KR100653678B1 - An apparatus for binding steel fiber for reinforcing concrete - Google Patents

Abstract

An equipment for bonding a bundle type steel fiber, which can improve adhesion property between the steel wires further more by allowing an adhesive to flow in through sides of a plurality of guiding paths into which steel wires are flown, is provided. An equipment for bonding steel fibers for reinforcing concrete comprises an adhesive supply part, an adhesive coating part(30), adhesion rollers and an adhesive collection part, wherein the adhesive coating part comprises: a plurality of guiding paths(35) for guiding plural steel wires(T); a main supply path(31) into which an adhesive supplied from the adhesive supply part flows; branch paths(33) of which one ends are in communication with the main supply path, and of which the other ends are in communication with the respective guiding paths to distribute adhesive flown in along the main supply path into the respective guiding paths; and discharge paths(37) of which one ends are in communication with one side of the respective guiding paths, and of which the other ends are in communication with the outside.

Description

An Apparatus For Binding Steel Fiber For Reinforcing Concrete}

1 is a schematic diagram of a conventional steel fiber manufacturing apparatus for concrete reinforcement.

Figure 2 is a perspective view showing a steel fiber bonding apparatus for concrete reinforcement according to the present invention.

3 is a cross-sectional view taken along the direction A-A of FIG. 2.

<Description of main drawing code>

10: adhesive container 11: adhesive supply pipe

12: hot air supply unit 20: base unit

21: adhesive roller 20: adhesive coating

31: main supply path 33: branch road

35: guideway 37: discharge path

40: adhesive collecting portion 41: outlet

50: discharge pipe T: steel wire

The present invention relates to a steel fiber bonding device for concrete reinforcement, and more particularly, bundle type steel fiber bonding device to improve the adhesiveness between the steel wires by allowing the adhesive to flow through the side of the plurality of guideways in which the steel wires are introduced. It is about.

Cement compositions, such as concrete and mortar, which are cured and hardened by hydration of cement by mixing water with cement and aggregate, have various advantages as building materials and are inexpensive and are widely used to construct various building structures. The strength of the structure constructed by such a cement composition is influenced by the quality and blending ratio of the blending material, curing method, uniformity of blending the blending materials, use of various reinforcing materials and their content.

As a method to increase the strength of cement structures, by incorporating reinforcing materials such as steel fibers into the cement composition, reinforcing the strength, especially the tensile strength, of the structure, thereby minimizing the occurrence and development of cracks, which are fundamental causes of various defects in cement structures. The method is widely used.

Increasing the content of steel fibers in the cement composition is desirable to improve the strength, but when excessively large amounts of steel fibers are mixed, the steel fibers are entangled with each other to form agglomerates, i.e., uniform mixing of steel fibers with the cement composition is inhibited. Rather, it is counter to strength improvement. Therefore, in order to introduce a sufficient amount of steel fibers into the cement composition to have the strength required for the cement composition while maintaining the uniformity of the mixing of the steel fibers with the cement composition, one steel fiber should be mixed while being scattered in the cement mixture. This is not only to provide a separate device for spraying the steel fiber to the cement composition in forming the cement composition, there is a problem that the compounding time of the composition takes a long time.

As a countermeasure for solving such a problem, a method of mixing a plurality of steel fiber bundles bonded with a binder to a cement composition as described above has been proposed. This method is based on the principle that steel fibers in the bundle state than the individual steel fibers have a length-to-thickness ratio less than the number of steel fibers in the bundle, thereby increasing the mixing properties of the cement composition. Uniformly dispersing and dispersing the bundle of steel fibers dispersed in a bundle state by disintegration ingredient so that the individual steel fibers are uniformly dispersed in the cement composition in a short time without the steel fiber bundles being uniformly dispersed. To be mixed.

Figure 1 shows a device for producing a bundle of steel fibers in the form of a bundle (bundle). As shown in Figure 1, the bundle-type steel fiber manufacturing apparatus is provided with a steel rod supplying the wire rods to the bobbin inserted in the shaft is not inclined to its own weight is formed by the shaft to fit the bobbin on the left and right sides of the mounting table. And, a plurality of selection roller and the support roller is installed at a predetermined interval up and down, the selection line 110 to straighten the aggregated steel wire, the adhesive portion 120 for applying the adhesive to the steel wire to join the steel wire, and the wire Heater tubes are disposed on the upper and lower bodies respectively formed in the upper and lower passages, and a drying unit 130 for drying the adhesive while the steel wire passes, a cooling unit 140 for cooling the heated steel wire, Consists of a molding unit 150 for continuously pressing the supplied bundle-type steel wire with steel fibers (st).

When the adhesive part 120 is applied on the plurality of steel wires into which the adhesive discharged through the nozzle 121 is introduced, the adhesive roller 123 adheres the plurality of steel wires on which the adhesive is applied to the steel wires. Although the adhesive is discharged on the aligned wire, the adhesive is not evenly applied to the side of the steel wire, there is a problem that the wire between the wire wires are easily separated from each other in the forming step because the adhesive strength between the wires is reduced.

The present invention has been made to solve the above problems, it is an object of the present invention to improve the adhesiveness between the steel wires by allowing the adhesive to flow through the side of the plurality of guideways in which the steel wires are drawn.

