entering the toilet, the toilet door is closed and locked, and unlocking is performed by hand-holding operation to a predetermined location, and the human body detection sensor detects the unlocking signal and receives the unlocking signal. The locking device for locking and unlocking operates the unlocking operation part, and removes the dead bolt from the receiving part to unlock it.
It is characterized by
Or
It is a locking device for unlocking and unlocking toilet doors that can be attached to toilets that are open when not in use.
After entering the toilet, the toilet door is closed, and the lock of the lock device for locking and unlocking the toilet door is locked by operating the locking operation part by human body recognition by a human body detection sensor, and unlocking is performed in a predetermined manner. The lock device for unlocking the toilet door that receives the unlocking signal by operating the hand-holding operation to the location and operating the unlocking operation unit receives the dead bolt from the receiving unit. Unlock and unlock,
It is characterized by this.

If the locking device according to the present invention,
In a private room toilet used by men or women, the toilet in the private room can be unlocked or locked and unlocked without bringing the human body part such as the hand into contact with the locking device in the toilet. A motor-type locking device can be provided.

Use example explanatory drawing explaining the use example of this invention (the 1). Use example explanatory drawing explaining the use example of this invention (the 1). Use example explanatory drawing explaining the use example of this invention (the 1). Use example explanatory drawing explaining the use example of this invention (the 1). Use example explanatory drawing explaining the use example of this invention (the 1). Use example explanatory drawing explaining the use example of this invention (the 1). It is explanatory drawing explaining schematic structure of the locking device by this invention. It is explanatory drawing explaining schematic structure of the main body lock part in the locking device of this invention. It is explanatory drawing explaining the use condition of the human body detection sensor of this invention. It is explanatory drawing (the 1) of 1st Example explaining the internal structure of a locking device. It is explanatory drawing (the 2) of 1st Example explaining the internal structure of a locking device. It is explanatory drawing (the 1) of 2nd Example explaining the internal structure of a locking device. It is explanatory drawing (the 2) of 2nd Example explaining the internal structure of a locking device. It is explanatory drawing (the 1) of 3rd Example explaining the internal structure of a locking device. It is explanatory drawing (the 2) of 3rd Example explaining the internal structure of a locking device. It is explanatory drawing (the 1) of 4th Example explaining the internal structure of a locking device. It is explanatory drawing (the 2) of 4th Example explaining the internal structure of a locking device.

FIG. 1 and FIG. 2 are schematic views in which the lock device 1 according to the present invention is applied to an inwardly opened toilet door 2. As understood from FIG. 1, the present invention is applied to a private toilet 25 having a specification in which the toilet door 2 is open when not in use.

  3 and 4 show a type in which the toilet door 2 is opened outward, and FIGS. 5 and 6 show a sliding door type toilet door 2. When these toilet doors 2 are not used, they are mainly automatic. The door is in an open state.

Therefore, the present invention is mainly applied to the toilet door 2 that is automatically opened when these are all unused.
However, in the case of the toilet door 2 that opens outside, after unlocking, it is possible to push out a part of the body such as the shoulders and elbows to the toilet door side, so even if the door does not automatically open, Applicable.

  Next, the outline of the usage state of the lock device according to the present invention will be described with reference to FIGS. 1 and 2. When the toilet 25 is used, the toilet door 2 is opened as shown in FIG. Enter 25. Then, after entering the toilet 25, as shown in FIG. 2, the toilet door 2 is pushed and closed from the inside of the toilet 25, and then the lock device 1 is manually locked (in this case, the lock device 1 is also contacted). (There is also a type that locks automatically without doing so, but an example of that type will be described later).

Thereafter, when leaving the toilet, as is understood from FIG. 2, a figure 4 shaped like a palm is drawn with a seal or the like on the side wall 3 facing the toilet door 2 to which the lock device 1 is attached. Just put your palm in contact with the side wall 3 without touching it to the side wall 3.
Then, the human body detection sensor provided in the locking device 1 detects the human body (the palm) and sends out the detection signal as an unlocking signal. For example, the motor using a battery as a power source is driven to drive the locking device 1. It is unlocked.

