JPH0616556U - Rebar spacer - Google Patents

Abstract

(57) [Summary] [Purpose] In a rebar spacer that installs rebar in a formwork, especially one that is sandwiched between the side plate of the formwork and the rebar cage,
Do not cause deformation of the rebar or destroy itself. [Structure] A reinforcing bar support plate 3 for supporting a reinforcing bar F is detachably attached to a shoulder section 7 of a spacer body 2 in which a reinforcing bar fitting groove 6 is formed between a pair of left and right shoulder sections 7, and in this state,
A slight gap 15 is formed between the base portion 12 of the reinforcing bar support plate 3 and the reinforcing bar fitting groove 6. Due to the gap 15, the base portion 12 of the support plate 3 is elastically deformed and deformation of the reinforcing bar F or destruction of the spacer body 2 is prevented.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a reinforcing bar spacer for installing a reinforcing bar cage in a mold at a predetermined distance from the bottom surface or inner surface of the mold when manufacturing a reinforced concrete structure such as a precast concrete slab with the mold. .

[0002]

[Prior art]

 For example, in order to manufacture a precast concrete version (segments for tunnel construction, etc.) in which a reinforced cage with a large number of reinforced cages embedded therein is manufactured, the reinforced cage is installed in a box-shaped formwork. The method of pouring concrete is used, but when installing the reinforcing bar cage, it is necessary to secure a certain covering thickness from the bottom surface and the inner side surface of the formwork. For that purpose, a reinforcing bar spacer that supports the reinforcing bar cage is used.

As such a reinforcing bar spacer, for example, as shown in Japanese Utility Model Laid-Open No. 1-143824, a groove having a substantially rectangular parallelepiped shape is provided on the long side surface and the short side surface for installing the reinforcing bar, and the four corners of the peripheral portion are provided. There is a mortar with a chamfered part, and in Japanese Utility Model Laid-Open No. 62-160026, a mortar spacer main body in which irregularities for biting into concrete are formed in addition to a portion where a reinforcing bar is installed, A type in which the reinforcing bars are fixed with fixing brackets is disclosed.

[0004]

[Problems to be solved by the device]

 In the case of the former rebar spacer, the rebar of the rebar cage is simply placed on the groove for installing the rebar.Because the rebar is not fixed to the rebar spacer, the rebar cage easily becomes unstable and It is concerned that the position of the rebar cage may be displaced due to the vibration of the vibrator used when pouring concrete into the frame and the flow pressure of concrete. Also, when it is necessary to correct the position of the reinforcing bar cage, it is troublesome to move the reinforcing bar spacer and the reinforcing bar cage separately.

On the other hand, in the latter case, the spacer main body and the reinforcing bar cage can be integrated with each other by the fixing metal fittings. Therefore, first, the reinforcing metal of the reinforcing bar cage and the spacer main body are fixed by the fixing metal fitting, and then the reinforcing bar cage is placed in the formwork. Can be installed, and the position of the reinforcing bar cage can be corrected by using the reinforcing bar spacers, but it is easy to fix it to the reinforcing bar of the reinforcing bar cage only after the fixing bracket has been removed. . In other words, it is assumed that the spacer body and the fixing bracket are basically separate and difficult to handle.

Further, in order to assemble the form by installing the rebar cage in the form, first, the rebar cage is installed on the bottom of the form via the rebar spacer, and then the surroundings (in the case of a rectangular parallelepiped shape). (4 sides) with the side plates standing up, and with the reinforcing bar spacers sandwiched between the side plates and the reinforcing bar cage, fix the side plates to the bottom plate by means such as bolting, and fix adjacent side plates in the same manner. And so on. Here, if there is a manufacturing error in the reinforcing bar cage and the space between the side plate and the reinforcing bar cage, that is, the space that forms the overburden thickness of the edge is smaller than the reinforcing bar spacer, when using the above-mentioned both reinforcing bar spacers, Since the side plates do not move, there is a disadvantage that the reinforcing bars directly supported by the reinforcing bar spacers are pushed and deformed by the reinforcing bar spacers, or conversely, the reinforcing bars are pressed and destroyed.

