JP6484320B2 - Crossing device that raises the steel bar and indicates the level of floor slab thickness or wall thickness - Google Patents

Description

  The present invention relates to a cross-type device that elevates a steel bar and indicates the level of floor slab thickness or wall thickness, and more particularly, an elevated steel bar suitable to assist in cementing operations. And a cross-type device for indicating the level of floor slab thickness or wall thickness.

  Steel bars are an indispensable material for floor slab structures. In order to lay the steel bar at a specific height, the steel bar is supported a predetermined distance above the floor or template, such as by interposing the steel bar between pebbles, bricks or block-like material. The plurality of block-like materials are spaced apart from one another to ensure that the steel bar portions are maintained at a particular height. Thereby, after cement injection, the total thickness of the floor slab is built through the steel bar and template, and the steel bar is completely surrounded by the cement.

  Nevertheless, the elevated structure built with pebbles and bricks has drawbacks. That is, first, it is impossible to accurately place the steel bar at a specific height, and errors frequently occur. Secondly, when a steel bar is laid directly on pebbles or bricks, the steel bar may be displaced from its original position due to vibration caused by cement injection, and as a result, the steel bar is exposed or the strength is insufficient. Third, it is difficult to obtain a clear basis for indicating the floor level, the operator can only guess when to stop cementing according to his own experience and other measuring equipment, and the thickness of the floor slab The error occurs easily.

To solve this problem, an alternative to the conventional method of laying steel bars together with block-like materials "crossing devices that raise steel bars and indicate the level of floor slab thickness or wall thickness ”Research and experiment
The present invention has been completed.

  It is an object of the present invention to provide a crossing device that elevates the steel bar and indicates the level of floor slab thickness or wall thickness so that the steel bar can be laid at a specific height position during cement injection. Is to provide the operator with information indicating the level of floor slab thickness or wall thickness. In this way, the method by which the steel bar structures are arranged and the floor slab thickness or wall thickness can be ensured. Furthermore, this invention can play the role as a fixing device which arrange | positions a template, and the construction precision of the whole structure improves.

To achieve the above objective, a crossing device is provided for floor slab or wall construction that raises the steel bar and indicates the level of floor slab thickness or wall thickness. And a main frame structure which is a cross-shaped support frame. The main frame structure includes four side plates, each of which is provided with at least one inclined slot for correspondingly laying a steel bar in each of at least two adjacent side plates.
With the above-described design, in the cross structure having four side plates according to the present invention, the steel bar can be laid in the inclined slot, so that the operator can displace the steel bar during cement injection. There is no need to worry about being placed or tilted, and the construction accuracy of the entire structure is improved.

  According to the invention, each of at least two adjacent side plates of the four side plates may be provided with two inclined slots. In such a configuration, two inclined slots are provided in each of two adjacent side plates, three adjacent side plates, or four adjacent side plates, so that the steel bars are oriented in different directions. Can be laid. This increases the strength of the floor slab or wall structure and achieves the purpose of a durable stress distribution.

  Further, according to the present invention, at least one inclined slot may be provided in each of two adjacent side plates of the four side plates. In such a configuration, since at least one inclined slot is provided in each of two adjacent side plates, steel bars can be laid in different directions therein. This increases the strength of the floor slab or wall structure and achieves the purpose of a durable stress distribution.

  Furthermore, according to the present invention, each of two adjacent side plates of the four side plates may be provided with two inclined slots. In such a configuration, since two inclined slots are provided in each of two adjacent side plates, steel bars can be laid in different directions therein. This increases the strength of the floor slab or wall structure and achieves the purpose of a durable stress distribution.

  According to the present invention, the main frame structure may have nuts assembled to the two ends, respectively, and the main frame structure may be disposed with the template at the two ends, respectively. In order to fix the bolt in place, the bolt may be securely fixed to the nut. Thereby, the crossing device that raises the steel bar and indicates the floor slab thickness or wall thickness level in the present invention can not only guarantee the floor slab thickness or wall thickness, but also install the template It can serve as a fixing device to facilitate cement injection by the operator.

