JP5677828B2 - Touch operation button device for elevator - Google Patents

Description

  The present invention relates to an elevator touch operation button device having a call registration button used for registering a call in an elevator car or at a landing.

  As a conventional elevator touch-type operation button device, an adjustment device is prepared separately from the elevator system, the signal inside the touch button is taken into the microcomputer, and the calculation process including the conditions for adjustment input in advance is performed. It is known that an auxiliary signal for adjustment is output to the operator from the result so that the detection distance of the touch operation button becomes a specified value (see, for example, Patent Document 1).

JP-A-9-227047

  However, since the conventional touch-type operation button device for elevators is premised on adjustment by the operator, it is indispensable to input conditions in advance, and if there is an error in this input operation, an appropriate detection distance for all buttons May not be able to be adjusted, and may cause distrust to the user. In addition, because the device cost increases because a microcomputer is used for the signal adjustment device, the operator sets the detection distance corresponding to only standard temperature and humidity as the specified value before shipping the touch type operation button device, In this pre-delivery adjustment, the detection distance fluctuates due to differences from the actual surrounding environment of the delivery destination, causing distrust to the user, and maintenance at the delivery place to maintain the specified detection distance. When an operator performs adjustment work, the detection distance cannot be adjusted to a specified value due to inadequate adjustment tools, and depending on the surrounding environment, registration may be impossible, erroneous registration may occur, and serviceability of the elevator apparatus may be reduced.

  It is an object of the present invention to reduce maintenance work by automatically adjusting a detection distance suitable for an actual installation state, and to prevent deterioration in serviceability of an elevator apparatus due to changes in the surrounding environment. Another object is to provide a touch-type operation button device for an elevator.

In order to achieve the above object, the present invention detects a human body capacitance and registers a call in an elevator car or landing , and a detection means for detecting that a person is approaching , Detection distance control means for calculating an adjustment value for setting from temperature and humidity measured in an operating environment and stray capacitance measured in a state where a person does not approach using the detection means When, the distance detection of the touch operation button, and detecting the distance adjusting means for adjusting to a new distance predetermined in correspondence with the set adjustment value calculated by the detecting distance control means, said touch operation button a database storing characteristic data having the correspondence between detection distance and the adjustment value of the ambient temperature and humidity and stray capacitance, the provided for each specification of the detection distance control means, said Using the characteristics data stored in the database, and calculates the setting adjustment values from temperature and humidity and the floating capacitance measured in the use environment.

  The touch-type operation button device for an elevator according to the present invention automatically detects the detection distance according to each specification of the touch-type operation button 7 such as temperature, humidity and floating capacity measured in an actual use environment, size, and individual characteristic variations. Therefore, the maintenance adjustment work is eliminated, and the work cost can be reduced. In addition, it is possible to prevent deterioration in serviceability such as undetectable or erroneous detection of the touch-type operation button 7 that may occur due to fluctuations in the surrounding environment, and the user can use it with peace of mind.

It is a block block diagram of the touch-type operation button device for elevators by one embodiment of this invention. It is a characteristic view which shows the relationship of the detection distance with respect to ambient temperature stored in the database of the touch-type operation button device for elevators shown in FIG. It is a characteristic view which shows the relationship of the detection distance with respect to ambient humidity stored in the database of the touch-type operation button apparatus for elevators shown in FIG. It is a characteristic view which shows the relationship of the detection distance with respect to the floating capacity stored in the database of the touch-type operation button device for elevators shown in FIG. It is a characteristic view which shows the relationship of the detection distance with respect to the adjustment value stored in the database of the touch-type operation button device for elevators shown in FIG.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram illustrating a touch operation button device for an elevator according to an embodiment of the present invention. A touch operation button 7 includes a touch unit 1 that is directly touched by a human body and a touch unit 1 that is pressed. A response lamp display unit 2 made of an insulator for informing the user, a metal button storage box 3 installed in the ground, and a detection means 4 for detecting that the user has approached a distance determined by an adjustment value; The output means 5 for outputting the detection by the detection means 4 to the button detection distance adjustment control device 11 and the detection distance adjustment means for adjusting the distance until the detection means 4 detects the human body by an external control signal. 6.

  A temperature / humidity measuring means 8 for measuring the ambient temperature and humidity is installed in the vicinity of the touch unit 1 in the touch type operation button 7, and adjustment is performed by receiving temperature / humidity information measured by the temperature / humidity measuring means 8. A button detection distance adjustment control device 11 is provided. This button detection distance adjustment control device 11 converts the detection distance characteristics with respect to temperature, humidity, stray capacitance, and adjustment value into data for each specification such as the button shape and size of the touch unit 1 of the touch operation button 7 of the delivery destination. Data in the database 10 is read by the database 10 to be stored, the output from the output means 5, the adjustment value output to the detection distance adjustment means 6, and the ambient temperature / humidity from the temperature / humidity measurement means 8. And a detection distance control means 9 for extracting the detection distance and outputting the newly extracted adjustment value to the detection distance adjustment means 6.

