Abstract:
A container that will house components of the device will be mounted to railroad ties to permit the user of this device to gather high resolution images of the undercarriage of a moving train car as it passes overhead. The speed of the camera shutter will be dictated by the software that will work in conjunction with a linear speed device. The gathered images can be reassembled and forwarded to a remote location. The software provides an alarm in the event of a present danger.

Description:
BACKGROUND OF THE INVENTION 
       [0001]    A. Field of the Invention 
         [0002]    This relates to railroad inspection and specifically the inspection of the undercarriage of a moving train. 
         [0003]    As trains are typically located in remote areas, it is important at times to be able to visually inspect and communicate the inspection of the integrity of a train and its components to remote locations. This device is a device that is placed on the railroad ties between the railroad tracks. As a train moves along the railroad tracks, the device will capture high resolution images of the undercarriage of the moving train. The images can then be transferred to remote locations to detect the presence of anomalies that would then result in appropriate remedial action. 
         [0004]    Prior Art 
         [0005]    Currently, in order to inspect the undercarriage of a train the train must be stopped and visually inspected by personnel. 
         [0006]    This invention is intended to replace the procedure of slowing or stopping a train while a team of security personnel physically search and inspect for potential hazards on the train. The process of stopping a train costs significantly more time and resources than the presented invention. This invention records a series of digital images that are transmitted to a remote location for viewing by an individual or a computer. 
         [0007]    There are other prior art references that teach the undercarriage inspection systems. Specifically, a representative example is U.S. Pat. No. 6,856,344 by Frantz is an image inspection system of vehicle undercarriages of cars. Although this invention may be useful for monitoring vehicles, it does not teach a use for inspecting train undercarriages. 
       BRIEF DESCRIPTION OF THE INVENTION 
       [0008]    On the undercarriage of a train it is important to be able to detect any anomalies such as foreign objects that may be lodged in the undercarriage as well as check the integrity of the hasps, knuckles, bolt plate, bolts and sill on the undercarriage of the train. A defect in the hasp, knuckle or bolt plate may cause the train to derail. Similarly a foreign object on the undercarriage should be detected as soon as possible so that remedial action can be taken, if needed. 
         [0009]    The device itself houses several components including the following: camera, mirror, lighting, anti-glare glass and a slit through which the images are taken. The components of the device are placed in a container that is secured between the railroad ties. The placement of the container that houses the components is designed to prevent harm to the components. It may be mounted to the railroad ties or buried depending on the desires of the customer. 
         [0010]    Images from a high speed camera that is located in the container beneath the train will take a multitude of pictures that are transmitted to a separate server. Because trains are moving at relatively rapid speeds it is important to initially accurately measure the speed of the train in order to establish the rate at which the camera should takes photos of the train&#39;s undercarriage. 
         [0011]    A linear speed detection device is utilized to measure the speed of the train within a percentage of a mile per hour. The speed of the train is first measured by a series of speed indicators that are located on the tracks that will provide a precise measurement of the speed of a train. This measurement is critical in order to set the frame rate of the camera that will take the pictures. 
         [0012]    The system is turned on or “activated” as the train passes over a certain point on the track relative to the container that houses the components of the system. Although a variety of means may be used it is likely to be through use of a laser system that is mounted in close proximity to the railroad tracks and the components of the system. 
         [0013]    This application works in close conjunction with a device that will detect the linear speed of the train to within a fraction of a second so that the appropriate camera frame speed can be adjusted using software for that purpose. 
         [0014]    As the train rolls on the tracks, it will roll over the slit, which is approximately three pixels wide. Images will be continuously taken of the train&#39;s undercarriage at very high speeds using the camera that has been installed for that purpose. The speed at which images are taken directly correlates with the speed of the train which is provided by the linear speed device. 
         [0015]    The camera is positioned so that the image is taken by deflecting the image off a mirror. This helps to insure that a proper image resolution and quality can be achieved while also preventing damage to the internal components of the device. 
         [0016]    As the images are collected, the series of photographs are collected in fragmented pieces and then reassembled in the image of a preset image, likely a train car. Each of the collections of “train cars” are reassembled into a complete train. 
         [0017]    In order to insure that the quality of the picture is not affected, a means of lighting is also provided. The means of lighting can be controlled both in terms of the intensity of the light as well as the direction of the light to obtain the best possible image of the undercarriage. 
         [0018]    Anti-glare glass is also provided above the slit through which the image is taken to maximize the quality of the image. Trains operate in a multitude of operating conditions and the camera and all associated equipment must be able to operate in a multitude of lighting scenarios. Although no specific type of camera is contemplated, various types of cameras would include infrared cameras. 
         [0019]    The device is also designed to be portable and can be positioned in different locations in the yard depending on the needs of the customer. 
         [0020]    Software is included that will initially set the speed of the camera and operate the camera, using the associated linear speed detection device. The software will also permit the image to be reassembled and then transmitted to a remote location. 
         [0021]    The software will also control the lighting around the area so that the best possible image may be taken to prevent shadows, among other environmental factors. 
     
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         [0022]      FIG. 1  is a view of the components of this device within the container. 
           [0023]      FIG. 2  is a representation of the container mounted on the railroad ties. 
           [0024]      FIG. 3  is a representation of the device as a train rolls over the device. 
           [0025]      FIG. 4  is a schematic of the components of the device. 
       
