JPS58106044A - Prestressed concrete body - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] The present invention relates to prestressed concrete bodies.

When casting prestressed concrete structures such as beams,
It is conventional practice to provide a wedge on the outside of the part to be cast, which holds the tensioned steel stationary after the tension has been removed from the strand. A strand may be a wire, cable, rod, etc., and is referred to herein using the terminology [stee+].

By releasing the tension in the steel, two phenomena occur: the diameter of the embedded steel widens and the steel tends to move in the direction of the copper length into the concrete body. These phenomena result in weakening of the concrete over many times the distance in the area surrounding the steel and extending inwardly from the exterior surface of the cast member. The technical term for this weakened area is the Development Length Zone (deVe).
loI)llent lengthzone).

FIG. 1 of the accompanying drawings shows, as an example of the prior art, a conventional assembly of parts used in the manufacture of prestressed precast structural members. Such an assembly comprises a form 2 into which a concrete body A is cast, through which a tensioned steel is passed and projects from the other end of the concrete body A. The outside of each end of the form 2 is provided with means for holding tensioned steel. This means consists of a wedge assembly comprising a barrel 6 resting on a fixed part 448 and having a frustoconical inner surface 10, on which inner surface 10 a wedge means 12 is arranged surrounding the steel. A tension F is applied to the steel, concrete is poured into the form 2, and the tension is released by cutting the steel between the member 8 and the concrete body A after the concrete has completely set. The purpose of the wedge means is to hold the steel in tension until the concrete body A hardens.

For example, when two casting members are to be connected at their end faces,
Although it is often desirable or necessary to attach end plates 14 to concrete body A, due to the development length zone S, concrete body A
Additional means must be provided for securing the plate 14 to. Conventionally, this is done by welding one or more elongate rods 16 to the inner surface of plate 14, with each elongate rod 1
6 is longer than the depth of the development length zone S as shown in FIG.

It is therefore an object of the present invention to provide structural members, beams, columns,
The object of the present invention is to provide a means for preventing development length zones in the production of cast concrete bodies such as piles.

In accordance with the present invention, as shown in FIG. 2, a barrel and wedge means assembly is disposed surrounding the steel at or near the entry point of the steel into the concrete body, and the wedge means is coupled to the barrel to tension the steel. Means are provided to prevent relative movement from occurring upon release.

A first embodiment of the invention is shown in FIG. In this example,
Steel 4 is attached to concrete body A on surface B of concrete body A.
, and the barrel 20 rests on surface B. Barrel 20 has a threaded cylindrical outer surface 22 and a frustoconical inner surface 24 .

The inner surface 24 tapers to h of the concrete body A and constitutes an internal space in which the wedge means 26 are arranged.

The wedge means 26 has a frustoconical outer surface 28 and the barrel 20
is in surface contact with the inner surface 24 of. The wedge means 26 has a cylindrical inner surface 30 which surrounds and closely engages the steel 4.

According to the invention, means are provided to prevent relative movement between the wedge means and the barrel after the wedge means has been adjusted to engage the steel and, in particular, after the steel has been tensioned. In the first embodiment, the outer surface 22 of the barrel 20 is connected to the inner threads 32 of the skirt 34 of the nut 36. Nut 36 has an inverted annular flange at its upper or outer end. The inverted annular flange extends beyond the upper or outer end surface of the barrel 20 and overlaps the upper or outer end of the wedge means 26.

