TW201345822A - Fall detection device and passenger conveyor - Google Patents
Fall detection device and passenger conveyor Download PDFInfo
- Publication number
- TW201345822A TW201345822A TW102102785A TW102102785A TW201345822A TW 201345822 A TW201345822 A TW 201345822A TW 102102785 A TW102102785 A TW 102102785A TW 102102785 A TW102102785 A TW 102102785A TW 201345822 A TW201345822 A TW 201345822A
- Authority
- TW
- Taiwan
- Prior art keywords
- laser
- disposed
- transmission window
- laser light
- type distance
- Prior art date
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B66—HOISTING; LIFTING; HAULING
- B66B—ELEVATORS; ESCALATORS OR MOVING WALKWAYS
- B66B29/00—Safety devices of escalators or moving walkways
- B66B29/005—Applications of security monitors
Landscapes
- Escalators And Moving Walkways (AREA)
Abstract
Description
本發明係有關於跌倒偵知裝置、以及電扶梯、電動道路等之乘客輸送裝置。 The present invention relates to a fall detection device, and an elevator conveyor for an escalator, an electric road, and the like.
於乘客輸送裝置中,使用者(乘客)從運轉中之乘客輸送裝置走出至乘降口時會擔心因為不小心而跌倒。即使使用者不小心在乘降口跌倒,通常亦無法偵知使用者之跌倒,因此,其改進是需要的。 In the passenger conveyor, when the user (passenger) walks out of the passenger conveyor to the passenger exit, there is a fear of falling due to carelessness. Even if the user accidentally falls down at the boarding pass, it is usually impossible to detect the user's fall, so the improvement is needed.
於習知發明(例如參考專利文獻1)所提出之乘客輸送裝置之跌倒偵知裝置中,係具有將雷射光水平發射至偵知區域以於掃描範圍內偵測跌倒之掃描型距離感測器,掃描型距離感測器累計每一距離所測量之角度,並針對偵知區域內之資料計算時間上之距離變化標準偏差、以及標準偏差之標準偏差,且當標準偏差之標準偏差小於臨界值時便計算該領域之物體表面尺寸(長度),而當物體表面尺寸(長度)於既定之延續時間內持續為臨界值以上之狀態時,便判斷跌倒狀態。 In the fall detection device of the passenger conveying device proposed by the conventional invention (for example, refer to Patent Document 1), there is a scanning type distance sensor that emits laser light horizontally to the detection area to detect a fall within the scanning range. The scanning type distance sensor accumulates the angle measured by each distance, and calculates the standard deviation of the distance change and the standard deviation of the standard deviation for the data in the detection area, and when the standard deviation of the standard deviation is less than the critical value The surface size (length) of the object in the field is calculated, and the fall state is judged when the surface size (length) of the object continues to be above a critical value for a predetermined duration.
進一步,於習知之乘客輸送裝置(例如參考專利文獻2)中,係提出乘客輸送裝置之安全裝置,於乘客輸送裝置之乘降部附近設置雷射掃描感測器,該雷射掃描感測器於平面座標上 測量使用者之移動,當該雷射掃描感測器所測量之使用者移動速度(乘降部中之停留狀態資訊)小於既定值時,執行語音合成裝置之警語廣播,同時,當使用者之停留及擁擠延長時,控制反向器裝置之產生頻率、電壓,並減慢驅動馬達之速度或使其停止。此一乘客輸送裝置之安全裝置,係利用設置於乘客輸送裝置之乘降部附近之雷射掃描感測器,以建立偵測對象(乘客)之表面連續點之座標圖,並與預先所測量之無使用者狀態之座標資料疊合後,除去固定障礙物之座標資料,用以從乘客輸送裝置上目前之平面座標資料圖取得乘客之輪廓資料。然後,從乘客之輪廓資料算出乘客之中心點座標,及算出各偵測對象(乘客)之移動速度,當偵測對象之移動速度小於既定臨界值時,偵測乘客之站立與停留,再者,即使沒有偵測到乘客之站立與停留,當偵測到多數偵測物體大於臨界值時,亦可判斷乘客輸送裝置之乘降部之擁擠狀態。 Further, in a conventional passenger conveying device (for example, refer to Patent Document 2), a safety device for a passenger conveying device is proposed, and a laser scanning sensor is disposed near a riding portion of the passenger conveying device, the laser scanning sensor On the plane coordinates Measuring the movement of the user, when the user's moving speed (the staying state information in the riding and lowering section) measured by the laser scanning sensor is less than a predetermined value, performing the warning broadcast of the voice synthesizing device, and simultaneously, when the user When the stay and the congestion are extended, the frequency and voltage of the inverter device are controlled, and the speed of the drive motor is slowed down or stopped. The safety device of the passenger conveying device utilizes a laser scanning sensor disposed near the riding and lowering portion of the passenger conveying device to establish a coordinate map of the continuous point of the surface of the detecting object (passenger), and is measured in advance After the coordinate data of the user-free state is superimposed, the coordinate data of the fixed obstacle is removed to obtain the contour data of the passenger from the current plane coordinate data map on the passenger conveyor. Then, the coordinates of the center point of the passenger are calculated from the contour data of the passenger, and the moving speed of each detecting object (passenger) is calculated, and when the moving speed of the detecting object is less than a predetermined threshold, the standing and staying of the passenger is detected, and Even if the standing and staying of the passenger is not detected, when it is detected that most of the detected objects are larger than the critical value, the crowded state of the passenger and the descending portion of the passenger conveying device can be judged.
