US1061209A - Life-saving device. - Google Patents

Life-saving device. Download PDF

Info

Publication number
US1061209A
US1061209A US69251212A US1912692512A US1061209A US 1061209 A US1061209 A US 1061209A US 69251212 A US69251212 A US 69251212A US 1912692512 A US1912692512 A US 1912692512A US 1061209 A US1061209 A US 1061209A
Authority
US
United States
Prior art keywords
stack
ship
detachable
saving device
life saving
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
Application number
US69251212A
Inventor
William Monroe White
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Priority to US69251212A priority Critical patent/US1061209A/en
Application granted granted Critical
Publication of US1061209A publication Critical patent/US1061209A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • AHUMAN NECESSITIES
    • A45HAND OR TRAVELLING ARTICLES
    • A45CPURSES; LUGGAGE; HAND CARRIED BAGS
    • A45C9/00Purses, Luggage or bags convertible into objects for other use
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B63SHIPS OR OTHER WATERBORNE VESSELS; RELATED EQUIPMENT
    • B63BSHIPS OR OTHER WATERBORNE VESSELS; EQUIPMENT FOR SHIPPING 
    • B63B3/00Hulls characterised by their structure or component parts

Definitions

  • This invention relates to life saving device for use on ship board.
  • the object of the invention is to provide a life saving device which will be ample in capacity for the full complement of" crew and passengers and yet not take up any more than the usual amount of space occupied by the present boat equipment.
  • the invent-ion comprises a detachable buoyant stack of a ship and means for launching same over the side of the ship into the sea.
  • the stack is made buoyant by providing air tight compartments therein.
  • Ship stacks usually consist of an inner shell forming the smoke pipe of the steam boiler furnace, and an outer shell surrounding said smoke stack and spaced therefrom to form a non-conducting air jacket.
  • air tight compartments in the form of cells be attached to the outer shell between the smoke pipe proper and the outer shell.
  • the stack be made up of the inner shell or smoke pipe and the outer shell vertically divided into halves, each of said halves having attached thereto, as before, a plurality of cells forming air tight compartments.
  • this detachable section of the stack as a whole, or the detachable section of the stack as an outer half is capable of being tipped over, preferably so as to fall onto launching ways which will deliver same over the side of the ship into the sea.
  • the stacks of the Titanic were four in number and each was 2 1; feet by 18 feet in outside diameter, and 70 feet long above deck.
  • the inner and outer shells of the stack were spaced apart about 18 inches. ⁇ Vith these dimensions it is found upon computation that the buoyant effort of each of stacks of like size when filled with the air tight compartmcnts, would be sullicient to sustain 700 people. Four such stacks would therefore sustain 2,800 people, which would be more than sufficient to take care of the maximum number of people intended at any time to be aboard a ship of like size. This would be entirely additional to the ordinary life boat protection that was provided on that particular ship, this having been 16 regular life boats of a capacity of (55 each, besides a few collapsible boats and a few rafts.
  • Figure 1 is a side elevation in outline of av vessel equipped with the invention and to scale of the ill-fated Titanic to afford a com parison lllltIOWltll.
  • Fig. 2 is a cross section amidships, also in outline, of a ship with the present invention applied thereto.
  • Fig. 3 is an enlarged fragmentary side view amidships, of the same ship with the invention applied thereto.
  • Fig. 4; is an end view of the stack showing its relation to the water line when afloat.
  • Fig. 5 is a fragmentary cross section of the stack showing one mode of c mstruction of the air tight compartments.
  • Figs. 6 and 7 are similar views of modifications.
  • Fig. 8 is a detailed view of the automatic means for releasing the tipping tackle from its connection to near the ship side; and
  • Fig. S) is a front elevation of a modification in which the stack sections are produced by vertically dividing the stack.
  • the ship 2 is provided with four stacks 1, and has 16 life boats 21, of which but one is indicated in Fig. 1.
  • the stack 1 is detachable along a line 5 near the deck surface, and thus is detachable. It is held in place at this line 5 by means of a separable hinge 6 on each side, so that the part that is detachable may be tipped over and bodily separated from the remainder of the stack.
  • Tackle 4 is provided which is attached to the front and rear part of the upper end of the stack 1, and to the sides of the ship. This attachment of the tackle 4 to a point near the sides of the ship is detachable by a means more clearly shown in Fig. 8.
  • Launching ways 3 are provided extending to a point near the side of the ship and on either side of each of the stacks 1.
  • the attachment of the tackle to the side of the ship more clearly shown in Fig. 8, consists of a hook 14 extending from the lower tackle block and taking over an eye fixed adjacent a fulcrum piece 7 securely fastened to the ships deck near the side thereof.