  Then, the lock device 1 is unlocked, and the toilet door 2 is automatically opened (see FIG. 1), and the toilet 25 is not operated manually from the toilet 25, such as the toilet door 2 and the lock device 1. The toilet 25 can be smoothly exited without making any contact with any device or member.

  The operation outline of the lock device 1 according to the present invention has been described with reference to FIGS. 1 and 2, but the toilet door 2 of the outward opening shown in FIGS. 3 and 4 and the toilet door of the sliding door type shown in FIGS. 5 and 6. 2 is applied and operates in the same manner.

Next, a schematic configuration of the lock device 1 applied in the present invention will be described.
The lock device 1 of the present invention is a lock device 1 using a so-called motor lock. Although a small battery is mainly used as the power supply unit 10, the configuration is not necessarily limited thereto.

As shown in FIG. 7, the lock device 1 includes a main body lock portion 5 and a dead bolt portion 7 that is fitted and locked to a receiving portion 6 provided on the side wall 3 of the toilet 25 facing the lock device 1. As shown in FIG. 7, the main body lock unit 5 is operated by operating the deadbolt unit 7 as shown in FIG. A lock unit 8 for locking, a human body detection sensor 9 for giving an operation signal, that is, an unlocking signal to the lock unit 8, a control unit 27 for controlling them, and supplying power to the lock unit 8 and the human body detection sensor 9 Power supply unit 10 and a case 11 covering them.

In addition, although the power supply part 10 may use a small battery, it does not necessarily use a battery and may be a power supply from a normal electric wire, for example.
Here, as shown in FIG. 7, the lock unit 8 is configured to perform a locking operation by manually operating an operation lever 12 protruding from the case 11 as a normal operation.

When unlocking, the unlocking signal is automatically received in response to the unlocking signal from the human body detection sensor 9. This is called a so-called semi-automatic lock type lock device 1. In addition, this lock part 8 is comprised so that unlocking operation | movement can also be performed by operating the said operation lever manually supposing the emergency case.

By the way, a major feature of the present invention is that a signal detected from the human body detection sensor 9 is used for starting the unlocking operation of the lock unit 8.
That is, the human body detection sensor 9 according to the present invention is configured to include, for example, two sensor portions 13 and 13, and at least one of them is preferably a passive infrared human body detection sensor.

Further, the other sensor unit 13 may be a passive infrared human body detection sensor, or may be a photoelectric tube sensor. Alternatively, it is also conceivable to configure both sensors with photoelectric tube sensors.

Here, the advantages of the passive infrared sensor will be described. The passive infrared sensor has advantages that it can detect a human body reliably and has a low standby current consumption.
On the other hand, disadvantages include not only the detection of human bodies but also animals, and the lack of accuracy of detection distance range adjustment control.

Next, the photoelectric tube type sensor has the advantage that the detection distance adjustment control is relatively reliable, and conversely, the disadvantage is that it easily detects anything that reflects light other than the human body, the cover member If the transmission material becomes cloudy, the detection capability is extremely lowered and the standby current consumption is large.

Here, as a combination of the two sensor units 13 and 13, when both are constituted by passive infrared human body detection sensors, one is constituted by a passive infrared human body detection sensor and the other is constituted by a photoelectric tube sensor. It is conceivable that the two sensor units 13 and 13 are both composed of phototube sensors.
When both of the two sensor units 13 and 13 are configured by passive infrared human body detection sensors, or when both of the two sensor units 13 and 13 are configured by photoelectric tube sensors, the advantages are doubled, but the disadvantages are also doubled. become.

  Moreover, when one is comprised with a passive infrared human body detection sensor and the other is comprised with a photoelectric tube type sensor, each advantage can be obtained, but it also has each disadvantage.

