JP5881381B2 - Simple crane for assembling rooftop and method for carrying in or carrying out suspended load using this crane - Google Patents

Description

  The present invention is a simple assembling-type rooftop crane for installing a mobile base station of a mobile phone in a narrow and indefinite shape, such as a rooftop of an existing building, and a lot of obstacles. The present invention relates to a method for carrying in or carrying out a suspended load in which a suspended load is carried in or unloaded from the building roof using this simple assembling-type rooftop crane.

  In recent years, with the development of mobile communication technology, the development of mobile radio base stations has been progressing. There are various types of radio base stations, ranging from the installation of a new communication tower to install an antenna to the type of installation of an antenna on the roof of an existing building, depending on the installation location. .

  The type that installs an antenna on the roof of an existing building has the advantage that a mobile base station can be installed at a relatively low cost in an urban area where there are many users. It is being advanced in. However, it is difficult to carry in materials such as antennas and radio equipment because heavy objects are attached to the roof of tall buildings, etc. Depending on the situation of the installation location and the surrounding environment, there are various ways to carry in such materials. Various methods and construction methods are used.

  As a general method of carrying in materials in the type where an antenna is installed on the roof of an existing building, a mobile crane is placed on the ground, and this mobile crane is used to carry materials from the outside of the building to the roof. Has been adopted. This method requires a vacant land or road for parking or installing the mobile crane on the ground, and is limited to a place where a sufficient space can be secured around the building.

  In particular, in order to install a mobile base station on the rooftop of a high-rise building suitable for installation of antennas and radio equipment, a large mobile crane is required. In order to prevent accidents such as the rollover of the mobile crane, the outriggers of the mobile crane need to be largely extended outward, so a wider space is required.

  For this reason, it is difficult to secure this space in urban areas, and even if space can be secured, measures such as land borrowing, application procedures for road use and mobile crane installation, and iron plate curing on the road are necessary. As a result, the work is complicated and the construction period is prolonged.

  In addition, a method of installing temporary scaffolding on the outer wall of a building, disassembling materials constituting the antenna and manually carrying it in by an operator is also widely performed. However, there are buildings in which temporary scaffolds cannot be installed, and even when there is no space for installing a retracting stage for drawing materials from the temporary scaffolds on the roof, there has been a situation where materials cannot be carried in.

  Moreover, the materials constituting the antenna must be divided into weights and sizes that allow workers to carry in manually, and carrying in using unstable scaffolds is problematic in terms of worker safety. Furthermore, in order to ensure safety, an anchor for fixing the scaffold to the building may be hit, but the anchor may damage the building, so sufficient consideration is necessary and repair work is required. Sometimes.

  As another method of carrying in materials, the materials that make up the antenna are also manually carried in by workers using the building elevators, but the materials cannot be divided into weights or sizes that can be carried by the elevators. There are many things. Moreover, since the elevator does not usually go to the rooftop, an emergency staircase or the like is used from the top floor to the rooftop. For this reason, it becomes a complicated work using an elevator and an emergency staircase, and the safety of workers cannot be sufficiently ensured with an emergency staircase made for evacuation.

  Therefore, for example, as shown in Patent Document 1, a method has been proposed in which an “assembly-type simple roof-top parent-child crane” is installed on the roof of a building and material is unloaded. In this patent document 1, a child crane is installed on the roof of a building, and the parent crane is lifted and assembled using this child crane, and the crane can be assembled and removed manually.

  In addition, as shown in Patent Document 2, for example, a “hoist” that unloads and unloads materials from a high-rise building such as a building or an apartment has been proposed. In this patent document 2, the load is lifted by operating the unloader to wind up the hoist cable, and the hoist cable is drawn out from the unloader to unload the load.

  The “assembled simple rooftop parent-child crane” and “hoist” disclosed in Patent Documents 1 and 2 described above can be freely moved on the rooftop via moving casters and wheels, and can easily carry heavy objects on the rooftop. It is stated that it can be carried in.

JP 2008-133302 A Japanese Patent Laid-Open No. 11-60163

  By the way, on the roof of a building, the area and shape of the empty space are various, and obstacles such as a water storage tank are often installed. For this reason, with the crane of the said patent document 1 in which the shape and size of a mobile trolley | bogie are defined, it may be unable to install on the roof with a narrow and indefinite shape and many obstacles.

  Moreover, since water is used as a counterweight when lifting heavy objects, for example, a large amount of water is required to obtain a lifting load of about 250 kg to 500 kg required when installing a mobile base station. There is also a problem that the preparation of the water and the treatment after use become complicated.

  On the other hand, in the technique of the above-mentioned patent document 2, since the auxiliary base plate can be connected to the hoist, when the installation space is small, the weight of the load can be reduced. However, it is not necessarily sufficient for installation in a narrow, indeterminate shape with many obstacles such as the rooftop of a building.

  In addition, as in Patent Document 1, water is used as a counterweight when lifting a heavy object, so a large amount of water is required to obtain a large lifting load, and water preparation and treatment after use Becomes complicated.