    
    
     NUMBERING REFERENCE 
       [0000]    
       
           1  Railroad tracks 
           2  Railroad ties 
           5  Container 
           10  Camera 
           15  Mirror 
           20  Means of lighting 
           25  Anti-glare glass 
           30  Slit 
           35  Controller 
           40  Software 
           45  Image transfer 
           50  Activation means 
           60  Linear speed detection device 
           65  Control board 
           70  Alarm 
       
     
       DETAILED DESCRIPTION OF THE EMBODIMENTS 
       [0041]    The modern train moves along a set of parallel railroad tracks with a locomotive and a series of cars attached to the locomotive. Beneath the tracks are a plurality of the railroad ties that rest perpendicular to the railroad tracks and support the railroad tracks. This system of train travel has existed from the beginning of train travel. Because trains are typically loud and tend to travel throughout the night, trains often move in very remote locations. 
         [0042]    Because trains are large cumbersome structures it is important to be able to periodically inspect the connections between cars as well as the general condition of the undercarriage of the train. The train cars are typically assembled using a set of knuckles and hasps that connect the cars. With this type of system the cars can be disconnected if desired. It is imperative that the integrity of the connections means (knuckles and hasps) and the train&#39;s undercarriage be inspected periodically. The failure of the connection means may lead to the derailment of a train with its attendant costs. 
         [0043]    In the prior art the train would need to be stopped in order to allow humans to visually inspect the undercarriage for defects. This is cumbersome and results in delays in train travel and moving goods and people from location to location. 
         [0044]    This system incorporates a series of items that will allow the undercarriage of a train to be inspected periodically without the need to stop the train for a visual inspection. A container  5  with the components of this device is secured to the ties  2  of a railroad track  1  and is designed to be portable; the container  5  may also be buried. The train will roll over the railroad tracks  1 , which are perpendicular to the ties  2 . As the trains move over the container a series of high resolution photographs are taken of the train&#39;s undercarriage. 
         [0045]    The system is activated using a predetermined means  50  in the software that will detect the presence of a train. The system will remain active as long as it is required to capture the images and the system will automatically turn the system “off” using a preset in the software  40  for that purpose. During the normal operation is system is not operational until the presence of a train is detected by the activation means  50 . The presence of a train may be detected using a laser system that will detect the presence of a train. 
         [0046]    Within the container are the following components: camera  10 , mirror  15 , lighting means  20 , a slit  30 , which is in the range of 1-5 pixels wide and is provided so that the images of the undercarriage of a train car can be gathered. The camera images will be collected through the slit as the image of the undercarriage is reflected off the mirror  15  that is in the container  5 . In order to insure a clear image, a piece of anti-glare glass  25  is placed over the slit  30  and the lighting around the area is carefully monitored and controlled. 
         [0047]    The camera  10  is capable of capturing high resolution images at rapid speeds in a variety of lighting or environmental conditions to include low lighting, dim lighting, and complete darkness. Additionally the speed of the camera frame speed is controlled and adjusted in real time by the software from data that is collected from the linear speed detection device  60  and the control board  65  that collects the speed data and then adjusts the frame speed of the camera  10 . 
         [0048]    The mirror  15  is provided to insure that the image of the undercarriage of the train car is clearly represented and to prevent damage to the camera within the container. As the trains roll over the device on the tracks, a series of fragmented images are taken of the undercarriage of the train. These images are in the range of 1-5 pixels, with a preferential pixel width of 2 pixels. Each of the images are collected individually and sent to a server. The individual images that are captured are then reassembled to present a clear picture of the train undercarriage. 
         [0049]    At a certain preset, probably the length of a train car, in the software control the set points at which images are reassembled into a picture of the individual train car. The individual train cars can then be reassembled by the software into a complete train and the images transferred  45 . The software  40  is likely to have a preset at the individual train car so that the pixels can be reassembled into an individual train car and the view of the entire train once reassembled by the software can then be transferred to a remote location and then reassembled and viewed. The software will allow the images of the entire train to be forwarded to a remote location, if needed. 
         [0050]    The lighting means  20  can be adjusted both in terms of intensity and direction to obtain the best possible images as the area above the slit  30  is illuminated. The lighting means is necessary to insure an appropriate discernible image can be captured and reproduced. The lighting means  20  is illuminated in such a way that it minimizes the likelihood of shadows covering the inspected areas of the trains undercarriage. Many different types of lighting means may be used but considerations for the lighting means should include the ability to quickly and brightly illuminate the area. The choice of LED lighting is probably an ideal means to illuminate although different means may be used. 
         [0051]    Software  40  is provided to control the activation and deactivation of the system, the lighting means including the intensity and direction of the lighting means as well as the image capture and image transfer  45 . After the fragmented pictures of the undercarriage of a train car are gathered, the images are reassembled to provide a high resolution image. End points are established by the software to gather a finite amount of information. 
         [0052]    The software also provides an alarm  70  in the event that a preset anomaly is detected, such as a foreign object in the undercarriage of the train car or damage to any of the components of the undercarriage including the coupling or knuckle of the train car. 
         [0053]    While the description of this invention is set forth in this application, modifications may be made to the invention without departing from the spirit of the invention.