JP2004091059A - Elevator device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an elevator device capable of enhancing maintainability by installing a control board within a shaft in such a manner that it assumes a normal position away from the lifting area of an elevator and a maintenance position where it approaches an operator who climbs the top of a car's ceiling. <P>SOLUTION: The car 1 is disposed inside the shaft 2 in such a manner as to be capable of rising and falling as it is guided by a car rail 3. First and second mounting arms 13A, 13B are secured to the car rail 3 and extend horizontally. A mounting post 15 is mounted between the extension ends of the first and second arms 13A, 13B. The control board 20 is rotatably mounted to the mounting post 15 by hinges 18. The control board 20 assumes the normal position where it is located along a wall surface 2a on the outside along the direction of extension of the first and second mounting arms 13A, 13B so as not to interfere with the rise and fall of the car, and a maintenance position where it projects into the shaft 2 approximately perpendicular to the wall surface 2a. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an elevator device, and particularly to an elevator device having a control panel installed in a hoistway.
[0002]
[Prior art]
In a conventional elevator apparatus, a machine room is installed above a hoistway, and a hoist, a control panel, and the like are installed in the machine room. Therefore, it is necessary to secure the installation space of the machine room above the hoistway, and there is a problem that the use efficiency of the building is reduced and the height of the building is increased.
In order to solve this problem, an elevator device in which a hoisting machine, a control panel, and the like are installed in a gap between a hoisting area of a hoisting body composed of a car and a counterweight and a wall of a hoistway, and a machine room is omitted has been proposed. I have.
[0003]
In an elevator device of this type, a hoist, a hoist, a return wheel, a speed governor, a hoisting rope and a girder beam for driving the hoist, which is composed of a car and a balancing weight, and various electric switches Since the equipment etc. are installed in the hoistway and the control panel must be installed in a place that does not affect the elevating operation of the hoist, the installation space of the control panel is extremely limited. Become.
[0004]
[Problems to be solved by the invention]
As described above, in the conventional elevator apparatus in which the machine room is omitted, since the control panel is installed in a very limited space in the hoistway, the worker who climbs the upper part of the car at the time of maintenance and inspection is required. And the control panel are too far apart, or the control panel is at an angle that is difficult for the operator to see, and the maintenance and inspection workability is significantly reduced.
[0005]
The present invention has been made in order to solve the above-described problem, and has a control panel between a normal position where the control panel is out of an elevating area of the elevating body and a maintenance and inspection position facing an operator who has climbed above the ceiling of the car. It is an object of the present invention to provide an elevator apparatus which can be installed in a hoistway so as to be movable and which can improve the maintenance workability.
[0006]
[Means for Solving the Problems]
An elevator apparatus according to the present invention includes a cage that is guided by a cage rail extending vertically along a wall surface of a hoistway, is provided so as to be able to ascend and descend, a support mechanism provided in the hoistway, A control panel that is supported by the support mechanism so as to be movable between a normal position that does not interfere with raising and lowering of the car and a maintenance and inspection position facing an operator who has climbed above the ceiling of the car at the time of maintenance and controls the operation of the elevator. It is provided with.
[0007]
The support mechanism has first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway; A vertically extending mounting column attached between the extending ends of the first and second mounting arms, wherein the control panel is rotatable about an axis whose vertical direction is the axis direction of the mounting column. The normal position, which is attached and is located along the wall surface of the hoistway in the extending direction of the first and second mounting arms, and substantially perpendicular to the extending direction of the first and second mounting arms. It is configured to take the above-mentioned maintenance inspection position which is positioned so as to protrude into the hoistway.
[0008]
The support mechanism has one end fixed to a position vertically separated from the car rail and extends horizontally from the car rail along the wall surface of the hoistway, and the other end of the support mechanism extends to the wall surface of the hoistway. The control panel includes first and second mounting arms fixed thereto, and the control panel is rotatably mounted on the other end of the first and second mounting arms so as to be rotatable around an axis whose vertical direction is an axial direction. The normal position located along the wall surface of the hoistway in the direction in which the first and second mounting arms extend, and inside the hoistway substantially perpendicular to the direction in which the first and second mounting arms extend. The maintenance inspection position is located so as to protrude.
[0009]
Further, the support mechanism includes a mounting metal fixed to a ceiling of the hoistway so that one end is located on a wall surface side of the hoistway and extends in a direction orthogonal to the wall surface, and the control panel is provided with another end at one end. A side is attached to the other end of the mounting metal so as to be rotatable around an axis having a horizontal axis as a horizontal direction, and one side of both ends is positioned along the ceiling of the hoistway with the one side facing the wall surface of the hoistway. And the maintenance inspection position, which is located substantially orthogonal to the ceiling of the hoistway and one end of which protrudes into the hoistway.
[0010]
In addition, a return wheel attached to one end of the mounting metal so as to be rotatable around an axis having a horizontal axis direction, a balancing weight, and the return wheel, and one end of the control wheel is connected to one end of the control panel. And a drive mechanism for the control panel having a wire connected to one side and the other end connected to the balancing weight.
[0011]
Further, the support mechanism includes a pair of mounting metal fixed to the wall surface of the hoistway so as to extend in the vertical direction, respectively, and be parallel to each other, and the control panel has one end on both ends. The normal position is attached to the lower ends of the pair of mounting metal so as to be rotatable around an axis having an axial direction as a horizontal direction, and is located along the wall surface of the hoistway with the other side of both ends facing upward. The maintenance and inspection position is located so that the other end of each of the ends is substantially orthogonal to the wall surface of the hoistway and protrudes into the hoistway.
[0012]
Further, a pulley shaft mounted on the wall surface of the hoistway with the length direction being horizontal at a position above the pair of mounting metals, a pair of wire winding pulleys fixed to both ends of the pulley shaft, A wire wound around a wire take-up pulley, the ends of which are respectively connected to the other ends of both ends of the control panel, a handle attached to another wall surface adjacent to the hoistway wall surface, and a rotational torque of the handle And a drive mechanism section of the control panel having an endless ball chain for transmitting the drive force to the pulley shaft.
[0013]
The support mechanism includes first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway, The control panel is mounted on the first and second mounting arms so as to be slidable in the direction in which the first and second mounting arms extend, and is separated from the car rail and along the wall surface of the hoistway. It is configured to take the normal position that is located and the maintenance inspection position that is located near the car rail and along the wall surface of the hoistway.
[0014]
Also, a slide rail configured to be extendable and retractable is attached to each of the first and second mounting arms such that the direction of extension and contraction thereof matches the direction in which the first and second mounting arms extend, and the control panel includes: It is attached to the slide rail.
[0015]
A rail is mounted on the first mounting arm, a backing plate is mounted on the second mounting arm, a hanger plate having a hanger roller is mounted on one end of the control panel, and a guide plate is mounted on the other end of the control panel. The control panel is inserted into a gap between the second mounting arm and the backing plate, and the hanger roller is hung on the first mounting arm by hanging the hanger roller on the rail. It is.
[0016]
Further, the support mechanism has one end fixed to the car rail, and a mounting arm extending horizontally along the wall surface of the hoistway from the car rail, and one end of the mounting arm is vertically separated from the mounting arm. An upper and lower support arm fixed to a car rail and extending horizontally from the car rail along the wall surface of the hoistway, and each having an abutment plate, and extending downward to the car rail side of the mounting arm. A handle mounting metal attached to the control arm, and a pair of links, one end of which is rotatably mounted on an anti-cage rail side of the mounting arm so as to be rotatable around an axis having a horizontal axis direction. Insert the guide plates attached to the gaps between the upper and lower support arms and the backing plate, respectively, and attach the other end of the pair of links to the upper end of the back surface around the axis whose axis is the horizontal direction. The normal position, which is rotatably mounted, is slidably mounted on the mounting arm in the direction in which the mounting arm extends, and is separated from the cage rail and positioned along the wall surface of the hoistway, It is configured to take the maintenance and inspection position which is located along the wall surface of the hoistway in close proximity to the car rail, and further, is rotated around an axis having a horizontal axis on the back surface of the control panel. A nut mounting member which is attached so as to be capable of being fixed to the nut, a oscillating nut which is three-dimensionally swingably attached to a lower end of the handle mounting metal, and a screw rod which is screwed to the nut and the oscillating nut. And a drive mechanism of the control panel comprising a handle fixed to an end of the screw rod extending from the swing nut.