  The present invention was created in view of the circumstances as described above, and its purpose is to flexibly deal with a narrow, indefinite shape and many obstacles such as the rooftop of an existing building. An easy-to-assemble rooftop crane that can be installed on a crane and that can be assembled and disassembled easily on the rooftop of a building by manually loading the individual components that make up the crane, and a suspended load using this crane It is to provide a method of carrying in or out.

The present invention is an assembly-type simple roof crane that disassembles crane components and manually loads the individual components onto the building roof, and assembles them on the roof. A pedestal that supports the column in an upright state, an arm that is attached to the top of the column and rotates in a horizontal direction, a winch that lifts and unloads the suspended load via the arm, A plurality of counterweights are provided to balance the suspended load and the gantry when lifting and unloading, and the gantry selectively selects a plurality of rectangular parallelepiped frame members according to the area and shape of the installation space on the roof. assembled in place, and the reaction force receiving base the strut is erected, the reaction force receiver is connected to the base, select a plurality of rectangular frame members in accordance with the area and shape of the roof of the installation space And a lower portion which is assembled manner, by providing the upper portion formed by the rectangular frame members which are assembled in a stack to the lower part, has solved the problems described above.

  Furthermore, the method of carrying in or carrying out the suspended load using the crane according to the present invention includes loading the suspended load on the roof of the building using the simple crane for assembling rooftop, or unloading from the roof of the building, The problem mentioned above was also solved.

  In addition, by using the measured values of wind speed and anemometer installed on the crane and the parameters of suspended load, wind pressure load, work radius, it is calculated by a predetermined algorithm to determine whether it is safe work, Solved the problem mentioned above.

  According to the assembly-type rooftop simple crane according to the present invention, since the frame is selectively assembled and arranged according to the area and shape of the installation space on the roof, It can handle various installation spaces according to the surrounding environment, and can easily install cranes on the rooftops of existing buildings that are narrow, irregular, and have many obstacles.

  Also, since the components of the crane are disassembled and the individual components are manually transported to the building roof and assembled on the roof, there is no need to secure space around the building as when using a mobile crane placed on the ground. It is not necessary to install a temporary scaffold. Moreover, for example, since materials such as antennas constituting mobile base stations of mobile phones are carried in using a winch of a crane, it is safer and quicker to load heavy objects and large-sized members in comparison with manual delivery by workers. Can be carried in. This simplifies the work of installing the mobile base station on the roof of the building and shortens the construction period.

  Further, since the gantry is configured by selectively assembling a plurality of rectangular parallelepiped frame members, the entire gantry and individual frame members can be reduced in weight. Therefore, sufficient strength of the gantry can be obtained by using a lightweight member that can be carried in manually by an operator.

  Moreover, by arranging the first and second counterweights on the gantry and the reaction force receiving base, it is possible to sufficiently withstand the loads of suspended loads and wind loads according to the area and shape of the installation space. Can do. In this way, since the first and second counterweights are not used as water as in the prior art, water preparation and processing after use are unnecessary.

  In addition, the plurality of counterweights are selectively disposed so as to be able to withstand the load of the suspended load and the load of the wind, and end in the direction opposite to the direction of the arm when the suspended load is lifted at the lower stage of the gantry Since the 1st counterweight arrange | positioned at the part side is provided, the load at the time of carrying in of the material to the roof using a crane can be balanced.

  In addition, the plurality of counterweights includes a second counterweight disposed on the end side opposite to the direction of the arm when the suspended load is unloaded onto the roof of the reaction force receiving base. It is possible to balance the load when unloading materials on the roof using a crane.

  In addition, according to the method for carrying in or carrying out the suspended load according to the present invention, the suspended load is carried into the roof of the building using the simple crane for assembling rooftop configured as described above, or unloaded from the roof of the building. Even heavy objects that are impossible with human power can be easily loaded and unloaded.

  In addition, the load moment is calculated with a predetermined algorithm based on the measured values of the wind speed and anemometer, the suspended load, the wind pressure load, and the working radius parameters during the loading or unloading operation of the suspended load. By increasing the load or limiting the load of the suspended load, work safety can be ensured even on windy days.

