US1888364A - Jetty construction - Google Patents

Jetty construction Download PDF

Info

Publication number
US1888364A
US1888364A US485615A US48561530A US1888364A US 1888364 A US1888364 A US 1888364A US 485615 A US485615 A US 485615A US 48561530 A US48561530 A US 48561530A US 1888364 A US1888364 A US 1888364A
Authority
US
United States
Prior art keywords
retard
current
turns
helix
coils
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
US485615A
Inventor
Clare R Van Orman
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 US485615A priority Critical patent/US1888364A/en
Application granted granted Critical
Publication of US1888364A publication Critical patent/US1888364A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B3/00Engineering works in connection with control or use of streams, rivers, coasts, or other marine sites; Sealings or joints for engineering works in general
    • E02B3/04Structures or apparatus for, or methods of, protecting banks, coasts, or harbours
    • E02B3/12Revetment of banks, dams, watercourses, or the like, e.g. the sea-floor
    • E02B3/122Flexible prefabricated covering elements, e.g. mats, strips
    • E02B3/124Flexible prefabricated covering elements, e.g. mats, strips mainly consisting of metal

Definitions

  • lt is the object of my invention to produce a current-retard, or a device suitable for use in con li a' the deposition or" sand-bars in treams or rer protectig the banks of streams .ga-inst the eroding,- action of the Water which hows in co ⁇ t with them. More specifically, it is my objecf. to produce a current-retard of a e ible nature which is adapted for use in a i of situations. A further object of my Y*enti on is produce a current-retard orn nele and economical construction Which ove durable and eliiective in use.
  • l build my current-retard of a number of units, each oi' which comprises an open-Wound helical coil of steel o iron wire or similar material.
  • the current-re -d may embody a single one of such coils, but 'fera-.bly embodies a plurality i' con C d in parallel relation and se- The turns of one of the coils l held in properly spaced 'ling the coil at intervals to a i :tending element which may ke thiorln of cable by which the comete current-retard is anchored in place.
  • Fig. l shows a current-retard embodying my invention used as a mattress to n ci the current-retard; llig. 3
  • FIG. 2 view illustratingl the manner v ich the individual coils of the retard are el is a view similar to Fig. 2, showing a slightly modified arrangement;
  • FIG. 1 is a perspective view showina the reas used to create sand-bars in the stream.
  • my current-retard is 'orin.e.fof one or more open-Wound helical coils l0 or Wire or similar material.
  • l Associated with one oi such coils, l provide a longitudinally extending element ll which is conveniently in the form of a Wire cable.
  • the coil l0 is secured to the cable ll as by means of ivire ties l2.
  • the retard is to embody more than one coil, as it usually does, the otuer coils are disposed parallel to the coil, preferably in overlapping relation as indicated in Fig. 5, with the turns of each coil extending into the spaces between the turns of the adjacent coils. rlhe coils are secured together, conveniently by means of Wire ties i3 at points Where the coil-turns of the individual coils cross. Genorally7 it will not be necessary to use more than one oli the cables ll, but additional cables can be used if desired.
  • TWire ot the type adapted for use in my current-retard is usually marketed in the form et a closely Wound coil 15.
  • the Wire can be drawn oli from this coil axially as indicated in Fig. 3 to form the open-Wound coil of the retard.
  • the Wire may be secured at intervals to the cable l1 in order to space the turns properly.
  • the helical coils o which the currentretard is composed may alllbe or the same hand, as indicated in Fig. 2; or adjacent coils may be of opposite hand, as indicated in Fig. 4. l prefer the latter construction, as I believe it results in a current-retard of greater strength.
  • the retard built up as above described may be used in a variety of situations.
  • Fig. l have shown a retard as used to protect the caving bank ol' a stream.
  • the number of individual open-Wound coils is sucient to create a mattress extending desirably jfrom or above the high-Water mark to a Qoint below the surface of the stream.
  • the retard is shown as held in place by transversely extendingcables secured to stakes 17 on the bank or stream-bed.
  • t ie retard is shown as extending transversely into the stream from a bank thereof in order to retard the current adjacent such bank and 'orm a bar on the downstream side of the retard.
  • the cable l1 may extend beyond the ends of the retard and may be secured to anchoring stakes 17 to hold the retard in place.
  • the coils l() may be supplemented with a screen Q() which, as shown in Figs. 2 and 5, extends longitudinally of the retard and is supported against the inside of one ot the coils i0.
  • This screen 20 is shown in the drawing as a wire-mesh screen, but brush or other means may be used to accomplish the same object. '.lhe. purpose of the screen Q0 is to catch small dritt which might otherwise pass through the retard. Such drift collected on the screen serves turther to retard the velocity .cream-flow and thus to aid in the deposition oi sediment adjacent the retard.
  • a current-retard comprising ir. of
  • a current-retard comprisina' an openwound self-supporting helix ot mire or the like, successive turns of the helix bein e' spaced apart a distance at least several times reat as the axial thickness ot the wire or the like of which the helix is formed.
  • a current-retard comprising an openwound self-supporting helix ot wire (r the like and ay member extending longitiu nally of said helix and secured to turns thereofY to space such turns, successive turns o" the helix being spaced apart a di tance at least severa times as great the axial thickness of the wire or the like ot which the helix is former 4.
  • a current-retard comprising an openwound helix of wire or the like, and d it catchingr means extending between adjacent turns of said helix, successi 'e tn ot the helix being spaced. apart a distance at least several times as great as the axial thickness of the wire or the like of which the helix is formed.
  • a current-retard comprising a plurality of open-wound helices disposed generally parallel to each other, the turns of each helix overlapping but not interlinking respectively the turns ot' adjacent helices, means for securing said helices together, and a member extending longitudinally ot one of said helices and secured to turns thereof to space such turns.
  • a current-retard comprising a plurality of open-wound helices disposed generally parallel to each other, the turns of each helix overlapping but not interlinkin g respectively the turns of adjacent helices, means for securing said helices together, a cable extending longitudinally of one of said helices and secured to turns thereof to space such turns, and anchoring means to which said cable is attached to aid in holding the retard in place.
  • a current-retard comprising an open wound helix ot wire or the like, and a driftcatching screen supported from said helix ard xtemling between adjacent turns ⁇ thereof.