【專利文獻1】特開2012-36005號公報。 [Patent Document 1] JP-A-2012-36005.
【專利文獻2】特開2008-303057號公報。 [Patent Document 2] JP-A-2008-303057.
由於習知發明所提出之乘客輸送裝置之跌倒偵知裝置係為落地直立式或內建式而需更改乘客輸送裝置之設計,因此會有費用增加之問題。進一步,於習知之乘客輸送裝置之安全裝置中,係以雷射掃瞄感測器捕捉所發現偵測對象 (使用者)之輪廓資料(形狀)中心點,再根據該中心點之數量及移動速度測量停留及過度擁擠狀態,當使用者(乘客)跌倒時,例如頭在乘降口附近但腳在掃瞄區域外之情況下,此一狀態下無法正確地取得中心點,因此會有無法偵知跌倒之情況。進一步,即使取得中心點,因為中心在乘降口之外,因此會有判斷為無問題而不發警報之情況。進一步,當跌倒之使用者移動了手、手忙腳亂、或做些小動作時,由於所取得之手部之中心點已適度地移動,因此會誤認為擁擠狀態並判定為適當的通行狀態,而可能無法偵知跌倒。進一步,由於雷射照射距離遠,可能會因為離開乘客輸送裝置後之停留而產生誤動作。 Since the fall detection device of the passenger conveying device proposed by the prior art is a floor-standing vertical or built-in type, the design of the passenger conveying device needs to be changed, so there is a problem of an increase in cost. Further, in the safety device of the conventional passenger conveying device, the detected object is detected by the laser scanning sensor. (user) outline data (shape) center point, and then measure the staying and overcrowding state according to the number of the center point and the moving speed. When the user (passenger) falls, for example, the head is near the exit and the foot is sweeping. In the case of the outside of the sighting area, the center point cannot be correctly obtained in this state, so there is a possibility that the fall cannot be detected. Further, even if the center point is obtained, since the center is outside the boarding and dropping point, there is a case where it is judged that there is no problem and no alarm is issued. Further, when the user who has fallen has moved his hand, is in a hurry, or does some small movements, since the center point of the acquired hand has moved moderately, the state of the crowd is mistaken for the state of congestion and is determined to be an appropriate traffic state, and may not be possible. The detective fell. Further, due to the long distance of the laser irradiation, a malfunction may occur due to the stay after leaving the passenger conveyor.
為解決上述之問題,本發明提供乘客輸送裝置之跌倒偵知裝置,能夠簡單地設置於護裙板內部,毋需更改設計,並能夠確實地偵知使用者(乘客)之跌倒。 In order to solve the above problems, the present invention provides a fall detection device for a passenger conveyor that can be easily placed inside a skirt panel without requiring a change in design and can reliably detect a fall of a user (passenger).
本發明之跌倒偵知裝置係包括:開口部,係被配置於能夠偵知跌倒之偵知區域進行觀察之位置並於水平方向上延伸;雷射透射窗,係由雷射光可通過之壓克力樹脂板或玻璃板材料組成,以覆蓋該開口部之方式設置於開口部之背面;以及雷射掃描感測器單元,係被設置自偵知區域內藏於雷射透射窗之背面,其中,雷射掃描感測器單元包括:框體,於對應於雷射透射窗之部分係具有開口;雷射掃描型距離感測器,係被設置於框體內,用以水平發射雷射光;發送部,係被設置於雷射掃描型距離感測器內,用以將雷射光發送至雷射透射窗;接收部,係被設置於雷射掃描型距離感測器內,用以接收被反 射回來且通過雷射透射窗之雷射光;以及擋板,係被設置於發送部及接收部之間,用以反射從發送部所發送之雷射光,而不會到達接收部。 The fall detection device of the present invention includes an opening portion that is disposed at a position where the detection area capable of detecting a fall is observed and extends in a horizontal direction; and a laser transmission window that is pressed by the laser light a resin plate or a glass plate material is disposed on the back surface of the opening portion to cover the opening portion; and a laser scanning sensor unit is disposed in the self-detecting region and is disposed on the back surface of the laser transmission window, wherein The laser scanning sensor unit includes: a frame having an opening corresponding to the portion of the laser transmission window; and a laser scanning type distance sensor disposed in the frame for horizontally emitting the laser light; The portion is disposed in the laser scanning type distance sensor for transmitting the laser light to the laser transmission window; the receiving portion is disposed in the laser scanning type distance sensor for receiving the reversed The laser beam that is incident back and passed through the laser transmission window; and the baffle is disposed between the transmitting portion and the receiving portion for reflecting the laser light transmitted from the transmitting portion without reaching the receiving portion.