It is a side view which shows the 1st example of installation in the simple crane for assembly-type rooftops which concerns on this invention. It is a top view of the assembly-type simple roof crane shown in FIG. It is a perspective view which extracts and shows the reaction force receiving base and support | pillar in the assembly-type simple roof crane shown in FIG.1 and FIG.2. It is a perspective view which extracts and shows the reaction force receiving base, a mount frame, a counterweight, and a winch in the simple crane for an assembly-type rooftop shown in FIG.1 and FIG.2. FIG. 5 is a perspective view showing a first assembling step in the easy-to-assemble rooftop crane shown in FIGS. 1 to 4. It is a perspective view which shows the 2nd assembly process in the simple crane for assembly-type roofs shown in FIG. 1 thru | or FIG. FIG. 5 is a perspective view showing a third assembling step in the assembly-type rooftop simple crane shown in FIGS. 1 to 4. FIG. 5 is a perspective view showing a fourth assembling step in the assembly-type rooftop simple crane shown in FIGS. 1 to 4. It is a perspective view which shows the 5th assembly process in the simple crane for assembly-type roofs shown in FIG. 1 thru | or FIG. It is a perspective view which shows the 6th assembly process in the simple crane for assembly-type roofs shown in FIG. 1 thru | or FIG. It is a perspective view which shows the 7th assembly process in the simple crane for assembly-type roofs shown in FIG. 1 thru | or FIG. It is a perspective view which shows the state in which the assembly was completed in the assembly-type simple roof crane. The specific structural example of a gantry unit is demonstrated, (a) A figure is a front view, (b) A figure is a side view. The example of a structure of the junction part of a reaction force receiving frame member and the lowermost short support unit is shown, (a) The figure is a front view, (b) The figure is B arrow figure of (a) figure, (c) The figure is an arrow A view of FIG. FIG. 3 is a plan view for explaining a process for carrying a suspended load to the roof in the simple crane for assembling rooftop according to the present invention. FIG. 5 is a side view for explaining a process for carrying a suspended load to the roof in the simple crane for assembling rooftop according to the present invention. FIG. 6 is a rear view for explaining a process of carrying a suspended load to the roof in the assembly-type rooftop simple crane according to the present invention. The example of a structure of an arm fixing unit is shown, (a) A figure is a D arrow figure of FIG. 16, (b) A figure is E arrow figure of FIG. 16, (c) A figure is an enlarged view of the F section of FIG. It is. The modification of the 1st example of installation in the simple crane for assembly-type rooftops which concerns on this invention is demonstrated, (a) A figure and (b) figure are front views which each show an outrigger, (c) A figure is (a). It is a top view which shows the example of mounting to the mount frame of the outrigger shown to a figure and (b) figure. It is a top view which shows the 2nd installation example in the simple crane for assembly-type rooftops which concerns on this invention. It is a perspective view which extracts and shows the reaction force receiving base and support | pillar in the simple crane for assembly-type rooftops shown in FIG. It is a perspective view which extracts and shows the reaction force receiving base, a mount frame, a counterweight, and a winch in the simple crane for an assembly-type rooftop shown in FIG. It is a perspective view which shows the 2nd example of installation in the simple crane for assembly-type rooftops which concerns on this invention. It is a top view which shows the 3rd example of installation in the simple crane for assembly-type rooftops which concerns on this invention. It is a perspective view which extracts and shows the reaction force receiving base and support | pillar in the simple crane for assembly-type rooftops shown in FIG. It is a perspective view which extracts and shows the reaction force receiving base, mount, counterweight, and winch of the simple crane for an assembly-type rooftop shown in FIG. It is a perspective view which shows the 3rd example of installation in the simple crane for assembly-type rooftops which concerns on this invention. It is a top view which shows the 4th example of installation in the simple crane for assembly-type rooftops which concerns on this invention. It is a perspective view which extracts and shows the reaction force receiving base and support | pillar in the simple crane for assembly-type roofs shown in FIG. It is a perspective view which extracts and shows the reaction force receiving base, a mount frame, a counterweight, and a winch in the simple crane for an assembly-type rooftop shown in FIG. It is a perspective view which shows the 4th example of installation in the simple crane for assembly-type rooftops which concerns on this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

[First installation example]
FIG. 1 is a side view showing a first installation example in a simple rooftop crane according to the present invention, and FIG. 2 is a plan view thereof. 3 is a perspective view showing the reaction force receiving base and the column of the simple roof crane shown in FIG. 1, and FIG. 4 is the reaction force receiving base of the simple roof crane shown in FIG. It is a perspective view which extracts and shows a mount frame, a counterweight, and a winch. This first installation example is suitable when a sufficient installation space can be secured behind from the end (side wall) on the roof where the crane is installed, and the most stable and large lifting load can be obtained.

  The assembly-type simple rooftop crane according to the present embodiment can be disassembled and manually transported to the building rooftop, assembled using fasteners such as bolts and nuts on the rooftop, and disassembled and removed again after use. It is composed. Each disassembled part (individual member) has a weight (for example, 30 kg or less) and a size that can be carried in by human power. For example, it is carried by human power using an elevator and an emergency staircase and carried to the roof for assembly. Install. After work, disassemble and remove in reverse order of loading. This assembly and removal operation can be performed manually without using a separate assembly device.

  As shown in FIG. 1 to FIG. 4, the assembly-type rooftop simple crane according to the present embodiment includes a column 2 part and a frame 4 part that supports the column 2 in a standing state.

  More specifically, as shown in FIG. 1 and FIG. 2, a column 2 constituted by connecting a plurality of short column units 2-1, 2-2, 2-3. The pedestal 4 that is supported in the state, the arm 3 that is mounted on the upper part of the support column 2 and rotates in the horizontal direction, the winch 6 that lifts and unloads the suspended load 7 through the arm 3, and the lifting of the suspended load 7 Also, first and second counterweights 5-1 and 5-2 are provided to balance the suspended load and the gantry 4 when unloading.

