US2019302084A1PendingUtilityA1

Method, device and apparatus for monitoring halogen levels in a body of water

66
Assignee: GECKO ALLIANCE GROUP INCPriority: Mar 16, 2017Filed: Jun 21, 2019Published: Oct 3, 2019
Est. expiryMar 16, 2037(~10.7 yrs left)· nominal 20-yr term from priority
G01N 33/182E04H 4/00G01J 3/0297G01J 2003/421G01N 21/85C02F 2209/29G01N 21/33E04H 4/1281G01J 2003/2869G01J 3/0205C02F 2209/11C02F 2103/42G01N 21/274G01J 3/0291G01N 21/3151G01N 21/3103G01N 2201/0231G01N 2021/3133G01J 3/42
66
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Claims

Abstract

A method and an apparatus are presented for monitoring a concentration of a specific halogen in a body of water such as a spa or bathing unit for example. The apparatus comprises a housing in which is positioned an optical absorption analyzer for making first and second measurement of transmission of ultraviolet light from a light source emitting light at a specific wavelength. The second and first measurements are taken respectively before and after the ultraviolet light has travelled through a sample of water and are used to derive a concentration of the specific halogen. The derived concentration may then be communicated to a user using a display device and/or may be used to control operational components of a bathing unit for adjusting the concentration of halogen in the water. In some practical implementations, the apparatus may be embodied as a standalone device, which may be configured to float on the water of the bathing unit or, alternatively, may be configured for being installed in-line in a water circulation path of the bathing input by connecting the housing to circulation piping.

Claims

exact text as granted — not AI-modified
1 .- 39 . (canceled) 
     
     
         40 . A device for monitoring a concentration of a specific halogen in a bathing unit, said bathing unit including a receptacle for holding water and circulation piping connecting a water inlet and a water outlet of the receptacle, the circulation piping including at least one circulation pump for circulating water between the water inlet and the water outlet, said device comprising:
 a. a housing including a chamber including walls defining spaced apart opposing windows made at least in part of a material permeable to ultraviolet light, said housing being configured to be connected in fluid communication with the circulation piping of the bathing unit so that so that at least part of the water circulated between the water inlet and the water outlet of the receptacle flows through said chamber;   b. an optical absorption analyzer, said optical absorption analyzer being configured for making measurements of transmission of ultraviolet light from a light source through a sample of water, the sample of water being between the spaced apart opposing windows, said light source emitting light at a specific wavelength, wherein the specific wavelength of the light source corresponds to the specific halogen whose concentration is being monitored, said optical absorption analyzer comprising a processing unit configured for:
 i. deriving the concentration of the specific halogen at least in part by processing results of the measurements of transmission of ultraviolet light from a light source through the sample of water; and 
 ii. releasing a signal conveying the derived concentration of the specific halogen. 
   
     
     
         41 . A device as defined in  claim 40 , wherein the chamber is tubular in shape. 
     
     
         42 . A device as defined in  claim 40 , wherein the optical absorption analyzer is positioned with said housing. 
     
     
         43 . A device as defined in  claim 40 , wherein the spaced apart opposing windows are made of at least one of quartz, optical glass, cellulose diacetate, polyethylene, acrylic and polyester. 
     
     
         44 . A device as defined in  claim 40 , wherein the measurements of transmission of ultraviolet light include a first measurement of transmission of ultraviolet light and a second measurement of transmission of ultraviolet light, and wherein the optical absorption analyzer further comprises:
 i. the light source for emitting ultraviolet light at the specific wavelength;   ii. a first detector for making the first measurement of transmission of ultraviolet light from said light source through the sample of water;   iii. a second detector for making the second measurement of transmission of ultraviolet light, wherein the second measurement is taken prior to the ultraviolet light travelling through the sample of water.   
     
     
         45 . A device as defined in  claim 44 , wherein said optical absorption analyzer further comprises:
 i. a beam splitter module for directing:   ii. a first part of ultraviolet light generated by said light source toward the first detector through the sample of water; and   iii. a second part of ultraviolet light generated by said light source toward the second detector.   
     
