US2900520A - Light sensitive control means - Google Patents
Light sensitive control means Download PDFInfo
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- US2900520A US2900520A US723405A US72340558A US2900520A US 2900520 A US2900520 A US 2900520A US 723405 A US723405 A US 723405A US 72340558 A US72340558 A US 72340558A US 2900520 A US2900520 A US 2900520A
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- control
- contact
- photocell
- contacts
- strips
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01H—ELECTRIC SWITCHES; RELAYS; SELECTORS; EMERGENCY PROTECTIVE DEVICES
- H01H47/00—Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current
- H01H47/22—Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current for supplying energising current for relay coil
- H01H47/24—Circuit arrangements not adapted to a particular application of the relay and designed to obtain desired operating characteristics or to provide energising current for supplying energising current for relay coil having light-sensitive input
Definitions
- This invention relates. to automatic control means and more particularly to automatic control of street lights.
- the present invention provides such automatic street lighting control. It comprises generally a photocell, temperature compensated contact means responsive to the average output'of the photocell, and temperature compensated power contact means responsive to the integrated thermal output of the control contact means. All vacuum tube amplifiers and magnetic relays are eliminated.
- a principal object of the invention is to provide new and improved automatic street lighting control means.
- Another object of the invention is to provide new and improved street.
- light control means responsive to average light intensity.
- Stillanother object is to provide new and improved thermal control means.
- a further object is-to provide thermostatic means insensitive to ambient temperature.
- a still further object of the invention is to provide control means having a useful thermal output.
- Another object of the invention is to provide light sensitive automatic control means which are inexpensive and easy to maintain, and which do not use vacuum tubes or magnetic relays.
- Figure 1 is an elevation view partially in section of the embodiment of the invention.
- FIG. 2 is a detail view of the control contact means.
- Figure 2A is a sectional view along line AA of Figure 2.
- FIG. 3 is a detail view of the power contact means
- the invention generally comprises a photocell 1, temperature compensated control contact means 2, temperature compensated power contact means 3, and utilization means 4 which may be an electric light.
- the photocell 1 may be conventional, for instance, of the photo resistor type. It is connected to one side of the electric line L and its other terminal is connected to a resistor 5 which is mounted adjacent and connected to the bimetallic strip 6 which is also connected to the other side of the electrical line L
- the bimetallic strip 6 has a contact 6', and a second bimetallic strip 7 having a contact 7' is mounted parallel to the strip 6.
- the bimetallic elements 6 and 7 are mounted in insulated base 9 and are arranged so that ambient temperature variation will cause them to bend in the same direction without making contact. Adjustment screw 8 is provided to adjust the contact spacing. Spring 8 bears against strip 7 and screw 8 engages threaded bracket 9'.
- the resistor 5 has a relatively high resistance, for instance, 12,000 ohms, and it is so located as to heat the bimetal strip 6 causing the conact 6' to close with contact 7. High resistance is necessary to generate sufficient heat with the small control current.
- the resistor 5 may be a common carbon resistor costing only a few cents preferably with a portion of the insulation covering removed, Figure 2A.
- the insulation covering 30 is removed on one side almost to the carbon core 31. The stripped side faces the bimetal strip 6 for greatest heat transfer thereto. It would not be possible to wind a coil having sufficient resistance on the strip 6. If it were possible it would be extremely expensive.
- the resistor 5 is responsive to average or integrated light condition output of the photocell. Therefore, it will not operate the control contacts in response to spurious light flashes from automobile headlights. or
- the contact 7 is connected by means of the lead 10 to a heating coil 11 which is mounted on and connected to a bimetal strip 12 in the power contact means.
- the bimetal strip 12 and strip 13 are mounted in parallel relation, and the strip 13 has mounted on it a spring element 14 having a contact 14.
- a curved bimetal strip 13 bears against strip 13 at the top. This provides operability over a greater temperature range than with two parallel bimetal strips.
- the spring element 14 is a bistable element which operates as a detent or snap action device. It is mounted on the bimetal element 13 by means of a stud 15.
- a stationary contact 16 is mounted on the insulator base 17 and is adapted to be contacted by the contact 14'.
- An adjustment screw 18 is mounted on the bimetal strip 12 and bears against the element 14 for purposes of contact adjustment.
