Field of the Invention
[0001] The invention relates to an elevator system, wherein a member for supporting a hoisting
machine disposed at a position close to the top within a hoistway is supported on
an upper end section of counterweight rails which stand upright within the hoistway
and guide ascending and descending operation of a counterweight.
Background Art
[0002] Figs. 4 and 5 are views showing a conventional elevator system that is structurally
analogous to an elevator system described in, e.g.,
JP-A-2000-318946. Fig. 4 is a longitudinal-cross-sectional view, and Fig. 5 is a transverse cross-sectional
view of the principal section of the elevator system shown in Fig. 4. Reference numeral
1 designates a hoistway for an elevator; 2 designates a car which ascends or descends
within the hoistway 1; and 3 designates car rails which stand upright within the hoistway
1, which are disposed on both sides of the car 2 when viewed in horizontally-projected
perspective, and which guide ascending and descending operation of the car 2.
[0003] Reference numeral 4 designates rail brackets. One side of each rail bracket 4 is
secured on a corresponding fixing member 5 formed from a beam constituting a side
surface of the hoistway 1, and the other side of the rail bracket 4 is fastened to
the corresponding car rail 3. The rail brackets 4 are vertically spaced apart from
each other within the hoistway 1.
[0004] Reference numeral 6 designates counterweight rails which stand upright within the
hoistway 1 and are spaced apart from each other in a horizontal direction in the form
of two lines. Of the two lines, one line is fastened to the rail brackets 4, and the
other line is secured on the fixing members 5 and fastened to counterweight brackets
7 which are vertically spaced apart from each other within the hoistway 1. The counterweight
rails 6 guide ascending and descending operation of a counterweight 8, which is interposed
between the two lines and moves vertically within the hoistway 1.
[0005] Reference numeral 9 designates a hoisting machine disposed at a position close to
the top within the hoistway 1; 10 designates a support member whose both ends are
joined to an upper end section of the counterweight rails 6 and which supports the
hoisting machine 9; and 11 designates a rope anchor arm projectingly provided at a
position close to the upper end of the car rails 3.
[0006] Reference numeral 12 designates a main rope. One end of the main rope 12 is joined
to the rope anchor arm 11. The other end of the main rope 12 is passed around a car
pulley 13 rotatably mounted on a lower section of the car 2. That end of the main
rope 12 is then extended upward and passed around a drive sheave of the hoisting machine
9. That end is then extended downward and passed around a suspension pulley 14 of
the counterweight 8 and joined to the support member 10.
[0007] The related-art elevator system is constructed in the previously-described manner.
When the hoisting machine 9 is operated, the car 2 and the counterweight 8 ascend
and descend in opposite directions via the main rope 12. Self weight of the hoisting
machine 9 and load stemming from tension of the main rope 12 are supported by the
car rails 3 by way of the rope anchor arm 11 and by the counterweight rails 6 by way
of the support member 10.
[0008] By means of such a construction, the majority of the downward load stemming from
the tension of the main rope 12 and the like acts on the counterweight rails 6 as
axial compressive force. For this reason, the counterweight rails 6 require strength
against the axial compressive force, as well as flexural strength which acts in a
direction substantially perpendicular to the axis and is required to carry out a function
of guiding the counterweight 8. The counterweight rails 6, which are larger in size
than those employed in a case where axial compressive force does not act on the counterweight
rails, stand upright. For this reason, costs for constructing the elevator system
are increased.
[0009] By means of the construction of the elevator system shown in Figs. 4 and 5, the load-which
is vertically exerted on the hoistway 1; that is, a building where the elevator system
is to be installed, by the elevator system-is reduced, thereby curtailing construction
costs. In the case of a structure provided with wall material into which anchor bolts
cannot be fastened upright; namely, a flexible structure, the rail brackets 4 and
the counterweight brackets 7 are fastened to a framework material constituting floors
of a building.
[0010] Therefore, the rail brackets 4 and the other members are spaced at an interval equivalent
to the height of each floor of the building. Normally, the car rails 3 and the others
are supported at intervals of three to four meters. In a situation where vertical
load acts on the counterweight rails 6, if a support interval becomes excessively
long, buckling will arise. In order to prevent occurrence of buckling, the size of
the counterweight rails 6 must be increased in accordance with the support interval.