  • Figs. 4, 5, 6 and 7, the outer and inner shells of the stack, more clearly shown in Fig. 4, are separated by a spacewhich is formed into or occupied by air tight compartments of multi-cellular construction. These are more particularly shownv in Fig. 4 to be distributed into two groups, each of which is located along each of the two more flexed sides of the stack 1, which in its ordinary construction is flattened with its major axis eX- tending parallel to the length of the ship.
  • these multi-cellular compartments are formed by transverse connecting strips 11 fastened at their edges to the inner and outer shells of the stack 1.
  • Fig. 6 they are formed by bending strips 10 to a channel section and fastening same along their edges to the outer shell of the stack 1.
  • Fig. 7 these are formed by individual cylindrical cells. 12, each of which is fastened to the outer shell of the stack 1 by means of strips of metal 18.
  • the cells In all three of these forms of multi-cellular construction of air tight compartments, the cells have their ends closed in any convenient manner and are formed of any convenient length.
  • the particular object of the constructions shown in Figs. 6 and 7, is to avoid the corrosion that always takes place rapidly in parts directly subjected to furnace gases.
  • Fig. 9 contemplates the formation of the stack into longitudinal halves 16, 16, surrounding the smoke pipe 17 proper. These halves 16 are separable from each other, from the smoke pipe 17 and from the remainder of the stack, and have separable hinges 52, as before, at the line 5l adjacent the ship deck.
  • the tackle 41 for tipping the halves 16 of the stack is in all respects similar to the tackle 4 of the other construction.
  • the stack 1 is tipped by means of the tackle 4, to either side of the ship as may be more desirable, and in falling drops onto the ways 3 as more particu larly shown in dotted lines in Fig. 2. It separates from the remainder of the stack at the line 5 by means of the separable hinges 6.
  • the stack 1 is then launched over the side of the ship into the sea, sliding along the ways 3 by gravity, and as it goes over the side of the ship the tackle 4 swings the hook 14 against the fulcrum 7 and automatically detaches the hook 14 from its fastoning eye, thus detaching the tackle 4 from the ship.
  • a similar detachable connection may be used between the tackle 4 and the stack 1, if found desirable, but it may be more useful to have the tackle 4 remain connected with the stack 1 after the same has been launched.
  • multi-cellular air tight compartments are preferably located in two groups distantly removed the one from theother for the purpose of providing greater stability in the flotation of the stacks or stack sections.
  • a detachable flattened stack having an air tight compartment at each of its two more flexed sides.
  • a detachable 8 As a life saving device, a detachable H stack formed of an outer and an inner shell,
  • a detachable stack formed of an outer and an inner shell, and a plurality of multicellular compartments between said shells.
  • a detachable stack formed of an outer and an inner shell and an air tight compartment between said shells and fastened to said outer shell.
  • a detachable stack formed of an outer and an inner shell, and a plurality of multi-ccllnlar compartments' between said shells and fastened to said outer shell.
  • a life saving device the combination of a ship, a stack having a detachable buoyant section, and means for launching said detachable section.
  • a life saving device the combination of a ship, a detachable buoyant stack and contractible means connecting said stack and ship whereby said stack may be tipped from normal position.
  • a life saving device the combination of a ship, a detachable buoyant stack, and contractible means connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal position, over the side of said ship into the sea.
  • a life saving device the combination of a ship, a detachable buoyant stack, and contractible means automatically detachably connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal position, over the side of said ship into the sea.
  • a life saving device the combination of a ship, a detachable buoyant stack, and ways extending to the side of said ship for launching said stack into the sea.
  • a life saving device the combination of a ship, a stack having a detachable buoyant section, and ways extending to the side of said ship for launching said detachable section into the sea.
  • a life saving device the combina tion of a ship, a detachable buoyant stack, launching ways extending to the side of said ship, and contractible means connecting said stack and ship whereby said stack may be tipped from normal position onto said ways for launching said stack into the sea.
  • a life saving device the combination of a ship, a detachable buoyant stack, launching ways extending to the side of said ship, and contractible means connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal posit-ion onto said ways to launch said stack over the side of said ship into the sea.
  • a life saving device the combination of a ship, a stack having a detachable buoyant section, launching ways extending to the side of .said ship, and contractible means automatically dctachably connecting said section to a point near the side of said ship whereby said section may be tipped from normal position onto said ways to launch said section over the side of said ship into the sea.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • Ocean & Marine Engineering (AREA)
  • Respiratory Apparatuses And Protective Means (AREA)

