KR20050076222A - The protective net installation apparatus and method thereof - Google Patents

Abstract

The present invention relates to a bat installation apparatus and method for the protection of the object falling from the upper floor during the building construction process and the safety of the human body, characterized in that the bracket is installed on the slab of the building; A support shaft fixed to the bracket and arranged in an up and down direction on an outer surface of the slab; A spacing support hinged to the support shaft; The support shaft is made of a connection hinged to the side of the support space, wherein the support shaft and the space support and the connection portion is any one or more of the hinged portion where the connection is interconnected, the support space is the support shaft And a slidable movable guide end corresponding to the displacement being changed by rotating with respect to. According to such a configuration, not only the installation interval can be further extended along the edge portion of the slab, but also the installation is easy, and safety is secured by preventing the collision of the colliding obstacle against the operator's fall.

Description

Bat installation apparatus and method thereof

The present invention relates to a bat installation apparatus and method for the protection of the object falling from the upper floor during building construction and the safety of the human body.

In general, at the edge of the slab (slab) of the building where the railing is not installed in the building construction process, the installation of a bat to protect the area range for the safety of the worker from falling of various tools or accessories and the worker fall.

Looking at the prior art related to the installation of such a bat, as shown in Figures 1 and 2, a plurality of brackets 10 are installed at regular intervals along the edge portion of the slab (S). Here it is shown to correspond to the general structure in which the fence portion (F) is formed in the edge portion of the slab (S) in relation to the installation of the bracket (10), such a configuration is a variety of structures such as pillars in the building without the fence portion (F) Also in the installation by means, the same technical idea is regarded to fix the scaffolds 12a and 12b described later.

Looking at the configuration of the bracket 10 in more detail, first, the edge portion of the slab (S), that is, the upper surface of the fence portion (F) in the shape that the scaffold support (10a) having a length or more than the width of the fence portion (F) is placed Is placed. In addition, the first support shaft 10b having a shape extending vertically is fixed to a portion of the bottom portion of the scaffold support 10a that is in contact with the outer surface of the fence portion F, and the scaffold support in the inward direction of the slab S is fixed. The 2nd support shaft 10c of the shape extended to the lower side is fixed to the bottom part part of 10a. At this time, in a state in which the first support shaft 10b is close to the outer surface of the fence portion F, the second support shaft 10c forms a constant distance from the inner surface of the fence portion F. And on the 2nd support shaft 10c, it is provided with the normal press part 10d which provides a pressure so that the 2nd support shaft 10c may open against the inner surface of the fence part F. As shown in FIG. In addition, between the end portion of the scaffold support 10a extending to the outside of the fence portion F and the lower portion of the first support shaft 10b described above, the scaffold support 10a is applied to the load acting on the scaffold support 10a. Ribs 10e are provided to increase durability. In addition, the upper end of the scaffold support 10a extending in the outward direction of the slab S is provided with various types of clamps 14a and 14b such as a wire W or a ring for fixing the scaffolds 12a and 12b. . From this structure, the above-mentioned press part 10d is mounted in the state where the scaffold support 10a is mounted on the upper surface of the fence part F so that the above-mentioned fence part F may be between 1st, 2nd support shafts 10b, 10c. By opening the second support shaft (10c) from the inner side of the fence portion (F) by using the pressing portion 10d and the first support shaft (10b) in the form of pressing the inner and outer surfaces of the fence portion (F) The installation position of the scaffold support 10a is fixed.

On the other hand, looking at the installation process of the bat from the installation of the bracket 10 described above, by positioning the inner scaffold 12a between the neighboring scaffold support (10a) to be fixed by the clamp 14a of the corresponding position. Thus, as shown in FIG. 1 and FIG. 2, the installation structure of the inner side scaffold 12a hypothesized continuously in the horizontal direction is provided in the same shape also about the upper layer. And on the inner scaffold 12a located in the lower layer relatively, as shown in Figs. 1 to 4, one end of the plurality of interval support 16 using the connecting ring 18 is provided in a predetermined interval range, respectively. In addition, a plurality of outer scaffolds 12b are connected to the opposite end portions of the respective spacing supports 16 in a manner in which a plurality of inner scaffolds 12a are connected to the scaffold support 10a described above by using a connecting ring 18. Connect continuously. Thereafter, one end of the wire W using the other clamp 14b is fixed to a predetermined portion of the outer scaffold 12b, and the other end of the wire W is provided with another clamp 14b to the inner scaffold 12a located in the upper layer. The fixing is made by using. In such a configuration, a batt N is provided between the inner scaffold 12a and the outer scaffold 12b located in the lower layer.

As described above, in the installation of the bat N on any one layer, the plurality of brackets 10 are installed in each of the object layer and the upper layer of the double. In particular, the designation of the target floor is defined in units of approximately 10m, so that the number of installations for tall buildings is increased, and as a result, installation costs increase due to the increase of labor time as well as the delay of the work time required for the installation. It leads.

In addition, in order to install the bat (N), the worker must fix the edge portion of the bat (N) in the area formed by the inner scaffold (12a), the gap support 16 and the outer scaffold (12b) one by one, In addition to the delay, there is a risk of falling of the worker performing the installation of the bat (N).

