JP2603460B2 - Overhead crane - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an overhead crane used in a small-scale construction site such as a house.

2. Description of the Related Art In a construction site of a prefabricated house, a mobile crane, a site-installed Bose crane, and the like have come to be used with the increase in size of members.

Problems to be Solved by the Invention In general, mobile cranes are widely used, however, such mobile cranes are not actually used due to narrow access routes or restricted sites. Often not.

On the other hand, Bose cranes installed on site do not have such disadvantages because they are small, but on the other hand, because they are small, the crane must be disassembled and assembled as the building progresses. Is complicated. Furthermore, this type of Bose crane requires a trolley,
If the tralop is not securely supported, there is a danger that the crane may collapse.

An object of the present invention is to solve the conventional drawbacks and to provide a crane most suitable for small-scale construction such as a house.

Means for Solving the Problems In order to achieve such an object, in the present invention, a plurality of scaffolding pillars are erected at appropriate intervals along a linear direction parallel to each other across the building space, The scaffolding supports are provided with scaffolding plate support brackets that project toward the building space, respectively.
At a position distant from the column, a bridge extending from the bracket at one end in the linear direction to the bracket at the other end is bridged, and between the rails installed in parallel with each other across the building space, A crane beam movable along the rail is attached, and a lifting device movable along the beam is attached to the crane beam.

Action The crane of the present invention is supported by a scaffold at a construction site, so that the support is firm.Because beams, rails, and lifting devices can be carried into the site and assembled, there are cases where the site is restricted. Few.

Embodiment Hereinafter, the configuration of the present invention will be described based on the illustrated embodiment. FIG. 1 shows an assembled state of the crane of the present invention. In the drawings, (1) and (1) denote struts for scaffolds. Yes, brackets (2) and (2) are first attached to these columns (1) and (1), and then the brackets (2)
According to (2), as shown in FIG. 3, a pair of rails (3) and (3) parallel to each other are attached. This rail (3)
(3) both ends of the crane beam (4) are supported so as to be movable along the rail between the crane beams (4), and the crane beam (4) is further lifted so as to be movable along the longitudinal direction of the beam (4). A trolley (5) as a device is attached. In FIG. 1, (6), (6)... Denote brackets for attaching a scaffold plate. The bracket (2) for supporting the crane beam (4) is also used as the bracket (6) for the scaffold plate.

3 to 5 show the mounting structure of the rail (3). First, a rail receiving plate (8) having a groove-shaped cross section is placed on the end of the beam (7) of the bracket (2), and the rail receiving plate (8) is provided with bolts (9) inserted into the beam (7). ). The rail (3) is made of H-section steel, and its lower flange (10) is located inside the building space with respect to the scaffolding support (1) and further away from the support (1). It is arranged on the top surface of the tip of the rail receiving plate (8). (11) is a rail pressing plate having a U-shaped cross section, and this rail pressing plate (11) is outwardly sandwiched between the lower flange (10), the rail receiving plate (8) and the beam (7) of the rail (3). The downward projection (38) attached to the upper end of the flange (10) contacts the upper surface of the flange (10). On the other hand, the tip of a bolt (12) screwed from the lower side of the rail holding plate (11) abuts on the beam (7), and the bolt (12) is tightened. And hold it tightly so that one side is pressed.
On the other hand, on the opposite side of the holding plate (11) across the web (13) of the rail (3), another second holding plate (14) is arranged on the beam (7). . This holding plate (14) has a downward projection (15) at one end.
To the upper surface of the beam (7), and a pressing projection (16) projecting downward from the other end to the upper surface of the flange (8) on the side opposite to the first pressing plate (11). And then
A fastening bolt (17) is inserted through the beam (7) from the second holding plate (14), and the holding projection (16) is inserted by a nut (18) screwed into the fastening bolt (17).
However, tighten and fix the other side of the flange (10).

