EP2112116A1 - Dispositif de sécurité pour ascenseur - Google Patents

Dispositif de sécurité pour ascenseur Download PDF

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Publication number
EP2112116A1
EP2112116A1 EP07714231A EP07714231A EP2112116A1 EP 2112116 A1 EP2112116 A1 EP 2112116A1 EP 07714231 A EP07714231 A EP 07714231A EP 07714231 A EP07714231 A EP 07714231A EP 2112116 A1 EP2112116 A1 EP 2112116A1
Authority
EP
European Patent Office
Prior art keywords
pivoting
rail stopper
rail
stopper
guide rail
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP07714231A
Other languages
German (de)
English (en)
Other versions
EP2112116A4 (fr
EP2112116B1 (fr
Inventor
Naoyuki Maruyama
Eiji Ando
Hiroshi Kigawa
Takashi Yumura
Mineo Okada
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Mitsubishi Electric Corp
Original Assignee
Mitsubishi Electric Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Mitsubishi Electric Corp filed Critical Mitsubishi Electric Corp
Publication of EP2112116A1 publication Critical patent/EP2112116A1/fr
Publication of EP2112116A4 publication Critical patent/EP2112116A4/fr
Application granted granted Critical
Publication of EP2112116B1 publication Critical patent/EP2112116B1/fr
Not-in-force legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/02Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
    • B66B5/16Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well
    • B66B5/18Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well and applying frictional retarding forces
    • B66B5/20Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well and applying frictional retarding forces by means of rotatable eccentrically-mounted members
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/02Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
    • B66B5/04Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions for detecting excessive speed
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B5/00Applications of checking, fault-correcting, or safety devices in elevators
    • B66B5/02Applications of checking, fault-correcting, or safety devices in elevators responsive to abnormal operating conditions
    • B66B5/16Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well
    • B66B5/18Braking or catch devices operating between cars, cages, or skips and fixed guide elements or surfaces in hoistway or well and applying frictional retarding forces