And the wire (W) supports the load of the bat (N) and the spacing support (16) and the outer scaffold (12b) for a predetermined period to maintain the installation state of the bat (N) with the spacing support (16), but The installation position is in a state of being subjected to a tensile force on the upper portion of the bat (N). This does not guarantee the safety of the operator against the case that the worker falling from the upper layer collides with the wire (W), so the range of the installation area has a risk of human accident. This risk is the same in the case of the gap support 16 supporting the lower side of the bat N. That is, the spacing support 16 is close to the lower portion of the bat (N) by the worker when the fall of the operator causes a safety accident that directly collides with the spacing support (16).

On the other hand, the installation standard of the bat (N) is intended to be safe for the case of about 60kg people fall from the height of about 10m. On the other hand, the permissible load for supporting the batting N is about 600 kgPa as the product of the mass of the falling object m and the acceleration of gravity (9.8 kPa). This load is combined with the weight of the batting N in a predetermined interval, the weight of the spacing support 16 and the weight of the outer scaffolding 12b to connect the spacing support 16 to the inner scaffolding 12a of the target layer. (18) That is, the stress is concentrated at the bat supporting point P indicated by the arrow in FIG. Accordingly, the spacing L between the adjacent wires W and the spacing L between the spacing supports 16, ie, the bat supporting point, to disperse the stress so as to prevent shear of the bat supporting point P. The interval between P) is more narrowly limited. As described above, this rather narrows the range of areas that can be protected from the fall of the operator with respect to the wire W and the spacing support 16, which causes many problems in safety.

An object of the present invention is to solve the above-described problems of the prior art, the installation of the bat to be made only on the target floor, to be performed simply and easily inside the slab, risk of falling of the operator due to the installation work The present invention provides a method and a method for installing a bat to reduce the time, labor and installation costs, as well as to prevent the problem.

Another object of the present invention is to provide a bat installation apparatus and method for ensuring the safety of the entire area range in which the bat is installed against the fall of the operator.

Still another object of the present invention is to provide an apparatus and a method for installing a bat, which can further extend the installation interval by effectively dispersing and stably supporting a physical action by a falling object.

Characteristic configuration of the present invention for achieving the above object is a bracket installed on the slab of the building; A support shaft fixed to the bracket and arranged in an up and down direction on an outer surface of the slab; A spacing support hinged to the support shaft; Consists of a hinge hinged to the side of the support shaft and the spacing support, wherein any one or more of the hinged portion where the support shaft and the spacing support and the connection is interconnected, the spacing support is the support shaft And a slidable movable guide end in response to the displacement being changed by rotating relative to the bat.

In addition, the characteristic configuration according to a modified example of the present invention for achieving the above object, the characteristic configuration of the present invention for achieving the above object, the bracket is provided at regular intervals along the slab edge portion of the building; The movable guide end is fixed to the bracket to form at least one or more arrangements in the up and down direction of the outer side of the slab, and has a hinge fixing end on one side of the upper and lower sides, and extends in the up and down direction on the other side. A support shaft provided; A spacing support that rotatably connects one end portion to correspond to the hinge fixed end or movable guide end positioned below the support shaft; And one end rotatably connected to the movable guide end or the hinge fixing end positioned above the support shaft, and the other end hinged to the side of the gap support to limit the rotation angle of the gap support. Characterized in that the connection is made to include.

Meanwhile, a bat installation method for achieving the above object includes: a bracket installed on a slab of a building; A support shaft fixed to the bracket and arranged in an up and down direction on an outer surface of the slab; A spacing support hinged to the support shaft; Consists of a hinge hinged to the side of the support shaft and the spacing support, wherein any one or more of the hinged portion where the support shaft and the spacing support and the connection is interconnected, the spacing support is the support shaft (A) the bracket, which is connected to the support shaft, the spacing support and the connection, at regular intervals along the edge of the slab, in response to the displacement being changed by rotation with respect to Installing; (b) installing a bat corresponding to a portion proximate to an upper portion of the spacer support and the bracket in an upright state of the spacer support; (c) characterized in that it comprises the step of tilting in the outward direction of the slab on the basis of the hinged portion of the spacing support.

Hereinafter, a bat installation apparatus and a method thereof according to the present invention for achieving the above object will be described with reference to the accompanying drawings.

5 and 6 are an exploded perspective view and a side view for explaining the configuration of the bat installation apparatus according to an embodiment of the present invention and the connection relationship between these configurations, Figures 7 and 8 are a configuration according to a modified embodiment of the present invention 12 and 13 are exploded perspective views and side views for explaining the connection relationship between these components, and FIGS. 9 to 11 are views for explaining respective components for supporting the spacer support shown in FIGS. As another modification of the present invention, as a side view showing an example of the application of the edge portion of the slab formed to a constant thickness and the relationship between the gap support is made on the support shaft of the connection barrier, the same as the conventional The same reference numerals will be given, and detailed description thereof will be omitted.