  As shown in FIG. 3, the support column 2 is erected on a rectangular first reaction force receiving frame member 1-1 in the reaction force receiving base 1. A rectangular second reaction force receiving frame member 1-2 is provided adjacent to the first reaction force receiving frame member 1-1. The second reaction force receiving frame member 1-2 serves as a frame connecting material for connecting the frame 4 and the column 2, supports the column 2 upright on the frame 4, and hangs on the column 2. It can withstand the load of the load 7 and the load caused by the wind.

  As shown in FIG. 4, the gantry 4 is arranged by selectively assembling a plurality of rectangular parallelepiped frame members (gantry units 4-1 to 4-6) according to the area and shape of the installation space 9 on the roof. And fixed with fastening metal fittings such as bolts and nuts. In this example, the support column 2 side of the gantry 4 has a two-stage configuration.

  In this way, the gantry 4 is configured by selectively connecting a plurality of gantry units 4-1 to 4-6 formed of a rectangular parallelepiped frame member to the reaction force receiving base according to the area and shape of the installation space. Therefore, the gantry 4 can be installed in a free shape and occupied space, and a crane can be easily installed even on the roof of an existing building that is narrow, irregular, and has many obstacles. The plurality of gantry units 4-1 to 4-6 can be freely assembled and arranged in the horizontal direction according to the area and shape of the installation space, and can also be freely assembled and arranged in the vertical direction.

  As shown in FIGS. 2 and 4, a weight base 11-1 is installed on the end side opposite to the direction of the arm 3 when lifting the suspended load 7 in the lower part of the base 4. The plate-shaped first counterweight 5-1 is stacked on the weight base 11-1.

  Further, a weight gantry 11-2 is provided on an end side opposite to the direction of the arm 3 when the suspended load 7 is unloaded onto the roof of the reaction force receiving frame member 1-2. -2, plate-like second counterweights 5-2 are stacked.

  The counterweights 5-1 and 5-2 balance the suspended load 7 and the gantry 4 when the suspended load 7 is lifted and unloaded, as shown in FIG. Then, the winch 6 installed in the winch bracket 12 installed adjacent to the weight 5-2 lifts the suspended load 7 via the arm 3 and rotates the arm 3 in the horizontal direction to unload it onto the roof. It is supposed to be.

  The parts (individual members) such as the short column units 2-1, 2-2, 2-3,... And the gantry units 4-1, 4-2, 4-3,. As shown in Fig. 6, it is formed with a rectangular parallelepiped frame, and is assembled taking into consideration the area and shape of the empty space (installation space) on the roof, the presence or absence of obstacles, and their positions Thus, the support column 2 and the gantry 4 that supports the support column 2 in a standing state are configured. Moreover, the support column 2, the gantry 4 and the arm 3 have a truss structure when assembled, and are lightweight and can secure sufficient strength.

  In FIGS. 1 to 4, 13 is an arm supporting line that supports the arm 3, 14-1 is an arm fixing block that supports one end of the arm, 14-2 is an arm fixing block that fixes one end of the arm supporting line, and 15 is Pulley, 16 is a pulley (snatch block), 17 is a winch bracket connecting material, 18 is a branch line, 19-1 and 19-2 are branch turnbuckles, 20 is a branch line bracket, 21 is a hook, and 25 is a winch. It is a wire rope.

  In FIGS. 1 and 16, reference numeral 33 denotes a handrail. The handrail 33 is configured by connecting the upper portions of two vertical rods arranged at a predetermined interval with a horizontal rod, and is fixed to the gantry 4 via a clamp or the like as necessary. Is. In the following description, the handrail 33 will be omitted in order to simplify the drawings other than FIGS.

  FIGS. 5 to 11 are perspective views showing first to seventh assembly steps in the simple rooftop crane shown in FIGS. 1 to 4, respectively, and FIG. 12 shows a state where the assembly is completed. It is a perspective view. FIG. 13 shows a specific configuration example of the gantry unit, and FIG. 14 shows a configuration example of a joint portion between the reaction force receiving frame member and the lowermost short support unit.

  When assembling the assembly-type rooftop simple crane according to the present embodiment, as shown in FIG. 5, in order to prevent the rooftop from being damaged, first, in the installation space 9 of the crane surrounded by a two-dot chain line, Cover the panel (concrete panel). In this example, eight control panels 10-1 to 10-8 of 1.8 m × 0.9 m are arranged in 4 rows and 2 columns.

  And the reaction force receiving base 1 is installed in the side wall 8 side on this panel 10-1 to 10-8. The reaction force receiving base 1 is coupled to the reaction force receiving frame member 1-1 and the second reaction force receiving frame member 1 coupled to the reaction force receiving frame member 1-1 and serving as a frame connecting material for connecting the frame 4. -2.