Definitions

  • the present invention relates to an elevator safety apparatus that can brake running of a car in either vertical direction.
  • elevator apparatuses have been proposed that include a wedge-type emergency stop device in which braking is activated electrically if an elevator abnormality has occurred.
  • a braking force is applied to a car by displacing a wedge using an electromagnetic actuator to engage the wedge between a guide rail that guides the car and a bracket that is disposed on the car (see Patent Literature 1, for example).
  • elevator safety apparatuses have also been proposed that perform the car braking action by combining actions of a pair of electromagnets to pivot a pivoting member vertically.
  • a top braking shoe and a bottom braking shoe are disposed on the pivoting member.
  • a guide rail that guides the car is gripped between the bottom braking shoe and a fixed shoe by upward pivoting of the pivoting member, and is gripped between the top braking shoe and the fixed shoe by downward pivoting of the pivoting member.
  • the car is braked by the guide rail being gripped between either the top braking shoe or the bottom braking shoe and the fixed shoe (see Patent Literature 2, for example).
  • the present invention aims to solve the above problems and an object of the present invention is to provide an elevator safety apparatus that can achieve reductions in size, and that can perform a car braking action in either vertical direction more reliably and in a shorter amount of time.
  • an elevator safety apparatus characterized in including: a housing that is supported by a car that is guided by a guide rail, and that is displaceable horizontally relative to the car; a bearing rail stopper that is disposed on the housing; a pivoting rail stopper that is disposed on the housing such that the guide rail is disposed between the pivoting rail stopper and the bearing rail stopper, and that can be pivoted vertically such that a distance to the bearing rail stopper is reduced by the vertical pivoting; and a displacement driving mechanism that displaces the housing relative to the car in a direction in which the pivoting rail stopper separates from and contacts with the guide rail, the guide rail being gripped between the pivoting rail stopper and the bearing rail stopper by the pivoting rail stopper being pivoted in a direction that corresponds to a direction of movement of the car while contacting the guide rail.
  • FIG. 1 is a structural diagram that shows an elevator apparatus according to Embodiment 1 of the present invention.
  • a car 1 and a counterweight (not shown) are suspended by a main rope 2.
  • the main rope 2 is wound around a drive sheave of a hoisting machine.
  • the drive sheave is rotated by a driving force from the hoisting machine.
  • the car 1 and the counterweight are raised and lowered inside a hoistway by the rotation of the drive sheave.
  • a pair of car guide rails 3 that guide raising and lowering of the car 1, and a pair of counterweight guide rails (not shown) that guide raising and lowering of the counterweight are installed in the hoistway.
  • the raising and lowering of the car 1 and the counterweight are controlled by an elevator control board 4.
  • Respective information from a car speed detecting sensor 5 that detects speed of the car 1, a door opening and closing detecting sensor 6 that detects whether a doorway (not shown) of the car 1 is open or closed, and a main rope breakage detecting sensor 7 that detects presence or absence of a breakage in the main rope 2 is sent to the control board 4.
  • An encoder, or a resolver, etc., that generates a signal that corresponds to rotational speed of the drive sheave, for example, can be used as the car speed detecting sensor 5.
  • a position sensor, etc., that detects the position of a door that opens and closes the doorway of the car 1, for example, can be used as the door opening and closing detecting sensor 6.
  • a tension detector, etc., that detects tension of the main rope 2, for example, can be used as the main rope breakage detecting sensor 7.
  • a braking command portion 8 that detects presence or absence of an elevator abnormality based on respective information from the car speed detecting sensor 5, the door opening and closing detecting sensor 6, and the main rope breakage detecting sensor 7 is disposed on the control board 4.
  • the braking command portion 8 outputs a braking command if the occurrence of an elevator abnormality is detected.
  • the braking command portion 8 includes a computer that has: an arithmetic processing portion (a CPU, etc.), a storage portion (ROM, RAM, hard disk, etc.), and a signal input-output portion.
  • the functions of the braking command portion 8 can be implemented by arithmetic processing by the computer.
  • a pair of emergency stopping apparatuses 9 that constitute a braking apparatus that brakes the car 1 by gripping the car guide rail 3 are mounted to the car 1.
  • Each of the emergency stopping apparatuses 9 performs a braking action that brakes the car 1 when a braking command is received from the braking command portion 8.
  • FIG 2 is a structural diagram that shows an emergency stopping apparatus 9 from Figure 1 .
  • Figure 3 is a cross section that has been taken along line III - III in Figure 2 .
  • Figure 4 is a side elevation of the emergency stopping apparatus 9 in Figure 2 .
  • a mounting frame 10 is mounted to the car 1.
  • An upper guide rod 11 and a lower guide rod 12 that are disposed so as to be spaced apart from each other vertically are mounted onto the mounting frame 10.
  • the upper guide rod 11 and the lower guide rod 12 are disposed horizontally so as to be parallel to each other.
  • a housing 13 is disposed inside the mounting frame 10. Sliding guides 13a through 13d are disposed above and below the housing 13. The upper guide rod 11 passes through the sliding guides 13a and 13c. The lower guide rod 12 passes through the sliding guides 13b and 13d. Thus, the housing 13 is slidable relative to the mounting frame 10 along the upper guide rod 11 and the lower guide rod 12. In other words, the housing 13 is displaceable horizontally relative to the car 1.
  • the housing 13 has: a housing main body 14; a mounting guide portion 15 that projects from the housing main body 14 toward the car guide rail 3; and an adjusting bolt mount portion 16 that projects from the housing main body 14 away from the car guide rail 3.
  • the mounting guide portion 15 is disposed in a position that is offset relative to the car guide rail 3 in a direction of displacement of the housing 13.
  • the mounting guide portion 15 has: a bearing portion 15a that extends vertically; and a pair of horizontal portions 15b and 15c that extend toward the car guide rail 3 from an upper end portion and a lower end portion, respectively, of the bearing portion 15a.
  • a bearing rail stopper 17 and a pivoting rail stopper 18 that face each other from opposite sides of the car guide rail 3 in a horizontal direction are disposed on the housing 13.
  • the car guide rail 3 is disposed between a bearing rail stopper 17 and a pivoting rail stopper 18 that are disposed on a common housing 13.
  • the bearing rail stopper 17 and the pivoting rail stopper 18 are displaced together with the housing 13.
  • the bearing rail stopper 17 and the pivoting rail stopper 18 are both able to contact with and separate from the car guide rail 3 by displacement of the housing 13 relative to the mounting frame 10.
  • the bearing rail stopper 17 is disposed between each of the horizontal portions 15b and 15c.