Description

NOV. 22, 1932. Q R, VAN QRMAN 1,888,364
JETTY CONSTRUCTION Filed Oct. l. 1930 Patente-d Nov. 22, 1932 CLBE VAN ORMAN, F TOPEKA, KANSAS JETTY COSA. STEUCTEON Application filed October l, 1930.
lt is the object of my invention to produce a current-retard, or a device suitable for use in con li a' the deposition or" sand-bars in treams or rer protectig the banks of streams .ga-inst the eroding,- action of the Water which hows in co` t with them. More specifically, it is my objecf. to produce a current-retard of a e ible nature which is adapted for use in a i of situations. A further object of my Y*enti on is produce a current-retard orn nele and economical construction Which ove durable and eliiective in use.
ln carryingl out my invention, l build my current-retard of a number of units, each oi' which comprises an open-Wound helical coil of steel o iron wire or similar material. The current-re -d may embody a single one of such coils, but 'fera-.bly embodies a plurality i' con C d in parallel relation and se- The turns of one of the coils l held in properly spaced 'ling the coil at intervals to a i :tending element which may ke thiorln of cable by which the comete current-retard is anchored in place. The .ion or the open-Wound coils in retarding velocity of the stream-flor.T to cause the osition of sediment may be assisted by one more screens or other means adapted to n small enough to pass between of the current-retard coils. accompanying drawing illustrates my invention: Fig. l shows a current-retard embodying my invention used as a mattress to n ci the current-retard; llig. 3
view illustratingl the manner v ich the individual coils of the retard are el is a view similar to Fig. 2, showing a slightly modified arrangement;
i aperspec" Jh Eormed 5 Fig.
is an end elevation of the retard; and
is a perspective view showina the reas used to create sand-bars in the stream. is reviously stated, my current-retard is 'orin.e.fof one or more open-Wound helical coils l0 or Wire or similar material. Associated with one oi such coils, l provide a longitudinally extending element ll which is conveniently in the form of a Wire cable. At
Serial No. 15.
intervals, the coil l0 is secured to the cable ll as by means of ivire ties l2.
lf the retard is to embody more than one coil, as it usually does, the otuer coils are disposed parallel to the coil, preferably in overlapping relation as indicated in Fig. 5, with the turns of each coil extending into the spaces between the turns of the adjacent coils. rlhe coils are secured together, conveniently by means of Wire ties i3 at points Where the coil-turns of the individual coils cross. Genorally7 it will not be necessary to use more than one oli the cables ll, but additional cables can be used if desired.
rEhe individual coils from which the retard is constructed maybe formed as indicated in Fig. 3. TWire ot the type adapted for use in my current-retard is usually marketed in the form et a closely Wound coil 15. The Wire can be drawn oli from this coil axially as indicated in Fig. 3 to form the open-Wound coil of the retard. As it is drawn oil from the supply-coil l5, the Wire may be secured at intervals to the cable l1 in order to space the turns properly.
The helical coils o which the currentretard is composed may alllbe or the same hand, as indicated in Fig. 2; or adjacent coils may be of opposite hand, as indicated in Fig. 4. l prefer the latter construction, as I believe it results in a current-retard of greater strength.
The retard built up as above described may be used in a variety of situations. In Fig. l, have shown a retard as used to protect the caving bank ol' a stream. Here, the number of individual open-Wound coils is sucient to create a mattress extending desirably jfrom or above the high-Water mark to a Qoint below the surface of the stream. The retard is shown as held in place by transversely extendingcables secured to stakes 17 on the bank or stream-bed.
in 6, t ie retard is shown as extending transversely into the stream from a bank thereof in order to retard the current adjacent such bank and 'orm a bar on the downstream side of the retard. lWhen the retard is to be so used, the cable l1 may extend beyond the ends of the retard and may be secured to anchoring stakes 17 to hold the retard in place.