  Next, as shown in FIG. 6, the gantry unit 4a is connected to the end of the reaction force receiving frame member 1-2, and the gantry units 4-1 to 4- are connected to the end of the reaction force receiving frame member 1-2. When 4 are sequentially connected, the configuration shown in FIG. 7 is obtained. Each of the gantry units 4-1 to 4-4 is configured by an L-shaped angle, for example, as shown in FIGS. 6 and 13A and 13B, for example, width W = 1000 mm, height H = A frame member having a rectangular parallelepiped shape with a depth of 1200 mm and a depth D of 600 mm.

  As shown in FIGS. 13 (a) and 13 (b), bolt holes 22 are formed on the side surfaces of the frame members, and the adjacent units are connected by fixing them using fastening members such as bolts and nuts. To do. Further, a caster 23 is mounted on the bottom surface, and the gantry units 4-1 to 4-4 can be moved by the worker with a little effort through the caster 23 so as to be easily carried into an elevator or the like. It has become.

  Subsequently, as shown in FIG. 8, the lowermost short support unit 2-1 is erected on the reaction force receiving frame member 1-1. FIGS. 14A to 14C show in detail a configuration example of a joint portion between the reaction force receiving frame member 1-1 and the lowermost short support unit 2-1.

  As shown in FIG. 14 (a), a rubber plate 24 is bonded to the bottom surface of the reaction force receiving frame member 1-1, and a short support unit 2- 1 is fixed. A pulley base 15 is installed at the joint portion, and a pulley 16 that guides the wire rope 25 from the winch 6 to the base (one end side) of the arm 3 is attached to the pulley base 15.

  Further, as shown in FIG. 8, a weight base 11-1 is installed on the base unit 4-4, and a plate-like (disc-like in this example) first counterweight 5-1 is installed on the weight base 11-1. Are stacked and placed. Further, a winch bracket 12 is provided on the weight base 11-1 side of the base unit 4-4, and the drive unit of the winch 6 is mounted.

  When a weight base 11-2 is installed on the base unit 4a, and a plate-like (disc-like in this example) second counterweight 5-2 is stacked on the weight base 11-2, as a whole, The structure is as shown in FIG.

  Next, as shown in FIG. 10, the gantry units 4-5 and 4-6 are stacked on the gantry unit 4-1 and the gantry unit 4 a, and are fixed and assembled using fasteners such as bolts and nuts. . Further, when the short column unit 2-2 is connected to the short column unit 2-1 and is fixed by using a fastener such as a bolt and a nut, the structure as shown in FIG. 11 is obtained as a whole.

  Finally, on the short column unit 2-2, the short column unit 2-3, the arm fixing block 14-1, the short column unit 2-4, and the arm fixing block 14-2 are sequentially coupled to assemble the column 2. One end of the arm 3 is attached to the column 2 (see FIG. 3).

  And the arm branch line 13, the branch line 18, the wire rope 25 for winches 6, etc. are mounted | worn, and the whole assembly-type rooftop simple crane is assembled as shown in FIG.

  FIGS. 15 to 17 are a plan view, a side view, and a rear view, respectively, for explaining a suspended load carrying-in process in the above-described assembly-type simple roof crane. FIG. 18 shows an example of the configuration of the arm fixing unit in the assembly-type rooftop simple crane shown in FIGS.

  As shown in FIG. 15, when unloading the suspended load 7 on the roof, the arm 3 can be easily rotated in the horizontal direction even if the suspended load 7 is heavy. A winch 26 is provided. This horizontal movement winch 26 is a manual winch, and the operator closes the tip end (the other end side) of the arm 3 by pulling or unwinding the wire 28a and pulling or returning the wire 28b by the worker. 3, 27-2, 27-1 (see FIG. 18A), the arm 3 is rotated in the horizontal direction by pulling or pulling apart.

  When the suspended load 7 is unloaded onto the roof, the wire 28a on the side of the horizontal movement winch 26 is loosened, and the operator pulls the wire 28b to pull the arm 3 toward the roof, and in this state the winch 6 to unload suspended load 7 on the roof. On the other hand, when the suspended load 7 is lifted again, the wire 28b is loosened in order to extend the direction of the arm 3 to the outside of the side wall 8, and the wire 28a is pulled by the horizontal movement winch 26 to bring the arm 3 to the outside of the side wall 8. In this state, the lifting load 7 is lifted on the roof using the winch 6. When the suspended load 7 is raised and lowered, the wires 28a and 28b are kept from getting in the way of work.

  In addition, a wind speed / wind direction meter (not shown) is installed on the top of the arm fixing block 14-2 so that the suspended load 7 can be lifted and lowered safely even on a windy day. Using parameters such as suspended load, wind pressure load, work radius, etc. from the measured value of the meter, it is calculated by a predetermined algorithm to determine whether it is safe work or not.

  Here, the suspended load is a load (mass) of the suspended load 7 and is a load applied to the crane. The wind pressure load is the sum of the load acting on the crane and the load acting on the suspended load 7. The load acting on the crane is determined by the shape and structure of the crane (wind receiving area), and the load acting on the suspended load 7 is the suspended load. 7 is determined by the shape and size (receiving area). Furthermore, the working radius is usually the one in which the load changes depending on the undulation angle of the arm 3 and is not related because it is fixed in this example, but the load point of the suspended load 7 and the wind pressure load moves when the arm 3 rotates. Therefore, it is necessary to consider.