  • the bearing rail stopper 17 is guided along each of the horizontal portions 15b and 15c.
  • a plurality of (in this example, two) shoulder bolts 19 that pass through the bearing portion 15a are fixed to the bearing rail stopper 17.
  • Each of the shoulder bolts 19 is slidable horizontally relative to the bearing portion 15a.
  • the bearing rail stopper 17 is thereby displaceable horizontally relative to the housing 13.
  • Pressing elements 22 and adjusting elements 23 through which the respective common shoulder bolts 19 are passed are disposed between the bearing rail stopper 17 and the bearing portion 15a (i.e., on an opposite side of the bearing rail stopper 17 from the car guide rail 3).
  • the pressing elements 22 have a plurality of disk springs, for example.
  • the pressing elements 22 force the bearing rail stopper 17 toward the car guide rail 3 (i.e., away from the bearing portion 15a) using elastic resilience due to the disk springs being compressed.
  • the adjusting elements 23 adjust the magnitude of the elastic resilience of the pressing elements 22.
  • the adjusting elements 23 have a plurality of spacers that are stacked on each other. Adjustment of the magnitude of the elastic resilience of the pressing elements 22 is performed by the adjusting the number of spacers.
  • Each of the shoulder bolts 19 is passed through a washer 20, and is screwed into a positioning nut 21.
  • the washers 20 and the positioning nuts 21 can be engaged with the bearing portion 15a.
  • Displacement of the bearing rail stopper 17 toward the car guide rail 3 is restricted by the engagement of the washers 20 and the positioning nuts 21 with the bearing portion 15a.
  • Adjustment of the position of the bearing rail stopper 17 in a horizontal direction relative to the housing 13 is performed by adjusting an amount of thread engagement of the positioning nuts 21 on the shoulder bolts 19.
  • the pivoting rail stopper 18 is mounted by means of a bearing 25 to a horizontal shaft (a main shaft) 24 that is fixed to the housing main body 14.
  • the bearing 25 is a sliding bearing.
  • the pivoting rail stopper 18 is thereby pivotable vertically around the main shaft 24. If the pivoting rail stopper 18 contacts the car guide rail 3 while the car 1 is moving, it is pivoted in a direction that that corresponds to the direction of movement of the car 1 while contacting the car guide rail 3. Specifically, when the pivoting rail stopper 18 contacts the car guide rail 3, the pivoting rail stopper 18 is pivoted upward if the car 1 is descending, and the pivoting rail stopper 18 is pivoted downward if the car 1 is ascending.
  • the pivoting rail stopper 18 has a shape in which a distance to the bearing rail stopper 17 is reduced continuously by the vertical pivoting. In other words, the distance between the pivoting rail stopper 18 and the bearing rail stopper 17 is greatest before pivoting of the pivoting rail stopper 18, and is reduced continuously as the amount of pivoting of the pivoting rail stopper 18 increases.
  • the pivoting rail stopper 18 has: a pivoting rail stopper main body 26; and an upper braking shoe 27 and a lower braking shoe 28 (a pair of braking shoes) that are disposed on the pivoting rail stopper main body 26.
  • a rail contacting surface that the car guide rail 3 can contact is disposed on an outer circumferential portion of the pivoting rail stopper main body 26 near the car guide rail 3.
  • the rail contacting surface has: a central contacting surface 26a; an upper contacting curved surface (an upper curved surface portion) 26b that is a curved surface that is contiguous with an upper end portion of the central contacting surface 26a; and a lower contacting curved surface (a lower curved surface portion) 26c that is a curved surface that is contiguous with a lower end portion of the central contacting surface 26a.
  • the central contacting surface 26a is a flat surface that is perpendicular to a straight line in a radial direction that passes through a pivoting center Cn of the pivoting rail stopper 18.
  • the upper contacting curved surface 26b is a cylindrical surface that is centered around a position Pup that is offset upward from the pivoting center Cn.
  • the lower contacting curved surface 26c is a cylindrical surface that is centered around a position Pdn that is offset downward from the pivoting center Cn.
  • center Pup of the upper contacting curved surface 26b is positioned near the Y-axis in a second quadrant of X - Y coordinates that are centered around the center Cn, and the center Pdn of the lower contacting curved surface 26c is positioned near the Y-axis in a third quadrant.
  • Frictional force relative to the pressing force from the pivoting rail stopper 18 can thereby be made greater than return torque due to the pressing force from the pivoting rail stopper 18 (a load that acts in an opposite direction from the direction the pivoting rail stopper 18 should be pivoted during braking), enabling the pivoting rail stopper 18 to be pivoted more reliably.
  • radius R of the cylindrical surfaces of each of the contacting curved surfaces 26b and 26c should be increased.
  • Methods for increasing the coefficient of friction ⁇ include using a construction in which oil adhesion is prevented by guiding the car guide rail 3 using an oilless guide or disposing a large number of minute lugs that bite into the car guide rail 3 on each of the contacting curved surfaces 26b and 26c, etc.
  • the upper braking shoe 27 is disposed so as to be adjacent to an upper end of the upper contacting curved surface 26b.
  • An upper frictional surface (an upper flat surface portion) 27a that is a flat surface is disposed on the upper braking shoe 27.
  • a portion of the upper braking shoe 27 on which the upper frictional surface 27a is disposed projects beyond the upper end of the upper contacting curved surface 26b by a predetermined amount.
  • a spacer 45 that can adjust the amount of protrusion of the upper braking shoe 27 from the rail contacting surface is disposed between a back surface of the upper braking shoe 27 and the pivoting rail stopper main body 26. Adjustment of the amount of protrusion of the upper braking shoe 27 is performed by adjusting the thickness of the spacer 45.
  • the lower braking shoe 28 is disposed so as to be adjacent to a lower end of the lower contacting curved surface 26c.
  • a lower frictional surface (a lower flat surface portion) 28a that is a flat surface is disposed on the lower braking shoe 28.
  • a portion of the lower braking shoe 28 on which the lower frictional surface 28a is disposed projects beyond the lower end of the lower contacting curved surface 26c by a predetermined amount.
  • a spacer 46 that can adjust the amount of protrusion of the lower braking shoe 28 from the rail contacting surface is disposed between a back surface of the lower braking shoe 28 and the pivoting rail stopper main body 26. Adjustment of the amount of protrusion of the lower braking shoe 28 is performed by adjusting the thickness of the spacer 46. In this example, the respective amount of protrusion of the upper braking shoe 27 and the lower braking shoe 28 from the rail contacting surface is approximately identical.
  • the central contacting surface 26a contacts the car guide rail 3 due to displacement of the pivoting rail stopper 18 toward the car guide rail 3.
  • the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted upward.
  • the housing 13 is displaced in a direction in which the main shaft 24 moves away from the car guide rail 3 (i.e., a direction in which the bearing rail stopper 17 approaches the car guide rail 3).
