US411360A - knight - Google Patents

knight Download PDF

Info

Publication number
US411360A
US411360A US411360DA US411360A US 411360 A US411360 A US 411360A US 411360D A US411360D A US 411360DA US 411360 A US411360 A US 411360A
Authority
US
United States
Prior art keywords
concrete
metal
rods
wires
wire
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
Publication date
Application granted granted Critical
Publication of US411360A publication Critical patent/US411360A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H17/00Fencing, e.g. fences, enclosures, corrals
    • E04H17/02Wire fencing, e.g. made of wire mesh
    • E04H17/10Wire fencing, e.g. made of wire mesh characterised by the way of connecting wire to posts; Droppers
    • E04H17/124Wire fencing, e.g. made of wire mesh characterised by the way of connecting wire to posts; Droppers connecting by one or more clamps, clips, screws, wedges or ties

Definitions

  • This invention relates to devices, by the combination of metal rods or wires with concrete, glass, or other substance not subject to decay, to form fence and other posts, pillars, railway-ties, beams, &c.; and the invention consists in features of novelty hereinafter fully described, and pointed out in the claims.
  • Figure I is a perspective view of a metal frame prepared ready for filling or incorporating with concrete or other material not subject to decay, for the construction of fence posts, the.
  • Fig. II is a vertical section of a fence-post, and shows the metal frame, the concrete filling, the holes through the post for seating the staples, and fence-wires secured to said post by said staples.
  • Fig. III is an enlarged transverse section of one end of the metal frame, and shows the terminal hooks of its vertical rods turned inward over the embracing-coil of the connecting-wire.
  • Fig. IV is alike view showing the hooks projecting outward over the coils.
  • Fig. V is an enlarged transverse section taken on line V V, Fig.
  • Fig. VI is a perspective view of the staple that fastens the wire to the post.
  • Fig. VII is an enlarged vertical detail section taken on line VII VIII,Fig. II, and shows the concrete filling, the hole for the staple through the post, the staple seated in said hole, and the fence-wire in said staple.
  • Fig. VIII is a like view showing the ends of the staple clinched for its retention in its seat.
  • Fig. IX is a vertical section taken on line IX IX, Fig. X, and shows the metal frame and concrete or other filling not subject to decay of a railway cross-tie.
  • Fig. X is a longitudinal section of the crosstie, and shows the metal frame, concrete filling, and bolt-holes for the attachment of Fig. XI is a transverse section of a modification for a post, &c., and shows two vertical rods with their connecting-wire in conjunction with the concrete or other material with which the metal frame is combined.
  • Fig. XII is also a transverse section of a modification, and shows three vertical rods with their connecting-wire; and
  • Fig. XIII is a transverse section of another the chairs to the ties.
  • 1 represents the longitudinal metal rods, tubes, or wires that, with the connecting-wires 2, constitute the metal frame.
  • the wires are preferably given atie-coil 3 around each rod, so as to definitely secure said rods at equidistant positions from each other.
  • Hooks 4 at the terminals of the rods lap over the coils of the end ties, either turning inward, as in Figs. I, II, and III, or outward, as in Fig. IV, and said hooks co-operatively and relatively prevent the slipping of the rods from the wire ties in either direction.
  • indestructible material 5- such as concrete, glass, or other substance that is not subject to decay-4s molded or otherwise deposited within the said metal frame, and preferably extends sufficiently outside the same to be a perfect inclosure for the metal from the inroads of moisture and of the atmosphere.
  • the metal which may be of iron or any other suitable material, is preserved from rust and attrition, and as the material by which itis inclosed, except for its 'frangibility, is virtually indestructible, not being subject to decay, the said metal frame obviates said frangibility and gives the article thus manufactured a backbone that under ordinary circumstances cannot be broken, the correlative positions of the materials and their correlative qualifications each making provisions to countervail the lack in qualification of the other, so as to co-operate to form a post, railway-tie, beam,
  • Holes 6 are provided in the fence-post or railway-tie, and in those in the post the staples 7, which hold the fence-wire 8, are seated.
  • the holes should be placed relatively at the distance apart that it is required for the wires to be placed. After the stretching of the wire along the line of fence the points of the staples are passed over it at each post and driven through the holes in said posts, as seen in Figs. II and VII, and are then clinched at 9, as shown in Fig. VIII, to hold the wire in place.
  • the holes 6 in the railway cross-ties serve as bolt-holes for the attachment of the railchairs.
  • the longitudinal pieces of the metal frames may be of iron or other metal rods or wire, or they may be of metal tubes, such as gas pipes.
  • Gas-tubes are well adapted for use in the construction of beams, cross-ties, &c., where the structure is subject to much cross strain, as their tubular construction insures great strength for the amount of metal used.
  • the invention is especially well adapted for use in the manufacture of fence-posts, railway cross-ties, &c., in prairie countries or any country where timber is or has become scarce, for it can be produced in such places at about the same cost as in others where the timber article is cheap from the abundance of material; but the invention is also of ad vantage even where timber is plentiful and cheap, in consequence of the lasting qualities of the posts and other articles that are constructed out of imperishable material, when it is combined and constructed as above described, being both fire-proof and indestructible from decay.
  • Figs.- XI and XII are shown modifications, in which in the first case only two longitudinal rods and in the latter three are used, in which cases they are connected by wire with a coil-tie, as in the case of four. I do not confine myself to any number of longitudinal rods, for the number may be reduced or increased as desired, as will best accord with the structure for which it is intended.
  • WVhen only one of the longitudinal rods shown is used, of necessity there can be no connecting-wires; but I prefer, except it may be for some especial uses, to use more than one longitudinal rod, which rods, with their connecting-wires, are a brace to each other, and when, as in most cases, four such are used, filled in and inclosed within concrete or other solid imperishable material which is impervious to air and moisture and to the inroads of rust and decay, the structure largely combines the properties with the stiffness and fibrous cohesive tenacity of the metal, with also the unyielding and imperishable properties of the concrete, glass, or other like substance not subject to decay or to bend or warp, as will metals alone under a severe strain or extreme heat.
  • Fig. XIII is shown a modification in which the. metal frame is outside the concrete or other imperishable substance, in which form my invention may be adopted for certain especial uses; but for most uses, especially where exposed to the weather, the use of this modification is not preferred, for the metal frame is not, as in the other forms, protected from the moisture of the atmosphere, and consequently is subject to the 1nroads of rust.
  • the invention is of practical utility for many purposes not noted in the above description, such as columns in buildings, 1n which either concrete or glass is too frangible for such purpose when uncombined with my metal frame.
  • Glass columns in which are molded the said metal frames can thus be constructed, and, while inexpensive, they may be made both serviceable and ornamental.
  • the glass can be colored or of varied hues to suit the taste.
  • the metal frame may be located and fixed in the center of a mold, and the concrete, glass, or other material not subject to decay be run in around it while in a plastic condition, and when rigid be removed from the mold; or the structure may be formed by any other suitable means.