As shown in Figs. 5 to 13, the bat mounting apparatus according to the present invention is detachably fixed to the bracket (20, 20 ') and the bracket (20, 20') installed on the slab of the building, fence portion Support shafts 22, 40 arranged in the up and down direction on the outer surface of the slab S including (F) and the spacing supports 30a, 30b, 46 hingedly connected to the support shafts 22, 40; And the connections 32a, 32b, 48 hinged to the sides of the support shafts 22, 40 and the spacing supports 30a, 30b, 46. One of the hinged portions in which the support shafts 22 and 40 and the spacer supports 30a, 30b and 46 and the connections 32a, 32b and 48 are interconnected is formed by the spacer supports 30a, 30b and 46. Rotating with respect to the support shafts 22 and 40, the movable guide ends 52a and 52b slidable in response to a change in the displacement of the connecting portion, and the other two parts are composed of the hinge fixing ends 50a and 50b. It is made by features.

Looking in more detail with respect to the configuration of the bat installation apparatus of this configuration and its installation relationship, it is made from arranging a plurality of brackets (20, 20 ') arranged at regular intervals on the edge of the slab (S) of the building. In this case, the configuration shown in FIGS. 5 to 8 with respect to the brackets 20 and 20 'on which the installation is made is more than the width of the fence portion F on the edge portion of the slab S, that is, the upper surface of the fence portion F. FIG. A pedestal 20a having a length is placed in a placed shape. One side end of the pedestal (20a), that is, the end portion in contact with the outer surface of the slab (S) is fixed to the support shaft 22 to form at least one or up or down in the up and down direction. In addition, the other predetermined portion of the pedestal 20a protruding in the inward direction of the fence portion F is provided with an auxiliary shaft 20b having a shape extending downward to face the inner surface of the fence portion F. And on the auxiliary shaft (20b) is pressed by the support of the auxiliary shaft (20b) to press the opposing fence portion F, that is, selective pressing force to open the gap between the inner surface of the fence portion (F) and the auxiliary shaft (20b) It is provided with a pressing portion 20c. At this time, the pressing force by the pressing portion 20c is a bracket 20 with respect to the fence portion F so that the support shaft 22 fixed to the end of the pedestal 20a can be held in close contact with the outer surface of the fence portion F. ) And the support shaft (22). In addition, in order to maintain the shape in which the support shaft 22 is erected in the up and down directions with respect to the outer surface of the slab S on the above-described pedestal 20a or the pedestal 20a and the support shaft 22 in contact therewith, To prevent the inclination in the left and right direction with respect to the outer surface of the fence portion (F) support shaft (shape in contact with the outer edge portion of the upper surface of the fence portion (F) or a predetermined portion of the outer surface of the fence portion (F) in contact with it) And a blade 20d for supporting 22.

On the other hand, the structure of the other bracket 20 'shown in FIG. 12 is for installing the support shaft 22' mentioned above corresponding to the edge part of the slab S 'having a fixed thickness. Looking at the configuration for this, the side having a predetermined length, that is, the upper surface is provided with a pedestal (20a ') of the shape that can be closely supported on the bottom surface of the opposing slab (S'). One end portion in the longitudinal direction of the pedestal 20a 'is fixed to the support shaft 22' which is in contact with the outer surface of the slab S 'and is arranged in an up and down direction or arranged in an up and down direction. In addition, the auxiliary shaft 20b 'facing the upper surface of the slab S' is fixed to an upper portion of the support shaft 22 'that has a shape extending and protruding upward of the slab S'. On the auxiliary shaft 20b ', the upper surface of the slab S' is pressed against the supporting shaft 20b ', that is, the gap between the upper surface of the slab S' and the auxiliary shaft 20b 'is opened. And a pressurizing portion 20c 'providing an optional pressing force. At this time, the pressing force by the pressing portion 20c 'is applied to the slab S' so that the support shaft 22 'fixed to the end of the pedestal 20a' can be closely supported in correspondence with the outer surface of the slab S '. Fix the support shaft 22 '. In addition, on the pedestal 20a 'or the pedestal 20a' described above and the support shaft 22 'which is in contact with the pedestal 20a', the support shaft 22 'is erected up and down with respect to the outer surface of the slab S'. Shape to be in contact with the outer edge portion of the bottom surface of the slab S 'or the predetermined portion of the outer surface of the slab S' which is in contact with it so as to prevent it from being inclined in the left and right directions with respect to the outer surface of the slab S '. It comprises a blade 20d 'for supporting the support shaft 22'. Thus, the configuration of the blade 20d 'for the slab S' having a predetermined thickness does not need to include a separate blade 20d 'as the support shaft 22' is fixed and supported in the up and down directions. The application is possible in that it has a stable meaning rather than.

In the following description, the display of the reference numerals of the respective components shown in FIG. 12 will be omitted.

In addition to the above-described configuration, an upper portion of the bracket 20 is provided with a clamp 24 for mounting the inner scaffold 12a in the outward direction of the slab S. The clamp 24 is installed so that the support shaft 22 fixed to the bracket 20 is installed on the upper portion of the support shaft 22 when the upper end portion protrudes further from the installation position to the upper side of the bracket 20. desirable. Therefore, the inner scaffold 12a may be fixed to the clamp 20 on the bracket 20 or the support shaft 22 constituting a plurality of positions so as to maintain a predetermined distance along the edge portion of the slab S and extend the connection. This is to ensure that the installation of the bat N to be described later can be made stable.