  • the upper frictional surface 27a of the upper braking shoe 27 contacts the car guide rail 3
  • the car guide rail 3 is gripped between the upper braking shoe 27 and the bearing rail stopper 17.
  • the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted downward.
  • the housing 13 is displaced in a direction in which the main shaft 24 moves away from the car guide rail 3 (i.e., a direction in which the bearing rail stopper 17 approaches the car guide rail 3).
  • the car guide rail 3 is gripped between the lower braking shoe 28 and the bearing rail stopper 17.
  • a displacement driving mechanism 29 that displaces the housing 13 relative to the mounting frame 10 is disposed on the mounting frame 10 ( Figures 3 and 4 ).
  • the displacement driving mechanism 29 has: a plurality of forcing springs (a forcing body) 30 that force the housing 13 in a direction in which the pivoting rail stopper 18 contacts the car guide rail 3; and a holding and releasing mechanism (a holding means) 31 that can restrict the displacement of the housing 13 in opposition to the spring forces from the forcing springs 30.
  • the forcing springs 30 are disposed between the sliding guides 13a and 13b and one end portion of the mounting frame 10 (left end portion in Figure 2 ). Coil springs, for example, can be used for the forcing springs 30.
  • the sliding guides 13a and 13b are passed through the respective forcing springs 30.
  • the holding and releasing mechanism 31 has: a gap distribution adjusting bolt 41 that is disposed on the adjusting bolt mount portion 16; a holding lever 32 that is displaceable relative to the mounting frame 10, and that can engage with the gap distribution adjusting bolt 41; a pushing pin 33 that is placed in contact with the holding lever 32; and an electromagnet 34 that displaces the pushing pin 33 to displace the holding lever 32.
  • the pushing pin 33 and the electromagnet 34 are disposed on an opposite side of the mounting frame 10 from the housing 13.
  • the electromagnet 34 has: a fixed core (a first core) 36 that is fixed to the mounting frame 10; an electromagnetic coil 37 that is installed in the fixed core 36; and a movable core (a second core) 38 that is displaceable relative to the fixed core 36.
  • the pushing pin 33 is fixed centrally on the movable core 38.
  • the pushing pin 33 passes centrally through the fixed core 36.
  • a plurality of adjusting nuts 39 are screwed onto the pushing pin 33. Magnitude of a gap between the movable core 38 and the fixed core 36 can be set to a predetermined value by adjusting positions of the adjusting nuts 39.
  • the holding lever 32 is displaceable between a holding position that restricts displacement of the housing 13 in a state in which the pivoting rail stopper 18 is separated from the car guide rail 3 ( Figure 3 ), and a releasing position that releases restriction of the housing 13 ( Figure 6 ).
  • a lever mounting member is fixed to the fixed core 36.
  • One end portion of the holding lever 32 is pivotably mounted to the lever mounting member by means of a pivoting support pin 40.
  • a second end portion of the holding lever 32 is placed in contact with the gap distribution adjusting bolt 41.
  • the holding lever 32 is displaced between the holding position and the releasing position by pivoting around the pivoting support pin 40.
  • the gap distribution adjusting bolt 41 is screwed into the adjusting bolt mount portion 16 of the housing 13.
  • the gap distribution adjusting bolt 41 is pressed horizontally against the second end portion of the holding lever 32 by the forces from the respective forcing springs 30.
  • Gap dimensions between the car guide rail 3 and the pivoting rail stopper 18 and between the car guide rail 3 and the bearing rail stopper 17 when the holding lever 32 is in the holding position (i.e., when displacement of the housing 13 is being restricted) ( Figures 2 and 3 ) can be adjusted by adjusting an amount of thread engagement of the gap distribution adjusting bolt 41 in the adjusting bolt mount portion 16.
  • the movable core 38 is attracted to the fixed core 36 when the electromagnet 34 is excited.
  • the pushing pin 33 is held by the attraction of the movable core 38 by the fixed core 36 so as not to move relative to the fixed core 36.
  • the holding lever 32 is held in the holding position by being placed in contact with the pushing pin 33 that is held against the fixed core 36. In other words, displacement of the holding lever 32 from the holding position to the releasing position is restricted by excitation of the electromagnet 34.
  • Holding force from the electromagnet 34 is set so as to overcome the spring forces from the respective forcing springs 30 on the housing 42. Consequently, the bearing rail stopper 17 and the pivoting rail stopper 18 are held away from the car guide rail 3 by the excitation of the electromagnet 34 ( Figures 2 and 3 ).
  • the gap distribution adjusting bolt 41 constitutes a housing position adjusting means that can adjust the horizontal position of the housing 13 relative to the car guide rail 3.
  • a rail stopper interval adjusting means that can adjust a distance between the pivoting center Cn of the pivoting rail stopper 18 and the bearing rail stopper 17 includes the shoulder bolts 19 and the positioning nuts 21.
  • Figure 5 is a structural diagram that shows a state in which the central contacting surface 26a of the pivoting rail stopper 18 from Figure 2 contacts the car guide rail 3
  • Figure 6 is a cross section that has been taken along line VI - VI in Figure 5
  • Figure 7 is a structural diagram that shows a state in which the lower frictional surface 28a of the pivoting rail stopper 18 from Figure 2 contacts the car guide rail 3
  • Figure 8 is a cross section that has been taken along line VIII - VIII in Figure 7 .
  • the electromagnet 34 is excited by control from the control board 4 so as to keep the movable core 38 attracted to the fixed core 36.
  • the holding lever 32 is held in the holding position by coming into contact with the pushing pin 33 ( Figure 3 ), and pivoting to the releasing position (pivoting in a clockwise direction in Figure 3 ) is restricted.
  • both the pivoting rail stopper 18 and the bearing rail stopper 17 are separated from the car guide rail 3 by a predetermined gap by engagement of the gap distribution adjusting bolt with the holding lever 32.
  • a braking command is output from the braking command portion 8 to each of the emergency stopping apparatuses 9.
  • the displacement driving mechanism 29 of each of the emergency stopping apparatuses 9 receives the braking command, the passage of electric current to the electromagnetic coil 37 is stopped, and the holding force from the electromagnet 34 is lost.
  • the holding lever 32 is thereby pivoted from the holding position ( Figure 3 ) to the releasing position ( Figure 6 ) while being pushed by the housing 13 by the forces from the respective forcing springs 30.
  • the pushing pin 33 is displaced while being placed in contact with the holding lever 32.
  • the movable core 38 is displaced away from the fixed core 36. The displacement of the pushing pin 33 and the movable core 38 is performed until the adjusting nuts 39 are placed in contact with the fixed core 36.
  • the housing 13 is displaced in a direction in which the pivoting rail stopper 18 contacts the car guide rail 3 (to the right in Figure 3 ) by the respective forces from the forcing springs 30.
  • the pivoting rail stopper 18 contacts the car guide rail 3, as shown in Figures 5 and 6 .