  Then, based on the calculation result, the safety based on the weights of the first and second counterweights 5-1 and 5-2 at the time of design and work is determined. When it is determined that the safety is not sufficient, the load of the suspended load 7 is limited (the suspended load 7 is lightened or divided). Alternatively, the weights of the first and second counterweights 5-1 and 5-2 are appropriately increased or the arrangement thereof is changed to ensure safety.

  In actual work, make sure that the workers on the roof can obtain and recognize the measured values of the wind speed and anemometer, and use the measured values and parameters such as suspended load, wind pressure load, and work radius to calculate the load moment. Calculate and instruct the worker on the ground to reduce the load of the suspended load 7, or the worker on the roof increases the weight of the counterweight 5-1 and / or 5-2 on the spot. As a result, the suspended load 7 can be safely raised and lowered even on a windy day. In particular, this is important in ensuring work safety when abnormal loads such as strong winds and gusts are applied to the crane.

  Here, the distal end portion of the arm 3 is supported by an arm branch line 13, and the base portion of the arm 3 is pivotally supported by a mounting bracket 14a of an arm fixing block 14-1 as shown in FIG. It can be rotated in the direction. The rotation range of the arm 3 is limited by the arm stoppers 29-1 and 29-2.

  The inventors of the present patent application made a prototype of a simple assembling-type rooftop crane having the above-described configuration and performed various verifications. The prototype has a width W = 2730 mm, a height H = 3970 mm, a depth D = 3550 mm, an arm length of 2000 mm, and a total weight of 1150 kg. For winch 6, BMW-107-SC manufactured by Max Bull Industry Co., Ltd. was used. The power source of the winch 6 is 11.4 A (50 Hz) at a single-phase 100 V.

  The assembly and removal of the crane was possible with 5 to 6 workers, the assembly time was about 2 hours, and the removal time was about 1 hour. The number of parts (individual members) is 74, and the total weight of parts (individual members as a whole) is 91 kg.

  As a result, the maximum lifting load was about 480 kg, the maximum lifting capacity was about width W = 2 m, height H = 2 m, and depth D = 2 m. The lifting height at this time was 30 m (winding time 6 minutes).

  Furthermore, when the above-mentioned crane overturn verification was simulated in consideration of the weight of the suspended load and the wind load, when the counterweights 5-1 and 5-2 were 180 kg each, sufficient safety was ensured even with a 500 kg suspended load. It was confirmed that it could be secured.

  FIG. 19 is a view for explaining a modification of the first installation example in the simple crane for assembling rooftop according to the embodiment of the present invention, and FIGS. 19A and 19B are front views each showing an outrigger. FIGS. 3C and 3C are plan views showing an example of mounting the outrigger shown in FIGS.

  When there is a margin in the horizontal direction of the installation space 9, substantially triangular frame-shaped outriggers 30-1 and 30-2 as shown in FIGS. 19A and 19B are used. For example, as shown in FIG. 19C, if the outriggers 30-1 and 30-2 are provided outside the gantry 4, a larger lifting load can be endured and safety can be improved.

  FIG. 20 is a plan view showing a second installation example in the simple crane for assembling rooftop according to the embodiment of the present invention. FIG. 21 is a perspective view showing a reaction force receiving base and a column extracted from the assembly-type rooftop simple crane shown in FIG. 20, and FIG. 22 is a reaction force reception base and stand of the assembly-type rooftop simple crane shown in FIG. It is a perspective view which extracts and shows a counterweight and a winch. FIG. 23 is a perspective view showing a second installation example in the assembly-type rooftop simple crane according to the embodiment of the present invention.

  Since the basic configuration of the second installation example is the same as that of the first installation example, in FIGS. 20 to 23, the same components as those in FIGS. Is omitted.

  As shown in FIG. 20, the second installation example is suitable when there is an obstacle 31 on the roof where the crane is installed and it is difficult to secure a sufficient installation space 9 from the side wall 8 to the back, and it can be secured in the lateral direction. It is a thing. In other words, the gantry units 4-3 and 4-4 in the first installation example are installed in the lateral direction instead of behind the side wall 8. In this example, the crane can be installed in a space in which six panel elements of 1.8 m × 0.9 m are arranged in three rows and two columns.

  In the second installation example, although the maximum lifting load (about 320 kg in the case of the prototype mentioned above) is slightly lower than the first installation example, the crane can be used even when the installation space 9 is small and there is not enough space behind. Can be installed.

  When the crane overturn verification of the second installation example is simulated in consideration of the weight of the suspended load and the wind load, if the counterweights 5-1 and 5-2 are 360 kg, respectively, the suspended load of 500 kg is sufficient. It was confirmed that safety could be secured.