  Next, the detection distance characteristics with respect to temperature, humidity, stray capacitance, and adjustment values as variable elements stored in the database 10 will be described. In the database 10, various data indicated by the change curves described with reference to FIGS. 2 to 5 are stored in advance for each specification such as the shape and size of the target touch operation button 7.

  FIG. 2 is a characteristic diagram showing the relationship between the ambient temperature and the detection distance, and the distance until it is detected that a human body having a certain reference capacitance approaches the touch unit 1 under a certain ambient temperature. Is shown by the change curve 12. The change curve 12 uses the detection distance at the reference temperature used at the time of initial setting as a specified value. When the actual measurement temperature rises above the reference temperature, the detection distance becomes smaller than the specified value. When the measured temperature falls below the reference temperature, the detection distance tends to become larger than the specified value.

  FIG. 3 is a characteristic diagram showing the relationship between the ambient humidity and the detection distance. The human body having a certain reference capacitance has a certain ambient humidity, and the distance to be detected when approaching the touch unit 1. This relationship is indicated by a change curve 16. This change curve 16 uses the detection distance at the reference humidity used in the initial setting as a specified value. When the actual measured humidity rises above the reference humidity, the detection distance becomes larger than the specified value. When the measured humidity falls below the reference humidity, the detection distance tends to be smaller than the specified value.

  FIG. 4 is a characteristic diagram showing the relationship between the stray capacitance and the detection distance. The relationship between the distance until the stray capacitance generated around the touch operation button 7 is detected when approaching the touch unit 1 is shown. Is shown by a change curve 20. This change curve 20 has the detection distance at the reference stray capacitance used at the time of initial setting as a specified value, and when the actually measured stray capacitance rises above the reference stray capacitance, the detection distance becomes smaller than the specified value, Conversely, when the stray capacitance actually measured falls below the reference humidity, the detection distance tends to become larger than the specified value.

  FIG. 5 is a characteristic diagram showing the relationship between the adjustment value and the detection distance. The adjustment value, which is a control command, is changed with respect to the detection distance adjustment means 6 of the touch-type operation button 7, and the detection distance until the detection is detected. This relationship is indicated by a detection distance change curve 24. This detection distance change curve 24 uses the detection distance at the reference temperature, reference humidity, and reference stray capacitance used at the time of the above-described initial setting as specified values, and the setting actually calculated with respect to the reference adjustment value at this time When the adjustment value increases, the detection distance becomes smaller than the specified value. Conversely, when the actually set adjustment value becomes smaller than the reference adjustment value, the detection distance tends to become larger than the specified value.

  Usually, the detection distance of the touch unit 1 is set before delivery of the elevator apparatus, and thus various conditions differ from the actual usage environment. Therefore, in the initial setting before delivery of the elevator apparatus, the temperature, humidity, and stray capacitance described above are set as reference values, and the reference adjustment value shown in FIG. 5 is given from the button detection distance adjustment control device 11 to the detection distance adjustment means 6. The detection distance of the detection means 4 is set to a predetermined value through the detection distance adjustment means 6. However, after delivery of the elevator device, the above-described elevator touch-type operation button device is operated, and the setting temperature, setting humidity, and setting stray capacitance measured in the actual use environment described above are shown in FIG. The setting adjustment value shown is newly calculated, a new setting detection distance is calculated based on the change curve 24, and control is performed so that the new setting detection distance becomes the detection distance in the touch unit 1. Next, this resetting will be described.

  First, the detection distance control means 9 actually measures the setting temperature 13 in the ambient environment where the touch operation buttons 7 are arranged by the temperature / humidity measurement means 8, and the change curve of the detection distance with respect to the ambient temperature shown in FIG. A setting detection distance 14 corresponding to the setting ambient temperature 13 is extracted from 12 and a deviation 15 of the detection distance with respect to the specified value is obtained.

  Similarly, the detection distance control means 9 actually measures the resetting humidity 17 in the ambient environment where the touch-type operation button 7 is arranged by the temperature / humidity measurement means 8, and determines the detection distance for the ambient humidity shown in FIG. A setting detection distance 18 corresponding to the setting humidity 17 is extracted from the change curve 16, and a deviation 19 of the detection distance from the specified value is obtained.

  Next, the detection distance control unit 9 obtains a deviation 23 of the detection distance with respect to the specified value when the detection unit 4 detects the stray capacitance of the touch operation button 7 in an actual usage environment without a person approaching. This is because the detection distance is changed while changing the adjustment value of the detection distance adjustment means 6 according to a command from the detection distance control means 9, and the touch operation button 7 detects and outputs the actual setting stray capacitance 21. Then, a setting detection distance 22 is measured, and a deviation 23 between the measured setting detection distance 22 and a predetermined value of the detection distance is obtained from the change curve 20 shown in FIG.

  Subsequently, the detection distance deviation 15 at the actual ambient temperature of the touch operation button 7 obtained as described above, the detection distance deviation 19 at the actual ambient humidity, and the detection distance at the actual stray capacitance. The offset value 25 is obtained by combining with the deviation 23. Thereafter, a new setting detection distance 26 is calculated in consideration of the offset value 25 from the specified value of the detection distance in the detection distance change curve 24 shown in FIG. 5, and the setting corresponding to the new setting detection distance 26 is set. An adjustment value 27 is obtained.