On the other hand, the support shaft 22 fixed to the above-described bracket 20 may be formed by placing at least one or more in the up and down direction on the outer surface of the slab (S) including the fence portion (F).

Here, the support shafts 22 and 40 shown in FIGS. 5-13 are the contact part which contact | connects the outer surface of the slab S in a fixed area range, and the support part which forms the shape which symmetrically bent the both edge parts of this contact part. Although expressed as an integral configuration consisting of a section steel divided into a plurality of configurations arranged at regular intervals or a technical configuration arranged in a cross form of each other is of course within the claims of the present invention.

In the support shaft 22, first, as shown in the configuration of the assembly relationship shown in Figs. 5 and 6, the upper surface of the support shaft 22 is supported by the outer surface of the slab (S) including the fence (F) and the bracket 20 And at least one hinge fixed end 26 or movable guide end 28 in the up and down directions at intervals between and below. In addition, the hinge fixed end 26 or the movable guide end 28 positioned below the support shaft 22 is hinged so as to be rotatable one end of the interval support 30a having a predetermined length. One end of the connection 32 having a shorter length than the interval support 30a is rotatably connected to the movable guide end 28 or the hinge fixing end 26 located above the support shaft 22. do. And the other end of the connection 32 is hinged to the side of the spacer support (30a). Here the hinge fixing end 26 is to allow them to rotate only at the connection position from the connection at one end of the correspondingly spaced support 30a or the connection 32. In addition, the movable guide end 28 is not only rotatable from the connection to one end of the spacer support 30a or the connection 32, but also a sliding movement for the section extending in the vertical direction. Accordingly, one of the spacer support 30a or the connection 32 is rotatably supported by the hinge fixing end 26 so that the other hinge connected to the movable guide end 28 is connected to the movable guide end 28. 30a and connection 32 are constrained by mutual rotational positions. That is, when the end of the gap support 30a or the connection 32 on the mating movable guide end 28 or the end of the connection 32 is moved relative to the hinge fixed end 26, the gap located below the support shaft 22. Support (30a) is progressively inclined in the outward direction to receive the support of the portion where the connection is made in a standing shape. When the sliding progress with respect to the movable guide end 28 is stopped, the rotational position of the gap support 30a is fixed, and when there is a sliding movement in the opposite direction, the gap support 30a and the connection 32 mutually A folding shape is achieved. In FIG. 5 and FIG. 6, the hinge fixing end 30a is positioned above the support shaft 22 and the movable guide end 28 is positioned below the spaced distance. Of course, they can be located opposite each other. In addition, the hinge fixing end 26 may be formed in at least one number so as to have a predetermined interval in the vertical direction of the support shaft 22. Thus, the interval between the hinge fixing end 26 is to limit the minimum close distance between the gap support 30a and one end of the connection 32, through which the rotation angle of the gap support 30a can be adjusted. will be. In addition, the hinge fixing end 26 may be formed by forming a groove or a hole that can be connected to the hinge shaft 34 with respect to one side end of the corresponding spacing support 30a or the connection 32. This configuration is connected to the rotational support 30a at the side of the support shaft 22 or one side end of the connection 32 by using a bolt penetrating or selectively protruding projections, etc. to enable their rotation It can also be done. In addition, the above-mentioned movable guide end 28 forms a hole in the longitudinal direction with respect to the side part of the support shaft 22 in FIG. 5 and FIG. 6, and the hinge shaft 34 which connects correspondingly is connected between them. It is represented by a configuration that enables rotation and sliding position movement. In addition, at both ends of the hinge shaft 34 protruding outward of the movable guide end 28, that is, the support shaft 22, means for preventing the hinge shaft 34 from deviating in both directions, that is, the hinge shaft The nut 34a or the pin 34b to which screwing is performed with respect to 34, and these nuts 34a and the pin 34b are combined together. In the structure of such a movable guide end 28, instead of the hole shape extended to a predetermined length, it is formed by the guide rail which extended the groove or the protrusion in the longitudinal direction (omitted for simplicity of drawing), A sliding member movable along the guide rail may be provided, and the connection may be replaced by means such as a hinge pin with respect to the sliding member.