[0011] Therefore, the invention is aimed at providing an elevator system which prevents
occurrence of buckling, which would otherwise be caused when a support interval becomes
excessively long, by use of counterweight rails of standard size in connection with
a structure of compressive load acting on the counterweight rails for guiding ascending
and descending operation of a counterweight.
[0012] As a further prior art document,
JP 2000 044146 refers to a driving machinery supporting structure suitable for a steel frame building
in a traction elevator having the driving machinery in an elevator shaft. The upper
ends of counterweight guides and building beam in the top most position of an elevator
shaft are connected to one another by a machine base frame. In this case, a machine
frame for firmly supporting vertical load of driving machinery and an auxiliary member
for supporting horizontal load are provided on the machine base frame.
[0013] As a further prior art document,
JP 61-183379 U refers to an elevator system, in which one car guide rail is connected to a counterweight
guide rail via a coupling member.
Summary of the Invention
[0014] The above mentioned problems are solved by providing an elevator system according
to claim 1.
[0015] According to the invention, car rails for guiding ascending and descending operation
of a car stand upright within a hoistway. Counterweight rails for guiding ascending
and descending operation of a counterweight stand upright within the hoistway. A support
member of a hoisting machine disposed at a position close to the top within the hoistway
is supported on an upper end section of the counterweight rails. The counterweight
rails are fastened to rail brackets supporting the car rails. A coupling member is
interposed between the rail brackets which support the car rail and are spaced apart
from each other in the vertical direction. The car rail is fastened to one side of
the coupling member, and the opposing counterweight rail is fastened to the other
side of the same.
[0016] As a result, the displacement developing from downward load due to tension of a main
rope of the elevator in the counterweight rail in the direction orthogonal to the
axis is transmitted to and supported by the car rail by way of the coupling member.
Consequently, there can be obtained a counterweight rail which does not need an excessive
increase in size and prevents occurrence of buckling, thereby curtailing costs for
constructing the elevator system.
Brief Description of the Drawings
[0017]
Figs. 1 through 3 are views showing an example mode in which a preferable elevator
system of the invention is implemented, wherein Fig. 1 is a longitudinal cross-sectional
view, Fig. 2 is an enlarged perspective view showing joints shown in Fig. 1, and Fig.
3 is a plan view showing the joints shown in Fig. 2 in an enlarged manner; and
Figs. 4 and 5 are views showing a conventional elevator system, wherein Fig. 4 is
a longitudinal cross-sectional view, and Fig. 5 is a transverse cross-sectional view
of the principal section shown in Fig. 4.
Best Modes for Implementing the Invention
[0018] In order to provide more detailed description, the invention will be described by
reference to the accompanying drawings. As shown in Figs. 1 through 3, reference numeral
1 designates a hoistway for an elevator; 2 designates a car which ascends or descends
within the hoistway 1; and 3 designates car rails which stand upright within the hoistway
1, which are disposed on both sides of the car 2 when viewed in horizontally-projected
perspective, and which guide ascending and descending operation of the car 2.
[0019] Reference numeral 4 designates rail brackets. One side of each rail bracket 4 is
secured on a corresponding fixing member 5 formed from a beam constituting a side
surface of the hoistway 1, and the other side of the rail bracket 4 is fastened to
the corresponding car rail 3. The rail brackets 4 are vertically spaced apart from
each other within the hoistway 1.
[0020] Reference numeral 6 designates counterweight rails which stand upright within the
hoistway 1 and are spaced apart from each other in a horizontal direction in the form
of two lines. Of the two lines, one line is fastened to the rail brackets 4, and the
other line is secured on the fixing members 5 and fastened to counterweight brackets
7 which are vertically spaced apart from each other within the hoistway 1. The counterweight
rails 6 guide ascending and descending operation of the counterweight 8 which is interposed
between the two lines and moves vertically within the hoistway 1.
[0021] Reference numeral 9 designates a hoisting machine disposed at a position close to
the top within the hoistway 1; 10 designates a support member whose both ends are
joined to an upper end section of the counterweight rails 6 and which support the
hoisting machine 9; and 11 designates a rope anchor arm projectingly provided at a
position close to the upper end of the car rails 3.