Description

W. M. WHITE.
LIFE SAVING DEVICE.
APPLICATION FILED APR.22, 1012.
1,06 1,209. Patented May 6, 1913.
WITNESEEE- NVEN'TIIJR- ATTORNEY.
TlTT
WILLIAM MONROE WHITE, OF MILWAUKEE, WISCQNSIN.
LIFE-SAVING DEVICE.
To all whom it may concern Be it known that I, \VIL LIAM MoNnon \Vnrrn, a citizen of the United States, residing at Milwaukee, in the county of iVlilwaukee and State of Wisconsin, have invented certain new and useful Improvements in Life-Saving Devices, of which the following a specification.
This invention relates to life saving device for use on ship board.
The object of the invention is to provide a life saving device which will be ample in capacity for the full complement of" crew and passengers and yet not take up any more than the usual amount of space occupied by the present boat equipment.
Briefly stated the invent-ion comprises a detachable buoyant stack of a ship and means for launching same over the side of the ship into the sea. The stack is made buoyant by providing air tight compartments therein. Ship stacks usually consist of an inner shell forming the smoke pipe of the steam boiler furnace, and an outer shell surrounding said smoke stack and spaced therefrom to form a non-conducting air jacket. it is proposed that such a stack be made detachable at or near the surface of the deck and that air tight compartments in the form of cells be attached to the outer shell between the smoke pipe proper and the outer shell. These air tight compartments may however, be .formed in the space between the two shells in any convenient manner. As a modification it is proposed that the stack be made up of the inner shell or smoke pipe and the outer shell vertically divided into halves, each of said halves having attached thereto, as before, a plurality of cells forming air tight compartments. in either case, this detachable section of the stack as a whole, or the detachable section of the stack as an outer half, is capable of being tipped over, preferably so as to fall onto launching ways which will deliver same over the side of the ship into the sea. At the same time it is proposed to have auto matically detachable the tackle used for tipping the stack sect-ion.
The recent disaster in the loss of the steamship Titanic April 15, 1912, accompanied by the enormous loss of human life indicates very clearly the insufficiency in the capacity of the life saving devices with which that ship was equipped, and the necessity for more adequate protection for the entire num- Specification of Letters Patent.
Application filed April 22, 1912.
Patented May 6, 1913.
Serial No. 692,512.
her of persons on board. In presenting this invention, this recent disaster is clearly in mind and a comparison is made to the life saving devices with which such ship was equipped and their capacity as contra-dirtinguished. to the capacity of the life saving device, the subject of this invention, when applied to a ship of like size.
The stacks of the Titanic were four in number and each was 2 1; feet by 18 feet in outside diameter, and 70 feet long above deck. The inner and outer shells of the stack were spaced apart about 18 inches. \Vith these dimensions it is found upon computation that the buoyant effort of each of stacks of like size when filled with the air tight compartmcnts, would be sullicient to sustain 700 people. Four such stacks would therefore sustain 2,800 people, which would be more than sufficient to take care of the maximum number of people intended at any time to be aboard a ship of like size. This would be entirely additional to the ordinary life boat protection that was provided on that particular ship, this having been 16 regular life boats of a capacity of (55 each, besides a few collapsible boats and a few rafts.
This invention is illustrated in one embodiment in the accompanying drawing, in which Figure 1 is a side elevation in outline of av vessel equipped with the invention and to scale of the ill-fated Titanic to afford a com parison lllltIOWltll. Fig. 2 is a cross section amidships, also in outline, of a ship with the present invention applied thereto. Fig. 3 is an enlarged fragmentary side view amidships, of the same ship with the invention applied thereto. Fig. 4; is an end view of the stack showing its relation to the water line when afloat. Fig. 5 is a fragmentary cross section of the stack showing one mode of c mstruction of the air tight compartments. Figs. 6 and 7 are similar views of modifications. Fig. 8 is a detailed view of the automatic means for releasing the tipping tackle from its connection to near the ship side; and Fig. S) is a front elevation of a modification in which the stack sections are produced by vertically dividing the stack.
Referring to the drawing, the ship 2 is provided with four stacks 1, and has 16 life boats 21, of which but one is indicated in Fig. 1.
Referring more particularly to Figs. 2,
3 and 4, the stack 1 is detachable along a line 5 near the deck surface, and thus is detachable. It is held in place at this line 5 by means of a separable hinge 6 on each side, so that the part that is detachable may be tipped over and bodily separated from the remainder of the stack. Tackle 4 is provided which is attached to the front and rear part of the upper end of the stack 1, and to the sides of the ship. This attachment of the tackle 4 to a point near the sides of the ship is detachable by a means more clearly shown in Fig. 8. Launching ways 3 are provided extending to a point near the side of the ship and on either side of each of the stacks 1. The attachment of the tackle to the side of the ship, more clearly shown in Fig. 8, consists of a hook 14 extending from the lower tackle block and taking over an eye fixed adjacent a fulcrum piece 7 securely fastened to the ships deck near the side thereof.
Referring more particularly to Figs. 4, 5, 6 and 7, the outer and inner shells of the stack, more clearly shown in Fig. 4, are separated by a spacewhich is formed into or occupied by air tight compartments of multi-cellular construction. These are more particularly shownv in Fig. 4 to be distributed into two groups, each of which is located along each of the two more flexed sides of the stack 1, which in its ordinary construction is flattened with its major axis eX- tending parallel to the length of the ship. In Fig. 5, these multi-cellular compartments are formed by transverse connecting strips 11 fastened at their edges to the inner and outer shells of the stack 1. In Fig. 6 they are formed by bending strips 10 to a channel section and fastening same along their edges to the outer shell of the stack 1. In Fig. 7 these are formed by individual cylindrical cells. 12, each of which is fastened to the outer shell of the stack 1 by means of strips of metal 18. In all three of these forms of multi-cellular construction of air tight compartments, the cells have their ends closed in any convenient manner and are formed of any convenient length. The particular object of the constructions shown in Figs. 6 and 7, is to avoid the corrosion that always takes place rapidly in parts directly subjected to furnace gases.