進一步,雷射掃描感測器單元包括:框體,於對 應於雷射透射窗之部分係具有開口;雷射掃描型距離感測器,係被設置於框體內,用以水平發射雷射光;發送部,係被設置於雷射掃描型距離感測器頂端之上半部,用以將雷射光發送至雷射透射窗;接收部,係被設置於雷射掃描型距離感測器頂端之下半部,用以接收被反射回來且通過雷射透射窗之雷射光;以及水平擋板,係被設置於發送部及接收部間之水平方向上,用以反射從發送部所發送之雷射光,而不會到達接收部。 Further, the laser scanning sensor unit comprises: a frame, in the pair The portion of the laser transmission window has an opening; the laser scanning type distance sensor is disposed in the frame for horizontally emitting the laser light; and the transmitting portion is disposed on the laser scanning type distance sensor The upper half of the top end is for transmitting the laser light to the laser transmission window; the receiving portion is disposed at the lower half of the top end of the laser scanning type distance sensor for receiving the reflected back and transmitting through the laser The laser light of the window and the horizontal baffle are disposed in a horizontal direction between the transmitting portion and the receiving portion for reflecting the laser light transmitted from the transmitting portion without reaching the receiving portion.
進一步,本發明之跌倒偵知裝置係包括:開口部, 係被配置於乘客輸送裝置之護裙板之乘降口附近,且能夠對乘降用地板之梳板部分進行觀察之位置,並於水平方向上延伸;雷射透射窗,係由雷射光可通過之壓克力樹脂板或玻璃板材料組成,以覆蓋該開口部之方式設置於開口部之背面;以及雷射掃描感測器單元,係被設置內藏於雷射透射窗背面之護裙板內,其中,雷射掃描感測器單元包括:框體,於對應於雷射透射窗之部分係具有開口;雷射掃描型距離感測器,係被設置於框體內,用以水平發射雷射光;發送部,係被設置於雷射掃描型距離感測器內,用以將雷射光發送至雷射透射窗;接收部,係被設置於雷射掃描型距離感測器內,用以接收被反射回來且通過雷射透射窗之雷射光;以及擋板,係被設置於發送部及接收部之間,用以使從發送部所發送之雷射光於護裙板內部反 射,而不會到達接收部。 Further, the fall detection device of the present invention includes: an opening portion, The utility model is disposed near the entrance and exit of the skirt plate of the passenger conveying device, and can observe the position of the combing portion of the floor for the boarding and landing, and extends in the horizontal direction; the laser transmission window is made of laser light. It is composed of an acrylic resin plate or a glass plate material, and is disposed on the back surface of the opening portion so as to cover the opening portion; and the laser scanning sensor unit is provided with a protective skirt built in the back of the laser transmission window In the board, the laser scanning sensor unit comprises: a frame having an opening in a portion corresponding to the laser transmission window; and a laser scanning type distance sensor disposed in the frame for horizontal emission Laser light; the transmitting portion is disposed in the laser scanning type distance sensor for transmitting the laser light to the laser transmission window; and the receiving portion is disposed in the laser scanning type distance sensor for use Receiving laser light reflected back through the laser transmission window; and a baffle plate disposed between the transmitting portion and the receiving portion for causing the laser light transmitted from the transmitting portion to be reversed inside the skirt plate Shoot without reaching the receiving department.
進一步,去除該雷射透射窗所對應部份之框體係被用以覆蓋雷射掃描型距離感測器。 Further, a frame system that removes a portion corresponding to the laser transmission window is used to cover the laser scanning type distance sensor.
進一步,當雷射透射窗面對垂直方向為角度0°時,使其尺寸讓±70°角度之雷射光能夠穿透。 Further, when the laser transmission window faces the vertical direction at an angle of 0°, the size thereof allows laser light of an angle of ±70° to penetrate.
進一步,防震襯套係連接於掃描型距離感測器,並介於框體內之底部及掃描型距離感測器底部之間。 Further, the anti-vibration bushing is connected to the scanning type distance sensor and is interposed between the bottom of the casing and the bottom of the scanning type distance sensor.
進一步,經由基板將雷射掃描感測器單元固定於乘客輸送裝置之固定部。 Further, the laser scanning sensor unit is fixed to the fixing portion of the passenger conveying device via the substrate.
本發明之雷射掃描感測器單元係被設置自偵知區域內藏於雷射透射窗之背面,且包括:框體,於對應於雷射透射窗之部分係具有開口;雷射掃描型距離感測器,係被設置於框體內,用以水平發射雷射光;發送部,係被設置於雷射掃描型距離感測器內,用以將雷射光發送至雷射透射窗;接收部,係被設置於雷射掃描型距離感測器內,用以接收被反射回來且通過雷射透射窗之雷射光;以及擋板,係被設置於發送部及接收部之間,用以反射從發送部所發送之雷射光,而不會到達接收部,如此一來,能夠簡單地設置而毋需更改設計,並且能夠確實地偵知使用者(乘客)之跌倒。 The laser scanning sensor unit of the present invention is disposed from the detecting area in the back of the laser transmission window, and includes: a frame having an opening in a portion corresponding to the laser transmission window; and a laser scanning type The distance sensor is disposed in the frame for horizontally emitting the laser light; the transmitting portion is disposed in the laser scanning type distance sensor for transmitting the laser light to the laser transmission window; the receiving portion And being disposed in the laser scanning type distance sensor for receiving the laser light reflected back through the laser transmission window; and the baffle plate is disposed between the transmitting portion and the receiving portion for reflecting The laser light transmitted from the transmitting unit does not reach the receiving portion, and thus can be easily set without changing the design, and can reliably detect the fall of the user (passenger).