With each part in place as described above, tension is applied to the steel and the concrete is forced to solidify into a conventional form (not shown in FIG. 3). The tension in the steel is then released by cutting the steel outside the barrel and wedge means. As previously mentioned, the effect of tension release is that the steel tends to expand in the e-radial direction within the concrete and tends to move toward the concrete, resulting in adverse consequences including the formation of the development length zone described above. . However, the device of the present invention can prevent these negative consequences. The engagement of the abutting ramps of the wedge means and the barrel prevents expansion of the steel. It is also possible that the component of the radial pressure of the wedge means in the barrel barrel, parallel to the steel, causes the wedge means to loosen in the barrel, and if this occurs the steel can retract towards the concrete body; Loosening of the means is also prevented by inhibiting movement of the wedge means outwardly in the steel direction by a rounded annular flange 38 of the nut 36.
□" As mentioned above, according to the invention, a wedge means and barrel assembly is placed at or near the steel entrance to the concrete body. In a second embodiment of the invention, as shown in FIG. , the assembly thereof is placed in a recess 40 at the end of the concrete body A. A barrel 42 is preferably placed in the recess in surface contact with the walls of the recess 40, its lower surface touching the bottom surface of the recess; Its cylindrical inner surface 44 and truncated conical inner surface 46
surrounds steel 4. A wedge means 48 is also arranged within the barrel 42 surrounding the steel 4, and its frustoconical outer surface is in surface contact with the corresponding inner surface of the barrel 42. The upper end of the barrel 42 is externally threaded at 50 to receive internal threads in the skirt 52 of the nut 54. The nut 54 has an inwardly extending plunge 56 which surrounds the steel and overlaps the upper or outer end of the wedge means 48 and is moved into engagement with the C-wedge means 48 before the steel 4 is tensioned; This prevents relative movement between the barrel 42 and the wedge means 48, especially after the steel has been tensioned.

A third embodiment of the invention is shown in FIG. Concrete body A
the steel 4 extends into the concrete body through the surface 60 of the
One end of barrel 62 contacts surface 60 (or a plate in contact with surface 60). At the inner end of the barrel 62 adjacent the concrete body A, there is provided a truncated conical inner surface 64 which tapers towards the concrete body. Wedge means 66 surrounding the steel are disposed within the barrel 62 and the conical (The trapezoidal outer surface engages a corresponding inner surface 64 of the barrel 62.) The outer end of the sill 62 is provided with a threaded cylindrical inner surface 66;
A nut 68 threaded at 7 is also received while surrounding the steel.

These parts are connected to the wedge means 66 by a nut 68 being screwed inwardly (engaging with the outer end of the wedge means 66).
is configured to be locked to the barrel 62.

As previously mentioned, it is often desirable or necessary to attach plates to the ends of the structural member being cast;
FIG. 8 shows the fourth and fourth embodiments of the invention including such plates, respectively.
A fifth and a sixth embodiment will be shown. In the embodiment of FIG.
4 is integrally formed with a cylindrical flange 70. Flange 7
0 extends into the form 2 from the inner surface of the cap 14 and is arranged concentrically with the open lower 2 of the plate 14 through which the steel 4 passes. Of course, the required number of these seven lunges and openings can be formed in each plate 14 of the form 2. The flange 70 has a threaded inner surface as shown, and is threadedly connected to a cylindrical barrel 74. The barrel 74 has a central through-opening and, on the plate 14 side thereof, a frustoconical inner surface 76 whose larger end is adjacent to the plate 14 . A plurality of wedge members 80 are provided within the central opening of barrel 74 . Wedge member 8
0 is placed in close engagement with and surrounding the steel, its outer surface engages the frustoconical inner surface 16 of the norel 74, and its larger end is adjacent to the plate 14.

In the embodiment shown in FIG. 7, a threaded opening 80 is provided in the plate 14 into which a cylindrical plug 82 is screwed approximately in the plane of the opening 80. The plug 82 has an unthreaded central opening through which the steel 4 passes into the concrete body A, and an internal abutment that extends below the inner surface of the plate 14 into the concrete body A and surrounds the steel.
form sent>. The barrel 84 is threaded on its upper inner surface and is adjustably attached to the outer thread of the plug 82; below this threading, i.e. within the form 2, the barrel 84 has a frustoconical inner surface 86. Inner surface 86
is concentric with steel 4 and plug 82, with its opposite end adjacent to the inner end of plug 82. A plurality of wedge segments 88 are provided within barrel 84 and extend 4 degrees to the right of an outer surface corresponding to frustoconical inner surface 86 of barrel 84 .