The rail (3) is used by connecting a plurality of rails in the longitudinal direction, and the end of each rail (3) is fixed as described above on the upper surface of the bracket (2) (2) in each support. However, as shown in FIG. 3, the webs (13) (1) are provided at the joints between the rails (3) and (3).
Connecting plates (19) are joined to both front and back sides of (3), and the connecting plates (19) and (19) are fixed to the rails (3) and (3) by bolts (20), and the rails (3) connected to each other are fixed. (3) Integrate each other. Thereby, the scaffolding pillars (1) (1) that are erected at appropriate intervals along the straight line direction
..., a rail (3) penetrating from the bracket (2) at one end in the linear direction to the bracket (2) at the other end is bridged, and is parallel to each other across the building space. A pair of rails (3) and (3) will be installed.

As described above, the crane saddle (21) that moves along the rail (3) is attached to the rail (3) installed on the bracket (2). As shown in FIGS. 4 and 5, the crane saddle (21) is mounted on the upper surface of the flange (22) above the rail (3), and the wheels (23) that roll on the flange (22). ), And a pair of left and right guide rollers (24) (24) which are located below the wheels (23) and face both sides of the web (13) of the rail (3). The wheels (23) are supported by left and right shafts (26) mounted on the saddle box (25), while the guide rollers (24) (24) are on the side plates (27) of the saddle box (25).
It is supported via a vertical axis by a U-shaped bracket (28) mounted on the inside surface. The wheels (23)
The saddle box (25) is spaced apart in the front-rear direction.
Guide rollers (24) (24)
Also, a total of four are mounted at intervals in the front-rear direction.
To prevent the crane saddle (21) from jumping out,
Stopper (27) at the end of rail (3) as shown in FIG.
Is installed.

As shown in FIG. 4, the crane beam (4) is composed of a pair of upper chord members (31) and (31) made of steel pipes parallel to each other, and a steel pipe located below an intermediate portion between the upper chord members (31) and (31). And one lower chord (32), and further, these upper chords (31)
(31) and between the upper chord (31) (31) and the lower chord (32)
The bundle member (33) and the diagonal member (34) are joined to form an inverted triangular cross section. A groove-shaped mounting plate (35) is fixed between the ends of the upper chord members (31) (31), and bolt holes (36) (36) formed at both ends of the mounting plate (35). Is inserted into bolts (37) and (37) protruding from the upper surface of the saddle box (25), and tightened and fixed to the saddle box (25) with a nut. Therefore, this beam (4) is movable along the rail (3) together with the saddle box (25), that is, the crane saddle (21). As described above, the crane beam (4) has an inverted triangular cross-section made of a pair of upper chord members (31) and (31) and one lower chord member (32), and therefore has sufficient strength. It has a lightweight structure while holding.

The crane beam (4) passed between the left and right rails (3) (3) as described above is further provided along the crane beam (4), that is, each rail (3) (3) A trolley (5) is attached as a lifting device movable in the direction of reciprocation between the trolleys. The structure of this trolley (5) is shown in FIGS. 6 and 7. In these figures, (42) and (42) are the right and left chord materials (31) and (33), respectively.
A pair of left and right rolling wheels installed on the upper side, and these rolling wheels (42) and (42) are respectively a pair of left and right L-shaped frames (4
3) Supported by the shaft (44) passed between (43). (45) is a connecting frame having an L-shaped cross section which is mounted on the upper surfaces of these L-shaped frames (43) (43)... In a direction orthogonal to the frames (43), (43). The connecting frames (45) and (45) are composed of a front and rear pair arranged at appropriate intervals in the traveling direction of the trolley (5).
A horizontal frame (46) extending downward in a Y-shape from the frame (45) (45) is fixed at one end of the connecting frame (45) (45). The upper plate (48) of the winch (47) is fixed to the lower end of the frame (46). Further, a turnbuckle (49) is connected between the other end of the connection frame (45) (45) and the end of the upper plate (48), and the turnbuckle (49) and the horizontal frame (46) are connected. ) To support the winch (47). And this winch (4
According to 7), each member for construction is lifted and carried to the mounting part, the trolley (5) is movable along the crane beam (4), and the crane beam (4) is Since the trolley (5) can be moved in a direction perpendicular to the moving direction of the trolley (5) along the rails (3) and (3), each member can be transported from corner to corner of a building site. Therefore, it is not necessary to change the mounting position of the crane beam (4) or repeat the disassembly and assembly many times as the construction progresses. The movement of the trolley (5) and the crane beam (4) is performed by input or by using a driving device such as an electric motor.