  FIG. 24 is a plan view showing a third installation example of the simple crane for assembling rooftop according to the embodiment of the present invention. FIG. 25 is a perspective view showing the reaction force receiving base and column of the assembled rooftop simple crane shown in FIG. 24, and FIG. 26 is the reaction force receiving base and stand of the assembled rooftop simple crane shown in FIG. It is a perspective view which extracts and shows a counterweight and a winch. FIG. 27 is a perspective view showing a third installation example in the assembly-type rooftop simple crane according to the embodiment of the present invention.

  Since the basic configuration of the third installation example is the same as that of the first installation example, in FIGS. 24 to 27, the same components as those in FIGS. Omitted.

  As shown in FIG. 24, in the third installation example, there are obstacles 31 and 32 on the roof where the crane is installed, it is difficult to secure the installation space 9 from the side wall 8 to the back, and there is a restriction in the lateral direction as well. It is used for.

  That is, the weight base 11-1 is installed on the base unit 4-1 in the first installation example and the plate-like first counterweights 5-1 are stacked and arranged, and the reaction force receiving frame member 1-2 A weight base 11-2 is provided on the end side opposite to the direction of the arm 3 when the suspended load 7 is unloaded onto the roof, and a plate-like second counterweight 5-2 is provided on the weight base 11-2. Are stacked.

  The gantry units 4-2 and 4-3 are stacked and assembled on the gantry unit 4-1 and the reaction force receiving frame member 1-2. Accordingly, in this example, the crane can be installed in a narrow space in which four control panels of 1.8 m × 0.9 m are arranged in two rows and two columns.

  In the third installation example, the maximum lifting load (about 150 kg in the case of the above-mentioned prototype) is further reduced compared to the first and second installation examples, but the crane can be installed in a narrow space where the crane could not be installed conventionally. Can be installed.

  In the case of this third installation example, safety is ensured by making the counterweights 5-1 and 5-2 sufficiently heavy and disassembling and lightening the heavy weights to be lifted.

  The crane overturn verification of the third installation example was simulated in consideration of the weight of the suspended load and the wind load. When the counterweights 5-1 and 5-2 are 620 kg each, the safety is ensured even with a 500 kg suspended load. It was confirmed that it can be secured.

  FIG. 28 is a plan view showing a fourth installation example in the easy-to-assemble rooftop crane according to the embodiment of the present invention. FIG. 29 is a perspective view showing the reaction force receiving base and the column of the assembled rooftop simple crane shown in FIG. 28, and FIG. 30 is the reaction force receiving base and stand of the assembled rooftop simple crane shown in FIG. It is a perspective view which extracts and shows a counterweight and a winch. FIG. 31 is a perspective view showing a fourth installation example in the easy-to-assemble rooftop crane according to the embodiment of the present invention.

  The basic configuration of the fourth installation example is the same as that of the first installation example. Therefore, in FIGS. 28 to 31, the same components as those in FIGS. Omitted.

  As shown in FIG. 28, in the fourth installation example, the obstacle 31 exists on the roof where the crane is installed, and the installation space 9 can be secured behind the side wall 8, but the obstacle 31 exists in the lateral direction. In this case, it is suitable. That is, the weight base 11-4 and the winch bracket 12 are installed behind the base unit 4-3. In this example, the crane can be installed in a space in which six panels of 1.8 m × 0.9 m are arranged in an inverted L shape.

  In the fourth installation example, although the maximum lifting load (about 490 kg in the case of the prototype described above) is slightly lower than that in the first installation example, the crane can be installed even when the obstacle 31 exists in the lateral direction.

  The crane overturn verification of the fourth installation example was simulated in consideration of the weight of the suspended load and the wind load. When the counterweights 5-1 and 5-2 were 200 kg, respectively, the suspended load of 500 kg was sufficient. It was confirmed that safety could be secured.

  As described in the first installation example to the fourth installation example, the assembly-type simple roof crane according to the present invention includes a plurality of gantry units according to the area and shape of the installation space 9 on the rooftop. (Rectangular frame members) 4-1, 4-2, 4-3 ... can be selectively assembled and placed, so it can be flexibly adapted to the rooftops of existing buildings that are narrow, irregular, and have many obstacles. Can install a crane easily.

  Also, the components of the crane are disassembled, and individual parts (members) are individually carried into the roof of the building manually by the workers and assembled on the roof. It is not necessary to secure a parking space, and there is no need to install a temporary scaffold. Of course, it is not necessary to apply for iron plate curing or crane installation, nor is it necessary to install a scaffold or a stage.

  Furthermore, for example, since materials such as antennas constituting mobile base stations of mobile phones are carried in using a winch of a crane, it is safer and quicker to carry heavy objects and large-sized materials compared to manual delivery by workers. Can be carried in efficiently. In addition, since there is no need to carry in the workers, the work can be performed more safely.

  In addition, since the weight that can be carried in at once (up to nearly 500 kg) is increased, the number of lifting steps can be reduced, and the work of installing the mobile base station on the roof of the building can be simplified and the construction period can be shortened.

  In addition, by constructing the gantry 4 by selectively assembling a plurality of gantry units (cubic frame members), sufficient strength of the crane can be obtained even if a lightweight member that can be carried in manually by an operator is used. It is done.

