US2294202A - Apparatus for submarine geophysical prospecting - Google Patents
Apparatus for submarine geophysical prospecting Download PDFInfo
- Publication number
- US2294202A US2294202A US412192A US41219241A US2294202A US 2294202 A US2294202 A US 2294202A US 412192 A US412192 A US 412192A US 41219241 A US41219241 A US 41219241A US 2294202 A US2294202 A US 2294202A
- Authority
- US
- United States
- Prior art keywords
- container
- floor
- space
- valve
- pump
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Lifetime
Links
Images
Classifications
-
- G—PHYSICS
- G01—MEASURING; TESTING
- G01V—GEOPHYSICS; GRAVITATIONAL MEASUREMENTS; DETECTING MASSES OR OBJECTS; TAGS
- G01V7/00—Measuring gravitational fields or waves; Gravimetric prospecting or detecting
Definitions
- This invention relates to apparatus for submarine geophysical prospecting.
- means are provided for holding such apparatus firmly and solidly against an ocean floor, even though the floor is soft, and though currents are present.
- a suitable water-tight container to hold an instrument, and having a base arranged in eflect as a giant, flexible suction cup or sucker.
- Means are provided, operable by remote control (from a ship) or by a time switch control associated with the container, for partially exhausting the space below the base whereby the apparatus is held down firmly by hydrostatic pressure.
- Means are provided for releasing the pressure when desired.
- Fig. 1 is a view partly in vertical section and partly in elevation of one construction, making use of separate pressure-holding andintake-ex haust valves, and
- Suitable'mounting and leveling means are disclosed and claimed in my copending application Serial No. 388,889 and Patother suitable flexible water-tight material, adapted to make contact with the floor as shown, forming a large suction cup.
- the skirt is attached to the base by vulcanizing or any other suitable means. Weights l6 hold the skirt down initially. For use on smooth bottoms the skirt does not need to be 01' flexible material.
- Container I0. is partitioned at I1 and in the space below the partitionds mounted a pump ll, driven by a motor l9, and connected with a twoway valve ii adapted in one position to connect the space 22 below the base with the pump in; take, through conduits 23 and 24, and to connect the pump outlet to the outside through a conduit 25 containing a check valve 26 In its other position the valve-reverses these connections so that the pump can draw water from outside and deliver it to space 22.
- Valve 26 is operated by a motor 21 which may be electrically controlled from a ship (not shown) through power leads 28 contained in a control cable 28, or if desired, controlled by a time switch, as will be described in connection with I Fig. 2.
- being in the position shown, motor I! is operated, through power leads 3!, to partly evacuate space 22.
- Leeds 30 and 28 go to a suitable source of power, controlled by switches, on the ship (not shown)
- Valve 28' holds pressure when the motor stops.
- valve 2i is turned and thepumpstarted up, .to deliver sea water-to space 22. If the pump is of centrifugal type it need not be'operated at this stage; the water simply flows through its clearances.
- , operated by a sole.- noid 32 is employed, in a conduit 33 leading from the pump to outside. 011 operating the pump, space 22 is partly exhausted, after which the valve serves as a check valve to hold pressure, until opened by energization of the solenoid.
- the container is fitted with a flared base l2, advantageously of steel or other suitable metal, having feet [3, conveniently three in number, adapted to rest on an ocean floor M or to sink into it if it is soft.
- the base is surrounded with a irustoconical -Valve 3;! and the pump motor can be operated from a ship as in Fig. 1, or by means of a time switch as shown in Fig. '2.
- a contactor 5i rotated at slow uniform rate by a motor 35 first closes a battery circuit at 36 to operate the pump motor long enough to partly exhaust space 22. Then, after a predetermined time, long enough for the measurement to be completed,
- the contactor closes a circuit at-3'l which causes the valve to open and stay open long enough for equalization of pressure in space 22.
- a submersible wa-' tertight container adapted to contain a measuring instrument, cable means attached to th container for lowering it to the floor, a concave base for the container constructed and arranged to define therebelow a space between the base and the floor, a suction pump associated with the container having an inlet communicating with said space and an outlet delivering to the water outside the container, and power means for driving the pump.
- a submersible watertight container adapted to contain a measuring instrument, cable meansattached to the container for lowering it to the floor, a base for the container having downwardly projecting portions adapted to support the container on said floor, an annular flexible skirt secured in watertight relation to the periphery of the base and of concave shape so as to define, in cooperation with said base, a space between the base and the floor, weights on the skirt to bend it downwardly, conduit means connecting said space and the water outside the container, a
- suction pump in the conduit means suction pump in the conduit means, power means for driving the pump and electrically controlled means for starting and stopping the power means.