1‧‧‧乘客輸送裝置 1‧‧‧ Passenger conveyor
2‧‧‧踏階 2‧‧‧ steps
3‧‧‧移動扶手 3‧‧‧ moving handrails
4‧‧‧欄板 4‧‧‧ fence
5‧‧‧內側底板 5‧‧‧Inside floor
6‧‧‧乘降用地板 6‧‧‧Passing floor
7‧‧‧梳板 7‧‧‧Comb
8‧‧‧護裙板 8‧‧‧skirt board
9‧‧‧雷射透射窗 9‧‧‧Laser transmission window
10‧‧‧開口部 10‧‧‧ openings
11‧‧‧框體 11‧‧‧ frame
12‧‧‧雷射掃描型距離感測器 12‧‧‧Laser Scanning Distance Sensor
13‧‧‧發送部 13‧‧‧Send Department
14‧‧‧接收部 14‧‧‧ Receiving Department
15‧‧‧水平擋板 15‧‧‧ horizontal baffle
16‧‧‧防震矽膠襯套 16‧‧‧Anti-vibration silicone bushing
17‧‧‧水平連接板 17‧‧‧ horizontal connection plate
第1圖係顯示依據本發明第一實施例之具有跌倒偵知裝置之乘客輸送裝置整體概略構造之正面斜視圖。 Fig. 1 is a front perspective view showing the overall schematic configuration of a passenger conveying device having a fall detection device according to a first embodiment of the present invention.
第2圖係顯示依據本發明第一實施例之具有跌倒偵知裝置之乘客輸送裝置偵知到乘客跌倒情況之正面斜視圖。 Fig. 2 is a front perspective view showing the passenger conveying device having the fall detection device according to the first embodiment of the present invention detecting the fall of the passenger.
第3圖係說明於本發明第一實施例之跌倒偵知裝置中,通過透明板之光線其入射角度導致透射率相異之情況。 Fig. 3 is a view showing the case where the incidence angle of the light passing through the transparent plate causes the transmittance to be different in the fall detection device according to the first embodiment of the present invention.
第4圖係說明於本發明第一實施例之跌倒偵知裝置中,考慮到雷射偏光之透明板(折射率1.5)其透射率及反射率曲線圖。 Fig. 4 is a graph showing the transmittance and reflectance of a transparent plate (refractive index of 1.5) in which laser light is polarized in the fall detection device of the first embodiment of the present invention.
第5圖係說明於本發明第一實施例之跌倒偵知裝置中,反射率90%、18%之Kodac Gray片之每一最大觀測距離與角度之實驗模型評估示意圖。 Fig. 5 is a schematic diagram showing an experimental model evaluation of each maximum observation distance and angle of a Kodak Gray sheet having a reflectance of 90% and 18% in the fall detection apparatus of the first embodiment of the present invention.
第6圖係說明於本發明第一實施例之跌倒偵知裝置中,反射率90%、18%之Kodac Gray片之每一最大觀測距離與角度之測量結果。 Fig. 6 is a view showing measurement results of each maximum observation distance and angle of a Kodak Gray sheet having a reflectance of 90% and 18% in the fall detection device of the first embodiment of the present invention.
第7圖係顯示依據本發明第一實施例之跌倒偵知裝置之主要部分平面圖。 Fig. 7 is a plan view showing the main part of the fall detection device according to the first embodiment of the present invention.
第8圖係顯示依據本發明第一實施例之跌倒偵知裝置之主要部分側面圖。 Fig. 8 is a side elevational view showing the main part of the fall detection device according to the first embodiment of the present invention.
第1圖係顯示依據本發明第一實施例之具有跌倒偵知裝置之乘客輸送裝置整體概略構造之正面斜視圖、第2圖係顯示偵知到乘客跌倒情況之正面斜視圖、第3圖係說明通過透明板之光線其入射角度導致透射率相異之情況、第4圖係顯示考慮到雷射偏光之透明板(折射率1.5)其透射率及反射率曲線圖、第5圖係說明反射率90%、18%之Kodac Gray片之每 一最大觀測距離與角度之實驗模型評估示意圖、第6圖係顯示每一最大觀測距離與角度之測量結果、第7圖係顯示跌倒偵知裝置之主要部分平面圖、及第8圖係顯示跌倒偵知裝置之主要部分側面圖。 1 is a front perspective view showing an overall schematic configuration of a passenger conveying device having a fall detection device according to a first embodiment of the present invention, and FIG. 2 is a front perspective view showing a situation in which a passenger is detected to fall, and FIG. It is shown that the incident angle of the light passing through the transparent plate causes the transmittance to be different, and the fourth figure shows the transmittance and reflectance of the transparent plate (refractive index 1.5) considering the laser polarized light, and the fifth figure shows the reflection. 90%, 18% of Kodac Gray tablets A schematic diagram of the experimental model for estimating the maximum observation distance and angle, Figure 6 shows the measurement results of each maximum observation distance and angle, Figure 7 shows the main part of the fall detection device, and Figure 8 shows the fall detection. A side view of the main part of the device.