In the embodiment of the invention shown in FIG.
The upper outer surface of the plate 14 is threaded and adjustably coupled within a threaded aperture 92 in the inner surface of the plate 14. The upper inner surface of the barrel 90 is also threaded to receive an outer threaded plaque No. 941 having a central opening through which the steel 4 passes. An assembly of wedges 96 surrounds the steel 4 within the barrel 90 and, as in the previous embodiments, a frustoconical inner surface 98 of the barrel 90.
Collaborate with.

Also in the example, the wedge does not loosen after the parts have been adjusted prior to pouring the concrete. This is because the barrel and wedge are moved into engagement with the fixed part so that the barrel, wedge and fixed part then form a rigid assembly and the steel remains in tension after release of the external means applying tension to the steel. This prevents the concrete from expanding or retracting into the concrete body.

[Brief explanation of the drawing]

FIG. 1 is a schematic diagram illustrating conventional means used to form cast pre-stressed concrete members, illustrating the development length zone resulting from the use of such conventional means. , FIG. 2 is a view similar to a part of FIG. 1 and showing an example of the arrangement of the barrel and wedge means in the case of the present invention, and FIG. 3 shows one end of the concrete body to be cast. The figures disclosing the embodiments, Figures 4 and 5, are similar to Figure 3 and illustrate the second and third embodiments of the invention, respectively (Figures 6, 7 and 8 are concrete Fourth aspect of the invention, respectively, when the body has plates at the ends;
It is a dimensional drawing of the 5th and 6th Example. 4... Steel, 14... Plate, 20... Barrel, 24...
...Truncated conical inner surface, 26...Wedge means, 28...
・Truncated conical outer surface, 34...Skirt portion, 36...
Nut, 38...Internal annular flange, 40...
, recess, 42... barrel, 46... truncated conical inner surface, 48... wedge means, 52... skirt portion, 54
...Natsuto, 56...7 lunge, 60...surface,
62... Barrel, 64... truncated conical inner surface, 66...
- Bevel means, 68... Nut, 7o... 7 langes, 72... Opening, 74... Barrel, 76... truncated conical inner surface, 80... Threaded opening, 82...・・・
Plug, 84...Barrel, 86...Truncated conical inner surface, 88...Wedge segment, 90...Barrel, 9
2...Threaded opening, 94...Plug, A...
・Concrete body, B...Surface. - Middle leg of the attack (No change in content χ FIG / ↑ Procedural amendment Written August 121, 1982 Patent Application No. 215977j4 1 Name of Prestressed Concrete Body Top Applicant) 1 Place: Puerto Rico 00632, Katano (no street address) Tamana Abraham Bihar Riman 3-5-3 Uchikanda, Chiyoda-ku, Tokyo Explanation column, brief explanation column for drawings
, zudō:=1ki, 6. Contents of the amendment (I) Amendment in the title column of the invention Amend "prestressed concrete body" in the third line of page 1 to "prestressed concrete body" . (n> Amendment to the claims section As per the attached sheet ■ Amendment to the detailed description of the invention section (1) Amend "Breathless j" in page 6, line 14 to "Breath 1 - Less" (2) In page 6, line 16, [bristle stress J , , , , H,, l,. is corrected to ``prestress.'' ``Plunge 56'' is corrected to ``7 lunge 56.'' (4) In lines 8 to 9 of page 13, [A cylindrical inner surface 66 is provided, 1] is corrected to ``A cylindrical inner surface 64 is provided, -1.'' (5) Page 14 Lines 10 to 1., I line 11, I line 1.
``1 wedge member 80'' in 1 row is corrected to ``wedge member 18''. (6) Correct "internal abutment" in the first line of page 15 to [internal abutment. ■ Correct "plug 82" in the third line of page 15 to "plug 82." (8) Correct the 15th line. Correct “Plaque 94” in line 17 of the page to “Plug 94”.Correction in the brief explanation column of surface drawings (1) In line 13 of page 17, [76...... truncated cone-shaped On the inside, add the following words after J: "78...Wedge member,"("94...Plug," in the 17th line of page 11 of 2 is changed to i94... ...Plug.'' Attached to Category 1 Catalog (1) Document stating the amended scope of claims 1 copy of claims a tensioned steel extending into the concrete body; a generally cylindrical barrel surrounding the steel and having a frustoconical inner surface converging toward the concrete body and disposed adjacent the surface; wedge means in the barrel having a frustoconical outer surface that converges toward the body and engages the inner surface of the barrel; and wedge means that engages the wedge means and the barrel to prevent relative movement therebetween; 2) A prestressed concrete body, characterized in that the barrel and the wedge means are located externally of the concrete body, and the barrel contacts the concrete body. A prestressed concrete body according to claim 1. 