- the load circuit is from one side of the line L through strip 13, element 14, contacts 14 and 16, to load 4, and back to L
- the control circuit is completed from L through contacts 6' and 7, conductor 10, heating coil 11, bimetal strip 12, screw 18, spring 14, stud and strip '13, back to L
- the control current is low, and it is easily handled by the control contacts.
- the control contacts would not be able to carry the load circuit directly, nor is there enough power in the control circuit to operate -the snap action switch 14 which is necessary to provide positive contact and eliminate sparking.
- Both sets of contacts are temperature compensated since the bimetal strips bend in the same direction and both have the necessary integration, namely, the heating elements, to prevent spurious responses. Therefore, a double integration is provided.
- Figure 1 shows a view of an embodiment of the in vention comprising a base adapted to be mounted on top of a street lighting globe.
- a translucent cover 21 is provided which transmits the light to the photocell.
- the cover may be of the type disclosed in my Patent No. 2,756,349, Light Integrating Means for Photocell Circuit, granted July 24, 1956.
- the cover may be made of Lucite or equivalent.
- the inside area of the cover is preferably roughened adjacent the photocell to facilitate the transmission of light to the photocell.
- the cover itself provides an integrating eifect as light striking from any direction will have some component transmitted to the position of the photocell.
- the control contactmeans 2 and the power contact means 3 may be mounted on suitable bracket 22 which is connected to the base member.
- the photocell 1 is mounted on the bracket 22.
- Lightning arrester 32 is mounted by bracket 33 and is connected across the line.
- One plate 34 is connected to one side of the line via stud 35 and bracket 33.
- the other plate 36 is connected to the other side of the line via rod 37.
- Plate 36 is insulated by insulator 38 and the two plates are separated by insulator 39. Sparks across the gap 40 are blown out by air expansion in the gap cavity.
- the invention is not necessarily limited to street lighting systems but may be used wherever photocell automatic control circuits may be used.
- Light sensitive control means comprising a photosensitive means, heat operated control contact means connected to and responsive to the integrated output of said photo-sensitive means, and heat operated power contact means connected to and responsive to the integrated output of said control contact means.
- Light sensitive control means comprising a photocell, control contact means connected to and responsive to the integrated output of said photocell, said control contact means including a pair of temperature compensated bimental strips and heating means connected to said photocell, and heat operated power contact means connected to and responsive to the integrated output of said control contact means.
- Light sensitive control means comprising a photoresistor, control contact means connected to and responsive to the integrated output of said photo-resistor, said control contact means including a pair of temperature compensated bimetal strips and heating means connected to said photo-resistor, heat operated power contact means connected to and responsive to the integrated output of said control contact means, said power contact means including a pair of temperature compensated bimetal strips, and heating means connected to said con trol contact means.
- Temperature compensated light sensitive means comprising a photocell, a first pair of bimetal strips having contacts mounted in parallel relation, a resistor mounted adjacent one of said strips and connected in series with said photocell, said resistor being a carbon resistor with the insulation substantially removed on one side, said bimetal strips being adapted to close said contacts on the application of heat from said resistor, a second pair of bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on the other of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
- Temperature compensated light sensitive means comprising a photocell, a first pair of temperature compensated bimetal strips having contacts mounted in parallel relation, heating means mounted adjacent one of said strips and connected in series with said photocell, said bimetal strips being adapted to close said contacts on the application of heat from said heating means, a second pair of temperature compensated bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on the other of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
- Temperature compensated light sensitive means comprising a photocell, a first pair of bimetal strips having contacts mounted in parallel relation, a resistor mounted adjacent one of said strips and connected in series with said photocell, said bimetal strips being adapted to close said contacts in response to the integrated output, a second pair of bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on one of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
Description
K. F. FRANK 2,900,520
LIGHT SENSITIVE CONTROL MEANS Aug. 18, 1959 Filed March 24, 1958 VFIGQ FIG. 2
Fl INVENTOR KARL F. FRANK BY yy mw u.
ATTORNEY United. States Patent LIGHT SENSITIVE CONTROL MEANS Karl F. Frank, Garden City, N.Y., assignor to Micro Balancing, Inc., Garden City Park, N.Y.
Application March 24, 1958, Serial No. 723,405
6 Claims. (Cl. 250-206) This invention relates. to automatic control means and more particularly to automatic control of street lights.