於第1及2圖中,標號1為乘客輸送裝置,於此 為下行運轉。標號2為乘客輸送裝置1之踏階、標號3為分別設置於踏階2兩側並隨著踏階2同時移動之移動扶手、標號4為分別設置於踏階2兩側之欄板、標號5為設置於欄板4下方之內側底板、標號6為乘客輸送裝置1下行至1樓乘降口之處所設置之乘客輸送裝置之乘降用地板,其中,乘客自該乘降用地板6進入乘客輸送裝置1之踏階2,或者從乘客輸送裝置1之踏階2下來。標號7為乘降用地板6之踏階側之前端部分所設置之梳板、標號8為分別設置於踏階2兩側之護裙板(skirt guard)、而標號9之部分係於其中一護裙板8之乘降口附近,即乘降用地板6之前端部分之梳板7所在位置,換句話說,標號9為雷射透射窗,係被設置於能夠確實地對梳板7整體進行觀察之位置上。沿著護裙板8之平面狀雷射透射窗9並不影響使用者,且由雷射光可透射之透明壓克力樹脂板及透明玻璃板等雷射光可通過之材料組成。將下述之雷射掃描感測器單元設置於該雷射透射窗9之內側。於第2圖中,當使用者(乘客)於乘客輸送裝置中跌倒並被下送至1樓之乘降用地板6之梳板7附近時,使用者會停留在該梳板7上,為了避免使用者衣物之捲入,需確實地對該梳板7整體進行觀察而能立即發現跌倒之人。進一步,由於雷射掃描感測器與專利文獻1之特開 2012-36005S號公報中所揭示之架構相同,於此省略詳細之說明。 In Figures 1 and 2, reference numeral 1 is a passenger conveyor, Run for the downside. 2 is the step of the passenger conveying device 1, and the reference numeral 3 is a moving handrail which is respectively disposed on both sides of the step 2 and moves simultaneously with the step 2, and the reference numeral 4 is a fence and a label respectively disposed on both sides of the step 2 5 is an inner bottom plate disposed under the fence 4, and reference numeral 6 is a floor for passenger transportation of the passenger conveyor provided at the place where the passenger conveyor 1 descends to the first floor, where the passenger enters from the landing floor 6 The step 2 of the passenger conveyor 1 is either down from the step 2 of the passenger conveyor 1. Reference numeral 7 is a comb plate provided at the front end portion of the step side of the floor 6 for boarding and landing, reference numeral 8 is a skirt guard which is respectively disposed on both sides of the step 2, and a portion of the numeral 9 is attached to one of them. Near the entrance and exit of the skirting plate 8, that is, the position of the comb plate 7 at the front end portion of the floor 6 for landing, in other words, the reference numeral 9 is a laser transmission window, which is provided to be able to surely face the comb plate 7 as a whole. At the position of observation. The planar laser transmission window 9 along the skirt panel 8 does not affect the user, and is composed of a material through which laser light such as a transparent acrylic permeable resin plate and a transparent glass plate can pass through. A laser scanning sensor unit as described below is disposed inside the laser transmission window 9. In Fig. 2, when the user (passenger) falls in the passenger conveyor and is sent down to the vicinity of the board 7 of the floor 6 of the boarding and landing floor, the user stays on the board 7 in order to In order to avoid the intrusion of the user's clothes, it is necessary to observe the entire comb plate 7 and immediately find the person who falls. Further, since the laser scanning sensor is open to the patent document 1 The structure disclosed in the publication No. 2012-36005S is the same, and the detailed description is omitted here.
第3圖係說明雷射透射窗9之架構,例如雷射光 可透射之透明壓克力樹脂板所通過之光線其入射角度導致透射率相異之情況,即預期測量距離性能會隨著雷射光之角度而變化。光之反射率及透射率係為相對於透明壓克力樹脂板等介質邊界所改變之偏光方向。將不平行於介質邊界之光分量稱為P波,且平行於介質邊界之光分量稱為S波,而於斜偏光之情況下,則取得P波與S波之合成波。第4圖係顯示考慮到雷射偏光之透明板(折射率1.5)其透射率及反射率曲線圖。由圖可知,角度0~40°之透射率為0.96,而角度80°時則為0.5。 由於會通過透明壓克力樹脂板兩側之介質邊界兩次,往返則為四次,因此發送及接收之總透射率為其四次方。藉由雷射掃描感測器之最小接收靈敏度能夠算出偵知之可能角度。然而,當最小接收靈敏度未知時,則透過實驗取得偵知之可能角度。 Figure 3 is a diagram showing the structure of the laser transmission window 9, such as laser light The incident angle of the light transmitted by the transparent transparent acrylic resin plate causes the transmittance to be different, that is, the expected measurement distance performance varies depending on the angle of the laser light. The reflectance and transmittance of light are the direction of polarization that is changed with respect to the boundary of a medium such as a transparent acrylic resin sheet. A light component that is not parallel to the boundary of the medium is referred to as a P wave, and a light component parallel to the boundary of the medium is referred to as an S wave, and in the case of obliquely polarized light, a composite wave of the P wave and the S wave is obtained. Fig. 4 is a graph showing the transmittance and reflectance of a transparent plate (refractive index of 1.5) in consideration of laser polarization. As can be seen from the figure, the transmittance of the angle of 0 to 40° is 0.96, and the angle of the angle of 80° is 0.5. Since the boundary of the medium on both sides of the transparent acrylic resin plate is twice, the round trip is four times, so the total transmittance of transmission and reception is four. The possible angle of detection can be calculated by the minimum receiving sensitivity of the laser scanning sensor. However, when the minimum receiving sensitivity is unknown, the possible angle of detection is obtained through experiments.