Landscapes

  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Fencing (AREA)

Description

(No Model.)
0. A. STEMPEL. POST, RAIL TIE, BEAM, 850.
No. 411,360. Patented Sept. 17, 1889.
Jim/19.71 $0.2
mar IZenzpeZ. 4; 93
UNITED STATES PATENT OEEIcE.
OMAR A. STEMPEL, OF ST. LOUIS, MISSOURI, ASSIGNOR OF ONE-HALF TO FERDINAND llIEYROSE, OF SAME PLACE.
POST, RAIL-TIE, BEAM, etc.
SPECIFICATION forming part of Letters Patent No. 411,360, dated September17, 1889. Application filed June 25, 1888. Serial No. 278,033. (No model.)
To all whom it may concern:
Be it known that I, OMAR A. STEMPEL, of
the city of St. Louis, in the State of Missouri, have invented a certain new and useful Improvement in Posts, Rail-Ties, Beams, 850., of which the following is a full, clear, and exact description, reference being had to the accompanying drawings, forming part of this specification.
This invention relates to devices, by the combination of metal rods or wires with concrete, glass, or other substance not subject to decay, to form fence and other posts, pillars, railway-ties, beams, &c.; and the invention consists in features of novelty hereinafter fully described, and pointed out in the claims.
Figure I is a perspective view of a metal frame prepared ready for filling or incorporating with concrete or other material not subject to decay, for the construction of fence posts, the. Fig. II is a vertical section of a fence-post, and shows the metal frame, the concrete filling, the holes through the post for seating the staples, and fence-wires secured to said post by said staples. Fig. III is an enlarged transverse section of one end of the metal frame, and shows the terminal hooks of its vertical rods turned inward over the embracing-coil of the connecting-wire. Fig. IV is alike view showing the hooks projecting outward over the coils. Fig. V is an enlarged transverse section taken on line V V, Fig. II, and shows the vertical rods, their connectingwires, and a filling of concrete or other material. Fig. VI is a perspective view of the staple that fastens the wire to the post. Fig. VII is an enlarged vertical detail section taken on line VII VIII,Fig. II, and shows the concrete filling, the hole for the staple through the post, the staple seated in said hole, and the fence-wire in said staple. Fig. VIII is a like view showing the ends of the staple clinched for its retention in its seat. Fig. IX is a vertical section taken on line IX IX, Fig. X, and shows the metal frame and concrete or other filling not subject to decay of a railway cross-tie. It also shows the bolt-holes for seating the bolts that secure the rail-chair to the tie. Fig. X is a longitudinal section of the crosstie, and shows the metal frame, concrete filling, and bolt-holes for the attachment of Fig. XI is a transverse section of a modification for a post, &c., and shows two vertical rods with their connecting-wire in conjunction with the concrete or other material with which the metal frame is combined. Fig. XII is also a transverse section of a modification, and shows three vertical rods with their connecting-wire; and Fig. XIII is a transverse section of another the chairs to the ties.
modification, in which the concrete filling is located wholly inside the metal frame.
Referring to the drawings, in which similar figures of reference indicate like parts in all the views, 1 represents the longitudinal metal rods, tubes, or wires that, with the connecting-wires 2, constitute the metal frame. The wires are preferably given atie-coil 3 around each rod, so as to definitely secure said rods at equidistant positions from each other. Hooks 4 at the terminals of the rods lap over the coils of the end ties, either turning inward, as in Figs. I, II, and III, or outward, as in Fig. IV, and said hooks co-operatively and relatively prevent the slipping of the rods from the wire ties in either direction. A filling and inclosure of indestructible material 5- such as concrete, glass, or other substance that is not subject to decay-4s molded or otherwise deposited within the said metal frame, and preferably extends sufficiently outside the same to be a perfect inclosure for the metal from the inroads of moisture and of the atmosphere. By this means the metal, which may be of iron or any other suitable material, is preserved from rust and attrition, and as the material by which itis inclosed, except for its 'frangibility, is virtually indestructible, not being subject to decay, the said metal frame obviates said frangibility and gives the article thus manufactured a backbone that under ordinary circumstances cannot be broken, the correlative positions of the materials and their correlative qualifications each making provisions to countervail the lack in qualification of the other, so as to co-operate to form a post, railway-tie, beam,
or other article that combines the strength of the metal with the undecaying, and therefore indestructible, properties of the concrete, glass, 86C.
Holes 6 are provided in the fence-post or railway-tie, and in those in the post the staples 7, which hold the fence-wire 8, are seated. The holes should be placed relatively at the distance apart that it is required for the wires to be placed. After the stretching of the wire along the line of fence the points of the staples are passed over it at each post and driven through the holes in said posts, as seen in Figs. II and VII, and are then clinched at 9, as shown in Fig. VIII, to hold the wire in place.