[0017]
Further, a position detection switch for detecting that the control panel is located at the normal position is provided, and when the control panel is moving from the normal position, the operation mode of the elevator is switched to the maintenance inspection mode. Are configured.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
Embodiment 1 FIG.
FIG. 1 is a perspective view illustrating a configuration of a control panel in an elevator apparatus according to Embodiment 1 of the present invention, and FIG. 2 is a diagram illustrating a periphery of a control panel located at a normal position in the elevator apparatus according to Embodiment 1 of the present invention. FIG. 3 is a perspective view showing a periphery of a control panel located at a maintenance inspection position in the elevator apparatus according to Embodiment 1 of the present invention.
[0019]
In FIG. 1, a control panel 20 is a box-shaped control panel main body 21 in which electric devices 22 for controlling the operation of the elevator apparatus are stored, and is rotatably attached to the control panel main body 21 via a hinge 23. And a lid 24. Then, the lid 24 is held in a state where the control panel body 21 is closed by tightening a thumb screw 26 to a stopper 25 provided on the control panel body 21. Further, a mounting metal 27 extends vertically from the upper and lower end surfaces of the control panel main body 21.
[0020]
In FIGS. 2 and 3, the car rail 3 extends vertically in the hoistway 2. The car 1 is arranged in the hoistway 2 so as to be able to move up and down in the hoistway 2 while being guided by the car rail 3. The return beam 4 is fixed to the car rail 3 by rail clips 19a and bolts 19b, and attached to the upper side of the hoistway 2. Then, a hoisting rope 6 hung on a return wheel 5 attached to the return beam 4 is driven to travel by a hoisting machine (not shown), and moves up and down the car 1 and a balancing weight (not shown). ing. A governor 7 having a governor rope 8 is attached to the return beam 4.
[0021]
A safety handrail 9 is rotatably attached to an upper beam 10 of a car frame via a hinge 11 on an upper portion 1a of the ceiling of the car 1. At the time of maintenance and inspection, the safety handrail 9 is rotated around the hinge 11 and rises from the upper part 1a of the car 1 and is connected to each other by the fixed link 12 to form a maintenance and inspection work space for the worker. . In addition, at normal times, the safety handrail 9 is released from the connection by the fixed link 12, is rotated around the hinge 11, and is housed on the ceiling 1 a of the car 1.
[0022]
One end of each of the plate-shaped first and second mounting arms 13A and 13B is fixed to the car rail 3 by a rail clip 19a and a bolt 19b, and is separated from the car rail 3 by a predetermined distance in the vertical direction (extending direction of the car rail 3). It extends in the horizontal direction. Further, a reinforcing column 14 extending in the vertical direction is fixed between the first and second mounting arms 13A and 13B at both ends at the respective center portions, and is provided between the first and second mounting arms 13A and 13B. Further, a mounting column 15 extending in the vertical direction is fixed at both ends to the first and second mounting arms 13A and 13B, and is bridged between the other ends of the first and second mounting arms 13A and 13B. Of the supporting mechanism.
The mounting plate 16 is formed in a U-shape in which flat mounting pieces 16b are respectively extended from both ends of one side of a base 16a having an L-shaped cross section. Then, the mounting metal 27 is fastened and fixed to the mounting piece 16 b using the mounting bolt 17, and the control panel 20 is mounted on the mounting plate 16. The base 16 a of the mounting plate 16 is connected to the mounting column 15 via a hinge 18. Therefore, the mounting plate 16 (control panel 20) is mounted on the mounting column 15 so as to be rotatable around the axis 18a of the hinge 18. The axial direction of the shaft 18a coincides with the vertical direction.
[0023]
Each of the stoppers 30 has a notch 31a at one end, and the other end has a pair of fixed links 31 rotatably attached to the base 16a of the mounting plate 16 around the pin 31b, and both ends pivoted around the pin 32a. And a joint 32 attached to one end of a pair of fixed links 31 as much as possible. The stopper 30 has a metal fitting 32, rotates the fixed link 31 clockwise around the pin 31b in FIG. 2 to a horizontal position, and fits the notch 31a to a fixing bolt 33 attached to the mounting column 15. After that, the control panel 20 is fixed at the normal position shown in FIG. 2 by tightening the fixing bolt 33. Further, by loosening the fastening of the fixing bolt 33, holding the joint 32, and rotating the fixing link 31 counterclockwise around the pin 31b in FIG. 2 until it is positioned on the base 16a side, the control panel 20 is moved. It is set to be rotatable around the shaft 18a.
[0024]
The position detection switch 34 detects that the control panel 20 is located at the normal position, and is attached to the mounting post 15 in the vicinity of the fixing bolt 33, and electrically connected to the electric devices 22 in the control panel 20. It is connected to the. The position detection switch 34 is such that the switch contact rod 34a is pressed by the fixed link 31 in which the notch 31a is fitted to the fixing bolt 33, and the control panel 20 is located at the normal position. Is detected.
A chain 28 for fixing during maintenance is attached to the lower mounting piece 16b, and a locking groove 13a for locking the hook 28a of the chain 28 is provided in the second mounting arm 13B positioned below. Have been.
[0025]
In the elevator device configured as described above, the control panel 20 is rotatably mounted on the mounting column 15 around the axis 18a of the hinge 18 and is movable between the normal position and the maintenance inspection position.
Normally, as shown in FIG. 2, the control panel 20 is fastened and fixed by the fixing bolt 33 in a state where the fixing link 31 has the notch 31a fitted to the fixing bolt 33, and the first and second mountings are performed. The arms 13A and 13B are located outside the extending direction of the arms 13A and 13B along the wall surface 2a, and are fixed to a normal position that does not interfere with the elevation of the car 1. At this time, the fixed link 31 presses the switch contact rod 34a, and the position detection switch 34 detects that the control panel 20 is located at the normal position. Then, the normal position detection signal of the position detection switch 34 is input to the electric devices 22 and the elevator device enters the operation mode. In the normal position, the control panel 20 does not interfere with not only the car 1 but also a lifting body such as a balancing weight that moves up and down in synchronization with the raising and lowering operation of the car 1.
[0026]
At the time of maintenance and inspection, the operator stops the car 1 at the lower part of the control panel 20, climbs to the upper part 1a of the ceiling of the car 1, turns the safety handrail 9 around the hinge 11 to stand up, and sets the fixed link 12 To form a maintenance and inspection work space. Then, the fastening of the fixing bolt 33 is loosened, and the fixing link 31 is rotated counterclockwise around the pin 31b in FIG. 2 with the joint 32, thereby moving the fixing link 31 toward the base 16a. Thereby, the pressing of the switch contact rod 34a by the fixed link 31 is released, and the position detection switch 34 detects that the control panel 20 is not located at the normal position. Then, the non-normal position detection signal of the position detection switch 34 is input to the electric equipment 22, and the elevator device is switched from the operation mode to the maintenance and inspection mode. Next, the operator rotates the control panel 20 around the axis 18a of the hinge 18 from the upper ceiling 1a of the car 1 and draws the control panel 20 toward the upper side of the car 1. Then, the hook 28a of the chain 28 is locked in the locking groove 13a of the second mounting arm 13B, and the control panel 20 moves the first and second mounting arms 13A, 13B in the extending direction as shown in FIG. , And is fixed to a maintenance inspection position protruding into the hoistway 2 substantially orthogonal to the shaft. Thereby, the control panel 20 is positioned such that the front surface (lid 24) faces the operator.