  Further, according to the present invention, the main frame structure is an integral structure, that is, the four side plates are firmly connected to each other, so that the entire structure is strong so that decomposition and collapse do not occur during cement injection. And the steel bar can be effectively maintained in the set-up position.

  Furthermore, according to the present invention, the main frame structure may have a height of 15 cm. Thus, according to the present invention, the floor slab thickness or wall thickness is effectively limited to 15 cm by the function of level indication, and the structural strength after cement injection is ensured.

  Other objects, advantages and novel features of the invention will become apparent from the following detailed description when taken in conjunction with the accompanying drawings.

FIG. 1 is a perspective view showing an intersecting apparatus for raising a steel bar and indicating a level of floor slab thickness or wall thickness in a first embodiment of the present invention. FIG. 2 is a perspective view showing an intersecting apparatus for raising the steel bar and indicating the level of floor slab thickness or wall thickness in the second embodiment of the present invention. FIG. 3 is a perspective view showing an intersecting apparatus for raising the steel bar and indicating the level of floor slab thickness or wall thickness in the third embodiment of the present invention. FIG. 4 is an exploded view showing a crossed device with a floor slab steel bar that raises the steel bar and indicates the level of floor slab thickness or wall thickness in a first embodiment of the present invention. FIG. 5 is a perspective view showing a crossed device with a raised floor steel bar and an indication of the level of floor slab thickness or wall thickness in a first embodiment of the present invention with a floor slab steel bar assembled. It is. FIG. 6 is a perspective view showing a cross-shaped apparatus for raising the steel bar and indicating the level of floor slab thickness or wall thickness in the first embodiment of the present invention with wall steel bars assembled. is there.

  With reference to the perspective view of FIG. 1 showing a crossed apparatus for raising the steel bar and indicating the level of floor slab thickness or wall thickness in the first embodiment of the invention, the steel bar is raised. The crossing device 1 that indicates the level of the floor slab or the wall thickness is employed for the construction of the floor slab or wall, and is composed of a main frame structure 2 and two ends of the main frame structure 2. Nuts 51 and 52 assembled to the respective parts. In the first embodiment, the main frame structure 2 is a cross-shaped support frame body including four side plates 21, 22, 23, 24, and the four side plates 21, 22, 23, 24 are one component. It is made as one. That is, the four side plates 21, 22, 23, 24 are firmly connected to each other, the overall structure is strengthened so that decomposition and collapse do not occur during cement injection, and the steel bar is effectively maintained in the set-up position. The

  Further, in the first embodiment, two of the four side plates 21, 22, 23, 24 adjacent to each other are two inclined slots for correspondingly supporting the steel bars. 31 and 32 are provided. That is, in such a structure, the two adjacent side plates 21 and 22 are each provided with two inclined slots 31 and 32, and steel bars having different directions are laid in the slots. This improves the strength of the floor slab or wall structure and achieves the purpose of a durable stress distribution.

  Reference is now made to the perspective view of the steel bar in FIG. 2 of the second embodiment of the present invention showing the crossing device for raising the steel bar and indicating the level of floor slab thickness or wall thickness. And the crossing device 11 for indicating the floor slab thickness or the wall thickness level is employed for the construction of the floor slab or wall, and includes the first main frame structure 2a and the second Main frame structure 2b, nuts 51 and 53 assembled to two ends of first main frame structure 2a, and nuts assembled to two ends of second main frame structure 2b, respectively. 52, 54. In the second embodiment, each of the first main frame structure 2a and the second main frame structure 2b is a cross-shaped support frame. The first main frame structure 2a includes four side plates 21a, 22a, 23a, and 24a, while the second main frame structure 2b includes four side plates 21b, 22b, 23b, and 24b. Each of the four side plates 21a, 22a, 23a, 24a and the four side plates 21b, 22b, 23b, 24b are integrally formed as one component. The second embodiment is characterized in that the main frame structure is separated into the first main frame structure 2a and the second main frame structure 2b. It is adjustable and can optionally meet the requirements for various thicknesses of floor slabs or walls. That is, between the nut 53 of the first main frame structure 2a and the nut 54 of the second main frame structure 2b, screws 73 of various lengths are optionally adopted as a connecting element between them. Can cause a difference in the height of the main frame structure. Further, in the second embodiment, inclined slots 31 and 32 for supporting steel bars correspondingly to two adjacent side plates 21a and 22a among the four side plates 21a, 22a, 23a and 24a are provided. Is provided. Furthermore, inclined slots 31 and 32 for supporting steel bars correspondingly are provided in each of two adjacent side plates 21b and 22b among the four side plates 21b, 22b, 23b and 24b. That is, in such a structure, inclined slots 31 and 32 are provided in each of two adjacent side plates 21a, 22a, 21b, and 22b, and steel bars having different orientations are laid in the slots. This improves the strength of the floor slab or wall structure and achieves the purpose of a durable stress distribution.