The holes 6 in the railway cross-ties serve as bolt-holes for the attachment of the railchairs.
The longitudinal pieces of the metal frames may be of iron or other metal rods or wire, or they may be of metal tubes, such as gas pipes. Gas-tubes are well adapted for use in the construction of beams, cross-ties, &c., where the structure is subject to much cross strain, as their tubular construction insures great strength for the amount of metal used.
The invention is especially well adapted for use in the manufacture of fence-posts, railway cross-ties, &c., in prairie countries or any country where timber is or has become scarce, for it can be produced in such places at about the same cost as in others where the timber article is cheap from the abundance of material; but the invention is also of ad vantage even where timber is plentiful and cheap, in consequence of the lasting qualities of the posts and other articles that are constructed out of imperishable material, when it is combined and constructed as above described, being both fire-proof and indestructible from decay.
In Figs.- XI and XII are shown modifications, in which in the first case only two longitudinal rods and in the latter three are used, in which cases they are connected by wire with a coil-tie, as in the case of four. I do not confine myself to any number of longitudinal rods, for the number may be reduced or increased as desired, as will best accord with the structure for which it is intended. WVhen only one of the longitudinal rods shown is used, of necessity there can be no connecting-wires; but I prefer, except it may be for some especial uses, to use more than one longitudinal rod, which rods, with their connecting-wires, are a brace to each other, and when, as in most cases, four such are used, filled in and inclosed within concrete or other solid imperishable material which is impervious to air and moisture and to the inroads of rust and decay, the structure largely combines the properties with the stiffness and fibrous cohesive tenacity of the metal, with also the unyielding and imperishable properties of the concrete, glass, or other like substance not subject to decay or to bend or warp, as will metals alone under a severe strain or extreme heat.
In Fig. XIII is shown a modification in which the. metal frame is outside the concrete or other imperishable substance, in which form my invention may be adopted for certain especial uses; but for most uses, especially where exposed to the weather, the use of this modification is not preferred, for the metal frame is not, as in the other forms, protected from the moisture of the atmosphere, and consequently is subject to the 1nroads of rust.
The invention is of practical utility for many purposes not noted in the above description, such as columns in buildings, 1n which either concrete or glass is too frangible for such purpose when uncombined with my metal frame. Glass columns in which are molded the said metal frames can thus be constructed, and, while inexpensive, they may be made both serviceable and ornamental. The glass can be colored or of varied hues to suit the taste. When the filling of said pillars is of concrete, they (the pillars) are easily susceptible of embellishment by stucco-work.
Among other uses to which the invention is adapted is that of sills and like parts in the construction of frame and other buildings, especially in basements where there are foundation supports beneath the sills that support them and are subject to damp. In the formation of the structure the metal frame may be located and fixed in the center of a mold, and the concrete, glass, or other material not subject to decay be run in around it while in a plastic condition, and when rigid be removed from the mold; or the structure may be formed by any other suitable means.
Although I have provided staples for the attachment of the wires to the posts when the invention is used for fenceposts, and such is the preferable means of attachment of the Wires, yet should other means of attachment be desired at any time, by setting the posts with said holes running in line with that of the wire said wire can be threaded through the holes-and the attachment-staples then dispensed with.
I claim as my invention-- 1. The combination of the metal frame, the filling and inclosure of imperishable material 5, that protects said frame from the inroads of moisture and rust, and said frame arranged to protect said said structure provided with holes for seating staples, and the staples that hold the wires to said posts, seated in said holes, substantially as and for the purpose set forth.
2. The combination of longitudinal metal rods and girding-wires connecting said rods and a filling and inclosure of indestructible material 5, arranged to protect said frame from the inroads of moisture and rust, and said frame arranged to bind and hold said material from breakage, and hooks on the ends of said rods for preventing said wires from slipping off, substantially as set forth.
3. The combination of longitudinal metal IIO IIS
structure from breakage, the
ing said Wires from slipping off, substan biaily as set forth.
OMAR A. STEMPEL.
In presence of BENJN. A. KNIGHT, SAML. KNIGHT.
US411360D knight Expired - Lifetime US411360A (en)