Therefore, the present invention further extends the advantages and eliminates the disadvantages in any combination.
Here, the outline of the configuration of the passive infrared human body detection sensor will be described. The human or animal body emits infrared rays. Thus, the passive infrared human body detection sensor is a sensor that detects a change in infrared rays emitted from the body and performs an operation such as operating a relay. In general, a passive infrared human body detection sensor is generally equipped with a so-called Fresnel lens so that it can detect a human movement in a very narrow range. .

Thus, the passive infrared human body detection sensor does not emit an infrared beam by itself. As described above, weak infrared rays are always emitted from the human body, and the human body is detected by receiving the infrared rays. Thus, this type of sensor is referred to as a “passive” sensor because it does not emit infrared light by itself. In addition, the passive infrared human body detection sensor is made to react to the body temperature (surface temperature) of the human body, and therefore does not react very much to small animals, fallen leaves, automobiles, and the like.

In addition, passive infrared human body detection sensors are usually installed indoors. This is because the passive infrared human body detection sensor is good at detecting a minute amount of infrared rays emitted from the human body and determining whether or not the person is in the monitoring area. Therefore, conventionally, it has been used to turn on a light in a room or generate an alarm sound informing an intrusion in a room.

Next, the photoelectric tube type sensor is also called a diffuse reflection type sensor, and is a detection type projector / receiver integrated type, and is configured so that light normally projected to the light receiving unit does not return. When the light emitted from the light projecting unit hits the detection object, the light reflected from the detection object enters the light receiving unit, and the amount of received light increases. The increase is detected and detected. Features of the phototube type sensor include a detection distance of several centimeters to several meters, easy mounting adjustment, and the amount of reflected light varies depending on the surface state (color, unevenness) of the sensing object, thereby varying the detection stability.

Here, the human body detection sensor 9 is provided with a cover member 14 formed in a substantially hemispherical dome shape around the outside so as to house the two sensor portions 13 and 13, and the sensor of the human body detection sensor 9. The parts 13 and 13 are configured to be covered with a predetermined interval by the cover member 14. The shape of the cover member 14 is not limited at all, and may be formed in a substantially cylindrical shape as shown in FIG. 9 described later.

Here, the cover member 14 is a member that does not transmit a signal from the human body detection sensor 9, for example, an ABS resin (acrylonitrile, butadiene (Butadiene), styrene (Styrene) copolymer synthetic resin) or the like. It is comprised so that two sensor parts 13 and 13 may be covered.
And most of the cover member 14 is comprised by the member which does not permeate | transmit this signal.

The cover member 14 is formed in, for example, a substantially hemispherical dome shape, or is formed in a substantially cylindrical shape having a low height, and as described above, most of the material is a member that does not transmit a signal, as described above, for example, ABS resin (acrylonitrile, butadiene (Butadiene), styrene (Styrene) copolymer synthetic resin), etc., is configured to cover the entire signal transmission part 8, and the upper middle position is at the middle of the upper center. A signal transmission window 15 is formed which is formed in a small window shape at a position slightly shifted to the left and right from the position and configured to transmit a signal.

Here, as described above, the signal transmission window 15 is formed in a small window shape using a member that transmits a signal, such as polyethylene resin.
In forming the signal transmission window 15, a part of the upper surface of the cover member 14 may be cut out into a small window shape.

Thus, the cover member 14 having a substantially hemispherical dome shape or a substantially cylindrical shape is detached in a loosely fitted state on, for example, a ring-shaped track in which a ring-shaped rail provided in a lower portion has a concave cross section. The cover member 14 having a substantially hemispherical dome shape is configured to rotate in a ring shape in an endless state.

Accordingly, the cover members 14 covering the two sensor portions 13 and 13 are respectively rotated to change the installation positions of the signal transmission windows 15 and 15, thereby transmitting the signals to the sensor portions 13 and 13. Can be changed subtly, and as a result, the detection distance to the detection target and the detection direction can be changed freely.