Drift carried downstrean'i by the current is intercepted by the retard with the result that the velocity of stream-flow in the vicinity of the retard is decreased and sediment is deposited. To facilitate the deposition ot sediment behind the retard, the coils l() may be supplemented with a screen Q() which, as shown in Figs. 2 and 5, extends longitudinally of the retard and is supported against the inside of one ot the coils i0. This screen 20 is shown in the drawing as a wire-mesh screen, but brush or other means may be used to accomplish the same object. '.lhe. purpose of the screen Q0 is to catch small dritt which might otherwise pass through the retard. Such drift collected on the screen serves turther to retard the velocity .cream-flow and thus to aid in the deposition oi sediment adjacent the retard.
It will be apparent that a cnrrent-retard embodyingr the invention abmfe set .tcrth will be adaptable for use in a variety ot situations. It can be used alone or in afzffioci; tion with jetties of heavier constru' dition, because of its flexible adapted to follow the contours or stream-bed, thus increasing its ness.
I claim as my invention 1. A current-retard, comprising ir. of
effectivea plurality of open-wound self-supporting helices disposed generally parallel to ef h other, the turns of each helix overlapping but not interlinking respectively the turns ot' adjacent helices, and means for securing said helices together. n
2. A current-retard, comprisina' an openwound self-supporting helix ot mire or the like, successive turns of the helix bein e' spaced apart a distance at least several times reat as the axial thickness ot the wire or the like of which the helix is formed.
3. A current-retard, comprising an openwound self-supporting helix ot wire (r the like and ay member extending longitiu nally of said helix and secured to turns thereofY to space such turns, successive turns o" the helix being spaced apart a di tance at least severa times as great the axial thickness of the wire or the like ot which the helix is former 4. A current-retard as 'forth in claim 3 with the addition that said longitudinally extendingr element is a cable, said cable extending beyond the ends ot said helix tor attachment to anchoring means.
5. A current-retard, comprising an openwound helix of wire or the like, and d it catchingr means extending between adjacent turns of said helix, successi 'e tn ot the helix being spaced. apart a distance at least several times as great as the axial thickness of the wire or the like of which the helix is formed.
6. A current-retard, comprising a plurality of open-wound helices disposed generally parallel to each other, the turns of each helix overlapping but not interlinking respectively the turns ot' adjacent helices, means for securing said helices together, and a member extending longitudinally ot one of said helices and secured to turns thereof to space such turns.
7. A current-retard, comprising a plurality of open-wound helices disposed generally parallel to each other, the turns of each helix overlapping but not interlinkin g respectively the turns of adjacent helices, means for securing said helices together, a cable extending longitudinally of one of said helices and secured to turns thereof to space such turns, and anchoring means to which said cable is attached to aid in holding the retard in place.
8. The process o' making a current-retard, comprising drawing wire axially from a close-wound coil of wire to torni an openwound helix, and securing turns ot' said helix to spacing means.
9. A current-retard, comprising an open wound helix ot wire or the like, and a driftcatching screen supported from said helix ard xtemling between adjacent turns` thereof.
In witness whereof, I have hereunto sct my land at Topeka, Kansas, this ith day oi September, A. D. one thousand nine hundred and thirty.
CLARE R. VAN ORMAN.
US485615A 1930-10-01 1930-10-01 Jetty construction Expired - Lifetime US1888364A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US485615A US1888364A (en) 1930-10-01 1930-10-01 Jetty construction