[0027]
Next, the operator loosens the fastening of the thumb screw 26 to open the lid 24, and performs maintenance and inspection of the electric devices 22 in the control panel main body 21. After the inspection, the lid 26 is closed and the thumb screw 26 is fastened to the stopper 25. Then, the hook 28a of the chain 28 is removed from the locking groove 13a of the second mounting arm 13B, and the control panel 20 is rotated around the axis 18a of the hinge 18 to the normal position. Furthermore, the fixing link 31 is rotated to the horizontal position around the pin 31b with the joint 32, and the notch 31a is fitted to the fixing bolt 33, and then the fixing bolt 33 is tightened. As a result, the control panel 20 is fixed at the normal position shown in FIG. Then, the fixed link 31 presses the switch contact rod 34a, and the normal position detection signal of the position detection switch 34 is input to the electric equipment 22, and the elevator device is switched from the maintenance inspection mode to the operation mode.
Then, the connection of the safety handrail 9 by the fixed link 12 is released, and the safety handrail 9 is pivoted around the hinge 11 and overlaps the upper part 1a of the car 1 to complete the maintenance and inspection work.
[0028]
In the first embodiment, since the control panel 20 is disposed in the hoistway 2, the machine room can be omitted, and the height of the building can be reduced.
Further, at normal times, since the control panel 20 is located at the normal position where it does not interfere with the elevation of the car 1, collision between the car 1 and the control panel 20 during the operation mode of the elevator apparatus is avoided.
Further, at the time of maintenance and inspection, the control panel 20 can be pulled from the normal position to the upper side of the car 1, so that the control panel 20 approaches and faces the worker who has climbed to the upper ceiling 1 a of the car 1, The hand of the worker can be reached, the worker can easily see the inside of the control panel main body 21, and the maintenance and inspection work can be facilitated.
In addition, since the first and second mounting arms 13A and 13B are fixed to the car rail 3 which is mounted in the hoistway 2 with high strength and high positional accuracy, the control panel 20 is installed firmly and accurately. Can be.
Further, a position detection switch 34 for detecting that the control panel 20 is located at the normal position is provided, and when the control panel 20 is moving from the normal position, the elevator device is switched from the operation mode to the maintenance and inspection mode. As a result, during the maintenance and inspection work, the power for raising and lowering the car 1 is shut off, and the raising and lowering operation of the car 1 is disabled, so that the work safety is ensured.
[0029]
Embodiment 2 FIG.
FIG. 4 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 2 of the present invention, and FIG. 5 is a control located at a maintenance inspection position in an elevator apparatus according to Embodiment 2 of the present invention. It is a perspective view showing the circumference of a board.
[0030]
4 and 5, in the first and second mounting arms 40A and 40B as a support mechanism of the control panel 20, a bent piece 40b is formed at the other end of the flat main part 40a. The first and second mounting arms 40A and 40B are fixed at one end to the car rail 3 by rail clips 19a and bolts 19b, and extend horizontally from the car rail 3 at a predetermined distance in the vertical direction. . At this time, the bent piece 40b is horizontal. Further, a reinforcing column 14 extending in the up-down direction is fixed between the main portions 40a of the first and second mounting arms 40A, 40B at both ends, and is provided between the first and second mounting arms 40A, 40B.
The mounting plate 41 has a base 42 having an L-shaped cross section, a first mounting piece 43 in which a bent piece 43b is formed at one end of a flat main portion 43a, and a second mounting piece 44 having an L-shaped cross section. Then, the first attachment piece 43 extends the bent piece 43b to the other side of the base 42, and the main part 43a is fixed to one end of one side of the base 42 by welding or bolts, and the second attachment piece 44 Has one end extending from the base 42, the other end 44b abutting the other end of the base 42 against the other side 44b, and the one side 44a is fixed to the other end of one side of the base 42 by welding or bolts, etc. It is made in a U-shape.
[0031]
Then, each mounting metal 27 is fastened and fixed to the main portion 43 a of the first mounting piece 43 and one side 44 a of the second mounting piece 44 using the mounting bolt 17, and the control panel 20 is mounted on the mounting plate 41. .
The bent piece 43b of the first mounting piece 43 is rotatably attached to the bent piece 40b of the first mounting arm 40A by a stepped bolt pin 45, and the other side 44b of the second mounting piece 44 is turned by a stepped bolt pin 45 to the second side. It is rotatably attached to the bent piece 40b of the attachment arm 40B. The other side 44b of the second mounting piece 44 is fastened and fixed to the bent piece 40b of the second mounting arm 40B by a fixing bolt 46. Therefore, the mounting plate 41 (control panel 20) is mounted on the other ends of the first and second mounting arms 40A and 4B so as to be rotatable around the stepped bolt pin 45. The axial direction of the stepped bolt pin 45 coincides with the vertical direction.
The other configuration is the same as that of the first embodiment.
[0032]
In the elevator device configured as described above, the control panel 20 is attached to the other ends of the first and second mounting arms 40A and 40B so as to be rotatable around the stepped bolt pin 45. It can be moved between the inspection position.
[0033]
Normally, as shown in FIG. 4, the control panel 20 has the other side 44b of the second mounting piece 44 fastened and fixed to the bent piece 40b of the second mounting arm 40B by the fixing bolt 46, and The outer side of the two mounting arms 40A and 40B in the extending direction is located along the wall surface 2a, and is fixed to a normal position that does not interfere with the elevation of the car 1. At this time, the second mounting piece 44 presses the switch contact rod 34a, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator apparatus is in the operation mode.
[0034]
At the time of maintenance and inspection, the operator stops the car 1 at the lower part of the control panel 20, climbs to the upper part 1a of the ceiling of the car 1, turns the safety handrail 9 around the hinge 11 to stand up, and sets the fixed link 12 To form a maintenance and inspection work space. Then, the fixing bolts 46 are removed, and the control panel 20 is rotated around the stepped bolt pins 45 from the upper ceiling 1 a of the car 1 to draw it toward the upper side of the car 1. Then, the hook 28a of the chain 28 is locked in the locking hole 40c formed in the bent piece 40b of the second mounting arm 40B. Thereby, as shown in FIG. 5, the control panel 20 is fixed to the maintenance and inspection position which projects into the hoistway 2 substantially perpendicular to the extending direction of the first and second mounting arms 40A, 40B. . Thereby, the control panel 20 is positioned such that the front surface (lid 24) faces the operator.
Due to the turning operation of the control panel 20, the pressing of the switch contact rod 34a by the second mounting piece 44 is released, and the position detection switch 34 detects that the control panel 20 has moved from the normal position. Then, the non-normal position detection signal of the position detection switch 34 is input to the electric equipment 22, and the elevator device is switched from the operation mode to the maintenance and inspection mode.
[0035]
Therefore, also in the second embodiment, the same effect as in the first embodiment can be obtained.
[0036]
Embodiment 3 FIG.
FIG. 6 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 3 of the present invention. FIG. 7 is a control located at a maintenance inspection position in an elevator apparatus according to Embodiment 3 of the present invention. It is a perspective view showing the circumference of a board.
[0037]
6 and 7, first and second mounting members 50A and 50B as support mechanisms of the control panel 20 each have an L-shaped cross section, and one end of the ceiling 2b of the hoistway 2 is attached to the ceiling 2a. It is arranged in parallel so as to be close to one side (side surface 2a) and perpendicular to one side of the ceiling 2b and to face one side of the L-shape. 51, it is fastened and fixed to the ceiling 2b. A return wheel 52 is attached to one end of one of the L-shaped sides of the first and second mounting members 50A and 50B so as to be rotatable around a horizontal axis.
The mounting arms 53 extend from both ends of the control panel body 21 of the control panel 20 to one side. The control panel 20 is rotatable around a pin 54 (horizontal axis) at the other end of one of the L-shaped sides of the first and second mounting plates 50A and 50B, on the other end of the control panel body 21. Attached to. A wire 55 has one end connected to the extending end of the mounting arm 53 and is hung over the return wheel 52, and the other end connected to the balancing weight 56, thereby constituting a drive mechanism of the control panel 20. .