  Next, the detection distance control means 9 outputs a setting adjustment value 27 to the detection distance adjustment means 6 in order to change the detection distance of the touch operation button 7 to a new setting detection distance 26. Receiving this, the detection distance adjustment means 6 adjusts the detection means 4 so that the touch operation button 7 detects at the setting detection distance 26.

  According to such an elevator touch-type operation button device, the temperature for setting, the humidity for setting and the stray capacitance for setting are measured in the actual use environment of the elevator device, and the temperature for each specification of the touch-type operation button 7, Since the characteristic data representing the relationship between humidity and stray capacitance and the detection distance is stored in the database 10 in advance, after the actual installation state is detected, the characteristic data stored in the database 10 is actually used. The setting adjustment value 27 corresponding to the setting detection distance 26 can be easily calculated. By giving the setting adjustment value 27 from the detection distance control means 9 to the detection distance adjustment means 6, the actual use environment The touch-type operation button 7 using the detection distance according to the touch distance can be reduced, so that maintenance work for adjusting the detection distance of the touch-type operation button 7 can be reduced. It is possible to prevent the service deterioration of the elevator due to variations in the ambient environment in advance.

  When the touch-type operation button device for an elevator described above is introduced as a system independent of the elevator device, the scale is large and the cost becomes high, and the adjustment work by a conventional worker becomes cheaper. Therefore, if the detection distance control means 9 and the database 10 are incorporated in the microcomputer and the storage medium of the elevator control device to share the system, the cost can be reduced.

  Further, if the microcomputer of the elevator control device is high performance, the characteristic data of each change curve shown in FIGS. 2 to 5 is not stored in the database 10 as data, but is stored when programmed into the microcomputer as an approximate expression. The capacity becomes very small, and the database 10 is not necessary, so that the cost can be reduced. Further, in a place where the temperature and humidity fluctuations of the ambient environment are small and the air conditioning equipment is provided, the temperature and humidity measuring means 8 is not required by taking in the temperature and humidity information from the air conditioning equipment, and the cost can be reduced.

Further, in the embodiment described above, pre-registered default value of the initial setting in the database 10, obtains the actual deviation of the setting measurement and the initial set of ambient conditions, touch according to the actual use environment Although the detection distance for setting the operation button 7 is set, the initial setting is not necessarily required. Therefore, after the installation on the site, not the deviations 15, 19, 23, and 24 but for each specification of the touch operation button 7 Based on the actual measured values of temperature, humidity, and stray capacitance, a setting adjustment value 27 is calculated so as to be an appropriate setting detection distance 26, and this setting adjustment value 27 is detected from the detection distance control means 9. You may make it give to the means 6. Furthermore, when the actual ambient usage environment changes greatly, it is possible not only to adjust the detection distance of the touch operation button 7 at the time of installation, but also to perform resetting at predetermined time intervals.

  As described above, according to the touch-type operation button device for an elevator of the present invention, the temperature / humidity and the floating capacity measured in the actual use environment, the size, the individual characteristics, etc. Accordingly, since the detection distance can be automatically adjusted, maintenance adjustment work is eliminated, and the work cost can be reduced. In addition, it is possible to prevent deterioration in serviceability such as undetectable or erroneous detection of the touch-type operation buttons 7 that may occur due to changes in the surrounding environment, and it is possible to provide an elevator apparatus that can be used with peace of mind by the user.

DESCRIPTION OF SYMBOLS 1 Touch part 2 Response lamp display part 3 Button storage box 4 Detection means 5 Output means 6 Detection distance adjustment means 7 Touch-type operation button 8 Temperature / humidity measurement means 9 Detection distance control means 10 Database 11 Button detection distance adjustment control apparatus
12 Change Curve 13 Setting Ambient Temperature 14 Detection Distance 15 Deviation 16 Change Curve 17 Setting Ambient Humidity 18 Detection Distance 19 Deviation 20 Change Curve 21 Setting Floating Capacity 22 Detection Distance 23 Deviation 24 Change Curve 25 Offset Value 26 Setting Detection Distance 27 Adjustment value for setting

Claims (1)

In an elevator touch-type operation button device comprising a touch-type operation button for detecting a capacitance of a human body and registering a call at an elevator car or a landing , and a detection means for detecting that a person is approaching ,
Temperature and humidity were measured by using a environment, and a detection distance control means for calculating a set adjustment value and a stray capacitance which is measured in a state in which stay away person using the detection means, the distance detection of the touch operation button a detecting distance adjusting means for adjusting to a new distance predetermined in correspondence with the set adjustment value calculated by the detecting distance control unit, the ambient temperature and humidity and stray capacitance for each specification of the touch operation button A database storing characteristic data having a correspondence relationship between the detection distance and the adjustment value ;
The touch-sensitive operation button device for an elevator, wherein the detection distance control means calculates the setting adjustment value from the temperature and humidity and the stray capacitance measured in the use environment using the characteristic data stored in the database. .

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