The crane beam (4) is connected to the rail (3)
To lift to the height of (3), each scaffold support (1)
What is necessary is just to attach a hoisting device to the upper end part of (1), and to lift by the hoisting device. In order to change the installation height of the crane beam (4) according to the height of the building, the bracket (2) is replaced or a bracket (2) having a different height is attached. One of them
One may be selected and the rail (3) may be installed.

Effect of the Invention As described above, according to the present invention, a rail is supported by a scaffold assembled at a construction site, and a crane beam is attached across the rails to assemble a so-called overhead crane at the construction site. And
The crane beam is securely supported by the scaffold,
There is no instability unlike a Bose crane, and members can be carried from corner to corner of a building site by moving the crane beam and lifting device back and forth and left and right, and there is no need to repeat dismantling and assembly. Further, since these rails, beams, and lifting devices are individually loaded and assembled to assemble the site, the loading is not restricted by an approach route or a site unlike a mobile crane.
Further, the crane of the present invention is mounted using a scaffold originally assembled at a construction site,
There is no need to build a special crane frame,
2 of scaffold frame and crane frame on building site
Since there is no need to assemble the types, there is no restriction on the location, and there is an effect that it can be assembled almost anywhere on the site where the scaffold can be assembled. Further, since a special frame for the crane is not required, the cost is low and only the number of rails, crane beams, lifting devices, saddles for moving the crane beams, and the like are increased. Therefore, transportation costs do not increase so much. In addition, in the present invention, since the rail is attached so as to penetrate in the linear direction at a position apart from the scaffolding support inside the scaffolding support arranged in the linear direction, the distance between the scaffolding supports at both ends in the linear direction is Even if there is a middle scaffolding support in the building, the crane beam can be moved without interfering with the scaffolding support, and the entire building space can be covered without replacing rails or crane beams. . Conversely, even if the length of the rail is long, it can be supported by providing a scaffolding post at the middle part,
There is an effect that the crane beam can be firmly supported and can be moved stably.

Further, since the bracket can support the scaffold plate, the bracket can be moved without interfering with the scaffold support as described above, but no special bracket is required and the first floor is moved to the second floor. Even when the rails are replaced, if the scaffolding plate is installed while leaving the brackets intact, they can be used as working scaffolds for attaching gutters and the like.

[Brief description of the drawings]

FIG. 1 is a front view of an entire crane apparatus showing an embodiment of the present invention, FIG. 2 is an enlarged front view of a main part of FIG. 1, and FIG.
FIG. 4 is a perspective view of a main part showing a structure of a crane beam and a mounting structure of the end of the beam, FIG. 5 is an enlarged cross-sectional view showing a mounted state of a crane saddle, FIG. FIG. 6 is a front view showing a mounted state of the trolley, and FIG.
The figure is a side view similarly viewed from the crane beam transverse direction. (1) ... scaffolding support, (2) ... bracket, (3) ...
... rails, (4) ... crane beams, (5) ... trolleys.

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Sumio Kiuchi 6-2-27 Nakanoshima, Kita-ku, Osaka Sekisui House Co., Ltd. (56) References Real Opening Sho57-13581 (JP, U)

Claims (1)

(57) [Claims] 1. A plurality of scaffolding posts are erected at appropriate intervals along mutually parallel linear directions sandwiching a building space, and the scaffolding posts each project toward the building space. Provide plate supporting brackets, these brackets, at a position away from the support,
Along a rail that penetrates from the bracket at one end in the linear direction to the bracket at the other end,
A crane beam movable along the rail is mounted between rails installed in parallel with each other across the building space, and a lifting device movable along the beam is mounted on the crane beam. An overhead crane characterized by becoming.