  Also, referring to the perspective view of FIG. 3 showing a crossing device that raises the steel bar and indicates the level of floor slab thickness or wall thickness in the third embodiment of the present invention, In an embodiment, the crossing device 10 that elevates the steel bar and indicates the level of floor slab thickness or wall thickness is a main frame structure 20 and two ends of the main frame structure 20 respectively. And assembled nuts 510 and 520. In the third embodiment, the main frame structure 20 includes four side plates 210, 220, 230, 240 and includes three adjacent side plates (not shown) or four adjacent side plates (of the third embodiment). 2) is provided with two inclined slots, which is different from the first embodiment in which inclined slots 31 and 32 are provided only on two adjacent side plates 21 and 22. As shown, typically, in the third embodiment, each of all four side plates 210, 220, 230, 240 is provided with two inclined slots 310, 320, 330, 340. And offer more options for laying steel bars. This helps to increase the degree of freedom of steel bar construction and also helps to strengthen the overall structure.

  Further, an exploded view with a floor slab steel bar showing a crossing device for raising the steel bar and indicating the level of floor slab thickness or wall thickness in the first embodiment of the invention of FIG. 4, and Reference is made to the perspective view showing a crossed device that raises the steel bar assembled with the floor slab steel bar of FIG. 5 and indicates the level of floor slab thickness or wall thickness. The crossing device 1 that elevates the steel bar and indicates the level of floor slab thickness or wall thickness is employed for floor slab construction, with inclined slots 31 at the top and bottom of the side plate 21, respectively. In the inclined slot 31, a vertical steel bar 41 is arranged. In addition, inclined slots 32 are respectively disposed at the upper and lower portions of the side plate 22, and horizontal steel bars 42 are disposed in the inclined slots 32. In the first embodiment, the crossing device 1 that elevates the steel bar and indicates the level of floor slab thickness or wall thickness can support two layers of steel bars 41, 42, and so on. Makes cementing work easier. The main frame structure 2 has a height of 15 cm, and a protection interval of 3 cm is secured between the top of the main frame structure 2 and the upper steel bar. Similarly, a protection interval of 3 cm is secured from the bottom of the main frame structure 2 to the lower steel bar. Thereby, not only can the structural strength of the floor slab be secured, but also exposure of the steel bar and surface cracks can be avoided.

  See the perspective view showing the crossing device for raising the steel bar and indicating the floor slab thickness or wall thickness level in the first embodiment of the present invention with the wall steel bar of FIG. 6 assembled. Thus, the crossing device 1 for raising the steel bar and indicating the level of floor slab thickness or wall thickness is employed for wall construction, and the inclined slot 31 is connected to the front of the side plate 21 and A steel bar 41 in the vertical direction is arranged in the inclined slot 31. In addition, inclined slots 32 are respectively arranged at the front part and the rear part of the side plate 22, and horizontal steel bars 42 are arranged in the inclined slots 32. In the first embodiment, the crossing device 1 that elevates the steel bar and indicates the level of floor slab thickness or wall thickness can support two layers of steel bars 41, 42, and so on. Makes cementing work easier. In the main frame structure 2, the templates 61 and 62 are arranged at two ends, respectively, and the bolts 71 and 72 pass through the fastening nuts 81 and 82, the fixing bodies 91 and 92, and the templates 61 and 62 in order, Finally, the nuts 51 and 52 are firmly fixed. This allows the crossing device 1 to raise the steel bar and indicate the level of floor slab thickness or wall thickness not only help to fix the templates 61, 62 in place, Subsequent cement injection by the person can be facilitated.

