JPS5976375A - Elevator type platform - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an elevating podium, particularly for theatrical stages.

In theater stages, the stage is generally divided into several fields that can be raised and lowered. Moreover, this raising and lowering movement is usually performed by a hydraulic piston.

A disadvantage of such hydraulic operation is that it is not possible to raise or lower one plane for each field. In contrast, it is advantageous, for example, if there is a second surface forming the chamber, which can close off the upper side of the chamber.

Therefore, the problem of the present invention has at least two aspects:
These two surfaces can be raised and lowered synchronously or independently of each other, one of these two surfaces can be pivoted about a horizontal axis, and the remaining field surfaces can also be moved relative to each other. It is an object of the present invention to provide an elevating platform, especially for a theater stage type, which can be freely selectively moved synchronously or independently of each other.

The present invention has solved this problem, and the elevating podium is configured as a net support mechanism that telescopes into each other, and the lowermost part and at the same time the outermost part of this net support mechanism is a lower part configured in a truss shape. It forms a structure,
A drive unit with a counterweight and a force transmitting element is provided in the undercarriage, the corner supports of the undercarriage and the heel supports of the telescopically guided net support mechanism. A lower mesh support as a corner brace, machined over its entire length and guided within said substructure, is hollow, as is an upper σ steel support, guided within this lower steel support. having a cross-sectional shape, these upper and lower net support mechanisms are connected to the first and second motor-transmission units of each one of said drive units via force transmission members,
A first platform is connected to the upper end of the upper mesh support mechanism via a console and a cardan joint.
The second platform is pivotably supported about the ll m or Y axis, and a second platform is fixedly coupled to the upper end of the lower mesh support mechanism.

By using a net support mechanism with separate drives for each of the two platforms, it is possible to flexibly adapt to stages of different sizes. This is because the stage can be constructed from sections in the form of building blocks and thus adapted to the area of use. Furthermore, by moving the two platforms individually or synchronously,
By rotating the upper platform in a Cardan style, it is possible to freely change the undulations of the stage surface.

Advantageous embodiments of the invention are described in claim 2.

Due to the separate separation of the chain drives, it is possible to drive the net support mechanisms both synchronously and independently, thus giving the stage a large number of variation possibilities. Can be done. By providing the idler wheel, the stroke of the counterweight becomes 1/2 of the stroke of the net support mechanism, so the structural height of the lower structure is reduced &'':L:L. This saves work for digging trenches and concrete work.

The first platform, which is supported in a Cardan style, is connected via a worm gear to the top of the net support mechanism and within the clear column.
It is advantageous to be able to freely shape the undulations of the stage surface if it can be driven and rotated around the axis or the Y axis.

By virtue of the fact that the J platform is pivotable, the stage surface can be tilted up to approximately 15° in all directions. At the same time, the stage surface is vertically movable to meet all requirements.

Next, the configuration of the present invention will be specifically explained with reference to the embodiments shown in the drawings.

The elevating podium is movable by means of a chain transmission guided in the substructure as a telescoping net support mechanism. In FIG. 1, a drive device 1 is shown in order to better understand the mode of operation of the device according to the invention.

This drive device 1 includes a chain gear 2 of a circulating chain 3 and direction changing rollers 5 a and 5 b of a hoisting chain 5 d.
.

Move the net support mechanism via 5C and idler wheel 4.

In this case, all rollers sa, sb.

5C is rotatably supported by a lower structure 15 (see FIG. 2), which is not shown in FIG. Since the drive devices are arranged symmetrically, the reference numerals are shown only on one side. In this case the force flow is directed in such a direction that the circulating chain 3 first moves the counterweight 7 connected at the point 88° 8b. This counterweight 7 is
The weight F of this counterweight 7, which is suspended on the idler wheel 4, is equal to the weight of the hoisting chain 5d wound around the idler wheel 4.
The weight of the balance '117 divided on both sides of M
The amount F is selected to be 2×FG. In this case, FG is the weight of the net support mechanism to be balanced.

When the counterweight 7 is lowered, the hoisting chain 5d is tightly connected to the lower structure 15 (see FIG. 2) at a point 9 and the play stop 4 is connected to the hoisting chain 5d at a point 11. The net support mechanism 6 coupled to 5d is raised.

FIG. 2 shows a sectional view taken along line II--II in FIG. 4. The upper platform 12a is arranged on an upper mesh support 13, which upper mesh support i3 is telescopically guided in a lower mesh support 14, which itself is guided in a telescopic manner. is movably supported within the lower structure 15. The substructure 15 is fixed in a hole surrounded by a concrete wall 16. Upper and lower net support mechanisms 13, 14
Guidance is provided by separate corner posts 17a, 17b. In this case, the corner pillar 17b is the lower structure 1
5 and is slidably guided within the clear text column 18. All Katomeibun pillars are machine finished along their entire length. In this way, the C-guide action is incorporated into the support action. A first and a second motor/transmission unit 19.20 are fixedly connected to the substructure 15, and these motor/transmission units 19.20 are
forming one unit. The upper and lower steel support mechanisms 13 or 14 can be driven separately or synchronously by first and second motor-transmission units 9.20. The first motor/transmission unit 19 is constructed with larger dimensions than the motor/transmission unit 20. This is because the first motor and transmission unit 19 has to support the weight present on the elevating podium 12, which cannot be perfectly balanced by a counterweight as an alternating reciprocating weight. As already mentioned in connection with FIG. 1, the upper and lower steel support mechanisms 13.14
are balanced by counterweights 7a, 7b. In this case, the counterweight 7a balances the weight of the upper steel support mechanism];3, and the counterweight 7b balances the weight of the lower steel support mechanism 14.