Publications (1)

Publication Number Publication Date
US411360A true US411360A (en) 1889-09-17

Family

ID=2480294

Family Applications (1)

Application Number Title Priority Date Filing Date
US411360D Expired - Lifetime US411360A (en) knight

Country Status (1)

Country Link
US (1) US411360A (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5119614A (en) * 1991-01-28 1992-06-09 Superior Precast Concrete post reinforcing apparatus
US20060284328A1 (en) * 2005-05-25 2006-12-21 Pantelides Chris P FRP Composite wall panels and methods of manufacture
US7421827B1 (en) * 1997-11-05 2008-09-09 Apostolos Konstantinidis Cellular stirrups and ties for structural members
US20090178356A1 (en) * 2008-01-15 2009-07-16 Baumann Hanns U Pre-cast concrete column and method of fabrication

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5119614A (en) * 1991-01-28 1992-06-09 Superior Precast Concrete post reinforcing apparatus
US7421827B1 (en) * 1997-11-05 2008-09-09 Apostolos Konstantinidis Cellular stirrups and ties for structural members
US20060284328A1 (en) * 2005-05-25 2006-12-21 Pantelides Chris P FRP Composite wall panels and methods of manufacture
US7856778B2 (en) * 2005-05-25 2010-12-28 University Of Utah Foundation FRP composite wall panels and methods of manufacture
US20090178356A1 (en) * 2008-01-15 2009-07-16 Baumann Hanns U Pre-cast concrete column and method of fabrication

Similar Documents

Publication Publication Date Title
US411360A (en) knight
US693061A (en) Fence-post.
US822814A (en) Metal post.
US590100A (en) Fence-post
US759488A (en) Fence-post.
US417383A (en) Fence-post
US806743A (en) Post.
US334973A (en) Fence
US813971A (en) Fence.
US922193A (en) Fence-post.
US773706A (en) Fence-post.
US610042A (en) Office
US780950A (en) Rail-tie.
US774548A (en) Insulator for fibrous material.
US749337A (en) Base for fence-posts
US703305A (en) Fence.
US666560A (en) Wire fence.
US606530A (en) Of alert
US789019A (en) Fence-post.
US741579A (en) Composite fence-post.
US803615A (en) Cement fence-post.
US607258A (en) Fence-post
US425774A (en) Fence
US464549A (en) Portable fence
US592146A (en) Fence-post