3) The concrete body has a recess opening into said surface, and the barrel and wedge means are disposed within said recess. Section 1 stressed concrete body as described in paragraph 1. 4') :] A plate is disposed surrounding the steel in contact with the surface of the concrete body, and the barrel is disposed in contact with the outer surface of the plate. A prestressed concrete body according to claim 1. 5) The outer surface of the barrel is threaded, and the nut is further provided with a skirt portion threaded on the inner surface toward the barrel and having an inverted annular 7 flange at one end, said inverted annular flange being wedged. Prestressed concrete body according to claim 1, characterized in that relative movement of the wedge means in the steel direction with respect to the barrel is prevented by overlapping and engaging the larger end of the means. 6) a concrete body having a surface, a tensioned steel extending through the surface into the concrete body, a frustoconical inner surface surrounding the steel and converging towards the concrete body, and a screw; a generally cylindrical barrel having a truncated cylindrical outer surface disposed adjacent said surface; and a frustoconical outer surface converging toward the concrete body and engaging said inner surface of the barrel. The inner wedge means is screwed onto said threaded cylindrical outer surface of the barrel and engages the outer end of the wedge means. Claim 1 is characterized in that it consists of a nut that does! jF11]i milk 1
11E(7) Prestressed concrete body. 7) a concrete body having at least one surface, a plate in surface contact with said surface, a tensioned steel extending through said plate into the concrete body, and attached to said plate in a lateral direction of said steel; 1. and means in the concrete body capable of preventing longitudinal movement of said steel into the concrete body, said means at least partially surrounding and engaging said steel; and means for adjustably connecting the plate to the plate. 8) Patent characterized in that said adjustable means consist of a barrel having a frustoconical inner surface engaging a corresponding surface of the wedge means and an adjustable connection between said barrel and said plate. A prestressed concrete body according to claim 71. 9) means in said concrete body comprising an annular flange formed integrally with said plate and extending inwardly from said plate into the concrete body surrounding the steel and integrally threaded; a barrel with a threaded outer surface having a frustoconical inner surface adjacent to the flange and threadedly connected to said flange within the concrete body; and a wedge surface engaging a corresponding surface of said barrel and surrounding the steel within the barrel 8. A pre-stressed concrete body as claimed in claim 7, characterized in that it comprises wedge means disposed in the pre-stressed concrete body. 10) means in said concrete body include a threaded opening in said plate and a cylindrical plug having a central opening through which the steel passes and threaded on the outer surface to engage said threaded opening; a barrel threaded on the inside of one end to engage the plug and having a frustoconical inner surface extending into the concrete body concentrically with the plug;
8. A prestressed concrete body according to claim 7, further comprising wedge means disposed within the barrel surrounding said steel and having a wedge surface engaging a corresponding surface of said barrel. 11) means in the concrete body include a threaded opening in the interior through which the steel extends; a barrel threaded on the inner and outer surfaces of one end and connected to the threaded opening by an external thread; and one end of the barrel; an annular plug threaded in and located substantially in the plane of the plate and surrounding the steel;
said barrel having a truncated conical inner surface extending from the plug into the concrete body concentrically with said annular plug, and a wedge surface engaging a corresponding surface of the barrel, provided that each part is in working position and working relationship; 8. Prestressed concrete body according to claim 7, characterized in that it comprises wedge means, the larger end of which engages one lug. 219-