According to an aspect of the present invention for achieving the above object, in the steel fiber adhesive device for concrete reinforcement for bonding a plurality of steel wires drawn from the bobbin rotating body wound around the steel wire in a bundle, adhesive for supplying an adhesive In the supply unit, an adhesive coating unit for applying the adhesive supplied from the adhesive supply to the plurality of steel wires, the adhesive roller for adhering the steel wires to each other by closely contacting the plurality of steel wires to which the adhesive is applied, and in the adhesive application unit An adhesive collection unit for recovering the excess adhesive flowing down, wherein the adhesive coating is a plurality of guides for guiding the plurality of steel wires, the main supply to which the adhesive supplied from the adhesive supply unit flows, one end of the main Communicate with the supply passage and the other end communicate with each of the guide passages to D) a branching path for branching the adhesive flowing into each of the guide paths and a discharge path in which one end is connected to one side of each of the guide paths and the other end is connected to the outside is provided; .

The guideway is preferably formed such that the distance to the adjacent guideway is reduced toward the front.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.

Figure 2 is a perspective view showing a steel fiber bonding apparatus for concrete reinforcement according to the present invention.

As shown in Figure 2, the steel fiber adhesive device for concrete reinforcement according to the present invention is an adhesive for applying an adhesive to the wire bundle bundle on one side of the base portion 20 installed in the path through which the bundle of the selected wire (T) The applicator 30 is installed, and the adhesive roller 21 for adhering the steel wires T coated with the adhesive to the rear end thereof to adhere the steel wires T to each other is installed.

The lower portion of the base portion 20 is formed with an adhesive collector 40 for collecting the remaining excess adhesive. The adhesive collection part 40 is formed in a hopper shape to facilitate recovery of the adhesive, and a discharge port 41 through which the adhesive is discharged is formed. The discharge port 41 is reintroduced back into the adhesive container 10 through the discharge pipe 50.

The adhesive container 10 accommodates the adhesive to be applied, and supplies the adhesive to the adhesive applying unit 30 through the adhesive supply pipe 11. The adhesive supply pipe 11 is preferably one side is connected to the hot air supply 12 to allow the adhesive to flow smoothly without hardening.

3 is a cross-sectional view taken along the direction A-A of FIG. 2.

As shown in FIG. 3, the adhesive applying unit 30 includes a plurality of guide paths 35 through which the plurality of steel wires T are introduced, and a main supply path through which the adhesive supplied through the adhesive supply pipe 11 flows ( 31, a branch passage 33 where one end communicates with the main supply passage 31 and the other end communicates with each guide passage 35 to branch the adhesive flowing along the main supply passage 31 into the respective guide passages 35. ) And one end is in communication with one side of each guide path 35 and the other end is in communication with the outside is formed with a discharge path 37 for discharging the unapplied excess adhesive to the bottom.

Guideway 35 is formed so that the distance to the adjacent guideway 35 decreases toward the front with respect to the point where the adhesive is introduced, so that the steel wires (T) that are introduced through the guideway (35) naturally adhere to each other It is preferable to make it possible, and thus, as shown in FIG. 2, it can be seen that the adhesive application part 30 is formed to decrease in width toward the front from the point where the adhesive supply pipe 11 is connected.

Referring to Figure 3 describes the adhesive application process, the adhesive flowing through the adhesive supply pipe 11 flows in both directions along the main supply path 31 and branched to the lower side of the main supply path 31 Branched at various points through the furnace 33 flows downward. The adhesive introduced into one end of the branch path 33 is introduced into the guide path 35 through the other end of the branch path 33 and applied to the steel wire T. The point of communication between the branch path 33 and the guide path 35 is preferably about the middle of the side so that the adhesive can be applied to the side of the steel wire (T) well.

The steel wire T coated with an adhesive on the side is bonded together with the adjacent steel wire T while passing through the guide path 35 to form a bundle, and the excess adhesive flowing down without being applied is discharged. It is discharged downward through) and is re-introduced into the adhesive container (10).

According to the present invention as described above, the adhesive is introduced through the side of the plurality of guideways in which the steel wire is introduced, there is an effect that can further improve the adhesion between the steel wire.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications or variations without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications and variations as fall within the spirit of the invention.

Claims (2)

In the steel fiber bonding apparatus for reinforcing concrete for bonding a plurality of steel wires drawn out from the bobbin rotating body wound around the steel wires in a bundle form, An adhesive supply unit for supplying an adhesive; An adhesive applying unit for applying the adhesive supplied from the adhesive supply unit to the plurality of steel wires; An adhesive roller which adheres the plurality of steel wires to which the adhesive is applied to bond the steel wires together; And Including an adhesive collector for recovering the excess adhesive flowing down from the adhesive coating, The adhesive coating portion A plurality of guide paths for guiding the plurality of steel wires; A main supply path into which the adhesive supplied from the adhesive supply part flows; A branch path having one end communicating with the main supply path and the other end communicating with each of the guide paths to branch the adhesive flowing along the main supply path into the respective guide paths; And One end is connected to one side of each of the guide passages and the other end is a steel fiber adhesive device for reinforcing concrete characterized in that the discharge path is formed in communication with the outside. The method of claim 1, The guideway is a steel fiber bonding device for reinforcing concrete, characterized in that formed toward the front to reduce the distance to the adjacent guideway.

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