- a submersible watertight container adapted to contain a. measurand the surrounding water and in another position to dis-establish said communication, and means for actuating said valve means.
- a submersible wa-' tertight air-filled container adapted to contain a measuring instrument, cable means attached to the container for lowering it to the floor, a
- concave base for th container constructed and arranged to define therebelow a space between the base and the floor, conduit means leading from the said space to the surrounding water adjacent the casing, a suction pump in said conduit means, power mean: for actuating the pump, check-valve means in the conduit so constituted as to close against pressure of the surrounding water, and power means adapted on actuation thereof to open the check-valve means against said pressure.
Description
Aug. 25, 1942.
T. B. PEPPER APPARATUS FOR SUBMARINE GEOPHYSICAL PROSBECTING Filed Sept. 24, 1941 TO SHIP gwuo/wtoa Tlzeoolore B.
' fii w Patented Au 25, 1942 APPARATUS FOR SUBMABINE GEOPHYSI- CAL PROSPEC'I'ING Theodore B. Pepper, Oakmont, Pa asslgnor 'to Gulf Research a Development Company, Pittsburgh, Pa., a corporation of Delaware I Application September 24,1941, Serial No. 412,192
4 Claims. (Cl. ass-1.4)
This invention relates to apparatus for submarine geophysical prospecting.
This application is a, "continuation in part of my copending application Serial No. 388,889 filed April 16, 1941, which is in turn a continuationin-part of my application Serial No. 284,980 (Patent 2,258,472).
It; is sometimes desirable to conduct geophysical explorations in territory covered by shallow.
seas, as oil is known to occuron the continental shelf of this and other continents. Some types of geophysical apparatus, notably gravimeters,
must be solidly positioned with respect to the earth and must be very accurately leveled. Dif-- ficulty in achieving these ends has limited underwater geophysical exploration.
, In the present invention, means are provided for holding such apparatus firmly and solidly against an ocean floor, even though the floor is soft, and though currents are present.
According to the invention there is provided a suitable water-tight container, to hold an instrument, and having a base arranged in eflect as a giant, flexible suction cup or sucker. Means are provided, operable by remote control (from a ship) or by a time switch control associated with the container, for partially exhausting the space below the base whereby the apparatus is held down firmly by hydrostatic pressure. Means are provided for releasing the pressure when desired.
In the accompanying drawing there are shown diagrammatically two examples of specific embodiments of apparatus within the purview of the invention. In the drawing,
Fig. 1 is a view partly in vertical section and partly in elevation of one construction, making use of separate pressure-holding andintake-ex haust valves, and
control, not shown. Suitable'mounting and leveling means are disclosed and claimed in my copending application Serial No. 388,889 and Patother suitable flexible water-tight material, adapted to make contact with the floor as shown, forming a large suction cup. The skirt is attached to the base by vulcanizing or any other suitable means. Weights l6 hold the skirt down initially. For use on smooth bottoms the skirt does not need to be 01' flexible material.
Container I0. is partitioned at I1 and in the space below the partitionds mounted a pump ll, driven by a motor l9, and connected with a twoway valve ii adapted in one position to connect the space 22 below the base with the pump in; take, through conduits 23 and 24, and to connect the pump outlet to the outside through a conduit 25 containing a check valve 26 In its other position the valve-reverses these connections so that the pump can draw water from outside and deliver it to space 22.
Valve 26 is operated by a motor 21 which may be electrically controlled from a ship (not shown) through power leads 28 contained in a control cable 28, or if desired, controlled by a time switch, as will be described in connection with I Fig. 2.
In operation, valve 2| being in the position shown, motor I! is operated, through power leads 3!, to partly evacuate space 22. Leeds 30 and 28 go to a suitable source of power, controlled by switches, on the ship (not shown) Valve 28' holds pressure when the motor stops. After the measurement has been made valve 2i is turned and thepumpstarted up, .to deliver sea water-to space 22. If the pump is of centrifugal type it need not be'operated at this stage; the water simply flows through its clearances.
In Fig. 2 a single valve 3|, operated by a sole.- noid 32 is employed, in a conduit 33 leading from the pump to outside. 011 operating the pump, space 22 is partly exhausted, after which the valve serves as a check valve to hold pressure, until opened by energization of the solenoid.
cut No. 2,253,472. The container is fitted with a flared base l2, advantageously of steel or other suitable metal, having feet [3, conveniently three in number, adapted to rest on an ocean floor M or to sink into it if it is soft.