It is desirable to have individual automatic control for street lights for several reasons. It is preferable to decentralize control as much as possible in order to isolate trouble so that one failure would not disrupt more than one light. It is too expensive and not practical to lay separate control cables. Therefore, it is the usual practice to put individual switches in each light.
Some prior automatic devices for turning street lights on and off generally include an electric clock. These systems are expensive and must be individually reset as the days become longer and shorter. Other devices have included photocells operating magnetic relay and vacuum tube circuits. One difliculty with these systems is that they are responsive to intermittent light such as lightning and passing automobile lights. Also magnetic relays and vacuum tubes are sources of continual trouble, and in street lighting, maintenance is an important item. Radio controlled systems are unduly complicated and are subject to interference such as automobile ignition and atmospherics.
Therefore, there is a need for automatic street lighting control means which is fully automatic, which does not require resetting as the days lengthen and shorten, which is not responsive to intermittent light such as lightning or automobile headlights, or to other types of interference, and which eliminates all magnetic relays and vacuum tubes.
The present invention provides such automatic street lighting control. It comprises generally a photocell, temperature compensated contact means responsive to the average output'of the photocell, and temperature compensated power contact means responsive to the integrated thermal output of the control contact means. All vacuum tube amplifiers and magnetic relays are eliminated.
- Accordingly, a principal object of the invention is to provide new and improved automatic street lighting control means.
Another object of the invention is to provide new and improved street. light control means responsive to average light intensity.
Stillanother objectis to provide new and improved thermal control means.
A further object is-to provide thermostatic means insensitive to ambient temperature.
A still further object of the invention is to provide control means having a useful thermal output.
Another object of the invention is to provide light sensitive automatic control means which are inexpensive and easy to maintain, and which do not use vacuum tubes or magnetic relays.
These and other objects of the invention will be apparent from the following specification and drawings, of Which:
Figure 1 is an elevation view partially in section of the embodiment of the invention.
Figure 2 is a detail view of the control contact means.
Figure 2A is a sectional view along line AA of Figure 2.
Figure 3 is a detail view of the power contact means, and
Figure 4 is a schematic circuit diagram.
Referring to the figures, the invention generally comprises a photocell 1, temperature compensated control contact means 2, temperature compensated power contact means 3, and utilization means 4 which may be an electric light.
The photocell 1 may be conventional, for instance, of the photo resistor type. It is connected to one side of the electric line L and its other terminal is connected to a resistor 5 which is mounted adjacent and connected to the bimetallic strip 6 which is also connected to the other side of the electrical line L The bimetallic strip 6 has a contact 6', and a second bimetallic strip 7 having a contact 7' is mounted parallel to the strip 6. The bimetallic elements 6 and 7 are mounted in insulated base 9 and are arranged so that ambient temperature variation will cause them to bend in the same direction without making contact. Adjustment screw 8 is provided to adjust the contact spacing. Spring 8 bears against strip 7 and screw 8 engages threaded bracket 9'.
When the photocell 1 is energized by light, a small current will flow through the photocell 1 and the resistor 5 to the other side of the line. The resistor 5 has a relatively high resistance, for instance, 12,000 ohms, and it is so located as to heat the bimetal strip 6 causing the conact 6' to close with contact 7. High resistance is necessary to generate sufficient heat with the small control current. The resistor 5 may be a common carbon resistor costing only a few cents preferably with a portion of the insulation covering removed, Figure 2A. The insulation covering 30 is removed on one side almost to the carbon core 31. The stripped side faces the bimetal strip 6 for greatest heat transfer thereto. It would not be possible to wind a coil having sufficient resistance on the strip 6. If it were possible it would be extremely expensive.
The resistor 5 is responsive to average or integrated light condition output of the photocell. Therefore, it will not operate the control contacts in response to spurious light flashes from automobile headlights. or
lightning.
The contact 7 is connected by means of the lead 10 to a heating coil 11 which is mounted on and connected to a bimetal strip 12 in the power contact means. The bimetal strip 12 and strip 13 are mounted in parallel relation, and the strip 13 has mounted on it a spring element 14 having a contact 14. A curved bimetal strip 13 bears against strip 13 at the top. This provides operability over a greater temperature range than with two parallel bimetal strips. The spring element 14 is a bistable element which operates as a detent or snap action device. It is mounted on the bimetal element 13 by means of a stud 15. A stationary contact 16 is mounted on the insulator base 17 and is adapted to be contacted by the contact 14'. An adjustment screw 18 is mounted on the bimetal strip 12 and bears against the element 14 for purposes of contact adjustment.