Further, the usage state of the human body detection sensor 9 will be described. As shown in FIG. 9, the sensor portions 13 and 13 of the human body detection sensor 9 show two signal transmission directions opened at a predetermined angle. And it can be understood that the two signal transmission directions are opened to the extent of the palm 13 in the human body at the location indicated by the symbol H1. In addition, it can be understood that the portion indicated by the symbol H2 is wider than that.

Here, the human body detection sensor 9 is configured so that the human body detection sensor 9 does not detect a signal unless the two sensor units 13 and 13 simultaneously detect a signal (for example, infrared rays) from the human body. is there.
Therefore, even if the sensor unit 13 on one side detects a human body at the location indicated by reference numeral H2, if the other sensor unit 13 does not detect a human body, the signal is not generally detected.

However, the portion indicated by reference numeral H1 is also a position in the vicinity of the human body detection sensor 9, and the signal transmission angle to the two human body detection sensors 9 is not greatly expanded. As described above, it is only open to the extent of the palm of the human body.
Therefore, if the palm is placed over the location H1, both the sensor parts 13 and 13 will surely detect the human body, and the human body detection sensor 9 will detect the signal.

In addition, although the Example using the two sensor parts 13 and 13 was shown here, you may comprise the sensor part 13 as three or four. This is because if the number of the sensor units 13 of the human body detection sensor 9 is large, it is considered that the human body detection distance and the human body detection direction can be controlled more reliably.
As described above, the human body detection sensor 9 is meaningful in that only the human body detection in the vicinity of the human body detection sensor 9 can be surely performed.

That is, in other words, the human body detection sensor 9 is usually relatively inexpensive, but it is never detected due to a malfunction that occurs even when it is unclear whether it is a human body or a malfunction such as the private toilet 25. Do not do it, or control the wrong movements, such as detecting a human body at a relatively far distance that does not need to be detected, and detect the human body only when you hold your palm in the vicinity. This is intended to provide the human body detection sensor 9.

  More specifically, by controlling the direction of the signal transmission window 15 on the front surfaces of the sensor units 13 and 13, the area and the position (angle viewed from the sensor) of the transmitted signal can be controlled. Thus, the width and the directivity angle detected by the sensor units 13 and 13 are greatly different three-dimensionally.

As a result, both the sensor units 13 and 13 detect at a close distance, but even if an object that emits strong infrared rays and the like that cannot be originally present is at a distant position that is not close to the object, A certain object is not large enough to cover the distance between the two sensor units 13 and 13 at a far position. In other words, since the object is physically difficult to exist at a distant position as an integrated type, erroneous detection due to this is avoided.

When a specific example is given and explained, when the mechanism of this sensor is used when it is desired to unlock the locking device of the private toilet 25 by holding the hand as in the present invention, the hand is placed at a close distance to the sensor units 13 and 13. Although it can be unlocked reliably when it is held up, both of the two even if a person emitting strong infrared rays at a distant location moves within the private toilet 25 and enters the pointing range of one sensor unit 13 As long as the sensor parts 13 and 13 are not detected at the same time, they are never unlocked.

Next, the human body detection sensor 9 is devised when a so-called small battery is used for the power supply unit 10 used as a power supply.
That is, the human body detection sensor 9 uses a plurality of sensor units 13..., Here two sensor units 13 and 13. In this case, all of the plurality of sensor units 13. If it is in a state, the standby current consumption becomes very large, and when a battery is used for the power supply unit 10, the battery is quickly consumed, and it cannot be a realistic product.

Therefore, only one of the sensor units 13 of the passive infrared human body detection sensor with low standby current consumption is set in the standby state, and when the passive infrared human body detection sensor detects, the sensor unit 13 of the other human body detection sensor, For example, energy can be saved during standby by supplying power to a phototube-type human body detection sensor or the like.