第5圖係顯示反射率90%、18%之Kodac Gray片 之每一最大觀測距離x[m]與角度之實驗模型評估圖。隨著角度0°~80°之改變,測量能夠觀測到90%及18%之Gray片之最大距離x[m]。當超過最大距離附近時,測量點會閃爍,從而能夠穩定地取得最大距離。根據實驗結果,反射率90%之Gray片於角度0°~75°之情況下,能夠測量到感測器之最大範圍為4公尺。進一步,反射率18%之Gray片測量距離隨著角度增加而減少,角度70°以上時之最大測量距離為2.5公尺以下。乘客輸送裝置之寬度約為1公尺,則可知2.5倍之安全邊際通常 適於視角±70°。因此,當將雷射掃描感測器單元設置於乘客輸送裝置之護裙板內時,預留間隙以確保長度(寬度)為1公尺之偵知區域。據此,可知能夠確保長度(寬度)為1公尺之間隙係為與護裙板面相隔約15公分之處。 Figure 5 shows Kodak Gray with a reflectivity of 90% and 18%. An experimental model evaluation map of each of the maximum observed distances x[m] and angles. With the change of angle 0°~80°, the maximum distance x[m] of the 90% and 18% Gray sheets can be observed. When the vicinity of the maximum distance is exceeded, the measurement point flickers, so that the maximum distance can be stably obtained. According to the experimental results, the maximum range of the sensor can be measured to be 4 meters in the case of a 90% reflectance of the Gray sheet at an angle of 0° to 75°. Further, the measurement distance of the Gray sheet having a reflectance of 18% decreases as the angle increases, and the maximum measurement distance when the angle is 70° or more is 2.5 meters or less. The width of the passenger conveyor is about 1 meter, which means that the safety margin of 2.5 times is usually Suitable for viewing angle ± 70 °. Therefore, when the laser scanning sensor unit is placed in the skirt of the passenger conveyor, a gap is reserved to ensure a detection area having a length (width) of 1 meter. From this, it can be seen that the gap having a length (width) of 1 m can be ensured to be about 15 cm apart from the skirt surface.
接著,依據第7、8圖說明本發明跌倒偵知裝置之架構。 Next, the architecture of the fall detection device of the present invention will be described based on Figs.
開口部10之部分係於其中一護裙板8之乘降口附近,即乘降用地板6之前端部分之梳板7所在位置,換句話說,係被設置於離地面高8~11公分(最好為約10公分)之位置並於水平方向上延伸,用以能夠確實地對梳板7整體進行觀察。然後,將雷射透射窗9,係由透明壓克力樹脂板及透明玻璃板等雷射光可通過之材料組成,以覆蓋該開口部10之方式設置於該開口部10之背面。再者,可將由透明壓克力樹脂板及透明玻璃板等所組成之警告標示窗設置於乘降用地板6之梳板7附近之護裙板8中,並從護裙板8內部顯示彩色之警告標示,於此情況下,乘客輸送裝置所具備之乘降部警告標示裝置係用以通知使用者乘降部之相關事項,亦可不重新設置雷射透射窗9,而與警告標示窗併用。標號11為用以容納雷射掃描感測器單元之框體,係被設置內藏於透射窗9背面之護裙板8內,且於對應於雷射透射窗9之一側係具有開口部分。標號12為框體11內所設置之雷射掃描型距離感測器,於角度±120°之範圍內水平發射雷射光,由於雷射光光軸會被轉至垂直方向,進而測量以感測器為中心之水平方向距離。於該雷射掃描型距離感測器12頂端內部之上半部為發送部13,用以將雷射光發送至 雷射透射窗9,而於感測器頂端內部之下半部為接收部14,用以接收被反射回來且通過雷射透射窗9之雷射光。於此,能夠穿透雷射透射窗9之雷射光通常為±70°之角度範圍,且使雷射透射窗9之尺寸讓至少±70°或以上之角度之雷射光能夠穿透。 進一步,即使為±70°以內之角度,亦會有5~30%之反射,該反射光進入護裙板8內部後會於金屬組成之護裙板8內成為雜散光。雜散光之接收對於觀察區域內物體之存在觀測會產生問題。因此,於本發明中,去除雷射透射窗9所對應部份之框體11係被用以覆蓋雷射掃描型距離感測器12,進一步,於發送部13及接收部14間之水平方向上係設置用以分隔之水平擋板15,使得發送部13所發送之雷射光於護裙板8內部反射,而不會到達接收部14。標號16為介於框體11內之底部及雷射掃描型距離感測器12底部間之四個防震矽膠襯套。標號17為防震矽膠襯套16中央互連之水平連接板。然後,經由基板(未圖示)將以上述方式組成之雷射掃描感測器單元固定於乘客輸送裝置之桁架等固定部(未圖示)。 The portion of the opening portion 10 is located near the entrance and exit of one of the skirt plates 8, that is, the position of the comb plate 7 at the front end portion of the floor 6 for the landing, in other words, is set at 8 to 11 cm above the ground. The position (preferably about 10 cm) extends in the horizontal direction to enable the entire comb 7 to be observed. Then, the laser transmission window 9 is made of a material through which laser light such as a transparent acrylic resin plate or a transparent glass plate can pass, and is provided on the back surface of the opening portion 10 so as to cover the opening portion 10. Further, a warning sign window composed of a transparent acrylic resin plate and a transparent glass plate may be placed in the skirt plate 8 near the comb plate 7 of the landing board 6 and the color is displayed from the inside of the skirt panel 8. The warning sign indicates that, in this case, the passenger landing device has a riding and lowering warning indicator device for notifying the user of the relevant matters of the riding and lowering portion, and may not reset the laser transmission window 9 and use it together with the warning sign window. . Reference numeral 11 is a frame for accommodating the laser scanning sensor unit, which is disposed in the skirt 8 of the back of the transmission window 9, and has an opening portion on one side corresponding to the laser transmission window 9. . Reference numeral 12 is a laser scanning type distance sensor provided in the housing 11, and emits laser light horizontally within an angle of ±120°. Since