[0038]
In the elevator device configured as described above, the control panel 20 is attached to the first and second mounting members 50A and 50B mounted on the ceiling 2b so as to be rotatable around the pins 54 (horizontal axis). Between the normal position and the maintenance and inspection position.
[0039]
Normally, the control panel 20 is rotated clockwise in FIG. 6 around the pin 54 by the weight of the counterweight 56, and is held with the rear surface of the control panel main body 21 facing the ceiling 2b. At this time, the control panel 20 is arranged along the surface of the ceiling 2b in an area between the center of the ceiling 2b and one side of the ceiling 2b, as shown in FIG. It is located in the normal position where it does not interfere.
[0040]
At the time of maintenance and inspection, the worker stops the car 1 close to the ceiling 2b, climbs the upper part 1a of the car 1 and assembles the safety handrail 4. Then, the balancing weight 56 is pushed up. Thereby, the control panel 20 rotates counterclockwise in FIG. 6 around the pin 54, and the mounting arm 53 faces downward. Then, one mounting arm 53 is fixed to the return beam 4 with the temporary fixing bolt 57. Then, as shown in FIG. 7, the control panel 20 is pulled toward the upper side of the car 1 and the surface (lid 24) is fixed to the maintenance inspection position facing the operator. Thereafter, the operator opens the cover 24 of the control panel 20 and performs maintenance and inspection work.
When the maintenance is completed, the temporary fixing bolt 57 is removed, the balancing weight 56 is pushed down, and the control panel 20 is returned to the normal position.
[0041]
Therefore, also in the third embodiment, the same effects as in the first embodiment can be obtained.
Further, in the third embodiment, the control panel 20 can be arranged in an empty space on one side from the center of the ceiling 2b, so that the space can be used effectively.
[0042]
In the third embodiment, the balance weight 56 may be fixed to the side wall 2a of the hoistway 2 using a holding bolt in a state where the control panel 20 is located at the normal position. In this case, since the control panel 20 is fixed at the normal position, it is possible to prevent the control panel 20 from moving to the maintenance inspection position side and colliding with the car 1 during the operation mode of the car 1.
In the third embodiment, the position detection switch 34 for detecting that the control panel 20 is located at the normal position is not described. However, it goes without saying that the position detection switch 34 is provided. There is no such thing.
In the third embodiment, the first and second mounts 50A and 50B are used as the support mechanism. However, the control panel 20 is supported using one of the first and second mounts 50A and 50B. You may do so.
[0043]
Embodiment 4 FIG.
FIG. 8 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 4 of the present invention, and FIG. 9 is a control located at a maintenance inspection position in an elevator apparatus according to Embodiment 4 of the present invention. It is a perspective view showing the circumference of a board.
[0044]
8 and 9, first and second mounting members 50A and 50B as a support mechanism of the control panel 20 have an L-shape in which the length direction is aligned with the side wall 2a of the hoistway 2 vertically and upward. Are arranged in parallel so that one side faces each other, and the other side of the L-shape is fastened and fixed to the side wall 2a by the anchor bolt 51. A pair of pulley attachments 58 are fixed to the side wall 2a so as to be positioned above the first and second attachments 50A and 50B, respectively, in the horizontal direction. A wire take-up pulley 59 is fixed to both ends of a pulley shaft 60 pivotally supported by a pair of pulley mounting brackets 58, and a pulley 61 for a ball chain is fixed to one end of the pulley shaft 60.
A drive 62 is mounted in the center of the side wall 2a 'adjacent to the side wall 2a on which the pulley shaft 60 is mounted. An endless ball chain 63 is stretched around a ball chain pulley 62 a of the driving device 62 and a ball chain pulley 61 fixed to one end of the pulley shaft 60. The driving device 62 includes a hand-wound handle 64 for driving the pulley 62a for a ball chain.
[0045]
The control panel 20 has the extending end of each mounting arm 53 attached to the lower end of one of the L-shaped sides of the first and second mounting plates 50A and 50B so as to be rotatable around a pin 65 (horizontal axis). . Then, ends of the wires 55 wound around the respective wire winding pulleys 59 are connected to the other side of both end surfaces of the control panel body 21 of the control panel 20. Further, the position detection switch 34 is attached to one pulley attachment metal 58.
The drive mechanism of the control panel 20 is composed of the wire 55, the wire winding pulley 59, the pulley shaft 60, the ball chain pulleys 61 and 62a, the ball chain 63, the manually-wound handle 64, and the like.
[0046]
In the elevator device configured as described above, the control panel 20 is attached to the first and second attachment members 50A and 50B attached to the side wall 2a so as to be rotatable around a pin 65 (horizontal axis). Between the normal position and the maintenance and inspection position.
[0047]
Normally, by rotating the manual winding handle 64, the pulley 62a for a ball chain is rotationally driven. The rotation torque of the ball chain pulley 62a is transmitted to the ball chain pulley 61 via the ball chain 63, and the pulley shaft 60 is driven to rotate. By the rotation of the pulley shaft 60, the wire take-up pulley 59 rotates, and the wire 55 is taken up by the wire take-up pulley 59. Thereby, the control panel 20 rotates around the pin 65, and the cover 24 of the control panel 20 is located at the normal position facing the side wall 2a as shown in FIG. And the control panel 20 is arrange | positioned along the surface of the side wall 2a, and does not interfere with the raising / lowering of the car 1. FIG. At this time, the switch contact rod 34a of the position detection switch 34 is pressed by the push plate 66 provided on the control panel main body 21, and it is detected that the control panel 20 is located at the normal position. It becomes.
[0048]
Then, at the time of maintenance and inspection, the worker A stops the car 1 close to below the control panel 20, climbs the ceiling 1 a of the car 1, and assembles the safety handrail 4. Then, the manual winding handle 64 is rotated in the reverse direction. As a result, the pulley shaft 60 rotates in the reverse direction, and the wire 55 is paid out from each wire winding pulley 59. Then, the control panel 20 rotates clockwise in FIG. 8 around the pin 65, protrudes into the hoistway 2 substantially perpendicularly to the wall surface 2a, and becomes substantially horizontal. At this time, when the control panel 30 is slightly rotated, the push plate 66 is disengaged from the switch contact rod 34a, and the elevator device is switched from the operation mode to the maintenance mode. Then, as shown in FIG. 9, the control panel 20 is drawn to the upper side of the car 1, and the control panel 20 is located at the maintenance inspection position where the surface (the lid 24) faces the worker A. Therefore, the worker A opens the cover 24 of the control panel 20 and performs maintenance and inspection work.
When the maintenance and inspection are completed, the manual winding handle 64 is rotated to wind the wire 55 around the wire winding pulley 59, and the control panel 20 is returned to the normal position.
[0049]
Therefore, also in the fourth embodiment, the same effects as in the first embodiment can be obtained.
Further, in the fourth embodiment, at the time of maintenance and inspection, since the control panel 20 is in a horizontal state with the lid 24 as the upper surface and is located at the maintenance and inspection position drawn toward the upper side of the car 1, maintenance and inspection work is performed. This makes it easy to remove, and allows the user to take a comfortable working posture, thereby improving working efficiency.
[0050]
In the fourth embodiment, it goes without saying that means for fixing the control panel 20 to the normal position and the maintenance / inspection position are provided.
Further, the drive mechanism 62 may be provided near the landing opening of the side wall 2 a ′ of the hoistway 2. In this case, the manual winding handle 64 can be operated from the landing.
[0051]
Embodiment 5 FIG.
FIG. 10 is a front view showing around a control panel located at a normal position in an elevator apparatus according to Embodiment 5 of the present invention, and FIG. 11 is a control located at a maintenance inspection position in an elevator apparatus according to Embodiment 5 of the present invention. It is a front view showing the circumference of a board.
[0052]
10 and 11, first and second mounting arms 70A and 70B as a support mechanism of the control panel 20 are fixed at one end to the basket rail 3 by rail clips 19a and bolts 19b, and are separated by a predetermined distance in the vertical direction. And extends horizontally from the car rail 3. An intermediate mounting arm 71 is fixed at one end to the car rail 3 with a rail clip 19a and a bolt 19b at a position between the first and second mounting arms 70A and 70B, and extends horizontally from the car rail 3. The intermediate mounting arm 71 is provided with a screw hole 71a for fixing a mounting metal 74 described later.