The symmetrical arrangement of the transmission is shown in FIG.

The power is transmitted symmetrically by a chain 3 driven via chain gears 2a, 2b. Hoisting chains 5d for the upper and lower support structures engage the laterals (ia, 6b, respectively) of the steel support structure 13.14.

The upper steel support mechanism 13 , 14 has a frame structure (not shown) on its upper side, to which the first platform 1 is connected via a console 21 7 .
2a is movably supported in Cardan style. In the illustrated embodiment, the first platform 12a is pivotable by 15° in all directions. The pivoting mechanism is constituted by a worm gear (not shown in detail) arranged on the corner support column 17a of the upper steel support mechanism 13.

The mutually independent raising and lowering movement of each lifting podium 12 allows all possible undulations of the stage surface to be created in conjunction with the swiveling movement. In the illustrated embodiment, two platforms 12a are shown in the raised position and the remaining two platforms 12a are shown in the null or near-null position.

The lower steel support mechanism 14, like the upper steel support mechanism 13, is closed at the top by the second platform 12b. This second platform 12b is configured such that a decorative board and a full-scale framework can be provided on the stage side. Thus, for example, the second platform 12b of the lower steel support 14 forms the bottom, the frame of the upper steel support 13 forms the lid of the chamber, and by covering the sides forms the chamber walls. , thus a chamber can be formed.

FIG. 3 is a sectional view taken along line III--III in FIG. 4. In this FIG. 3, upper and lower steel support mechanisms 13 are shown.
, ] The separately operable motor/transmission unit for 4) 19.20 is clearly shown. These motor/transmission units 19, 20 are sized to suit the desired driving force (47).The upper and lower steel support mechanisms 43, 14 can be driven individually or synchronously with each other. The weight of each steel support mechanism itself is compensated by counterweights 7a, 7b.In the embodiment shown, the first platform 12a is raised and oriented around the horizontal axis so that an inclined plane is formed. It is pivoted about the center (dot-dash line).The mode of operation of the chain transmission is shown in FIG.

FIG. 4 shows a plan view of a stage constructed in the form of striped bases. Two fields are shown to show the steel support mechanisms 13, 14 telescopically fitted into each other.

[Brief explanation of drawings]

1 is a schematic diagram of a chain transmission device for an elevating podium according to the present invention, FIG. 2 is a sectional view taken along line nn in FIG. 4, and FIG. FIG. 4 is a cross-sectional view taken along line III, and a plan view of the stage configured in the form of a striped base. 1... Drive device, 2, 2 a, 2'b-silver painting J
4i, :3... Chain, 4... Idle wheel, 5a, 5
b, 5c... Direction changing roller, 5d... Winding chain, 6... Steel support mechanism, 6a, 6b-... Horizontal, 7
．． 7a, 7b... Counterweight, 8a, 8b, 9.1
1. ...Point, 12...Elevating podium, 12a, ], 2b
... Platform, 13.14 ... Steel support mechanism, 15 ... Substructure, 16 ... Concrete wall, 1
7a, 17b, 18... corner support,] 9, 2.0
...Motor/transmission unit, 21...Console,
F... Weight of counterweight 7, Fl, F2... Force,
Fo... Weight of the steel support mechanism to be balanced

Claims (1)

[Claims] 1. In the elevating podium, the elevating podium is configured as a steel support mechanism (+:+, 2) that intersects with each other in a telescopic manner, and the uppermost part of the steel support mechanism (13, 14) The lower part and at the same time the outermost part form a truss-shaped substructure (15) in which counterweights (7a, 7b) and force transmission elements are arranged. A drive unit is provided with a heel corner strut (18) of said undercarriage (15) and a corner strut (17a, 17b) of the telescopingly guided steel support mechanism (]3.14). ) are machined over their entire length and guided within said substructure (15), a lower steel support mechanism (14) as a corner strut (17b),
These upper and lower steel support mechanisms (13, 14) have a similar hollow cross-sectional shape as the upper steel support mechanism (13) guided within this lower steel support mechanism (14).
is connected to each of the j first and second motor/transmission units (19, 20) of the drive unit via a force transmission member.
connected to the first platform (12a)
However, the X-axis or
The second platform (12b) is pivotably supported about an axis, and the second platform (12b) is mounted on the lower steel support mechanism (12b).
4) An elevating podium, characterized in that it is immovably connected to the upper end of the podium. 2. The force transmission member is composed of a chain (3, 5d), and the chain (3, 5d) is connected to the upper steel support mechanism (13) and the lower steel support mechanism (14) (6).
a, 6b), and the chain (3, sd) is driven by the first and second separately separated motor/transmission units (19, 20).
and second chain gears (2a, 2b), and the chain (5d) is driven by the upper net support mechanism (13) or the lower net support mechanism (14).
The net support mechanism (13, 14) is adapted to travel via idler wheels (4) connected to counterweights (7a, 7b) for the net support mechanisms (13, 14), respectively. The elevating podium according to claim 1, which has a weight twice as much as the weight to be balanced. 3. The first platform (12a) supported in a cardanic manner can be pivoted around the Xill+ line or the Y axis via a worm gear in the heel corner support (17a) of the upper net support mechanism (13). An elevating podium according to claim 1, which is adapted to be moved and moved. 4. The heel corner struts (17a, 17b or 18) of the upper and lower net support mechanisms (13, 11) or of the lower structure (15) configured as guide systems have sliding guides; An elevating podium according to claim 1. 5. The upper net support mechanism (13) has a frame structure at its upper end, on which the first platform (12a) is mounted. The elevating platform described in Section 1.