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US485615A US1888364A (en) 1930-10-01 1930-10-01 Jetty construction

Publications (1)

Publication Number Publication Date
US1888364A true US1888364A (en) 1932-11-22

Family

ID=23928822

Family Applications (1)

Application Number Title Priority Date Filing Date
US485615A Expired - Lifetime US1888364A (en) 1930-10-01 1930-10-01 Jetty construction

Country Status (1)

Country Link
US (1) US1888364A (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4388019A (en) * 1980-12-08 1983-06-14 Asahi Kasei Kogyo Kabushiki Kaisha Artificial reef assembly construction
US4465399A (en) * 1980-09-23 1984-08-14 Asahi Kasei Kogyo Kabushiki Kaisha Artificial reef assembly construction and a method
US4645381A (en) * 1980-03-19 1987-02-24 Etienne Leflaive Building material, its application for embankment, surfacing, or as foundation mass over a loose ground, and method and installation for the production of said material
US20090022549A1 (en) * 2007-07-17 2009-01-22 Geobrugg Ag Obstruction Device for Flowing Waterways
US10893649B2 (en) * 2018-07-30 2021-01-19 George Patrick Solis Bracing and blocking apparatus for a variety of uses

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4645381A (en) * 1980-03-19 1987-02-24 Etienne Leflaive Building material, its application for embankment, surfacing, or as foundation mass over a loose ground, and method and installation for the production of said material
US4465399A (en) * 1980-09-23 1984-08-14 Asahi Kasei Kogyo Kabushiki Kaisha Artificial reef assembly construction and a method
US4388019A (en) * 1980-12-08 1983-06-14 Asahi Kasei Kogyo Kabushiki Kaisha Artificial reef assembly construction
US20090022549A1 (en) * 2007-07-17 2009-01-22 Geobrugg Ag Obstruction Device for Flowing Waterways
US10893649B2 (en) * 2018-07-30 2021-01-19 George Patrick Solis Bracing and blocking apparatus for a variety of uses

Similar Documents

Publication Publication Date Title
US1888364A (en) Jetty construction
US3165853A (en) Fish net
US1772888A (en) Net for the capture of undersea boats and oversea ships
US3431975A (en) Perforated pipe
US1748444A (en) Means for protecting river banks
DE443556C (en) Iron sheet piling with built-in hollow piles
US2683968A (en) Sea wall
US1355051A (en) Silt-bed-forming device
AT269545B (en) Device for driving away voles
AT65240B (en) Device for securing the distance between a group of three reinforcing bars both from one another and from the formwork.
US1426469A (en) Fencepost
DE723918C (en) Water post
DE348257C (en) Receiver arrangement for the electrical identification of shipping routes
US1252678A (en) Riprap.
DE640207C (en) Flexible shaft
US806416A (en) Screen device.
DE533035C (en) Electrostatic precipitator with ribbon or strip-shaped spray electrodes
US1809574A (en) Reenforced piling
US1668233A (en) Fence-post extension
US1760447A (en) Wire fabric
DE606601C (en) Arrangement for the insulated installation of grids in the anode protection tubes of metal vapor rectifiers
DE489002C (en) Protection device for isolator chains
DE1040055B (en) Coiled pipe built into the heat exchanger
DE693441C (en) Mutual attachment of the springs of a spring insert for upholstery, z. B. mattresses, pillows and. like
AT66310B (en) Metal reel.