The present invention has been made in view of the above circumstances, and can easily support a reinforcing bar in a stable state in a form and is easy to handle, and in particular, is installed on a side plate of the form. Even so, the purpose of the present invention is to provide a reinforcing bar spacer that does not cause deformation of the reinforcing bar or destruction of itself.

[0008]

[Means for Solving the Problems]

 The present invention has been made in order to achieve the above-mentioned object, and in a reinforcing bar spacer that supports reinforcing bars at a predetermined distance from a reference surface such as a bottom surface or a side plate of a formwork, the spacer is installed on the reference surface. In the installed state, a reinforcing bar fitting groove extending parallel to the reference surface is formed, and a spacer body is formed on both sides of the groove, and shoulder portions extending along the length direction of the groove are formed, respectively. A base portion that is elastically and detachably fitted to each of the shoulder portions of the spacer body, and the base portion that is fitted to each of the shoulder portions is arranged in the above-described reinforcing bar fitting groove, and the reinforcing bar is elastic. And a reinforcing bar fitting groove having a hook part that is removably fitted to the reinforcing bar fitting groove in a state where the base part of the reinforcing bar supporting tool is fitted to the shoulder part of the spacer body. It is configured so that there is a specified gap between it and the base. It is characterized in that.

[0009]

[Action]

 According to the reinforcing bar spacer of the present invention, it is configured by mounting the base portion of the reinforcing bar support on the spacer body. When installing the rebar cage in the formwork, fit the rebar at the bottom of the rebar cage to the hook part of the rebar support and place the spacer body on the bottom of the formwork. Also, fit the hooks of the reinforcing bar support to the reinforcing bars that make up the peripheral part of the reinforcing bar cage, and assemble the side plates of the formwork with the spacer body facing sideways.

Since the reinforcing bar cage is fitted into the hook part and integrated with the reinforcing bar spacer, the bearing state is always stable. Further, since the rebar cages can be moved together with the rebar spacers attached, the rebar cages can be easily arranged or their positions can be corrected.

Furthermore, since there is a predetermined gap between the reinforcing bar fitting groove of the spacer body and the base part of the reinforcing bar support, elastic deformation of the base part is allowed. Therefore, in the case where the base plate is installed on the side plate of the formwork, the base part is elastically deformed even if there is a manufacturing error in the reinforcing bar cage and the covering thickness space between the side plate and the reinforcing bar cage is small. Since no unreasonable force is applied to the reinforcing bar and the spacer body, there is no risk of the reinforcing bar deforming or the spacer body breaking.

[0012]

【Example】

 An embodiment of the present invention will be described below with reference to the drawings. 1 to 4, reference numeral 1 indicates the entire reinforcing bar spacer, and the reinforcing bar spacer 1 includes a spacer main body 2 and a reinforcing bar support plate (reinforcing bar support tool) 3 detachably attached to the spacer main body. It is configured. Further, it is a reinforcing bar supported by the F reinforcing bar spacer 1. This reinforcing bar F constitutes a reinforcing bar cage.

The spacer body 2 is formed by molding a rectangular parallelepiped mortar, and the lower installation surface 4 installed on the bottom surface (reference surface) S of the mold and the inner side surface (reference surface) S1 of the side plate is flat, Further, both lengthwise end faces 5 are also orthogonal to the installation face 4 and are flat, and the cross-sectional shape obtained by dividing them vertically is the same everywhere.

At the center of the upper end of the spacer main body 2 in FIGS. 1 and 2, a reinforcing bar fitting groove 6 extending in the length direction and having a flat bottom surface 6 a is formed. A shoulder 7 having an arcuate cross section is formed. The reinforcing bar fitting groove 6 and the shoulders 7 are parallel to the bottom surface S when the spacer body 2 is installed on the bottom surface S.

On both sides of the lower end of the spacer body 2, there are formed ridges 8 that project in the width direction, and both side surfaces 9 of the spacer body 2 connect the shoulder portion 7 and the ridge 8 smoothly. It is said to be concave.