The slide rail 72 has an inner tube 72a having a rectangular cross-sectional shape accommodated in an outer tube 72b having a rectangular cross-sectional shape, and a ball bearing 72c interposed between the inner tube 72a and the outer tube 72b. The tube 72a is configured to be able to expand and contract with respect to the outer tube 72b. Then, the slide rail 72 has the outer tube 72b attached to each of the first and second attachment arms 70A, 70B with the expansion / contraction direction of the inner tube 72a being horizontal. Further, an arm 73 is attached to the inner pipe 72 a of each slide rail 72 so as to be able to expand and contract. A ball bearing 72c is interposed between the inner tube 72a and the arm 73. Further, the position detection switch 34 is mounted on the intermediate mounting arm 71.
[0053]
Each mounting metal 27 of the control panel 20 is fastened and fixed to the tip of each arm 73 using the mounting bolt 17, and the control panel 20 is mounted on the mounting arm 70 via the arm 73 and the slide rail 72. Further, a mounting metal 74 extends from the side surface of the control panel main body 21 to the car rail 3 side. Further, a cam 74 a that engages with the switch roller 34 b of the position detection switch 34 is provided at the lower end of the extending end of the mounting metal 74.
[0054]
In the elevator apparatus configured as described above, the control panel 20 is slidably mounted on the first and second mounting arms 70A and 70B, and can be moved between the normal position and the maintenance / inspection position as described below. ing.
[0055]
Normally, the control panel 20 extends the inner tube 72a from the outer tube 72b of the slide rail 72 and extends the arm 73 from the inner tube 72a as shown in FIG. The arms 70A and 70B are located on the side opposite to the car rail 3 along the wall surface 2a. Then, the mounting metal 74 is fixed to the intermediate mounting arm 71 by fastening a fixing bolt 75 to the screw hole 71 a of the intermediate mounting arm 71. As a result, the control panel 20 is fixed at a normal position that does not interfere with the elevation of the car 1. At this time, the cam 74a presses the switch roller 34b, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator apparatus is in the operation mode.
[0056]
Further, at the time of maintenance and inspection, the operator stops the car 1 close to below the control panel 20, climbs the ceiling 1 a of the car 1, and assembles the safety handrail 4. Then, the fixing bolt 75 is removed, and the control panel 20 is pulled toward the car 1. Thereby, the arm 73 is pulled into the inner tube 72a, the inner tube 72a is drawn into the outer tube 72b, and the control panel 20 slides toward the car rail 3 side. At this time, the cam 74a is disengaged from the switch roller 34b, the position detection switch 34 detects that the control panel 20 has moved from the normal position, and the elevator apparatus is switched from the operation mode to the maintenance and inspection mode. Then, when the control panel 20 slides to a position where the worker who reaches the upper part 1a of the ceiling of the car 1 can reach, the mounting metal 74 fastens the fixing bolt 75 to the screw hole 71a of the intermediate mounting arm 71, and the intermediate mounting arm 71 is fixed. It is fixed to the mounting arm 71. Thereby, as shown in FIG. 11, the control panel 20 approaches the cage rail 2a along the wall surface 2a, and the surface (the lid 24) is fixed to the maintenance inspection position facing the worker.
[0057]
Therefore, the operator opens the cover 24 of the control panel 20 and performs maintenance and inspection work.
When the maintenance is completed, the fixing bolt 75 is removed, and the control panel 20 is pushed in a direction away from the car rail 3. Then, the control panel 20 slides from the maintenance inspection position to the normal position. Therefore, the control panel 20 is fixed at the normal position by tightening the fixing bolt 75. At this time, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator device is switched from the maintenance and inspection mode to the operation mode.
[0058]
Therefore, also in the fifth embodiment, the same effect as in the first embodiment can be obtained.
Further, since the slide rail 72 is used to move the control panel 20 between the normal position and the maintenance / inspection position, the moving force of the control panel 20 is reduced by the operation of the built-in ball bearing 72c, and the work load is reduced. Is done.
[0059]
Embodiment 6 FIG.
FIG. 12 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 6 of the present invention, and FIG. 13 is a control located at a maintenance inspection position in an elevator apparatus according to Embodiment 6 of the present invention. It is a perspective view showing the circumference of a board.
[0060]
12 and 13, plate-like first and second mounting arms 80A and 80B as a support mechanism of the control panel 20 are fixed at one end to the cage rail 3 by rail clips 19a and bolts 19b, respectively. The other end of each is horizontally extended from the car rail 3 at a predetermined distance, and the other end is fixed to the side wall 2 a of the hoistway 2 by an anchor bolt 81.
A rail 82 is attached to the first attachment arm 80A using a countersunk screw 83. Further, the contact plate 84 is attached to the second attachment arm 80B by an attachment bolt 85 so as to have a predetermined gap.
[0061]
A hanger plate 86 is attached to one mounting metal 27 of the control panel 20 by mounting bolts 17, and a guide plate 87 is mounted to the other mounting metal 27 of the control panel 20 by mounting bolts 17. A pair of hanger rollers 88 running on the rails 82 are rotatably attached to the hanger plate 86, and a pair of lifting prevention rollers 89 are engaged with the lower ends of the rails 82 to prevent the rails 82 from floating. Is rotatably mounted.
Then, the control panel 20 is hung by hanging a hanger roller 88 on the rail 82, and the guide plate 87 is inserted into the gap between the second mounting arm 80B and the abutment plate 84, and is slidable on the first mounting arm 80A. Attached to. A lift prevention roller 89 is engaged with the lower end of the rail 82.
[0062]
The position detection switch 34 is attached to the side wall 2a so as to be located above the other end of the first attachment arm 80A. Further, an L-shaped mounting metal 90 is mounted on one of the mounting metal 27 of the control panel 20 on the side of the car rail 3, and an L-shaped mounting metal 91 is mounted on the first mounting arm 80 </ b> A on the side of the cage rail 3. A screw rod 92 is screwed to nuts 90a and 91a fixed to the mounting metal 90 and the mounting metal 91, and is rotatably mounted. Further, a motor 93 is mounted on the mounting metal 91, and the rotational torque of the motor 93 is transmitted to the screw rod 92 via the speed reduction mechanism 94. Further, the switch 95 of the motor 93 is mounted on the car rail 3 side of the second mounting arm 80B. The switch 95 can switch between a forward rotation mode, a reverse rotation mode, and a stop mode of the motor 93.
[0063]
In the elevator apparatus configured as described above, the control panel 20 is slidably mounted on the first mounting arm 80A, and is movable between a normal position and a maintenance inspection position as described below.
[0064]
Normally, as shown in FIG. 12, the control panel 20 slides on the rail 82 and is positioned on the side of the first mounting arm 80A opposite the basket rail 3 along the wall surface 2a. As a result, the control panel 20 is fixed at a normal position that does not interfere with the elevation of the car 1. At this time, the cam 86a provided on the hanger plate 86 presses the switch contact rod 34a, the position detection switch 34 detects that the control panel 20 is at the normal position, and the elevator device enters the operation mode. ing.
[0065]
Further, at the time of maintenance and inspection, the operator stops the car 1 close to below the control panel 20, climbs the ceiling 1 a of the car 1, and assembles the safety handrail 9. Then, the switch 95 is turned on to the forward rotation mode side, and the motor 93 is driven to rotate. The rotation torque of the motor 93 is transmitted to the screw rod 92 via the reduction mechanism 94, and the screw rod 92 is driven to rotate. Thus, since the screw rod 92 and the nut 90a of the mounting metal 90 are screwed together, the rotational force of the screw rod 92 is converted into a linear motion, and the hanger roller 88 runs on the rail 83, and the control panel 20 Moves rightward in FIG. At this time, the pressing of the switch contact rod 34a by the cam 86a is released, the position detection switch 34 detects that the control panel 20 has moved from the normal position, and the elevator device is switched from the operation mode to the maintenance and inspection mode. Then, when the control panel 20 reaches a position where the worker who has climbed the upper part 1a of the ceiling of the car 1 can reach, the switch 91 is set to the stop mode, and the rotation of the motor 93 is stopped. As a result, the control panel 20 is drawn toward the car 1 and approaches the car rail 3 along the wall surface 2a as shown in FIG. 13, and the maintenance (inspection position) where the surface (lid 24) faces the operator. Fixed to.