Claims (1)

Claims: 1) a concrete body having a surface and a tensioned steel extending through the surface and into the concrete body;
a generally cylindrical barrel surrounding the steel and having a frustoconical inner surface converging toward the concrete body and disposed adjacent to said surface; A prestressed device characterized in that it comprises wedge means in the barrel having mating frustoconical outer surfaces, and adjustable means for engaging the wedge means and said barrel to prevent relative movement therebetween. Concrete body. 2> Prestressed concrete body according to claim 1, characterized in that the barrel and the wedge means are located outside the concrete body, and the barrel contacts the concrete body. 3) A prestressed concrete body according to claim 1, characterized in that the concrete body has a recess opening into the surface, and in which the barrel and wedge means are arranged. 4> A prestressed steel plate according to claim 1, characterized in that a plate is disposed in contact with the surface of the concrete body and surrounds the steel, and the barrel is disposed in contact with the outer surface of the plate. concrete body. 5) a nut having an outer surface of the barrel threaded and further having a skirt portion threaded on the inner surface towards the barrel and having an inverted annular flange at one end, said inverted annular flange forming a wedge means; Prestressed concrete body according to claim 1, characterized in that relative movement of the wedge means in the steel direction with respect to the barrel is prevented by overlapping and engaging the larger end of the body. . 6) a concrete body having a surface, a tensioned steel extending through said surface into the concrete body, and a frustoconical inner surface surrounding said steel that fits into the concrete body and threaded; a generally cylindrical barrel having a cylindrical outer surface and disposed adjacent said surface; and a wedge within the barrel having a frustoconical outer surface converging towards the concrete body and engaging said inner surface of the barrel. 7) at least one prestressed concrete body, characterized in that it consists of means and a nut screwed onto said threaded cylindrical outer surface of the barrel and engaging seven ends of said means; a concrete body having two surfaces;
a plate in surface contact with said surface; a tensioned steel extending through said plate into the concrete body; and a plate attached to said plate for lateral expansion of said steel and longitudinal expansion of said steel into the concrete body. means in a concrete body capable of preventing movement, said means comprising wedge means at least partially surrounding and engaging said steel and means for adjustably connecting said wedge means to said plate. Features a prestressed concrete body. 8) A patent characterized in that said adjustable means consist of a barrel having a frustoconical inner surface engaging a corresponding surface of the wedge means and an adjustable connection between said barrel and said plate. A prestressed concrete body according to claim 7. 9) means in said concrete body comprising an annular flange formed integrally with said plate and extending inwardly from said plate into the concrete body surrounding the steel and integrally threaded; a barrel with a threaded outer surface having a frustoconical inner surface adjacent thereto and threadedly connected to said seven flange within the concrete body; and a barrel surrounding the steel and having a wedge surface engaging a corresponding surface of said barrel; 8. A prestressed concrete body according to claim 7, further comprising wedge means disposed within the prestressed concrete body. 10) means in said concrete body include a threaded opening in said plate and a cylindrical plug having a central opening through which the steel passes and threaded on the outer surface to engage said threaded opening; a barrel threaded on the inside of one end to engage the plug and having a frustoconical inner surface extending into the concrete body concentrically with the plug;
8. A prestressed concrete body according to claim 7, further comprising wedge means disposed within the barrel surrounding said steel and having a wedge surface engaging a corresponding surface of said barrel. 11) Means in the concrete body include a threaded opening in the plate wall through which the steel extends, a barrel threaded on the inner and outer surfaces of one end and connected to the threaded opening by its outer thread; and one end of the barrel. an annular plug threaded in and located substantially in the plane of the plate and surrounding the steel;
The barrel has a truncated conical inner surface that is concentric with the annular plug and extends from the plug into the concrete body;
Wedge means having a wedge bar engaging a corresponding surface of the barrel, the larger end of which engages the plug when the respective parts are in a working position and working relationship. Prestressed concrete body according to paragraph 7.