[0022] Reference numeral 12 designates a main rope. A rope anchor 15 provided at one end
of the main rope 12 is joined to the rope anchor arm 11. The other end of the main
rope 12 is passed around a car pulley 13 rotatably mounted on a lower section of the
car 2. That end of the main rope 12 is then extended upward and passed around a drive
sheave of the hoisting machine 9. The rope is then extended downward and passed around
a suspension pulley 14 of the counterweight 8. A rope anchor 16 provided at the other
end of the rope 12 is joined to a position close to the counterweight rail 6 having
the rail brackets 4 provided thereon.
[0023] Reference numeral 17 designates a coupling member. At least one coupling member 17
is disposed between the rail brackets 4 which are vertically spaced apart from each
other. The car rail 3 is fastened to one side of the coupling member 17 with a rail
clip 18, a bolt 19 inserted into the edge of the coupling member 17, and a nut 20
screw-engaged with an insertion end of the bolt 19. The other end of the coupling
member 17 is fastened to the counterweight rail 6 opposing the coupling member 17,
with a rail clip 21, a bolt 22 inserted into the edge of the coupling member 17, and
a nut 23 screw-engaged with an insertion end of the bolt 22.
[0024] In the elevator system having the foregoing construction, when the hoisting machine
9 is operated, the car 2 and the counterweight 8 ascend and descend in opposite directions
via the main rope 12. Self weight of the hoisting machine 9 and load stemming from
tension of the main rope 12 are supported by the car rails 3 by way of the rope anchor
arm 11 and the counterweight rails 6 by way of the support member 10.
[0025] By means of such a construction, the majority of the downward load stemming from
the tension of the main rope 12 and the like acts on the counterweight rails 6. Therefore,
buckling due to the load will develop in the counterweight 8. The coupling member
17 is disposed at least one location between the rail brackets 14 that are spaced
apart from each other in the vertical direction, whereby the car rail 3 is coupled
to the counterweight rail 6.
[0026] Therefore, displacement-which develops from the downward load due to the tension
of the main rope 12 in the counterweight rail 6 in a direction orthogonal to the axis-is
transmitted to and supported by the car rail 3 via the coupling member 17. Occurrence
of buckling in the counterweight rail 6 is prevented, and hence the strength of the
counterweight rail 6 can be made close to the strength required for carrying out the
function of guiding the counterweight 8.
[0027] By means of a simple device and construction, the counterweight rails 6 can be reduced
in size to rails of standard size without involvement of complicated efforts, thereby
curtailing costs for constructing the elevator system.
[0028] Further, the car rail 3 and the counterweight rail 6 are fastened to the coupling
member 17 by way of the rail clips 18, 21. Accordingly, the car rail 3 and the counterweight
rail 6 can be readily coupled together by means of the coupling member 17 at any appropriate
location with respect to the vertical direction. In order to limit, to a predetermined
value, the amount of displacement developing in the counterweight rail 6 in the direction
orthogonal to the axis, the coupling members 17 can be readily increased to an appropriate
number.
[0029] Measures can be readily taken against the amount of displacement developing in the
counterweight rail 6 in the direction orthogonal to the axis, the amount differing
from one elevator to another elevator. Hence, occurrence of displacement in the counterweight
rail 6 in the direction orthogonal to the axis can be prevented through simple operation.
[0030] The rope anchor 16 of the main rope 12 opposing the counterweight 8 is located at
a position close to the edge of the support member 10 facing the counterweight rail
6 joined to the coupling member 17. As a result, the majority of the vertical load
acting on the rope anchor 16 is supported by the counterweight rail 6 fastened to
the coupling member 17. Displacement, which develops from the load of the rope anchor
16 in the counterweight rail 6 close to the coupling member 17 in the direction orthogonal
to the axis, is transmitted to and supported by the car rail 3 by way of the coupling
member 17.
[0031] Consequently, no buckling occurs in the counterweight rail 6 located close to the
coupling member 17. Hence, the strength of the counterweight rail 6 provided close
to the coupling member 17 can be made close to the strength required to carry out
a function of guiding the counterweight 8. In other words, the counterweight rail
6 can be reduced to a rail of standard size, thereby curtailing costs for constructing
the elevator system.