The modification shown in Fig. 9 contemplates the formation of the stack into longitudinal halves 16, 16, surrounding the smoke pipe 17 proper. These halves 16 are separable from each other, from the smoke pipe 17 and from the remainder of the stack, and have separable hinges 52, as before, at the line 5l adjacent the ship deck. The tackle 41 for tipping the halves 16 of the stack is in all respects similar to the tackle 4 of the other construction.
In operation, the stack 1 is tipped by means of the tackle 4, to either side of the ship as may be more desirable, and in falling drops onto the ways 3 as more particu larly shown in dotted lines in Fig. 2. It separates from the remainder of the stack at the line 5 by means of the separable hinges 6. The stack 1 is then launched over the side of the ship into the sea, sliding along the ways 3 by gravity, and as it goes over the side of the ship the tackle 4 swings the hook 14 against the fulcrum 7 and automatically detaches the hook 14 from its fastoning eye, thus detaching the tackle 4 from the ship. A similar detachable connection may be used between the tackle 4 and the stack 1, if found desirable, but it may be more useful to have the tackle 4 remain connected with the stack 1 after the same has been launched.
The operation of launching the sections 16 of the modification shown in Fig. 9 is entirely similar to that just described, and it has been deemed unnecessary to show the launching ways in said figure. These halves 16 will float with their concave sides either up or down.
In each of the constructions shown numerous hand-holes 15 are provided for the convenience of survivors, although these are shown only in Fig. 4. Also in each of the constructions the multi-cellular air tight compartments are preferably located in two groups distantly removed the one from theother for the purpose of providing greater stability in the flotation of the stacks or stack sections.
It should be understood that it is not desired to be limited to the exact details of construction shown and described, for obvious modifications will occur to a person skilled in the art.
It is claimed and desired to secure by Letters Patent,
1. As a life saving device, a detachable buoyant ship stack.
2. As a life saving device, a detachable ship stack having an air tight compartment.
3. As a life saving device, a detachable stack having two opposite air tight compartments.
4. As a life saving device, a detachable flattened stack having an air tight compartment at each of its two more flexed sides.
5. As a life saving device, a detachable 8. As a life saving device, a detachable H stack formed of an outer and an inner shell,
and an air tight compartment between said shells.
9. As a life saving device, a detachable stack formed of an outer and an inner shell, and a plurality of multicellular compartments between said shells.
10. As a life saving device, a detachable stack formed of an outer and an inner shell and an air tight compartment between said shells and fastened to said outer shell.
11. As a life saving device, a detachable stack formed of an outer and an inner shell, and a plurality of multi-ccllnlar compartments' between said shells and fastened to said outer shell.
12. In a life saving device, the combination of a ship and a detachable buoyant stack.
13. In a life saving device, the combination of a ship, a detachable buoyant stack, and means for launching said stack.
14. In a life saving device, the combination of a ship and a stack having a detachable buoyant section.
15. In a life saving device, the combination of a ship, a stack having a detachable buoyant section, and means for launching said detachable section.
16. In a life saving device, the combination of a ship, a detachable buoyant stack and contractible means connecting said stack and ship whereby said stack may be tipped from normal position.
17. In a life saving device, the combination of a ship, a detachable buoyant stack, and contractible means connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal position, over the side of said ship into the sea.
18. In a life saving device, the combination of a ship, a detachable buoyant stack, and contractible means automatically detachably connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal position, over the side of said ship into the sea.
19. In a life saving device, the combination of a ship, a detachable buoyant stack, and ways extending to the side of said ship for launching said stack into the sea.
20. In a life saving device, the combination of a ship, a stack having a detachable buoyant section, and ways extending to the side of said ship for launching said detachable section into the sea.
21. In a life saving device, the combina tion of a ship, a detachable buoyant stack, launching ways extending to the side of said ship, and contractible means connecting said stack and ship whereby said stack may be tipped from normal position onto said ways for launching said stack into the sea.
22. In a life saving device, the combination of a ship, a detachable buoyant stack, launching ways extending to the side of said ship, and contractible means connecting said stack to a point near the side of said ship whereby said stack may be tipped from normal posit-ion onto said ways to launch said stack over the side of said ship into the sea.
23. In a life saving device, the combination of a ship, a stack having a detachable buoyant section, launching ways extending to the side of .said ship, and contractible means automatically dctachably connecting said section to a point near the side of said ship whereby said section may be tipped from normal position onto said ways to launch said section over the side of said ship into the sea.
In testimony whereof, I allix my signature hereto in the presence of two witnesses.
WM. MONROE WHITE.
Witnesses D. It. JOHNSON, G. F. DE \Vnnv.
copies of this patent may be obtained for five cents each, by addressing the Commissioner of Patents, Washington, I). G.
US69251212A 1912-04-22 1912-04-22 Life-saving device. Expired - Lifetime US1061209A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US69251212A US1061209A (en) 1912-04-22 1912-04-22 Life-saving device.