Next, the internal configuration of the lock device 1 of the present invention will be described. First, FIGS. 10 and 11 show a first embodiment.
As understood from FIGS. 10 and 11, a main body lock portion 5 and a dead bolt portion 7 are provided in a predetermined case 11. FIG. 10 is a diagram when the deadbolt portion 7 protrudes and is locked, and FIG. 11 is a diagram when the deadbolt portion 7 is retracted and unlocked. In the figure, the dead bolt portion 7 is configured to slide in the left-right direction in FIGS. 10 and 11, but a locking piece 16 is provided at the rear end portion of the dead bolt portion 7. The piece 16 is operated to operate the locked state from the unlocked state, that is, the dead bolt portion 7 from the protruding state to the retracted state.

  Here, the retraction operation of the locking piece 16 is performed by providing a plurality of (three in this embodiment) pressing projections 18... At predetermined intervals on the outer periphery of the rotating plate 17. When the 17 rotates counterclockwise, the pressing projection 18 presses the locking piece 16 and slides it, thereby causing the dead bolt portion 7 to retreat in the right direction as viewed in the figure. FIG. 11 shows the retracted state of the locking piece 16.

  In addition, the rotating operation of the rotating plate 17 is performed by the human body detecting sensor 9 sensing an unlocking signal when a person in the toilet 25 holds his hand, and receiving the unlocking signal to receive the unlocking unit 8. The motor (not shown in FIGS. 10 and 11) is operated, and the motor rotates the rotating plate 16.

  In this embodiment, the dead bolt portion 7 is not slid by a motor to be in a protruding state, that is, in a locked state. What is locked is a configuration in which a person who enters the private toilet 25 is manually operated. Referring to FIG. 7, it can be easily locked by tilting the operating lever 12 to the left. In addition, instead of the rotary operation lever as described above, a slide operation lever may be used.

Next, FIGS. 12 and 13 show a second embodiment.
The second embodiment employs substantially the same configuration as the first embodiment, but in the second embodiment, as shown in FIG. 12, the dead bolt portion 7 is in a protruding state, that is, in a locked state. At this time, the protrusion maintaining piece 19 is provided so that the dead bolt portion 7 does not retract unexpectedly. Since this protrusion maintenance piece 19 maintains the dead bolt part 7 in the protrusion direction, the dead bolt part 7 is configured to be prevented from unexpectedly retracting and being unlocked.

14 and 15 show a third embodiment.
In the third embodiment, a saddle-shaped second dead bolt 20 that rotates and locks the dead bolt portion 7 is employed. As can be understood from FIG. 14, the dead bolt portion 7 protrudes and the hook-shaped second dead bolt 20 rotates to protrude downward, and is firmly engaged with the receiving portion 6, thereby being locked. It is.
Therefore, this third embodiment is mainly applied to the sliding door type private room toilet 25 shown in FIGS.

16 and 17 show a fourth embodiment.
In the type of the fourth embodiment, the human body detection sensors 9 are mounted at two locations. That is, in one place, as in the previous embodiments, the human body, that is, the toilet user in the private toilet 25 who wants to unlock the hand, holds the hand over the human body detection sensor 9 and senses it. In this case, the deadbolt portion 7 is slid into the manual unlocking state.

  On the other hand, the other place was installed on the opposite side of the case 11. This is a device in which a user entering the toilet 25 has installed a human body detection sensor 9 that detects and sends a locking signal, instead of directly touching and locking the lock device 1 with his / her hand. It is. Therefore, the user in the private toilet 25 is detected by the human body detection sensor 9 for locking, and can be locked without touching the locking device 1 directly.

  16 and 17, reference numeral 21 denotes a worm gear, which is configured as a mechanism in which a screw gear 22 called a worm and a helical gear 23 called a worm wheel are combined.

Then, when the user holds his / her hand after use in the private toilet 25 and causes the human body detection sensor 9 to detect the human body, the screw gear 22 is rotated by the rotation of a motor (not shown), Accordingly, the helical gear 23 rotates counterclockwise.
Then, the pressing protrusion 18 that rotates in conjunction with the helical gear 23 presses the locking piece 16 of the dead bolt portion 7 and slides it to the right in FIG. 16, thereby retracting the dead bolt portion 7 and unlocking it. A state is set (see FIG. 16).