Industrial Applicability
[0032] As has been described, in an elevator system of the invention, when a building where
the elevator system is to be installed employs, for a framework formed by assembly
of steel products, a flexible structure provided with wall material into which anchor
bolts cannot be fastened upright, rail brackets are fastened to the framework material
constituting floors of the building. A support member for the hoisting machine disposed
at a position close to the top within the hoistway is supported at an upper end section
of the counterweight rails which stand upright within the hoistway and guide ascending
and descending operation of the counterweight. In connection with such a construction,
occurrence of buckling, which would otherwise develop in the counterweight rail in
a direction orthogonal to an axis for reasons of compressive load, can be prevented.
[0033] More specifically, the counterweight rail is coupled to the car rail by means of
a coupling member provided between rail brackets, the brackets being spaced apart
from each other in the vertical direction and fastening the car rail to a fixing member
of the hoistway. As a result, the displacement developing in the counterweight rail
in the direction orthogonal to the axis is transmitted to and supported by the car
rail by way of the coupling member. Consequently, occurrence of buckling in the counterweight
rail is prevented, thereby making the strength of the counterweight rail close to
that required to carry out a function of guiding the counterweight. The counterweight
rail can be reduced in size to a rail of standard size, thereby curtailing costs for
constructing the elevator system.
1. An elevator system, comprising:
a hoisting machine (9) which is disposed at a position close to the top within a hoistway
(1) and supported by a support member (10);
a car (2) and a counterweight (8) which are operated by the hoisting machine (9) by
way of a main rope (12) to thereby ascend and descend in opposite directions through
the hoistway (1);
car rails (3) which stand upright within the hoistway (1) on both sides of the car
(2) and guide ascending and descending operation of the car (2);
rail brackets (4) which are spaced apart from each other in a vertical direction,
one side of each being secured on a fixing member (5) of the hoistway (1) and the
other side of each being fastened to one of the car rails (3);
counterweight rails (6) which stand upright within the hoistway (1), which are horizontally
spaced apart from each other into two lines, and which support at an upper end thereof
the support member (10) of the hoisting machine (9), wherein one line is fastened
to the rail brackets (4) and the other line is secured on the fixing member (5) and
fastened to counterweight brackets (7) which are vertically spaced apart from each
other within the hoistway (1), and the counterweight rails (6) guide ascending and
descending operation of a counterweight (8) interposed between the two lines; characterized by:
a coupling member (17) which is disposed between the rail brackets (4) which are vertically
spaced apart from each other whose one side is fastened to the car rail (3), whose
other side is fastened to the opposing counterweight rail (6), and which is provided
between the rail brackets (4),
wherein a rope anchor (16), which couples an end section of a main rope (12) opposing
the counterweight (8) to the support member (10) of the hoisting machine (9), is provided
at a position close to the edge of the support member (10) facing the counterweight
rail (6) fastened to the coupling member (17).
2. The elevator system according to claim 1, wherein the car rail (3) and the counterweight
rail (6) are fastened to the coupling member (17) by way of rail clips (18, 21).