[0066]
Therefore, the operator opens the cover 24 of the control panel 20 and performs maintenance and inspection work.
When the maintenance and inspection are completed, the switch 95 is turned on to the reverse rotation mode, and the motor 93 is driven to rotate. Thereby, the control panel 20 is guided by the rail 83 and moves to the left in FIG. When the control panel 20 reaches the normal position, the switch 95 is switched to the stop mode, and the control panel 20 is fixed at the normal position as shown in FIG. At this time, the cam 86a presses the switch contact rod 34a, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator apparatus is switched from the maintenance mode to the operation mode.
[0067]
Therefore, also in the sixth embodiment, the same effect as in the fifth embodiment can be obtained.
Further, since the lifting prevention roller 89 is engaged with the lower end of the rail 82, the lifting of the control panel 20 is prevented when the control panel 20 slides.
Further, since the guide plate 87 attached to the other mounting metal 27 of the control panel 20 is inserted into the gap between the second mounting arm 80B and the abutment plate 84, the control panel 20 slides when the control panel 20 slides. Shaking on the lower end side is suppressed, and stable sliding movement of the control panel 20 is performed.
[0068]
The drive power supply of the motor 93 is a separate circuit from the drive power supply of the elevator device.
Further, the switch 95 may be configured as a limit switch that stops driving the motor 93 when the control panel 20 moves to the normal position or the maintenance inspection position.
[0069]
Embodiment 7 FIG.
FIG. 14 is a front view showing around a control panel located at a normal position in the elevator apparatus according to Embodiment 7 of the present invention, and FIG. 15 is a control located at a maintenance inspection position in the elevator apparatus according to Embodiment 7 of the present invention. FIG. 16 is a sectional view taken along the line XVI-XVI in FIG. 14.
[0070]
14 to 16, the mounting arm 100 has one end fixed to the car rail 3 with a rail clip 19a and a bolt 19b, and extends horizontally from the car rail 3. The handle mounting arm 101 having an L-shaped cross section is fixed to the basket arm 3 side of the mounting arm 100 by a mounting bolt 102 so as to extend downward from the mounting arm 100.
One end of each of the upper and lower support arms 103A and 103B is fixed to the car rail 3 by a rail clip 19a and a bolt 19b, and extends horizontally from the car rail 3 at a predetermined distance in the vertical direction of the mounting arm 100. . Then, the backing plate 104 is fastened and fixed to each of the upper and lower support arms 103A and 103B by a stepped bolt 105. Thus, a predetermined gap is formed between the backing plate 104 and the upper and lower support arms 103A and 103B. Further, the position detection switch 34 is attached to the extension end of the second arm 103B.
In addition, a support mechanism of the control panel 20 is configured by the mounting arm 100, the handle mounting metal 101, the upper and lower support arms 103A and 103B, the backing plate 104, and the like.
[0071]
A mounting metal 106 having a J-shaped cross section is attached to the upper end surface of the control panel main body 21, and a flat guide plate 107 is attached to the lower end surface of the control panel main body 21. In the control panel 20, the long side 106a (guide plate) of the mounting metal 106 is inserted into the gap between the upper support arm 103A and the backing plate 104, and the guide plate 107 is inserted into the gap between the lower support arm 103B and the backing plate 104. The pair of links 108 are inserted so as to be rotatable at both ends around the pins 109 (horizontal axis) on the short side 106 b of the mounting metal 106 and on the side of the mounting arm 100 opposite the basket rail 3. It is slidably supported by the mounting arm 100.
Further, an L-shaped nut mounting metal 110 is mounted on the back surface of the control panel main body 21 so as to be rotatable around a pin 111 (horizontal axis). The nut 112 is fixed to the upright piece so as to penetrate the upright piece of the nut mounting metal 110. Further, a swing nut 113 is attached to the lower end of the handle mounting arm 101 so as to be swingable three-dimensionally. Then, the screw rod 114 is screwed to the nut 112 and the swing nut 113, and the handle 115 is fixed to the extension end of the screw rod 114 from the swing nut 113.
The drive mechanism of the control panel 20 is composed of the nut mounting metal 110, the nut 112, the swing nut 113, the screw rod 114, the handle 115, and the like.
[0072]
In the elevator apparatus configured as described above, the control panel 20 is slidably mounted on the mounting arm 100, and is movable between a normal position and a maintenance and inspection position as described below.
[0073]
Here, the sliding operation of the control panel 20 will be described.
First, the screw rod 114 is rotated by rotating the handle 115. At this time, since the screw rod 114 and the nut 112 are screwed together, the rotational force of the screw rod 114 is converted into a linear motion, and the nut 112 moves along the screw rod 114. By changing the rotation direction of the handle 115, the nut 112 (control panel 20) reciprocates in the longitudinal direction of the screw rod 114. With the reciprocating movement of the nut 112, the pair of links 108 rotate around the pin 109, and the control panel 20 changes the vertical position, while changing the normal position shown in FIG. 14 and the maintenance inspection position shown in FIG. Reciprocate between and. Then, even if the vertical position of the control panel 20 changes, the nut mounting metal 110 rotates around the pin 111, and the oscillating nut 113 swings three-dimensionally with respect to the handle mounting arm 101. As a result, the threaded relationship between the screw rod 114, the nut 112, and the swing nut 113 is ensured.
[0074]
Normally, the control panel 20 is positioned on the side of the mounting arm 100 opposite the basket rail 3 with the pair of links 108 rotating around the pins 109 in the counterclockwise direction in FIG. As a result, the control panel 20 is fixed at a normal position that does not interfere with the elevation of the car 1. At this time, the side surface of the control panel main body 21 presses the switch contact rod 34a, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator apparatus is in the operation mode.
[0075]
Further, at the time of maintenance and inspection, the operator stops the car 1 close to below the control panel 20, climbs the ceiling 1 a of the car 1, and assembles the safety handrail 4. Then, the handle 115 is rotated, the screw rod 114 is rotated, and the nut 112 is moved along the screw rod 114 to the right in FIG. At this time, the pressing of the switch contact rod 34a by the control panel body 21 is released, the position detection switch 34 detects that the control panel 20 has moved from the normal position, and the elevator device is switched from the operation mode to the maintenance and inspection mode. . Then, with the movement of the nut 112, the pair of links 108 rotate clockwise around the pin 109 in FIG. 14, and the control panel 20 moves to a position where the operator can reach the car rail 3 side. As a result, the control panel 20 is pulled toward the car 1, and as shown in FIG. 15, the front surface (lid 24) is fixed to the maintenance inspection position facing the operator.
[0076]
Therefore, the operator opens the cover 24 of the control panel 20 and performs maintenance and inspection work.
When the maintenance and inspection are completed, the handle 115 is rotated to move the control panel 20 to the normal position. At this time, the control panel body 21 presses the switch contact rod 34a, the position detection switch 34 detects that the control panel 20 is located at the normal position, and the elevator apparatus is switched from the maintenance and inspection mode to the operation mode. .
[0077]
Therefore, also in the seventh embodiment, the same effect as in the fifth embodiment can be obtained.
In addition, since the long side 106a of the mounting metal 106 of the control panel 20 is inserted into the gap between the first arm 103A and the contact plate 104, and the guide plate 107 is inserted into the gap between the second arm 103B and the contact plate 104. When the control panel 20 slides, the upper and lower ends of the control panel 20 are prevented from swinging, and the control panel 20 can be slid in a stable manner.
[0078]
【The invention's effect】
The present invention is configured as described above, and has the following effects.