On the other hand, in addition to the above-described configuration, the bracket 20 is provided with a rotation angle adjusting unit 36 for connecting the side of the spacer support 30a with a separate connector to adjust the rotation position of the spacer support 30a. In the configuration of each embodiment of the rotation angle adjustment unit 36, a support block 36a is installed on the bracket 20, and the rotation shaft 36b rotatably supported by the support block 36a is provided. It has a predetermined length, one end is fixed to the rotating shaft (36b) and the other end is fixed on the side of the gap support (30a) wire W and the bracket 20 or the support block (36a) close to the rotating shaft (36b) It can be made to include a stopper (36c) to control the rotation of the rotating shaft (36b). In addition, one side of the rotating shaft (36b) may be made of a configuration having a handle (36d) or a winch provided with a separate drive motor to receive a rotational force by the operator in an extended shape. This configuration is the rotation of the space support (30a) by the action of winding the end of the wire (W) fixed to the side of the space support (30a) by the rotation of the rotation axis 36b in a state where the space support (30a) is inclined at a predetermined angle. Guide the position so that it is in the up and down directions. At this time, when the interval support 30a is no longer difficult to rotate in the up and down direction, the stopper 36c is fixed to prevent the rotation of the rotation shaft 36b, and the rotation axis 36b is relatively inclined to incline the interval support 30a. It may be enough to release the fixing to the (W) to allow the wire (W) to be released. The stopper 36c described above is a gear fixed to the rotary shaft 36b and a stop pin for controlling the rotation of the rotary shaft 36b by being selectively positioned between the gear fixed to the rotary shaft 36b as shown in FIG. It may be configured, or may be configured as a pin or a separate fastener for mutual engagement coupling to the conventional brake or support block 36a and the rotary shaft 36b for the rotary shaft 36b. In addition, in another embodiment of the above-described rotation angle adjusting unit 36, a cylinder (not shown for simplicity of the drawing) is installed on the bracket 20, and the cylinder axis of the cylinder is spaced between the spacer 30a. There may be a configuration that links. In addition, between one side of the above-described interval support 30a and any one or more configurations of the bracket 20 or the support shaft 22 and the hypothesized inner scaffold 12a, as shown in FIG. 30a) may be further provided with a brace shaft 40 to maintain a state inclined to the maximum. The support shaft 40 has a function of preventing rotation of the spacing support 30a in a direction in which the spacing support 30a is elastically erected with respect to the inclined state at a predetermined angle and a function of preventing the inclination angle of the spacing support 30a to be further sag. do.

Meanwhile, as shown in FIG. 5 or FIG. 6, the above-described spacing support 30a may be formed by newly designing a separate beam configuration to integrally form a connector 38 for connection with each configuration. More preferably, it is preferable that the scaffold having a predetermined length has a shape that can be used alternatively. On the other hand, the structure of the connector 38 for connection of the hinge shaft 34 to the hinge fixed end 26 or the movable guide end 28, as shown in FIG. A first supporting plate 38a having at least one through hole h and having a through hole h corresponding to the above-described through hole h in a shape of covering at least one side portion of the interval support 30a. do. At least one protrusion 38b having a shape protruding in any one direction is formed on the outer surface of the first support plate 38a, and the hinge shaft 34 for hinge connection with respect to the corresponding configuration on the protrusion 38b. This is provided by the usual method. And a through hole h corresponding to the above-described through hole h in a shape that covers the opposite side portion of the gap support 30a at an opposite position of the first support plate 38a so that the gap support 30a is interposed therebetween. The second supporting plate 38c is provided. And these 1st, 2nd support plates 38a and 38c are the side part of the space | interval support 30a located between them by the structure of the bolt 38d and the nut 38e through which the fastening is made through the above-mentioned through-hole h. The fixing is made in the shape surrounding the. The other configuration of the connector 38, although not shown, the support plate material and the predetermined portion of the side portion of the support plate material bent in a shape that surrounds the side portion of the interval support 30a of the plate-shaped thing having a predetermined length and corresponding thereto The side of the space support (30a) to be fixed so as to prevent the position movement with a bolt or pin, it may be made of a configuration for fixing the hinge shaft 34 on both ends of the support plate material. In addition to this technical configuration, the above-described spacing support 30a is supported by the hinge fixing end 26 or the movable guide end 28 so that the other end thereof faces upward in a state where it is rotated at an angle in a horizontal direction. It is preferable that the side predetermined portion is formed to be bent in a certain angle range so as to. This bend is made to prevent the collision with the space | interval support 30a from the deflection range, when there is a fall of an operator by the fixed height in the bat N which is installed later. And the other end of the space support (30a) is provided with another clamp (24b) for extending the outer scaffold (12b) for installation of the bat (N) to be described later. The structure of this other clamp 24b can be used in place of the conventional connecting ring 24b shown in FIG. 10, while the spacer 30a is formed by improving the scaffold.

7 and 8 show a modified embodiment according to the present invention. This configuration shortens the length of the spacer support 30b, hinges one end of the first link 42a with respect to the spacer support 30b, and details the other end of the first link 42a. The hinge is connected to one movable guide end 28. In addition, the other end of the second link 42b is hinged to the site where the other end of the first link 42a is connected, and at this time, the other end of the first link 42a and the second link 42b. The hinge is connected to the same hinge axis 34 to each other, or to maintain the spacing of the hinge axis 34 in close proximity. One end of the second link 42b is hinged to the side of the connection 32b. This configuration can shorten the length of the movable guide end 28 as well as more easily form the rotational drive of the spacing support 30b.

Meanwhile, the configuration shown in FIG. 13 is a configuration of another embodiment of the present invention, and detailed description of the same parts for the above-described technical configuration and its operation will be omitted. First, a hinge fixing end 42a is formed at an upper portion of the support shaft 40a or 40b, and one end of the spacer support 46a or 46b is hinged to the hinge fixing end 42a. Furthermore, the movable guide end 44a or the other hinge fixed end 42b is formed in the lower part of the support shaft 40a or 40b, and the connection 48a or 48b is connected to this movable guide end 44a or the hinge fixed end 42b. One end of the hinge is connected. And the other end of the connection (48a or 48b) is made of a configuration consisting of a hinge connection with the hinge fixing end 42c or movable guide end 44b formed separately on the side of the above-described interval support (46a or 46b). Such a configuration is different from the fact that the installation is made on the upper portion of the support shaft 40a or 40b from the configuration of the embodiment of the present invention, which first described the installation position of the space support 46a or 46b, and on the support shaft 40a or 40b. It has the advantage that the length of the support shaft 40a or 40b can be remarkably reduced, including the case where the movable guide end 44a is formed in this.