On the other hand, the reinforcing bar support plate 3 is a base including a fitting plate 10 elastically and detachably fitted to both shoulders 7 of the spacer body 2, and a central connecting plate 11 connecting the fitting plates 10. It is composed of a portion 12 and a hook portion 13 integrally formed at both ends of the length of the base portion 12.

The reinforcing bar support plate 3 is formed of a single metal plate, and as a material thereof, a metal plate having appropriate elasticity and high rust resistance, for example, stainless steel is quenched at a predetermined temperature. For example, a material having improved elasticity characteristics is used. In addition, if it is not necessary to pay special attention to rust prevention, a spring rope may be used.

The base portion 12 is bilaterally symmetrical with the fitting plates 10 integrally provided on both sides of the flat connecting plate 11 at the center, and its length is about half that of the spacer body 2. It is set.

The fitting plate 10 is curved so as to follow the shoulder 7 with a radius R slightly smaller than the radius R of the tip of the shoulder 7, and a short guide portion 10a that bends outward is formed at the tip thereof. By utilizing its elasticity, the shoulder portion 7 can be detachably fitted. The guide portion 10a is formed so that the shoulder portion 7 can be smoothly moved when the fitting plate 10 is fitted to the shoulder portion 7. The guide portion 10a also contributes to the improvement of the rigidity of the fitting plate 10, and the fitting portion 10a makes it difficult for the fitting plate 10 to be deformed. The connecting plate 11 is located below the upper end of the fitting plate 10 and is arranged on the reinforcing bar fitting groove 6 of the spacer body 2 in a state where both fitting plates 10 are fitted to the shoulders 7.

The hook portion 13 is made up of a pair of left and right curved sandwiching plates 14 that elastically sandwich the reinforcing bars. The tips (upper ends) of the sandwiching plates 14 are spaced apart from each other to the outside. A guide portion 14a that spreads over is formed.

The sandwiching plates 14 are elastically deformable in a direction in which they are separated from each other or close to each other. In a normal state in which no force is applied, the inner diameter of the tubular body formed by the two is equal to that of the reinforcing bar F. When the reinforcing bars F are smaller than the diameter and are sandwiched between them, the distance between them expands and the elasticity reinforces the reinforcing bars F.

In order to fit the reinforcing bar F to the hook portion 13, it is sufficient to push the reinforcing bar F between the sandwiching plates 14 from the state where the reinforcing bar F contacts the guide portion 14a.

The reinforcing bar spacer 1 including the spacer body 2 and the reinforcing bar support plate 3 is configured by fitting both fitting plates 10 in the base portion 12 of the reinforcing bar support plate 3 to both shoulder portions 7 of the spacer body 2. To be done.

In this state, a predetermined gap 15 is formed between the reinforcing bar fitting groove 6 of the spacer body 2 and the base part 12 of the reinforcing bar supporting plate 3. Specifically, a gap 15 is formed between the fitting plate 10 of the base portion 12 and the inner surface of the shoulder portion 7 of the spacer body 2, and between the connecting plate 11 of the base portion 12 and the bottom surface 6a of the reinforcing bar fitting groove 6. Has been done.

The shapes and dimensions of the spacer body 2 and the reinforcing bar support plate 3 are appropriately changed in design, but for example, the height between the installation surface 4 of the spacer body 2 and the bottom surface 6a of the reinforcing bar fitting groove 6 is set. If H is about 40 mm, the gap 15 between the bottom surface 6a and the base portion 12 is preferably about 2 to 5 mm.

In order to install a rebar cage formed by assembling a plurality of rebars F by the rebar spacer 1 in a formwork, a rebar support plate is provided at an appropriate position of the plurality of rebars F constituting the bottom of the rebar basket. The hook portion 13 of 3 is fitted and mounted, and the installation surface 4 of the spacer body 2 is placed at a predetermined position on the bottom surface S of the mold. Further, as shown in FIG. 4, the reinforcing bars F constituting the peripheral portion of the reinforcing bar cage are similarly attached, and the side plates of the formwork are assembled with the spacer body 2 facing sideways. The reinforcing bar spacer 1 is sandwiched between and supported.