  Moreover, since the said support | pillar 2 and the mount frame 4 become a truss structure when assembled, the arm 3 employ | adopts the truss structure similarly, Therefore It is lightweight and can ensure sufficient intensity | strength.

  In addition, by using the plate-like counter weights 5-1 and 5-2, the counter can be freely arranged according to the area and shape of the installation space 9 so as to be able to withstand the load of the suspended load 7 and the load caused by the wind. By adjusting the number of weights 5-1 and 5-2, it is possible to easily cope with the load of the material lifted by the crane.

  Moreover, since counterweights 5-1 and 5-2 are not used and water is not used as a counterweight unlike the prior art, preparation of water and processing after use are unnecessary.

  In the above-described embodiment, for example, lifting of materials such as an antenna constituting a mobile base station of a mobile phone has been described as an example. However, the present invention is not limited to this, and any materials are lifted. Even in this case, the simple crane for rooftop assembly according to the present invention can be used.

  In addition, the case where materials and luggage are carried into the building roof has been described as an example, but the present invention is not limited to this. For example, when removing an old mobile base station (an old mobile base station Of course, the present invention can be similarly applied to the case where materials and luggage are carried out from the roof of a building.

  Although the present invention has been described above using the embodiments, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the invention in the implementation stage. Is possible.

  The above embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some constituent elements are deleted from all the constituent elements shown in the embodiment, at least one of the problems described in the column of the problem to be solved by the invention can be solved, and described in the column of the effect of the invention. In a case where at least one of the obtained effects can be obtained, a configuration in which this configuration requirement is deleted can be extracted as an invention.

  A simple rooftop crane according to the present invention disassembles the components of the crane, manually loads the individual components onto the roof of the building, assembles the crane on the roof, for example, a mobile base for a mobile phone Since materials such as antennas and radio equipment for installing stations can be easily carried in, it is extremely useful in industry.

DESCRIPTION OF SYMBOLS 1 ... Reaction force receiving base 1-1 ... Reaction force receiving frame member 1-2 ... Reaction force receiving frame member 2 ... Column 2-1 ... Short column unit 2-2 ... Short column unit 2-3 ... Short column unit 2- 4 ... Short support unit 3 ... Arm 4 ... Mounting base 4-1 ... Mounting base unit 4-2 ... Mounting base unit 4-3 ... Mounting base unit 4-4 ... Mounting base unit 4-5 ... Mounting base unit 4-6 ... Mounting base unit 4a ... Mounting base Unit 5-1 ... Counter weight 5-2 ... Counter weight 6 ... Winch 7 ... Hanging load 8 ... Side wall 9 ... Installation space 10-1 ... Comparator 10-2 ... Comparator 10-3 ... Comparator 10-4 ... Comparator 10-5 Panel 10-6 Panel 10-7 Panel 10-8 Panel 11-1 Weight base 11-2 Weight base 12 Winch bracket 13 Arm branch 14-1 Arm fixing block 14-2 ... arm fixing block 14a ... mounting bracket 15 ... pulley block 16 ... pulley (snatch block)
17 ... winch bracket connecting material 18 ... branch line 19-1 ... turnbuckle for branch line 19-2 ... turnbuckle for branch line 20 ... bracket for branch line 21 ... hook 22 ... bolt hole 23 ... caster 24 ... rubber plate 25 ... wire rope 26 ... Winch 27-1 for horizontal movement ... pulley 27-2 ... pulley 27-3 ... pulley 28a ... wire 28b ... wire 29-1 ... arm stopper 29-2 ... arm stopper 30-1 ... outrigger 30-2 ... outrigger 31 ... obstacle Object 32 ... Obstacle 33 ... Handrail

Claims (3)

A simple crane for rooftop assembly that disassembles the components of the crane and manually loads the individual members onto the rooftop of the building and assembles them on the rooftop.
A strut constructed by connecting a plurality of short strut units, a pedestal that supports the strut in an upright state, an arm mounted on the top of the strut and rotating in the horizontal direction, and a suspended load via the arm A winch that lifts and unloads, and a plurality of counterweights that balance the suspended load and the gantry when lifting and unloading the suspended load,
The gantry has a reaction force receiving base in which a plurality of rectangular parallelepiped frame members are selectively assembled and arranged in accordance with the area and shape of the installation space on the roof, and the column is erected, and the reaction force receiver It is connected to a base, and is formed of a lower step portion in which a plurality of rectangular parallelepiped frame members are selectively assembled according to the area and shape of the installation space on the roof, and a rectangular parallelepiped frame member that is stacked and assembled on the lower step portion. An easy-to-assemble rooftop crane that includes an upper stage .   A method for carrying in or carrying out a suspended load using a crane, wherein a suspended load is carried into or out of a building roof using the assembly-type simple roof crane according to claim 1. .   3. The crane according to claim 2, wherein a determination is made as to whether or not the work is safe using a predetermined algorithm using measured values of an anemometer / wind direction meter installed on the crane and parameters of suspended load, wind pressure load, and work radius. How to load or unload suspended loads using

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