The operation of the power control contacts are as follows. The bimetal elements 12 and 13' are temperature compensated so that they will both bend in the same direction in response to ambient temperature change. However, when current flows through the heating coil 11 due to the closing of the control contacts 6' and 7, heat is generated and the bimetal element 12 will bend in a direction to close the contacts 14' and 16 which will energize the load 4. The heating coil is also an integrating device and is responsive only to average light conditions.
The load circuit is from one side of the line L through strip 13, element 14, contacts 14 and 16, to load 4, and back to L The control circuit is completed from L through contacts 6' and 7, conductor 10, heating coil 11, bimetal strip 12, screw 18, spring 14, stud and strip '13, back to L The control current is low, and it is easily handled by the control contacts. The control contacts would not be able to carry the load circuit directly, nor is there enough power in the control circuit to operate -the snap action switch 14 which is necessary to provide positive contact and eliminate sparking.
Both sets of contacts are temperature compensated since the bimetal strips bend in the same direction and both have the necessary integration, namely, the heating elements, to prevent spurious responses. Therefore, a double integration is provided.
Figure 1 shows a view of an embodiment of the in vention comprising a base adapted to be mounted on top of a street lighting globe. A translucent cover 21 is provided which transmits the light to the photocell. The cover may be of the type disclosed in my Patent No. 2,756,349, Light Integrating Means for Photocell Circuit, granted July 24, 1956. The cover may be made of Lucite or equivalent. The inside area of the cover is preferably roughened adjacent the photocell to facilitate the transmission of light to the photocell. The cover itself provides an integrating eifect as light striking from any direction will have some component transmitted to the position of the photocell. The control contactmeans 2 and the power contact means 3 may be mounted on suitable bracket 22 which is connected to the base member. The photocell 1 is mounted on the bracket 22.
The invention is not necessarily limited to street lighting systems but may be used wherever photocell automatic control circuits may be used.
I claim:
1. Light sensitive control means comprising a photosensitive means, heat operated control contact means connected to and responsive to the integrated output of said photo-sensitive means, and heat operated power contact means connected to and responsive to the integrated output of said control contact means.
2. Light sensitive control means comprising a photocell, control contact means connected to and responsive to the integrated output of said photocell, said control contact means including a pair of temperature compensated bimental strips and heating means connected to said photocell, and heat operated power contact means connected to and responsive to the integrated output of said control contact means.
3. Light sensitive control means comprising a photoresistor, control contact means connected to and responsive to the integrated output of said photo-resistor, said control contact means including a pair of temperature compensated bimetal strips and heating means connected to said photo-resistor, heat operated power contact means connected to and responsive to the integrated output of said control contact means, said power contact means including a pair of temperature compensated bimetal strips, and heating means connected to said con trol contact means.
4. Temperature compensated light sensitive means comprising a photocell, a first pair of bimetal strips having contacts mounted in parallel relation, a resistor mounted adjacent one of said strips and connected in series with said photocell, said resistor being a carbon resistor with the insulation substantially removed on one side, said bimetal strips being adapted to close said contacts on the application of heat from said resistor, a second pair of bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on the other of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
5. Temperature compensated light sensitive means comprising a photocell, a first pair of temperature compensated bimetal strips having contacts mounted in parallel relation, heating means mounted adjacent one of said strips and connected in series with said photocell, said bimetal strips being adapted to close said contacts on the application of heat from said heating means, a second pair of temperature compensated bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on the other of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
6. Temperature compensated light sensitive means comprising a photocell, a first pair of bimetal strips having contacts mounted in parallel relation, a resistor mounted adjacent one of said strips and connected in series with said photocell, said bimetal strips being adapted to close said contacts in response to the integrated output, a second pair of bimetal strips mounted in parallel relation, a heating coil mounted adjacent one of said second strips, said coil being connected in series with said first contacts, a snap action contact being mounted on one of said second strips, a stationary contact adapted to be contacted by said snap action contact, said last two contacts being connected in series with utilization apparatus.