  • the pivoting rail stopper 18 contacts the car guide rail 3 when the car 1 is descending, the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted upward.
  • the lower contacting curved surface 26c contacts the car guide rail 3 due to the respective forces from the forcing springs 30 as the pivoting rail stopper 18 is pivoted.
  • the housing 13 is thereby displaced in a direction in which the main shaft 24 separates from the car guide rail 3, and the bearing rail stopper 17 is displaced toward the car guide rail 3.
  • the gap distribution adjusting bolt 41 is separated from the holding lever 32 due to the displacement of the housing 13.
  • the car guide rail 3 is gripped between the lower braking shoe 28 and the bearing rail stopper 17, as shown in Figures 7 and 8 .
  • the pressing elements 22 are compressed by the displacement of the bearing rail stopper 17 that is pushed by the car guide rail 3, generating elastic resilience that presses the bearing rail stopper 17 against the car guide rail 3.
  • the lower frictional surface 28a of the lower braking shoe 28 also contacts the car guide rail 3. The gripping force on the car guide rail 3 is thereby ensured, imparting a braking force to the car 1.
  • the pivoting rail stopper 18 contacts the car guide rail 3 when the car 1 is ascending, the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted downward.
  • the upper contacting curved surface 26b contacts the car guide rail 3 due to the respective forces from the forcing springs 30 as the pivoting rail stopper 18 is pivoted.
  • the housing 13 is thereby displaced in a direction in which the main shaft 24 separates from the car guide rail 3, and the bearing rail stopper 17 is displaced toward the car guide rail 3.
  • the gap distribution adjusting bolt 41 is separated from the holding lever 32 due to the displacement of the housing 13.
  • the car guide rail 3 is gripped between the upper braking shoe 27 and the bearing rail stopper 17.
  • the pressing elements 22 are compressed by the bearing rail stopper 17 that is pushed by the car guide rail 3, generating elastic resilience that presses the bearing rail stopper 17 against the car guide rail 3.
  • the upper frictional surface 27a of the upper braking shoe 27 also contacts the car guide rail 3. The gripping force on the car guide rail 3 is thereby ensured, imparting a braking force to the car 1.
  • the displacement driving mechanism 29 has: forcing springs 30 that force the housing 13 in a direction in which the pivoting rail stopper 18 contacts the car guide rail 3; and a holding and releasing mechanism 31 that can restrict the displacement of the housing 13 in opposition to the spring force from the forcing springs 30, the housing 13 can be displaced by a simple configuration. Even if the holding force on the housing 13 is lost due to failure of the holding and releasing mechanism 31, the housing 13 can be displaced in a direction in which the pivoting rail stopper 18 contacts the car guide rail 3 by the force from the forcing springs 30, enabling the braking action of the car 1 to be performed more reliably.
  • the holding and releasing mechanism 31 has an electromagnet 34 that restricts the displacement of the housing 13 by excitation, and performs release of the restriction of the housing 13 by stopping excitation, a braking action can be performed in a short amount of time.
  • a gap distribution adjusting bolt 41 that can adjust a horizontal position of the housing 13 relative to the car guide rail 3, and a rail stopper interval adjusting means that can adjust a distance between a pivoting center Cn of the pivoting rail stopper 18 and the bearing rail stopper 17 (shoulder bolts 19 and positioning nuts 21) are disposed on the housing 13, respective gap dimensions between the pivoting rail stopper 18 and the car guide rail 3 and between the bearing rail stopper 17 and the car guide rail 3 when the displacement of the housing 13 is being restricted by the displacement driving mechanism 29 can be adjusted easily.
  • adjustment of the gap dimensions can be performed after mounting the emergency stopping apparatuses 9 to the car 1, enabling time spent on installation work to be reduced. Malfunctions due to the mounting frame 10 being inclined, etc., can also be prevented.
  • positions of an upper braking shoe 27 and a lower braking shoe 28 relative to a pivoting rail stopper main body 26 are adjustable by adjustment of thicknesses of spacers 45 and 46, if gripping force on the car guide rail 3 has been reduced by abrasion, etc., of the upper braking shoe 27 and the lower braking shoe 28, for example, the gripping force can be restored by adjusting the positions of the upper braking shoe 27 and the lower braking shoe 28.
  • pressing elements 22 that press the bearing rail stopper 17 against the car guide rail 3 are disposed between the bearing rail stopper 17 and the housing 13, gripping force on the car guide rail 3 can be generated more reliably. Thus, braking force can be applied to the car 1 more reliably.
  • a braking force can be applied to the car 1 more reliably and in a shorter amount of time if an abnormality occurs in the speed of the car 1, if the car 1 moves with the doorway of the car 1 open, or if the main rope 2 breaks.
  • respective amounts of protrusion of the upper braking shoe 27 and the lower braking shoe 28 from the pivoting rail stopper main body 26 are approximately identical, but the amount of protrusion of the upper braking shoe 27 may also be made less than the amount of protrusion of the lower braking shoe 28.
  • the braking force required to stop the ascending car 1 when balance between the car 1 and the counterweight is uneven may be smaller than the braking force required to stop the descending car 1 if the main rope 2 breaks.
  • the braking force required during the ascent of the car 2 can be made smaller than the braking force required during the descent of the car 1 by making the amount of protrusion of the upper braking shoe 27 less than the amount of protrusion of the lower braking shoe 28, enabling a braking force that corresponds to the direction of movement of the car 1 to be applied to the car 1.
  • the rail contacting surface of the pivoting rail stopper 18 is constituted by a flat surface 26a, and cylindrical surfaces 26b and 26c that are centered around positions Pup and Pdn that are respectively offset upward and downward from a pivoting center Cn, but the rail contacting surface is not limited to this shape, and may also be shaped such that the main shaft 24 separates from the car guide rail 3 continuously as the pivoting rail stopper 18 is pivoted while contacting the car guide rail 3.
  • Figure 9 is a structural diagram that shows an emergency stopping apparatus 9 according to Embodiment 2 of the present invention.
  • Figure 10 is a cross section that has been taken along line X - X in Figure 9
  • Figure 11 is a cross section that has been taken along line XI - XI in Figure 9 .
  • a housing 13 has: a housing main body 51; and an upper mounting guide portion 52 and a lower mounting guide portion 53 that are disposed on the housing main body 51, and that are arranged so as to be spaced apart from each other in a vertical direction.
  • the upper mounting guide portion 52 and the lower mounting guide portion 53 project toward a car guide rail 3 from the housing main body 51.
  • the upper mounting guide portion 52 has: a horizontal portion; and a bearing portion that extends downward from an end portion of the horizontal portion at an opposite end from the car guide rail 3.