[0079]
According to the present invention, a basket, which is guided by a cage rail extending vertically along the wall surface of the hoistway, is disposed so as to be able to move up and down, a support mechanism provided in the hoistway, and A control panel that is supported by the support mechanism so as to be movable between a normal position that does not interfere with elevating and a maintenance inspection position facing an operator who has climbed above the ceiling of the car at the time of maintenance and controls the operation of the elevator. With the provision, an elevator apparatus capable of improving workability of maintenance and inspection can be obtained.
[0080]
The support mechanism has first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway; A vertically extending mounting column attached between the extending ends of the first and second mounting arms, wherein the control panel is rotatable about an axis whose vertical direction is the axis direction of the mounting column. The normal position, which is attached and is located along the wall surface of the hoistway in the extending direction of the first and second mounting arms, and substantially perpendicular to the extending direction of the first and second mounting arms. The control panel can be slid between the normal position and the maintenance / inspection position with a simple configuration because the maintenance / inspection position is configured so as to protrude into the hoistway.
[0081]
The support mechanism has one end fixed to a position vertically separated from the car rail and extends horizontally from the car rail along the wall surface of the hoistway, and the other end of the support mechanism extends to the wall surface of the hoistway. The control panel includes first and second mounting arms fixed thereto, and the control panel is rotatably mounted on the other end of the first and second mounting arms so as to be rotatable around an axis whose vertical direction is an axial direction. The normal position located along the wall surface of the hoistway in the direction in which the first and second mounting arms extend, and inside the hoistway substantially perpendicular to the direction in which the first and second mounting arms extend. The control panel can be slid between the normal position and the maintenance / inspection position with a simple configuration because it is configured to take the above-mentioned maintenance / inspection position so as to protrude.
[0082]
Further, the support mechanism includes a mounting metal fixed to a ceiling of the hoistway so that one end is located on a wall surface side of the hoistway and extends in a direction orthogonal to the wall surface, and the control panel is provided with another end at one end. A side is attached to the other end of the mounting metal so as to be rotatable around an axis having a horizontal axis as a horizontal direction, and one side of both ends is positioned along the ceiling of the hoistway with the one side facing the wall surface of the hoistway. The normal position, and the maintenance inspection position, which is located substantially orthogonal to the ceiling of the hoistway so that one side of each end projects into the hoistway, With this configuration, the control panel can be slid between the normal position and the maintenance inspection position.
[0083]
In addition, a return wheel attached to one end of the mounting metal so as to be rotatable around an axis having a horizontal axis direction, a balancing weight, and the return wheel, and one end of the control wheel is connected to one end of the control panel. Since the drive mechanism of the control panel having a wire connected to one side and the other end connected to the balancing weight is provided, the sliding movement of the control panel is facilitated.
[0084]
Further, the support mechanism includes a pair of mounting metal fixed to the wall surface of the hoistway so as to extend in the vertical direction, respectively, and be parallel to each other, and the control panel has one end on both ends. The normal position is attached to the lower ends of the pair of mounting metal so as to be rotatable around an axis having an axial direction as a horizontal direction, and is located along the wall surface of the hoistway with the other side of both ends facing upward. The control panel is configured to take the maintenance inspection position, which is positioned so that the other side of each end is substantially orthogonal to the wall surface of the hoistway and protrudes inside the hoistway. It can be slid between the normal position and the maintenance inspection position.
[0085]
Further, a pulley shaft mounted on the wall surface of the hoistway with the length direction being horizontal at a position above the pair of mounting metals, a pair of wire winding pulleys fixed to both ends of the pulley shaft, A wire wound around a wire take-up pulley, the ends of which are respectively connected to the other ends of both ends of the control panel, a handle attached to another wall surface adjacent to the hoistway wall surface, and a rotational torque of the handle And a drive mechanism for the control panel having an endless ball chain for transmitting the rotation of the control panel to the pulley shaft.
[0086]
The support mechanism includes first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway, The control panel is mounted on the first and second mounting arms so as to be slidable in the direction in which the first and second mounting arms extend, and is separated from the car rail and along the wall surface of the hoistway. The control panel is configured to take the normal position located at the normal position and the maintenance inspection position positioned along the wall surface of the hoistway approaching the car rail. It can be slid between the inspection position.
[0087]
Also, a slide rail configured to be extendable and retractable is attached to each of the first and second mounting arms such that the direction of extension and contraction thereof matches the direction in which the first and second mounting arms extend, and the control panel includes: Since the control panel is mounted on the slide rail, the control panel can easily slide.
[0088]
A rail is mounted on the first mounting arm, a backing plate is mounted on the second mounting arm, a hanger plate having a hanger roller is mounted on one end of the control panel, and a guide plate is mounted on the other end of the control panel. The control panel is inserted into the gap between the second mounting arm and the backing plate, and the hanger roller is hung on the first mounting arm by hanging it on the rail. In addition, the sliding movement of the control panel becomes easy.
[0089]
Further, the support mechanism has one end fixed to the car rail, and a mounting arm extending horizontally along the wall surface of the hoistway from the car rail, and one end of the mounting arm is vertically separated from the mounting arm. An upper and lower support arm fixed to a car rail and extending horizontally from the car rail along the wall surface of the hoistway, and each having an abutment plate, and extending downward to the car rail side of the mounting arm. A handle mounting metal attached to the arm, a pair of links one end of which is rotatably mounted on an anti-cage rail side of the mounting arm about an axis having a horizontal axis direction,
In the control panel, guide plates attached to both ends are inserted into gaps between the upper and lower support arms and the backing plate, respectively, and the other ends of the pair of links are horizontally aligned with the other end of the pair of links at the upper end of the back surface. Is attached to the mounting arm so as to be slidable in the direction in which the mounting arm extends, and is located away from the car rail and along the wall surface of the hoistway. It is configured to take the normal position and the maintenance inspection position that is located along the wall surface of the hoistway approaching the car rail, and furthermore, the axial direction is horizontal on the back surface of the control panel. A nut mount rotatably mounted around an axis and having a nut fixed thereto, a swing nut mounted three-dimensionally swingably at a lower end of the handle mount, the nut and the swing nut Since the drive mechanism of the control panel includes a screw rod that is screwed into the control rod and a handle fixed to the end of the screw rod extending from the swing nut, the control panel is usually configured with a simple configuration. It can be slid between the position and the maintenance inspection position.
[0090]
Further, a position detection switch for detecting that the control panel is located at the normal position is provided, and when the control panel is moving from the normal position, the operation mode of the elevator is switched to the maintenance inspection mode. Therefore, the car does not move up and down during the maintenance and inspection work, and the safety of the maintenance and inspection work is performed at the factory.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a configuration of a control panel in an elevator apparatus according to Embodiment 1 of the present invention.
FIG. 2 is a perspective view showing a periphery of a control panel located at a normal position in the elevator apparatus according to Embodiment 1 of the present invention.
FIG. 3 is a perspective view showing a periphery of a control panel located at a maintenance inspection position in the elevator apparatus according to Embodiment 1 of the present invention.
FIG. 4 is a perspective view showing around a control panel located at a normal position in an elevator apparatus according to Embodiment 2 of the present invention.
FIG. 5 is a perspective view showing a periphery of a control panel located at a maintenance inspection position in the elevator apparatus according to Embodiment 2 of the present invention.
FIG. 6 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 3 of the present invention.
FIG. 7 is a perspective view showing a periphery of a control panel located at a maintenance and inspection position in the elevator apparatus according to Embodiment 3 of the present invention.
FIG. 8 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 4 of the present invention.
FIG. 9 is a perspective view showing a periphery of a control panel located at a maintenance and inspection position in an elevator apparatus according to Embodiment 4 of the present invention.
FIG. 10 is a front view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 5 of the present invention.
FIG. 11 is a front view showing a periphery of a control panel located at a maintenance inspection position in an elevator apparatus according to Embodiment 5 of the present invention.
FIG. 12 is a perspective view showing a periphery of a control panel located at a normal position in an elevator apparatus according to Embodiment 6 of the present invention.