In the above description of the configuration, looking at the installation process, the connection of the support shafts 22, 22 ', 40a, 40b, the spacing supports 30a, 30b, 46a, 46b and the connections 32a, 32b, 48a, 48b The brackets 20 and 20 'made up are respectively installed at regular intervals along the edge portion of the slab S including the fence portion F. Then, with the supporters 30a, 30b, 46a, and 46b upright, the batter N is corresponding to a portion near the top of the supporters 30a, 30b, 46a, and 46b and the brackets 20, 20 '. Install. Subsequently, it is made by tilting outward the direction of the slab S based on the hinged portion of the spacing supports 30a, 30b, 46a, 46b.

In the process of installing the bracket (20, 20 ') to the slab (S) including the fence portion (F) of the process, the bracket (20, 20') and the support shaft (22, 22 ', 40a, 40b) and The installation of the spacers 30a, 30b, 46a, 46b and the like may be difficult to assemble in a state where all of the components are assembled. On the other hand, the spacers 20, 20 'may be installed after the brackets 20 and 20' are installed alone. Fixing to the brackets 20, 20 'provided with supporting shafts 22, 22', 40a, 40b in which the assembly including the 30a, 30b, 46a, 46b and the connections 32a, 32b, 48a, 48b has been assembled It may consist of installation. In addition, the installation of the bat (N) in the above-described process is the bracket 20, 20 'or the support shafts 22, 22', 40a, in the state in which the space support (30a, 30b, 46a, 46b) in the up and down direction The inner scaffold 12a and the outer scaffold 12b are extended to the clamp 24a provided on the 40b and the clamp 24b provided at the ends of the spaced support 30a, 30b, 46a, 46b located above. Proceed with the connection. Thereafter, a process of connecting one side portion of the bat N to the outer scaffold 12b and a process of connecting the other side portion of the bat N to the inner scaffold 12a. At this time, the bat (N) is subjected to a tensile force with a constant force between the outer scaffold (12b) and the inner scaffold (12a) from the relationship that the interval support (30a, 30b, 46a, 46b) is inclined, which is to support the falling worker Provide a sufficient degree of elasticity. In addition, the tensile force acting on the bat (N) acts as a force for supporting the deflection of the gap support (30a, 30b, 46a, 46b), the gap support (30a, 30b, 46a, 46b) for this is the support shaft ( 40) maintains a constant tilt state by the connection. In addition, the above-mentioned bat N may be provided between these angles so as to receive the support of the adjacent space | interval support 30a, 30b, 46a, 46b, without installing the inner / outer scaffold 12a, 12b.

When there is a fall of the worker from this technical configuration, the worker receives a sufficient elastic action from the bat N, and the load according to the fall of the worker is supported by the spacing supports 30a, 30b, 46a, 46b supporting the bat (N). Dispersion of the force to each connection site by the connection (32a, 32b, 48a, 48b), rotation angle control unit 36 and the support shaft 40, together with the tensile force acting on the connection (N) This is done. And the curved portion of the other end of the interval support (30a, 30b, 46a, 46b) is the batter (N) by the load fall the gap between the interval support (30a, 30b, 46a, 46b) relative to the bat (N) It keeps above the deflection range of) and alleviates the momentary fall load. Thus, the worker is prevented from colliding with the gap support 30a, 30b, 46a, 46b. And, as described above, the dispersing action of the falling load acting on the spacer supports 30a, 30b, 46a, 46b provides more room to expand the interval between the spacer supports 30a, 30b, 46a, 46b. .

Therefore, according to the present invention, the worker installs the brackets on the edges of the slab at regular intervals, installs a bat with respect to the spacing supports assembled on these brackets, and the installation is completed in the process of tilting the spacing supports, The demolition work or proceeding in the reverse order is easy to install and dismantle, and at the same time there is an effect that the work time is significantly reduced.

In addition, the gap support has a more stable effect by preventing the collision of the worker falling against the upper part of the bat as well as the dispersion of force against the falling load.

Although the present invention has been described in detail only with respect to specific embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the scope of the technical idea of the present invention, and such modifications or changes belong to the claims of the present invention. something to do.

1 is a perspective view showing an installation state of the bat according to the prior art.

2 is a side view showing the configuration of the bat installation apparatus shown in FIG.

Figure 3 is a partially cut perspective view showing the configuration of the connecting ring between the scaffold and the spacer support shown in FIG.

4 is a partially cutaway perspective view showing a configuration for connecting wires to the scaffold shown in FIG. 1.

Figure 5 is an exploded perspective view for explaining the configuration of the bat installation apparatus according to an embodiment of the present invention and the connection relationship of these configurations.

6 is a side view schematically showing an installation state of the bat installation apparatus shown in FIG.

7 is an exploded perspective view for explaining the configuration according to a modified embodiment of the present invention and the connection relationship between these configurations.