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US69251212A US1061209A (en) 1912-04-22 1912-04-22 Life-saving device.

Publications (1)

Publication Number Publication Date
US1061209A true US1061209A (en) 1913-05-06

Family

ID=3129455

Family Applications (1)

Application Number Title Priority Date Filing Date
US69251212A Expired - Lifetime US1061209A (en) 1912-04-22 1912-04-22 Life-saving device.

Country Status (1)

Country Link
US (1) US1061209A (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10900075B2 (en) 2017-09-21 2021-01-26 Genapsys, Inc. Systems and methods for nucleic acid sequencing

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10900075B2 (en) 2017-09-21 2021-01-26 Genapsys, Inc. Systems and methods for nucleic acid sequencing

Similar Documents

Publication Publication Date Title
US1061209A (en) Life-saving device.
US1195317A (en) Observation-buoy and fibe control for floating- hikes
US1138319A (en) Life-saving apparatus.
ES2888399T3 (en) Underwater transport container for combat divers
US1685719A (en) Lifeboat
US404150A (en) Balsa or life-boat
US927772A (en) Combined wreck-locator and life-saver.
US1154215A (en) Hull construction of submarine boats.
US1474725A (en) Boat
US1065400A (en) Sea-safe and supply boat.
US1093381A (en) Life-saving buoy.
US1226274A (en) Life-raft.
US682631A (en) Vessel or ship.
US1248796A (en) Life-preserving buoy.
US494090A (en) Life-saving apparatus
US1245178A (en) Life-boat.
US736747A (en) Life-boat.
US316881A (en) dobbins
US652512A (en) Life-boat.
US1746769A (en) Ship's lifeboat, raft, and like life-saving apparatus for use at sea
US1068906A (en) Life-saving boat.
US566766A (en) Life-boat
US664769A (en) Life-boat.
US2050138A (en) Lifesaving apparatus
US695634A (en) Life-boat.