FIG. 13 is a perspective view showing a periphery of a control panel located at a maintenance inspection position in an elevator apparatus according to Embodiment 6 of the present invention.
FIG. 14 is a front view showing around a control panel located at a normal position in an elevator apparatus according to Embodiment 7 of the present invention.
FIG. 15 is a front view showing a periphery of a control panel located at a maintenance inspection position in the elevator apparatus according to Embodiment 7 of the present invention.
FIG. 16 is a sectional view taken along the arrow XVI-XVI in FIG. 14;
[Explanation of symbols]
Reference Signs List 1 car, 1a upper ceiling, 2 hoistway, 2a side wall, 2b ceiling, 13A first mounting arm, 13B second mounting arm, 15 mounting post, 18 hinge, 20 control panel, 34 position detection switch, 40A first mounting arm , 40B second mounting arm, 45 stepped bolt pin, 50A first mounting metal, 50B second mounting metal, 52 return wheel (starting mechanism), 54 pin, 55 wire (drive mechanism), 56 balancing weight (drive mechanism) ), 59 wire take-up pulley (drive mechanism), 60 pulley shaft (drive mechanism), 61, 62a pulley for ball chain (drive mechanism), 63 ball chain (drive mechanism), 64 manual winding handle ( Drive mechanism), 70A first mounting arm, 70B second mounting arm, 72 slide rail, 80A first mounting arm, 80B second mounting arm, 82 rail, 84 backing plate, 86 hanger Rate, 87 guide plate, 88 hanger roller, 100 mounting arm, 101 handle mounting metal, 103A upper supporting arm, 103B lower supporting arm, 104 patch plate, 106 mounting metal, 106a long side (guide plate), 107 guide plate, 108 Link, 109 pin, 110 nut mount, 112 nut, 113 swing nut, 114 screw rod, 115 handle.

Claims (12)

A basket that is guided by a cage rail extending vertically along the wall of the hoistway,
A support mechanism provided in the hoistway,
Control supported by the support mechanism so as to be movable between a normal position that does not interfere with the elevation of the car and a maintenance inspection position facing a worker who has climbed above the ceiling of the car at the time of maintenance and controls elevator operation. An elevator apparatus, comprising: a board. The support mechanism has first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway; And a vertically extending mounting column attached between the extending ends of the second mounting arm,
The control panel is attached to the mounting column so as to be rotatable around an axis whose vertical direction is the axis direction, and is positioned along the wall surface of the hoistway in the extending direction of the first and second mounting arms. The normal position and the maintenance inspection position which is positioned so as to protrude into the hoistway substantially perpendicular to the extending direction of the first and second mounting arms. The elevator apparatus according to claim 1, wherein: The support mechanism has one end fixed to a position vertically separated from the car rail and extends horizontally along the wall surface of the hoistway from the car rail, and the other end is fixed to the wall surface of the hoistway. First and second mounting arms,
The control panel is attached to the other ends of the first and second mounting arms so as to be rotatable around an axis whose vertical direction is the axis direction, and the control panel is moved up and down in the extending direction of the first and second mounting arms. The normal position positioned along the wall surface of the road and the maintenance inspection position positioned so as to protrude into the hoistway substantially orthogonal to the extending direction of the first and second mounting arms. The elevator apparatus according to claim 1, wherein the elevator apparatus is configured as follows. The support mechanism includes a mounting metal fixed to the ceiling of the hoistway so that one end is located on the wall surface side of the hoistway and extends in a direction perpendicular to the wall surface,
The control panel is rotatably mounted on the other end of the mounting metal to the other end of the mounting metal so as to be rotatable around an axis having an axial direction as a horizontal direction. The normal position positioned along the ceiling of the road, and the maintenance inspection position positioned so that one side of both ends is substantially orthogonal to the ceiling of the hoistway and protrudes into the shaft. The elevator apparatus according to claim 1, wherein the elevator apparatus is configured. A return wheel rotatably mounted on one end of the mounting metal so as to be rotatable around an axis having a horizontal axis direction, a balancing weight, and a bridge mounted on the return wheel, one end of which is one end of one end of the control panel; The elevator apparatus according to claim 4, further comprising a drive mechanism of the control panel, the drive mechanism including a wire connected to the balance weight and the other end connected to the balancing weight. The support mechanism is provided with a pair of mounting metal fixed to the wall surface of the hoistway so as to extend in the vertical direction, respectively, and be parallel to each other,
The control panel is attached to one end of both ends to the lower end of the pair of mounting metal so as to be rotatable around an axis whose horizontal axis is the horizontal direction, and the other end of both ends is directed upward to the wall surface of the hoistway. And the maintenance inspection position which is located so as to protrude inside the hoistway at the other end of the hoistway substantially perpendicular to the wall surface of the hoistway. The elevator device according to claim 1, wherein A pulley shaft attached to a wall surface of the hoistway with the length direction being horizontal at a position above the pair of mounting members, a pair of wire winding pulleys fixed to both ends of the pulley shaft, and the pair of wire windings A wire wound around a pulley, the tip of which is connected to the other end of each end of the control panel, a handle attached to another wall surface adjacent to the wall surface of the hoistway, and a rotational torque of the handle The elevator apparatus according to claim 6, further comprising a drive mechanism of the control panel having an endless ball chain transmitting to a pulley shaft. The support mechanism includes first and second mounting arms each having one end fixed to a position vertically separated from the car rail and extending horizontally from the car rail along a wall surface of the hoistway,
The control panel is mounted on the first and second mounting arms so as to be slidable in the direction in which the first and second mounting arms extend, and is separated from the car rail and along the wall surface of the hoistway. The elevator apparatus according to claim 1, wherein the elevator apparatus is configured to have the normal position located therein and the maintenance inspection position located near the car rail and along the wall surface of the hoistway. A slide rail configured to extend and contract is attached to each of the first and second mounting arms such that the direction of extension and contraction of the slide rail coincides with the extending direction of the first and second mounting arms. 9. The elevator apparatus according to claim 8, wherein the elevator apparatus is attached to a rail. A rail is mounted on the first mounting arm, a backing plate is mounted on the second mounting arm, a hanger plate having hanger rollers is mounted on one end of the control panel, and a guide plate is mounted on the other end of the control panel. The control panel is inserted into the gap between the second mounting arm and the backing plate, and the hanger roller is hung on the first mounting arm with the hanger roller hung on the rail. The elevator apparatus according to claim 8, wherein The support mechanism has one end fixed to the car rail and a mounting arm horizontally extending along the wall surface of the hoistway from the car rail, and one end of the mounting arm is vertically separated from the mounting arm to the car rail. The upper and lower support arms, which are fixed and extend horizontally along the wall surface of the hoistway from the car rail, and each of which has a backing plate attached thereto, are mounted so as to extend downward to the car rail side of the mounting arm. And a pair of links, one end of which is rotatably mounted around an axis whose horizontal direction is the axial direction on the side opposite to the cage rail of the mounting arm, and the control panel is mounted at both ends. Guide plates are inserted into the gaps between the upper and lower support arms and the abutment plate, and the other end of the pair of links is rotated around the axis with the axial direction being the horizontal direction at the upper end of the back surface. The normal position, which is attached to the mounting arm so as to be slidable in the direction in which the mounting arm extends, separated from the car rail and positioned along the wall surface of the hoistway; , And is configured to take the maintenance inspection position located along the wall surface of the hoistway,
Further, the nut is fixed to a back surface of the control panel so as to be rotatable around an axis having a horizontal axis, and a nut is fixed to the nut. A drive mechanism for the control panel, comprising: a swing nut attached to the nut, a screw rod screwed to the nut and the swing nut, and a handle fixed to an end of the screw rod extending from the swing nut. The elevator apparatus according to claim 1, further comprising a unit. A position detection switch for detecting that the control panel is located at the normal position, wherein the operation mode of the elevator is switched to a maintenance inspection mode when the control panel is moving from the normal position. The elevator apparatus according to any one of claims 1 to 11, wherein:

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