  Note that FIG. 17 is a diagram showing the locked state, and the user who enters the private toilet 25 closes the toilet door 2. Thereafter, in FIG. 17, the user holds his / her hand over the human body detection sensor 9 provided on the left side of the lock device 1 to sense the human body, and receives the signal to rotate a motor (not shown).

In response to the rotation of the motor, the screw gear 22 rotates, and accordingly, the helical gear 23 rotates clockwise.
Then, the pressing protrusion 18 that rotates in conjunction with the helical gear 23 presses the second locking piece 24 of the dead bolt portion 7 and slides it to the left in FIG. 17, thereby causing the dead bolt portion 7 to protrude. The locked state is set (see FIG. 17).

  By the way, the construction of the private toilet 25 is various, and the toilet door 2 includes an inner opening door, an outer opening door, and a sliding door type, as well as a left opening door and a right opening door. When the lock device 1 is manufactured according to these different types of doors, the cost performance is inferior. Therefore, the lock device 1 according to the present invention is configured so that the attachment surface attached to the toilet door 2 or the side wall 3 can be attached to either the left or right surface. As a result, with one type of locking device 1, whether the toilet door 2 is an inner door, an outer door, a left door, or a right door, the mounting surface can be changed. It has a configuration that can be easily used for general purposes only by making the opposite side.

However, as for the sliding door type toilet door, it is necessary to employ the lock device 1 of the type that employs the second dead bolt 20 in the shape of a hook that rotates and locks the dead bolt portion 7 as described above.
Furthermore, the human body detection sensor 7 employed in the present invention uses a so-called original sensor, and reliably senses and operates a human hand. Further, the standby current consumption is very small.

Moreover, the motor lock which comprises the lock part 8 used by this invention also uses the small motor lock, and becomes a very energy-saving specification. That is, for example, the operation can be performed 30,000 times or more without replacing the battery.
Furthermore, when this battery is used as a power source, wiring and piping are not required at all, and the operation cost is remarkably low.

Moreover, the locking device 1 of the present invention is designed so that a user in the toilet 25 can easily lock and unlock manually. Therefore, it is easy to get out in an emergency or emergency, and it is designed without worry.

DESCRIPTION OF SYMBOLS 1 Locking device 2 Toilet door 3 Side wall 4 Graphic 5 Main body lock part 6 Receiving part 7 Dead bolt part 8 Lock part 9 Human body detection sensor 10 Power supply part 11 Case 12 Operation lever 13 Sensor part 14 Cover member 15 Signal transmission window 16 Locking Piece 17 Rotating plate 18 Pressing protrusion 19 Protrusion maintaining piece 20 Second dead bolt 21 Worm gear 22 Screw gear 23 Helical gear 24 Second locking piece
25 Toilet 26 Indicator 27 Control unit

Claims (2)

It is a locking device for unlocking and unlocking toilet doors that can be attached to toilets that are open when not in use.
After entering the toilet, the toilet door is closed and locked, and unlocking is performed by hand-holding operation to a predetermined location, and the human body detection sensor detects the unlocking signal and receives the unlocking signal. The locking device for locking and unlocking operates the unlocking operation part, and removes the dead bolt from the receiving part to unlock it.
A locking device for locking and unlocking a toilet door, characterized in that.
It is a locking device for unlocking and unlocking toilet doors that can be attached to toilets that are open when not in use.
After entering the toilet, the toilet door is closed, and the lock of the lock device for locking and unlocking the toilet door is locked by operating the locking operation part by human body recognition by a human body detection sensor, and unlocking is performed in a predetermined manner. The lock device for unlocking the toilet door that receives the unlocking signal by operating the hand-holding operation to the location and operating the unlocking operation unit receives the dead bolt from the receiving unit. Unlock and unlock,
A locking device for locking and unlocking a toilet door, characterized in that.

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