     
         46 . A device as defined in  claim 40 , wherein said optical absorption analyzer further comprises a temperature sensor for generating a signal conveying water temperature information for the sample of water, said processing unit being configured for deriving the concentration of the specific halogen at least in part by processing the results of the measurements of transmission of ultraviolet light and of the water temperature information. 
     
     
         47 . A device as defined in  claim 40 , wherein the specific halogen whose concentration is being monitored is selected from the group consisting of chlorine and bromine. 
     
     
         48 . A device as defined in  claim 47 , wherein the specific halogen whose concentration is being monitored is bromine. 
     
     
         49 . A device as defined in  claim 48 , wherein the specific wavelength at which said light source emits light is between about 280 nm and 380 nm. 
     
     
         50 . A device as defined in  claim 49 , wherein the specific wavelength at which said light source emits light is between about 300 nm and 360 nm. 
     
     
         51 . A device as defined in  claim 50 , wherein the specific wavelength at which said light source emits light is about 310 nm. 
     
     
         52 . A device as defined in  claim 44 , wherein said light source is a first light source and wherein said specific wavelength is a first specific wavelength, said optical absorption analyzer further comprising a second light source for emitting light at a second specific wavelength different from the first specific wavelength, wherein:
 a. the first detector is used for making a first measurement of transmission of light from the second light source through the sample of water;   b. the second detector is used for making a second measurement of transmission of light from said second light source, wherein the second measurement is taken prior to the light from said second light source travelling through the sample of water;   c. the processing unit is configured to derive the concentration of the specific halogen by processing at least:
 i. results of the first and the second measurements of transmission of light from said second light source; and 
 ii. the results of the first and the second measurements of transmission of light from said first light source. 
   
     
     
         53 . A device as defined in  claim 52 , wherein said optical absorption analyzer further comprises a beam splitter module for directing:
 i. a first part of ultraviolet light generated by said first light source toward the first detector through the sample of water;   ii. a second part of ultraviolet light generated by said first light source toward the second detector;   iii. a first part of light generated by said second light source toward the first detector through the sample of water; and   iv. a second part of light generated by said second light source toward the second detector.   
     
     
         54 . A device as defined in  claim 52 , wherein said second specific wavelength at which said second light source emits light is between about 450 nm and 1100 nm. 
     
     
         55 . A device as defined in  claim 54 , wherein said second specific wavelength at which said second light source emits light is between about 475 nm and 550 nm. 
     
     
         56 . A device as defined in  claim 52 , wherein the first light source and the second light source are modulated light sources. 
     
     
         57 . A device as defined in  claim 52 , wherein the first light source and the second light source are configured to emit light according to sinusoidal light patterns. 
     
     
         58 . A device as defined in  claim 57 , wherein the first light source is modulated at a first frequency and the second light source is modulated at a second frequency, wherein the first frequency is different from the second frequency and wherein said processing unit is configured for deriving the concentration of the specific halogen at least in part based on a frequency distribution associated with:
 a. the results of the first and the second measurements of the transmission of light from said first light source; and   b. the results of the first and the second measurements of the transmission of light from said second light source.   
     
     
         59 . A device as defined in  claim 58 , wherein the first frequency of the first light source is between 420 and 580 Hz. 
     
     
         60 . A device as defined in  claim 59 , wherein the second frequency of the second light source is between 540 and 600 Hz. 
     
     
         61 . A device as defined in  claim 40 , configured for transmitting the signal conveying the derived concentration of the specific halogen to a remote device, said remote device including a display for conveying the derived concentration of the specific halogen. 
     
     
         62 . A device as defined in  claim 61 , wherein said remote device is a smart phone. 
     
     
         63 . A device as defined in  claim 40 , wherein said device is configured to transmit the signal conveying the derived concentration of the specific halogen to a processing module external to the device over a communication link, said processing module external to the device being configured for using the derived concentration of the specific halogen to control generation of the specific halogen to detect at least one of an excess and an insufficiency of the specific halogen in the water. 
     
     
         64 . A device as defined in  claim 63 , wherein said processing module external to the device being configured for controlling generation of the specific halogen by controlling operation of an electrolytic cell.

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