the laser light axis is turned to the vertical direction, the sensor is measured. The horizontal distance from the center. The upper half of the inner portion of the top end of the laser scanning type distance sensor 12 is a transmitting portion 13 for transmitting the laser light to The laser transmission window 9 and the lower half of the interior of the sensor tip are receiving portions 14 for receiving the laser light reflected back through the laser transmission window 9. Here, the laser light that can penetrate the laser transmission window 9 is typically in the angular range of ±70°, and the laser transmission window 9 is sized to allow laser light of an angle of at least ±70° or more to penetrate. Further, even if it is within an angle of ±70°, there is a reflection of 5 to 30%, and the reflected light enters the inside of the skirt panel 8 and becomes stray light in the skirt 8 of the metal composition. The reception of stray light can cause problems in the observation of the presence of objects in the observation area. Therefore, in the present invention, the frame 11 for removing the portion corresponding to the laser transmission window 9 is used to cover the laser scanning type distance sensor 12, and further, the horizontal direction between the transmitting portion 13 and the receiving portion 14. The upper portion is provided with a horizontal baffle 15 for partitioning so that the laser light transmitted from the transmitting portion 13 is reflected inside the skirting plate 8 without reaching the receiving portion 14. Reference numeral 16 is a four anti-vibration silicone liner between the bottom of the housing 11 and the bottom of the laser scanning type distance sensor 12. Reference numeral 17 is a horizontal connecting plate in which the shock-proof silicone bushing 16 is centrally interconnected. Then, the laser scanning sensor unit configured as described above is fixed to a fixing portion (not shown) such as a truss of the passenger conveying device via a substrate (not shown).
再者,於第一實施例中,係說明本發明之跌倒偵 知裝置所適用之乘客輸送裝置,但不限定於此,舉例來說,可將本發明之跌倒偵知裝置設置於電梯升降廂之乘降部側壁下端,然後進行電梯升降廂內之跌倒偵知,亦適用於特定區域之跌倒偵知。 Furthermore, in the first embodiment, the fall detection of the present invention is explained. The passenger conveying device to which the device is applied is not limited thereto. For example, the fall detection device of the present invention can be disposed at the lower end of the side wall of the passenger's elevator car, and then the fall detection in the elevator car is performed. It also applies to fall detection in a specific area.
8‧‧‧護裙板 8‧‧‧skirt board
9‧‧‧雷射透射窗 9‧‧‧Laser transmission window
10‧‧‧開口部 10‧‧‧ openings
11‧‧‧框體 11‧‧‧ frame
12‧‧‧雷射掃描型距離感測器 12‧‧‧Laser Scanning Distance Sensor
13‧‧‧發送部 13‧‧‧Send Department
14‧‧‧接收部 14‧‧‧ Receiving Department
15‧‧‧水平擋板 15‧‧‧ horizontal baffle
16‧‧‧防震矽膠襯套 16‧‧‧Anti-vibration silicone bushing
17‧‧‧水平連接板 17‧‧‧ horizontal connection plate
Claims (8)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2012071585A JP5689089B2 (en) | 2012-03-27 | 2012-03-27 | Fall detection device and passenger conveyor |
Publications (2)
Publication Number | Publication Date |
---|---|
TW201345822A true TW201345822A (en) | 2013-11-16 |
TWI585029B TWI585029B (en) | 2017-06-01 |
Family
ID=49362000
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
TW102102785A TWI585029B (en) | 2012-03-27 | 2013-01-25 | Fall detection device and passenger conveyor |
Country Status (5)
Country | Link |
---|---|
JP (1) | JP5689089B2 (en) |
KR (1) | KR101944546B1 (en) |
CN (1) | CN103359600B (en) |
HK (1) | HK1186165A1 (en) |
TW (1) | TWI585029B (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI717327B (en) * | 2014-11-12 | 2021-02-01 | 瑞士商伊文修股份有限公司 | System and method for monitoring a transport of a passenger transportation device or transport unit |
Families Citing this family (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP6011568B2 (en) * | 2014-03-13 | 2016-10-19 | 三菱電機ビルテクノサービス株式会社 | Passenger conveyor human detection device |
CN103935876B (en) * | 2014-04-08 | 2015-11-04 | 张金木 | Escalator accident synchronous scanning device |
CN117902441A (en) | 2016-07-29 | 2024-04-19 | 奥的斯电梯公司 | Monitoring system for passenger conveyor, passenger conveyor and monitoring method thereof |