  • the lower mounting guide portion 53 has: a horizontal portion; and a bearing portion that extends upward from an end portion of the horizontal portion at an opposite end from the car guide rail 3.
  • a bearing rail stopper 17 is disposed between the upper mounting guide portion 52 and the lower mounting guide portion 53.
  • the bearing rail stopper 17 is guided relative to the housing 13 along the respective horizontal portions of the upper mounting guide portion 52 and the lower mounting guide portion 53.
  • a plurality of (in this example, two) shoulder bolts 19 that are disposed horizontally are fixed to the bearing rail stopper 17. Each of the shoulder bolts 19 extends toward a back surface of the bearing rail stopper 17. Each of the shoulder bolts 19 passes through a common backing plate (a restricting portion) 54 that is disposed between the upper mounting guide portion 52 and the lower mounting guide portion 53.
  • a plurality of (in this example, two) pressing force adjusting bolts (adjusting elements) 55 through which the respective shoulder bolts 19 pass are screwed into the backing plate 54.
  • the pressing force adjusting bolts 55 are slidable horizontally relative to the shoulder bolts 19.
  • Pressing elements 22 through which the shoulder bolts 19 are passed are respectively disposed between the bearing rail stopper 17 and the respective pressing force adjusting bolts 55 (i.e., on an opposite side of the bearing rail stopper 17 from the car guide rail 3).
  • the pressing elements 22 have a plurality of disk springs, for example. The pressing elements 22 force the bearing rail stopper 17 away from the backing plate 54 using elastic resilience due to the disk springs being compressed.
  • the pressing force adjusting bolts 55 adjust the magnitude of the elastic resilience of the pressing elements 22. Adjustment of the elastic resilience of the pressing elements 22 is performed by the adjusting an amount of thread engagement of the pressing force adjusting bolts 55 in the backing plate 54.
  • Each of the shoulder bolts 19 is passed through a washer 20, and is screwed into a positioning nut 21. Displacement of the bearing rail stopper 17 away from the backing plate 54 is restricted by the engagement of the washers 20 and the positioning nuts 21 with the backing plate 54. Adjustment of the position of the bearing rail stopper 17 relative to the backing plate 54 is performed by adjusting an amount of thread engagement of the positioning nuts 21 on the shoulder bolts 19.
  • the bearing rail stopper 17 is displaceable relative to the housing 13 together with each of the shoulder bolts 19, the washers 20, the positioning nuts 21, the pressing elements 22, the backing plate 54, and the pressing force adjusting bolts 55.
  • the bearing rail stopper 17 is displaced toward the backing plate 54, the pressing elements 22 generates even larger elastic resilience in opposition to the displacement of the bearing rail stopper 17.
  • a plurality of (in this example, two) forcing springs 68 are disposed so as to be compressed between the bearing portion of the upper mounting guide portion 52 and the bearing rail stopper 17 and between the bearing portion of the lower mounting guide portion 53 and the bearing rail stopper 17, respectively.
  • the bearing rail stopper 17 is forced horizontally away from each of the bearing portions of the upper mounting guide portion 52 and the lower mounting guide portion 53 by the respective forcing springs 68.
  • a gap adjusting bolt 56 that passes horizontally through the backing plate 54 is screwed into a portion of the backing plate 54 between each of the shoulder bolts 19.
  • a locknut 57 for preventing displacement of the gap adjusting bolt 56 relative to the backing plate 54 is screwed onto the gap adjusting bolt 56.
  • a lever passage aperture 58 is disposed on the housing main body 51.
  • a holding lever 59 that is engaged with the gap adjusting bolt 56 is passed through the lever passage aperture 58.
  • the bearing rail stopper 17 is displaced relative to the housing 13 while the gap adjusting bolt 56 is engaged with the holding lever 59.
  • a distance between the holding lever 59 and the backing plate 54 is adjusted by adjusting the amount of thread engagement of the gap adjusting bolt 56 in the backing plate 54. The distance between the bearing rail stopper 17 and the pivoting center Cn can thereby be adjusted.
  • An electromagnet 60 is disposed on a portion of the housing 13 on an opposite side from the car guide rail 3.
  • the electromagnet 60 has: a fixed core (a first core) 61 that is fixed to the housing 13; an electromagnetic coil 62 that is installed in the fixed core 61; and a movable core (a second core) 63 that is displaceable relative to the fixed core 61.
  • the fixed core 61 and the movable core 63 can be attracted to each other by passing an electric current to the electromagnetic coil 62 (i.e., excitation of the electromagnet 60), and can be separated from each other in the direction of displacement of the housing 13 by stopping the passage of electric current to the electromagnetic coil 62.
  • a lever mounting member is fixed to the fixed core 61.
  • One end portion of the holding lever 59 is pivotably mounted to the lever mounting member by means of a pivoting support pin 64.
  • An end portion of the gap adjusting bolt 56 near the bearing rail stopper 17 is pressed against a second end portion of the holding lever 59.
  • a pushing pin 65 that is disposed horizontally is fixed centrally on the movable core 63.
  • the pushing pin 65 passes centrally through the fixed core 61.
  • An adjusting nut 66 that restricts displacement of the fixed core 61 away from the movable core 63 is screwed onto the pushing pin 65. Magnitude of a gap between the movable core 63 and the fixed core 61 can be set to a predetermined value by adjusting a position of the adjusting nut 66 relative to the pushing pin 65.
  • An intermediate portion of the holding lever 59 can be placed in contact with a tip end portion of the pushing pin 65.
  • a gap distribution adjusting bolt (a housing position adjusting means) 67 that can be placed in contact with an intermediate portion of the holding lever 59 is mounted to the mounting frame 10.
  • the respective intermediate portions of the holding lever 59 are placed in contact with the pushing pin 65 and the gap distribution adjusting bolt 67 when the fixed core 61 and the movable core 63 are attracted to each other. Both the bearing rail stopper 17 and the pivoting rail stopper 18 are thereby held away from the car guide rail 3. Specifically, when the fixed core 61 and the movable core 63 are attracted to each other, displacement of the bearing rail stopper 17 toward the car guide rail 3 is restricted by the pushing pin 65 stopping the pivoting of the holding lever 59, and displacement of the pivoting rail stopper 18 toward the car guide rail 3 is restricted by the gap distribution adjusting bolt 67 stopping displacement of the housing 13.
  • a position at which displacement of the housing 13 is restricted by the gap distribution adjusting bolt 67 can be adjusted by adjusting an amount of thread engagement of the gap distribution adjusting bolt 67 in the mounting frame 10.
  • gap dimensions between the car guide rail 3 and the pivoting rail stopper 18 and between the car guide rail 3 and the bearing rail stopper 17 can be adjusted by adjusting the amount of thread engagement of the gap distribution adjusting bolt 67 in the mounting frame 10.