According to the reinforcing bar spacer 1 of the present embodiment, the reinforcing bar F is firmly fitted to the hook portion 13 and integrated with the reinforcing bar spacer 1, so that the supporting state of the reinforcing bar F is always stable, and therefore, it is desired. Also, when pouring concrete into the form using a vibrator, the position of the reinforcing bar F does not shift due to vibration. Further, since the rebar cages can be moved with the rebar spacers 1 attached, the rebar cages can be easily arranged or their positions can be easily corrected.

Since the gap 15 is formed between the reinforcing bar fitting groove 6 of the spacer body 2 and the base part 12 of the reinforcing bar supporting plate 3, elastic deformation of the base part 12 is allowed. Therefore, as shown in FIG. 4, in the case where the rebar spacers 1 are installed on the side plates of the formwork, there is a manufacturing error in the rebar cages and the covering thickness space between the side plates and the rebar cages is reduced, so that the rebar spacers 1 are Even if it is strongly pinched, the force is released by elastic deformation of the base portion 12, and an unreasonable force is not applied to the reinforcing bar F and the spacer body 2. As a result, there is no risk that the reinforcing bar F will be pressed and deformed by the reinforcing bar spacer 1 or that the spacer body 1 will be broken by being pressed by the reinforcing bar F.

Further, in the case of the present embodiment, since the reinforcing bar support plate 3 is formed from one metal plate, there is an advantage that the manufacturing is easy and the manufacturing cost is low.

[0030]

[Effect of device]

 As described above, according to the rebar spacer of the present invention, the rebar is supported by fitting the rebar to the hook part of the rebar support attached to the spacer body, and the rebar cage is installed in the formwork. In this case, the reinforcing bar cage is integrated with the main reinforcing bar spacer, so that the supporting state of the reinforcing bar cage is always stable and the reinforcing bar cage can be moved together with the main reinforcing bar spacer. The position can be easily corrected.

In addition, since a predetermined gap is provided between the reinforcing bar fitting groove of the spacer body and the base part of the reinforcing bar support, elastic deformation of the base part is allowed, and therefore, the base plate of the frame is installed. In this case, even if there is a manufacturing error in the rebar cage and the covering thickness space between the side plate and the rebar cage is small, the base part is elastically deformed, which causes excessive force on the rebar and the spacer body. There is no risk that the rebar will be deformed or the spacer body will be destroyed.

[Brief description of drawings]

FIG. 1 is a front view of an embodiment of the present invention.

FIG. 2 is a side view of the same.

FIG. 3 is a perspective view of the same.

FIG. 4 is a front view showing a state where a reinforcing bar spacer of one embodiment is installed on an inner side surface of a mold.

[Explanation of symbols]

 1 Reinforcing Bar Spacer 2 Spacer Main Body 3 Reinforcing Bar Support Plate (Reinforcing Bar Support) 6 Reinforcing Bar Fitting Groove 7 Shoulder Part 12 Base Part 13 Hook Part 15 Gap F Reinforcing Bar S Bottom (Reference Surface) S1 Inner Side of Side Plate (Reference Surface)

Front page continuation (72) Hiroyuki Arai Creator Hiroyuki Arai 2-6-21 Yaesu Chuo-ku, Tokyo Rose Bay Yaesu Building Ishikawajima Kenzai Kogyo Co., Ltd. In-house

Claims (1)

[Scope of utility model registration request] 1. A reinforcing bar spacer supporting a reinforcing bar at a predetermined distance from a standard surface such as a bottom surface of a formwork or a side plate, the reinforcing bar fitting being installed on the standard surface and extending parallel to the standard surface in the installed state. A spacer body is formed with a groove and shoulders extending along the length direction of the groove are formed on both sides of the groove. A spacer body is elastically and detachably fitted to each shoulder portion of the spacer body. A base part to be fitted, and a reinforcing bar support having a hook part, which is arranged in the reinforcing bar fitting groove in a state where the base part is fitted to the shoulder parts, and the reinforcing bar is elastically and detachably fitted And a predetermined gap is provided between the reinforcing bar fitting groove and the base part in a state in which the base part of the reinforcing bar support is fitted to the shoulder part of the spacer body. Rebar spacer.