8 is a side view schematically showing an installation state of the bat installation apparatus shown in FIG.

FIG. 9 is an exploded perspective view for explaining a deformed configuration of a coupling for connecting each connection and a coupling relationship with respect to the structure of the spacing support shown in FIGS. 5 to 8 as a scaffold.

10 is an exploded perspective view showing an application example for connecting the outer scaffolding to the other end of the interval support in the modification of FIG.

11 is a side view schematically showing the configuration of the rotation angle adjustment unit for adjusting the rotation position of the spacer support from the configuration of Figures 5 to 10.

12 is a side view showing an application example to the edge portion of the slab is formed with a constant thickness as another modification of the present invention.

Figure 13 is a side view showing another embodiment of the present invention.

※ Explanation of symbols for main parts of drawing

10, 20, 20 ': bracket 12a, 12b: scaffolding

14a, 14b, 24a, 24b: 16, 30a, 30b, 46a, 46b: spacing support

18: linkage 22, 22 ', 40a, 40b: support shaft

26, 42a, 42b, 42c: hinge fixed end 28, 44a, 44b: movable guide end

32a, 32b, 48a, 48b: connection 34: hinge axis

36: rotation angle adjustment unit 38: connector

40: bracing shaft

Claims (27)

Brackets are installed at regular intervals along the edge portion of the slab including a fence; The movable guide end is fixed to the bracket to form at least one or more arrangements in the up and down direction of the outer side of the slab, and has a hinge fixing end on one side of the upper and lower sides, and extends in the up and down direction on the other side. A support shaft provided; A spacing support that rotatably connects one end portion to correspond to the hinge fixed end or movable guide end positioned below the support shaft; And A connection for rotatably connecting one end portion corresponding to the movable guide end or the hinge fixing end positioned above the support shaft, and the other end limiting the rotation angle of the interval support hinged to the interval support side. Bat installation apparatus characterized in that it comprises a configuration. The method of claim 1, The support shaft is fixed to the bracket, the bat installation apparatus, characterized in that made in one piece having a length in the up and down direction of the outer surface of the slab. The method of claim 2, The bracket is mounted on the upper surface of the fence portion in response to the slab edge portion forming a fence portion protruding upward, and one end portion is fixed with the corresponding support shaft, and the other end portion has a shape protruding into the fence portion. A support base; An auxiliary shaft provided in a shape extending downward from a portion protruding into the fence portion of the pedestal; And And a pressurizing portion configured to provide a selective force in a direction in which a space between the fence portion and the support shaft of the auxiliary shaft is extended such that the support shaft is supported by the auxiliary shaft in close contact with the outer surface of the fence portion. The method of claim 2, The bracket may include: a pedestal having a shape having a length corresponding to an edge portion of the slab having a predetermined thickness, the side of which is opposed to the bottom of the slab, and the one end of which is longitudinally fixed to the side of the corresponding support shaft; A side shaft in a shape having a length so as to be spaced apart from the upper surface of the slab, and one end of the longitudinal direction fixed to a side of the corresponding support shaft; And And the pressing unit provided on the auxiliary shaft to provide a selective force in the direction of opening the gap between the upper surface of the slab and the auxiliary shaft so that the pedestal is in close contact with the bottom surface of the slab. The method according to claim 3 or 4, The bracket is provided in a shape extending from both sides of the pedestal and the support shaft to support the upper or lower surface of the slab including the fence portion and a predetermined portion of the outer surface of the slab to support the top and bottom arrangement of the support shaft to be maintained The bat installation device formed by further forming a blade. The method of claim 1, The support shaft is the bat installation device, characterized in that further comprising a clamp for mounting and fixing the scaffold in the upper portion. The method of claim 1, The bracket is the bat installation device, characterized in that it further comprises a clamp for mounting and fixing the scaffold to the portion protruding to the outside of the slab including the fence portion. The method of claim 1, On the bracket, the bat installation device, characterized in that further comprising a rotation angle adjusting unit for selectively adjusting the rotation position of the spacing support by connecting to the side of the spacing support corresponding to the rotation. The method of claim 8, The rotation angle adjustment unit, the support block installed on the bracket; A rotating shaft rotatably supported by the support block; A wire having a predetermined length and having one end fixed to the rotating shaft and the other end fixed to the side of the spacer; And a stopper installed on the bracket or the support block proximate to the rotating shaft to control the rotation of the rotating shaft. The method of claim 8, The rotation angle adjusting unit, the one end of the wire is fixed to the side of the spacing support, the other end of the wire is installed, characterized in that made of a configuration connected to the hoist installed on the upper portion of the bracket. The method of claim 10, The stopper includes a gear fixed to the rotating shaft; And the stop pin for controlling the rotation of the rotary shaft by selectively positioning between the gear and the tooth. The method of claim 1, The hinge fixing end is formed on the upper portion of the support shaft, the movable guide end is the bat installation device, characterized in that formed in the lower portion of the support shaft. The method of claim 1, The hinge fixing end is formed by forming at least two at regular intervals in the up and down direction of the support shaft. The method of claim 1, The support shaft is in close contact with the outer surface of the slab in a predetermined area range; It consists of a section steel divided into support parts forming a shape in which both edge portions of the close contact portion is symmetrically bent, and the hinge fixing end is rotatable to both ends of the hinge shaft provided at one end of the gap support or the connection. Comprising the two side support portion formed a support hole or groove, the movable guide end is guided so that both