  • the housing 13 is displaced to the right in Figure 10 by spring forces from each of the forcing springs 30 and 68 when the fixed core 61 and the movable core 63 are separated from each other, pivoting the holding lever 59 counterclockwise in Figure 10 .
  • the housing 13 and the holding lever 59 are displaced when the fixed core 61 and the movable core 63 are separated from each other such that the bearing rail stopper 17 and the pivoting rail stopper 18 are displaced toward each other.
  • the bearing rail stopper 17 and the pivoting rail stopper 18 each contact the car guide rail 3.
  • a plurality of (in this example, two) center of gravity adjusting apertures 69 are disposed on the pivoting rail stopper main body 26.
  • the center of gravity of the pivoting rail stopper 18 is thereby aligned with the pivoting center Cn.
  • the center Pup of the upper contacting curved surface 26b is positioned near the Y-axis in a first quadrant of X - Y coordinates that are centered around the pivoting center Cn
  • the center Pdn of the lower contacting curved surface 26c is positioned near the Y-axis in a fourth quadrant.
  • a bearing 25 between the pivoting rail stopper 18 and the main shaft 24 is a rolling bearing.
  • a displacement driving mechanism 29 includes the respective forcing springs 30 and a holding and releasing mechanism (a holding means).
  • the holding and releasing mechanism includes the holding lever 59, the electromagnet 60, the pushing pin 65, and the gap distribution adjusting bolt 67.
  • a rail stopper interval adjusting means that adjusts a distance between the pivoting center Cn of the pivoting rail stopper 18 and the bearing rail stopper 17 includes the backing plate 54, the gap adjusting bolt 56, the locknut 57, and the respective forcing springs 68. The rest of the configuration is similar to that of Embodiment 1.
  • Figure 12 is a structural diagram that shows a state in which the central contacting surface 26a of the pivoting rail stopper 18 from Figure 9 contacts the car guide rail 3, and Figure 13 is a cross section that has been taken along line XIII - XIII in Figure 12 .
  • Figure 14 is a structural diagram that shows a state in which the lower frictional surface 28a of the pivoting rail stopper 18 from Figure 9 contacts the car guide rail 3, and Figure 15 is a cross section that has been taken along line XV - XV in Figure 14 .
  • the electromagnet 60 is excited by control from the control board 4 such that the fixed core 61 and the movable core 63 are attracted to each other.
  • displacement of the bearing rail stopper 17 toward the car guide rail 3 is restricted by the holding lever 59
  • displacement of the pivoting rail stopper 18 toward the car guide rail 3 is restricted by the gap distribution adjusting bolt 67. Both the pivoting rail stopper 18 and the bearing rail stopper 17 are thereby separated from the car guide rail 3 by a predetermined gap.
  • each of the emergency stopping apparatuses 9 receives a braking command, the passage of electric current to the electromagnetic coil 62 is stopped, and the holding force from the electromagnet 60 is lost.
  • the holding force from the electromagnet 60 is lost, the fixed core 61 and the movable core 63 are displaced away from each other by the forces from the forcing springs 30 and 68.
  • the housing 13 is thereby displaced together with the fixed core 61, displacing the pivoting rail stopper 18 toward the car guide rail 3 (to the right in Figure 10 ).
  • the holding lever 59 is also pivoted counterclockwise in Figure 10 , displacing the bearing rail stopper 17 toward the car guide rail 3.
  • the bearing rail stopper 17 and the pivoting rail stopper 18 subsequently contact the car guide rail 3.
  • the bearing rail stopper 17 is subsequently pressed onto the car guide rail 3 by the forces from the respective forcing springs 68
  • the pivoting rail stopper 18 is pressed onto the car guide rail 3 by the forces from the respective forcing springs 30.
  • the forces from the forcing springs 30 and 68 are set such that these pressing forces balance each other.
  • the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted upward.
  • the lower contacting curved surface 26c of the pivoting rail stopper 18 is pivoted while contacting the car guide rail 3 due to the respective forces from the forcing springs 30.
  • the housing 13 is thereby displaced in a direction in which the main shaft 24 separates from the car guide rail 3 (to the left in Figure 12 ).
  • each of the bearing portions of the upper mounting guide portion 52 and the lower mounting guide portion 53 engages with the backing plate 54, further compressing the pressing elements 22.
  • the car guide rail 3 is gripped between the lower braking shoe 28 and the bearing rail stopper 17 ( Figures 14 and 15 ).
  • the pressing elements 22 are compressed by the displacement of the bearing rail stopper 17 that is pushed by the car guide rail 3, generating elastic resilience that presses the bearing rail stopper 17 against the car guide rail 3.
  • the lower frictional surface 28a of the lower braking shoe 28 also contacts the car guide rail 3. The gripping force on the car guide rail 3 is thereby ensured, imparting a braking force to the car 1.
  • the pivoting rail stopper 18 contacts the car guide rail 3 when the car 1 is ascending, the pivoting rail stopper 18 is pulled by the car guide rail 3 so as to be pivoted downward.
  • the upper contacting curved surface 26b of the pivoting rail stopper 18 is pivoted while contacting the car guide rail 3 due to the respective forces from the forcing springs 30.
  • the housing 13 is thereby displaced in a direction in which the main shaft 24 separates from the car guide rail 3.
  • each of the bearing portions of the upper mounting guide portion 52 and the lower mounting guide portion 53 engages with the backing plate 54, further compressing the pressing elements 22.
  • the car guide rail 3 is gripped between the upper braking shoe 27 and the bearing rail stopper 17.
  • the pressing elements 22 are compressed by the displacement of the bearing rail stopper 17 that is pushed by the car guide rail 3, generating elastic resilience that presses the bearing rail stopper 17 against the car guide rail 3.
  • the upper frictional surface 27a of the upper braking shoe 27 also contacts the car guide rail 3. The gripping force on the car guide rail 3 is thereby ensured, imparting a braking force to the car 1.
  • pressing force from the bearing rail stopper 17 onto the car guide rail 3 can be adjusted easily.
  • pivoting of the pivoting rail stopper 18 can be prevented even if rocking, etc., of the car 1 arises, for example.
  • the center of gravity of the pivoting rail stopper 18 is aligned with the pivoting center Cn of the pivoting rail stopper 18, but the center of gravity of the pivoting rail stopper 18 may also be positioned below the pivoting center Cn on the Y-axis. Pivoting of the pivoting rail stopper 18 that occurs due to rocking, etc., of the car 1 can also be prevented in this manner.
  • the pressing force adjusting bolts 55 are screwed into the backing plate 54, but may also be screwed into a back surface of the bearing rail stopper 17.
  • sensors are not limited to the car speed detecting sensor 5, the door opening and closing detecting sensor 6, and the main rope breakage detecting sensor 7.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Maintenance And Inspection Apparatuses For Elevators (AREA)
EP07714231.3A 2007-02-15 2007-02-15 Dispositif de sécurité pour ascenseur Not-in-force EP2112116B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
PCT/JP2007/052701 WO2008099487A1 (fr) 2007-02-15 2007-02-15 Dispositif de sécurité pour ascenseur