The base is surrounded with a irustoconical -Valve 3;! and the pump motor can be operated from a ship as in Fig. 1, or by means of a time switch as shown in Fig. '2. As shown, a contactor 5i, rotated at slow uniform rate by a motor 35 first closes a battery circuit at 36 to operate the pump motor long enough to partly exhaust space 22. Then, after a predetermined time, long enough for the measurement to be completed,
the contactor closes a circuit at-3'l which causes the valve to open and stay open long enough for equalization of pressure in space 22.
. WhatIclaimis:
skirt or apr v n ageously of'rubber or 5 1. In apparatus for performing measurements at the floor of bodies of water, a submersible wa-' tertight container adapted to contain a measuring instrument, cable means attached to th container for lowering it to the floor, a concave base for the container constructed and arranged to define therebelow a space between the base and the floor, a suction pump associated with the container having an inlet communicating with said space and an outlet delivering to the water outside the container, and power means for driving the pump.
2. In apparatus for performing measurements at the floor 'of bodies of water, a submersible watertight container adapted to contain a measuring instrument, cable meansattached to the container for lowering it to the floor, a base for the container having downwardly projecting portions adapted to support the container on said floor, an annular flexible skirt secured in watertight relation to the periphery of the base and of concave shape so as to define, in cooperation with said base, a space between the base and the floor, weights on the skirt to bend it downwardly, conduit means connecting said space and the water outside the container, a
, suction pump in the conduit means, power means for driving the pump and electrically controlled means for starting and stopping the power means.
3. In apparatus for performing measurements at the floor of bodies of water, a submersible watertight container adapted to contain a. measurand the surrounding water and in another position to dis-establish said communication, and means for actuating said valve means.
4. In apparatus for performing measurements at the floor of bodies of water, a submersible wa-' tertight air-filled container adapted to contain a measuring instrument, cable means attached to the container for lowering it to the floor, a
concave base for th container constructed and arranged to define therebelow a space between the base and the floor, conduit means leading from the said space to the surrounding water adjacent the casing, a suction pump in said conduit means, power mean: for actuating the pump, check-valve means in the conduit so constituted as to close against pressure of the surrounding water, and power means adapted on actuation thereof to open the check-valve means against said pressure.
THEODORE B. PEPPER.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US412192A US2294202A (en) | 1941-09-24 | 1941-09-24 | Apparatus for submarine geophysical prospecting |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US412192A US2294202A (en) | 1941-09-24 | 1941-09-24 | Apparatus for submarine geophysical prospecting |
Publications (1)
Publication Number | Publication Date |
---|---|
US2294202A true US2294202A (en) | 1942-08-25 |
Family
ID=23631967
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US412192A Expired - Lifetime US2294202A (en) | 1941-09-24 | 1941-09-24 | Apparatus for submarine geophysical prospecting |
Country Status (1)
Country | Link |
---|---|
US (1) | US2294202A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2613536A (en) * | 1946-07-30 | 1952-10-14 | John J Jakosky | Gravity meter |
-
1941
- 1941-09-24 US US412192A patent/US2294202A/en not_active Expired - Lifetime
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US2613536A (en) * | 1946-07-30 | 1952-10-14 | John J Jakosky | Gravity meter |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
US3909774A (en) | Controlled buoyancy system for seismic streamer sections | |
SE7710476L (en) | DEVICE WITH LIFTING BUCKETS | |
US2990796A (en) | Submersible vessel | |
US2391059A (en) | Pontoon assembly and method of using the same | |
US3435410A (en) | Shallow water seismic prospecting cable | |
GB160865A (en) | Improvements in and relating to submarine exploration | |
GB1176857A (en) | Deep Water Anchor. | |
US2294202A (en) | Apparatus for submarine geophysical prospecting | |
GB1376633A (en) | Under water operating techniques | |
US3583445A (en) | Method and device for draining submerged tanks | |
US3800722A (en) | Self-propelled, cable-supported diving bell | |
US3121211A (en) | Hydrophone testing tank | |
US2935024A (en) | Method and apparatus for pumping oil wells in an underwater location | |
US2457863A (en) | Air charger | |
US2795883A (en) | Deep-sea fishing devices | |
GB994040A (en) | Installation for gathering production fluid from underwater wells | |
US3606812A (en) | Underwater cable cutter | |
US3280633A (en) | Deep ocean sampler | |
US1081103A (en) | Buoyancy-tank. | |
US3978810A (en) | Mooring buoy | |
US1573051A (en) | Gas anchor for pumping wells | |
GB1319706A (en) | Submersible craft for the deposition and withdrawal of loads on or from an underwater site | |
US2568680A (en) | Underwater prospecting device | |
US1585534A (en) | Water-elevating apparatus | |
US1290054A (en) | Self-laying submersible contact-mine. |