1. Aufzugsystem, umfassend:
eine Hebevorrichtung (9), die an einer Position nahe der Oberseite innerhalb eines
Aufzugschachts (1) angeordnet ist und von einem Stützelement (10) getragen wird;
eine Kabine (2) und ein Gegengewicht (8), die von der Hebevorrichtung (9) über ein
Hauptseil (12) betrieben werden, um dadurch in entgegengesetzten Richtungen durch
den Aufzugschacht (1) auf und ab zu fahren;
Kabinenschienen (3), die innerhalb des Aufzugsschachts (1) auf beiden Seiten der Kabine
(2) aufrecht stehen und den nach oben und unten fahrenden Betrieb der Kabine (2) führen;
Schienenhalterungen (4), die voneinander in einer vertikalen Richtung beabstandet
sind, wobei eine Seite von jeder Schienenhalterung an einem Befestigungselement (5)
des Aufzugschachts (1) befestigt ist und die andere Seite von jeder Schienenhalterung
an einer der Kabinenschienen (3) befestigt ist;
Gegengewichtschienen (6), die aufrecht innerhalb des Aufzugschachts (1) stehen, die
horizontal voneinander in zwei Reihen beabstandet sind, und welche an einem oberen
Ende davon das Stützelement (10) der Hebevorrichtung (9) tragen, wobei eine Reihe
an den Schienenhalterungen (4) befestigt ist und die andere Reihe an dem Befestigungselement
(5) gesichert und an den Gegengewichtshaltern (7), die innerhalb des Aufzugschachts
(1) vertikal voneinander beabstandet sind, befestigt ist, und die Gegengewichtschienen
(6) den nach oben und unten fahrenden Betrieb eines Gegengewichts (8) führen, das
zwischen den beiden Reihen angeordnet ist; gekennzeichnet durch:
ein Kupplungselement (17), das zwischen den Schienenhalterungen (4), die vertikal
voneinander beabstandet sind, angeordnet ist, dessen eine Seite an den Kabinenschienen
(3) befestigt ist, dessen andere Seite an den gegenüberliegenden Gegengewichtschienen
(6) befestigt ist, und das zwischen den Schienenhalterungen (4) vorgesehen ist,
wobei ein Seilanker (16), der einen Endabschnitt des Hauptseils (12), der dem Gegengewicht
(8) gegenüberliegt, mit dem Stützelement (10) der Hebevorrichtung (9) verbindet, an
einer Position nahe einem Rand des Stützelements (10) vorgesehen ist, das der Gegengewichtsschiene
(6) zugewandt ist, die am Kupplungselement (17) befestigt ist.
2. Aufzugsystem nach Anspruch 1, dadurch gekennzeichnet, dass die Kabinenschiene (3) und die Gegengewichtsschiene (6) über Schienenklemmen (18,
21) am Kupplungselement (17) befestigt sind.
1. Système élévateur, comprenant :
une machine de levage (9) qui est disposée dans une position à proximité du dessus
dans un puits (1) et supportée par un élément de support (10) ;
une cabine (2) et un contrepoids (8) qui sont actionnés par la machine de levage (9)
au moyen d'un câble principal (12) pour descendre et monter ainsi dans des directions
opposées au travers du puits (1) ;
des rails de cabine (3) qui sont érigés dans le puits (1) sur les deux côtés de la
cabine (2) et guident l'opération de montée et de descente de la cabine (2) ;
des supports de rail (4) qui sont espacés l'un de l'autre dans une direction verticale,
un côté de chacun étant fixé à un élément de fixation (5) du puits (1) et l'autre
côté de chacun étant fixé à un des rails de cabine (3) ;
des rails de contrepoids (6) qui sont érigés dans le puits (1) qui sont espacés horizontalement
l'un de l'autre dans deux lignes, et qui supportent sur une extrémité supérieure de
celui-ci l'élément de support (10) de la machine de levage (9), dans lequel une ligne
est fixée aux supports de rail (4) et l'autre ligne est fixée à l'élément de fixation
(5) et fixée aux supports de contrepoids (7) qui sont espacés verticalement l'un de
l'autre dans le puits (1), et les rails de contrepoids (6) guident l'opération de
montée et de descente d'un contrepoids (8) interposé entre les deux lignes ; caractérisé par :
un élément de couplage (17) qui est disposé entre les supports de rail (4) qui sont
espacés verticalement l'un de l'autre dont un côté est fixé au rail de cabine (3),
dont l'autre côté est fixé au rail de contrepoids (6) opposé, et qui est prévu entre
les supports de rail (4),
dans lequel un élément d'ancrage de câble (16) qui couple une section d'extrémité
d'un câble principal (12) opposé au contrepoids (8) à l'élément de support (10) de
la machine de levage (9), est prévu dans une position à proximité de l'arête de l'élément
de support (10) faisant face au rail de contrepoids (6) fixé à l'élément de couplage
(17).
2. Système élévateur selon la revendication 1, dans lequel le rail de cabine (3) et le
rail de contrepoids (6) sont fixés à l'élément de couplage (17) au moyen de clips
de rail (18, 21).