  The design structure described above allows the steel bars 41, 42 to be evenly raised in place, ensuring a method of arranging the steel bar structures, and the steel bars being positioned and tilted during cement injection. There is no concern of being placed. Further, the main frame structure 2 has its own height, and becomes an instruction level of the floor slab thickness or the wall thickness. Thus, when an operator should stop cement injection depending on the height of the main frame structure of the crossing device 1 which raises the steel bar and indicates the level of floor slab thickness or wall thickness The required thickness for floor slab or wall dimensions can be achieved and the structural accuracy of the entire structure can be improved. In addition, the correspondence between the nuts 51, 52 and the bolts 71, 72 allows the templates 61, 62 to have an additional fastening function, providing sufficient support to control wall accuracy and flatness. Strength can be secured.

  Although the invention has been described with reference to preferred embodiments thereof, it should be understood that many other possible modifications and variations are possible without departing from the scope of the invention as claimed below. It is.

1, 10, 11 Crossing device 2, 20 for raising steel bar and indicating level of floor slab thickness or wall thickness Main frame structure 2a First main frame structure 2b Second main frame Structure 21, 22, 23, 24, 210, 220, 230, 240 Side plate 21a, 22a, 23a, 24a, 21b, 22b, 23b, 24b Side plate 31, 32, 310, 320, 330, 340 Inclined slot 41 Vertical direction Steel bar 42 Horizontal steel bars 51, 52, 53, 54, 510, 520 Nut 61, 62 Template 71, 72 Bolt 73 Screw 81, 82 Fastening nut 91, 92 Fixed body

Claims (8)

A crossing device provided for the construction of a floor slab or wall, elevating the steel bar and indicating the level of floor slab thickness or wall thickness,
A main frame structure which is a cross-shaped support frame body and has four side plates;
Each of at least two adjacent side plates of the four side plates is provided with at least one inclined slot for correspondingly laying a steel bar therein ,
The main frame structure is a cross-shaped apparatus for raising a steel bar characterized in that nuts are assembled at two ends, respectively , and indicating the level of floor slab thickness or wall thickness. The steel bar according to claim 1, wherein each of the at least two adjacent side plates of the four side plates is provided with two inclined slots. Crossed device that indicates the level of thickness or wall thickness. The steel bar according to claim 1, wherein each of two adjacent side plates of the four side plates is provided with at least one inclined slot, and the floor slab of the floor slab. Crossed device that indicates the level of thickness or wall thickness. The steel bar according to claim 1, wherein each of two adjacent side plates of the four side plates is provided with two inclined slots, and the thickness of the floor slab is increased. Or a crossing device that indicates the level of wall thickness. The main frame structure is arranged with a template at two ends, respectively,
In order to fix the template in position, bolts, the nut, increasing the steel bar according to claim 1, characterized in that it is securely fixed in correspondence, and, Slab Thickness Or a crossing device that indicates the level of wall thickness. The cross-shaped apparatus according to claim 1, wherein the main frame structure is a monolithic structure, and the steel bar is raised and the floor slab thickness or wall thickness level is indicated. The cross frame apparatus of claim 1, wherein the main frame structure has a height of 15 cm and raises the steel bar and indicates the level of floor slab thickness or wall thickness. A crossing device provided for the construction of a floor slab or wall, elevating the steel bar and indicating the level of floor slab thickness or wall thickness,
A first main frame structure and a second main frame structure, each of which is an intersecting support frame;
A coupling element provided for coupling the first main frame structure and the second main frame structure;
Each of the first main frame structure and the second main frame structure has four side plates, and each of at least two adjacent side plates of the four side plates includes steel therein. At least one inclined slot for correspondingly laying the bar is provided. The cross-shaped device for raising the steel bar and indicating the level of floor slab thickness or wall thickness.