end portions of the movable shaft rotatably provided at one end of the spacing support for sliding movement in the up and down direction The bat installation device, characterized in that consisting of the both sides of the support portion formed with a guide hole or a guide groove having a length. The method of claim 1, The interval support is formed by bending a predetermined portion of the side portion in a predetermined angle range such that the other end is directed upward in a state where one side end is rotated at a predetermined angle in the horizontal direction by being supported by the hinge fixing end or the movable guide end. The said bat installation apparatus. The method of claim 1, The gap support device is characterized in that the batting installation device further comprises a connecting ring for mounting and fixing the scaffolding on the other end end of the hinge fixed end or the movable guide end supported. The method according to any one of claims 1 to 4 and 6 to 16, The method of claim 1, The gap support is formed of a scaffold having a predetermined length, and each part corresponding to the hinge fixed end or the movable guide end portion and the other end of the connection is provided with a connector for hinge connection Mounting device. The method of claim 17, The connector includes a support plate having at least one through hole on the side of the spacer support, the support plate having a corresponding hole of each of the through holes in a shape covering the side portion of the spacer support; The bat is formed to cover the opposite side of the support plate to the opposite side of the support plate, the outer surface is provided with a projection of a shape protruding in any one direction, and the projection comprising a fixed plate having a hinge axis to the projection Mounting device. The method of claim 1, The connection between the hinge fixing end or the movable guide end and the spacing support corresponding to the lower portion of the support shaft is hinged with respect to each other with a first link therebetween, and the hinge fixing end or the movable guide end. The batting device, characterized in that the hinge is connected to each other by a second link between the hinged portion of the first link and the longitudinal center portion of the connection. The method according to any one of claims 1 to 4, 6 to 19, Each connecting portion on the spacing support is the bat installation device, characterized in that the connection is made to each of the tensile force to distribute the load acting on the bat. Brackets are installed at regular intervals along the slab edge portion of the building; A support shaft fixed to the bracket to form at least one or more arrangements in an up and down direction of an outer surface of the slab, and having hinge fixing ends at upper and lower ends at predetermined intervals; A spacing support connected to one end of the support shaft to be rotatable in correspondence with the hinge fixing end positioned above the support shaft; And One end portion is rotatably connected to receive the support in correspondence to the hinge fixing end positioned below the support shaft, and the other end portion is hinged to be rotatable and rotatable about a predetermined section of the interval support side. Bat installation device characterized in that it comprises a connection to limit the rotation angle of the spacer support. Brackets are installed at regular intervals along the slab edge portion of the building; A support shaft fixed to the bracket to form at least one or more arrangements in an up and down direction of an outer surface of the slab, having a hinge fixing end at an upper end thereof, and a movable guide end extending in an up and down direction at a lower end thereof; A spacing support connected to one end of the support shaft to be rotatable in correspondence with the hinge fixing end positioned above the support shaft; And Corresponding to the movable guide end positioned below the support shaft, one side end is rotatably connected to receive the support, and the other end is rotatably hinged to a predetermined portion of the space support side to support the space. Bat installation device characterized in that it comprises a connection to limit the rotation angle of. A bracket installed on the slab of the building; A support shaft fixed to the bracket and arranged in an up and down direction on an outer surface of the slab; A spacing support hinged to the support shaft; Consists of a connection hinged to the side of the support shaft and the spacing support, At least one portion of the hinged portion where the support shaft, the spacer support and the connection are interconnected may be moved to the slidable movable guide end in response to the displacement being changed by the rotation of the spacer support with respect to the support shaft. Bat installation apparatus, characterized in that made. A bracket installed on the slab of the building; A support shaft fixed to the bracket and arranged in an up and down direction on an outer surface of the slab; A spacing support hinged to the support shaft; Consists of a hinge hinged to the side of the support shaft and the spacing support, wherein any one or more of the hinged portion where the support shaft and the spacing support and the connection is interconnected, the spacing support is the support shaft With respect to the slidable movable guide end corresponding to the displacement being changed by rotating with respect to (a) installing the brackets at which the support shaft, the spacing support, and the connection are connected at regular intervals along the edge of the slab; (b) installing a bat corresponding to a portion proximate to an upper portion of the spacer support and the bracket in an upright state of the spacer support; (C) the bat installation method comprising the step of tilting in the outward direction of the slab on the basis of the hinged portion of the spacing support. The method of claim 24, Step (a) is the step of installing the brackets at regular intervals along the edge portion of the slab; The bat installation method, characterized in that made by dividing the step of fixing the support shaft assembled with the spacer and the connection to the bracket. The method of claim 24, Installing the bat of the step (b) comprises the step of connecting the outer scaffold and the inner scaffold in the transverse direction, respectively, between the upper portions of the neighboring interval support and the neighboring brackets in the state in which the spacer is upright; The bat installation method, characterized in that made by dividing the step of installing the bat on the outer scaffold and the inner scaffold. The method of claim 24, The bat installation step of (b) is the bat installation method, characterized in that to install a bat between them on the mutually adjacent interval support.