References Cited in the file of this patent UNITED STATES PATENTS 1,618,816 Davies Feb. 22, 1927 1,878,010 Spahr Sept. 20, 1932 1,949,689 Lamb Mar. 6, 1934 2,054,380 Lamb Sept. 15, 1936 2,057,384 Lamb Oct. 13, 1936 2,543,262 Thomson Feb. 27, 1951 2,748,223 Frank May 29, 1956
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US723405A US2900520A (en) | 1958-03-24 | 1958-03-24 | Light sensitive control means |
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US723405A US2900520A (en) | 1958-03-24 | 1958-03-24 | Light sensitive control means |
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US2900520A true US2900520A (en) | 1959-08-18 |
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US723405A Expired - Lifetime US2900520A (en) | 1958-03-24 | 1958-03-24 | Light sensitive control means |
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Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3048833A (en) * | 1960-05-13 | 1962-08-07 | George W Bernheim | Photoelectric control device for street lights |
US3052816A (en) * | 1960-12-14 | 1962-09-04 | George W Bernheim | Thermal relay switching circuit |
US3081417A (en) * | 1959-02-24 | 1963-03-12 | Mc Graw Edison Co | Photoelectric street lamp controls |
US3085179A (en) * | 1958-12-24 | 1963-04-09 | Vapor Corp | Control means |
US3085178A (en) * | 1958-12-24 | 1963-04-09 | Vapor Corp | Switching apparatus |
US3187204A (en) * | 1963-06-13 | 1965-06-01 | Sigma Instruments Inc | Condition-responsive control circuit |
US3240907A (en) * | 1963-06-24 | 1966-03-15 | Sigma Instruments Inc | Photocell-initiated switching device with dual bimetal switch arms |
Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1618816A (en) * | 1918-05-03 | 1927-02-22 | Ind Res Corp | Light-control switch |
US1878010A (en) * | 1925-06-19 | 1932-09-20 | Honeywell Regulator Co | Apparatus for controlling burners |
US1949689A (en) * | 1932-05-07 | 1934-03-06 | Weston Electrical Instr Corp | Relay system |
US2054380A (en) * | 1932-10-27 | 1936-09-15 | Weston Electrical Instr Corp | Alarm |
US2057384A (en) * | 1932-07-07 | 1936-10-13 | Weston Electrical Instr Corp | Relay circuit |
US2543262A (en) * | 1945-10-12 | 1951-02-27 | Comb Control Corp | Burner safety control system |
US2748223A (en) * | 1952-08-21 | 1956-05-29 | Micro Balancing Inc | Thermostatic control means |
-
1958
- 1958-03-24 US US723405A patent/US2900520A/en not_active Expired - Lifetime
Patent Citations (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US1618816A (en) * | 1918-05-03 | 1927-02-22 | Ind Res Corp | Light-control switch |
US1878010A (en) * | 1925-06-19 | 1932-09-20 | Honeywell Regulator Co | Apparatus for controlling burners |
US1949689A (en) * | 1932-05-07 | 1934-03-06 | Weston Electrical Instr Corp | Relay system |
US2057384A (en) * | 1932-07-07 | 1936-10-13 | Weston Electrical Instr Corp | Relay circuit |
US2054380A (en) * | 1932-10-27 | 1936-09-15 | Weston Electrical Instr Corp | Alarm |
US2543262A (en) * | 1945-10-12 | 1951-02-27 | Comb Control Corp | Burner safety control system |
US2748223A (en) * | 1952-08-21 | 1956-05-29 | Micro Balancing Inc | Thermostatic control means |
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3085179A (en) * | 1958-12-24 | 1963-04-09 | Vapor Corp | Control means |
US3085178A (en) * | 1958-12-24 | 1963-04-09 | Vapor Corp | Switching apparatus |
US3081417A (en) * | 1959-02-24 | 1963-03-12 | Mc Graw Edison Co | Photoelectric street lamp controls |
US3048833A (en) * | 1960-05-13 | 1962-08-07 | George W Bernheim | Photoelectric control device for street lights |
US3052816A (en) * | 1960-12-14 | 1962-09-04 | George W Bernheim | Thermal relay switching circuit |
US3187204A (en) * | 1963-06-13 | 1965-06-01 | Sigma Instruments Inc | Condition-responsive control circuit |
US3240907A (en) * | 1963-06-24 | 1966-03-15 | Sigma Instruments Inc | Photocell-initiated switching device with dual bimetal switch arms |
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