JP2021070551A (en) * | 2019-10-30 | 2021-05-06 | 株式会社日立製作所 | Passenger conveyor |
Family Cites Families (12)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3271694B2 (en) * | 1996-08-21 | 2002-04-02 | 三菱電機株式会社 | Optical radar device |
EP1013599A1 (en) * | 1998-12-21 | 2000-06-28 | Inventio Ag | Safety device for an escalator or a moving walkway |
JP2005008326A (en) * | 2003-06-18 | 2005-01-13 | Mitsubishi Electric Corp | Safety device of passenger conveyor |
JP2008013290A (en) * | 2006-07-04 | 2008-01-24 | Mitsubishi Electric Building Techno Service Co Ltd | Passenger conveyor |
JP4160611B2 (en) * | 2006-09-13 | 2008-10-01 | 北陽電機株式会社 | Scanning distance measuring device |
JP5249529B2 (en) * | 2007-06-11 | 2013-07-31 | 株式会社日立製作所 | Passenger conveyor safety device and safety control method |
JP5089304B2 (en) * | 2007-09-13 | 2012-12-05 | 三菱電機株式会社 | Escalator safety device |
JP2009248105A (en) * | 2008-04-02 | 2009-10-29 | Mitsubishi Electric Corp | Device for mounting position recognizing system |
JP5241461B2 (en) * | 2008-12-08 | 2013-07-17 | 三菱電機株式会社 | Passenger detection device for passenger conveyor |
JP5448636B2 (en) * | 2009-08-17 | 2014-03-19 | 三菱電機ビルテクノサービス株式会社 | Passenger conveyor landing detection device |
JP5480825B2 (en) | 2010-07-12 | 2014-04-23 | 三菱電機株式会社 | Fall detection device and passenger conveyor |
CN102328870B (en) * | 2010-07-12 | 2014-08-27 | 三菱电机株式会社 | Falling detection device and passenger conveyor |
-
2012
- 2012-03-27 JP JP2012071585A patent/JP5689089B2/en active Active
-
2013
- 2013-01-25 TW TW102102785A patent/TWI585029B/en active
- 2013-02-26 CN CN201310059758.8A patent/CN103359600B/en active Active
- 2013-03-21 KR KR1020130030243A patent/KR101944546B1/en active IP Right Grant
- 2013-12-03 HK HK13113432.4A patent/HK1186165A1/en unknown
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI717327B (en) * | 2014-11-12 | 2021-02-01 | 瑞士商伊文修股份有限公司 | System and method for monitoring a transport of a passenger transportation device or transport unit |
Also Published As
Publication number | Publication date |
---|---|
KR20130110046A (en) | 2013-10-08 |
CN103359600A (en) | 2013-10-23 |
TWI585029B (en) | 2017-06-01 |
JP5689089B2 (en) | 2015-03-25 |
HK1186165A1 (en) | 2014-03-07 |
KR101944546B1 (en) | 2019-04-17 |
CN103359600B (en) | 2016-05-18 |
JP2013203488A (en) | 2013-10-07 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
TWI585029B (en) | Fall detection device and passenger conveyor | |
US4874063A (en) | Portable elevator traffic pattern monitoring system | |
US10494853B2 (en) | Door system with sensor unit for contactless passenger compartment monitoring | |
US10370888B2 (en) | Door system with sensor unit and communication element | |
BRPI0622243B1 (en) | METHOD AND SYSTEM FOR INSPECTING A MOBILE OBJECT BY FORMING RADIATION IMAGES | |
JP5507135B2 (en) | Obstacle detection device, platform door system provided with the same, and obstacle detection method | |
US8256581B2 (en) | Landing door proximity warning system | |
JP5917327B2 (en) | Escalator monitoring system | |
TWI579226B (en) | Congestion level detection device and passenger conveyor | |
JP5898921B2 (en) | Vehicle door opening / closing detection device and detection method | |
CN102328870B (en) | Falling detection device and passenger conveyor | |
US20150212209A1 (en) | Laser scanning sensor | |
CN110088645A (en) | 3D laser radar sensor | |
JP6011568B2 (en) | Passenger conveyor human detection device | |
CA2879488C (en) | Coin and method for testing the coin | |
CN108001461A (en) | Subway shield door gauge area intelligent anti-clip detection warning device and method | |
KR20130028649A (en) | Congestion level detection device and passenger conveyor | |
JP2012020796A (en) | Device for detecting tumble of user of passenger conveyor | |
JP2011186526A (en) | Vehicle determination system and passing object management system | |
KR101981211B1 (en) | Precision-stopping measurement system | |
KR101405169B1 (en) | Automatic safety system for upper part of elevator car | |
TWI523806B (en) | Falling detector and passenger conveyor | |
AU2022417825A1 (en) | Door system for a lift installation | |
JP4304531B2 (en) | Detection device and automatic ticket gate | |
CN215814301U (en) | Gate with automatic ticket-free detection device |