Publications (3)

Publication Number Publication Date
EP2112116A1 true EP2112116A1 (fr) 2009-10-28
EP2112116A4 EP2112116A4 (fr) 2012-03-28
EP2112116B1 EP2112116B1 (fr) 2017-08-30

Family

ID=39689746

Family Applications (1)

Application Number Title Priority Date Filing Date
EP07714231.3A Not-in-force EP2112116B1 (fr) 2007-02-15 2007-02-15 Dispositif de sécurité pour ascenseur

Country Status (5)

Country Link
EP (1) EP2112116B1 (fr)
JP (1) JP5112342B2 (fr)
KR (1) KR101033343B1 (fr)
CN (1) CN101605713B (fr)
WO (1) WO2008099487A1 (fr)

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WO2011113753A3 (fr) * 2010-03-18 2012-02-23 Inventio Ag Installation d'ascenseur avec dispositif de freinage
US20120152663A1 (en) * 2010-12-17 2012-06-21 Benoit Legeret Activating a safety gear
WO2013083430A1 (fr) 2011-12-09 2013-06-13 Inventio Ag Actionnement d'un frein de sécurité
WO2013139616A1 (fr) 2012-03-20 2013-09-26 Inventio Ag Dispositif antichute pour installation d'ascenseur
WO2014090688A1 (fr) * 2012-12-13 2014-06-19 Inventio Ag Parachute pour installation d'ascenseur
WO2014090689A1 (fr) * 2012-12-13 2014-06-19 Inventio Ag Parachute pour installation d'ascenseur
CN104936882A (zh) * 2012-11-27 2015-09-23 因温特奥股份公司 用于电梯设备的行驶体的防坠装置

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US8297413B2 (en) 2007-06-21 2012-10-30 Mitsubishi Electric Corporation Safety device for elevator and rope slip detection method using drive sheave acceleration
EP2760777B1 (fr) * 2011-09-30 2015-06-17 Inventio AG Dispositif de freinage doté d'un dispositif d'actionnement électromécanique
CN102530677A (zh) * 2012-02-24 2012-07-04 苏州莱茵电梯制造有限公司 一种采用凸轮结构的安全钳
CN104150312B (zh) * 2014-07-23 2016-06-01 河北东方富达机械有限公司 电梯轿厢意外移动安全保护装置
DE102015103012A1 (de) * 2015-03-03 2016-09-08 Thyssenkrupp Ag Bremsvorrichtung für einen Fahrkorb einer Aufzugsanlage
CN107406224B (zh) * 2015-03-18 2019-06-07 三菱电机株式会社 电梯紧急停止装置及电梯系统
DE112017001145T5 (de) * 2016-03-04 2018-11-22 Mitsubishi Electric Corporation Aufzugs-bremsvorrichtung
CN111170114B (zh) * 2018-11-13 2021-05-25 上海三菱电梯有限公司 快速响应电梯制动装置及电梯
RU2718706C1 (ru) * 2019-11-07 2020-04-14 Акционерное общество "Щербинский Лифтостроительный Завод" Ловитель
CN113247732A (zh) * 2021-05-19 2021-08-13 上海三菱电梯有限公司 电梯制动部件及电梯制动装置
CN115092789B (zh) * 2022-08-25 2022-11-11 河南起升智能科技有限公司 防意外移动装置、防意外移动组件和电梯

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Cited By (22)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102791603A (zh) * 2010-03-18 2012-11-21 因温特奥股份公司 具有制动器设备的升降机系统
CN102791603B (zh) * 2010-03-18 2015-12-16 因温特奥股份公司 具有制动器设备的升降机系统
WO2011113753A3 (fr) * 2010-03-18 2012-02-23 Inventio Ag Installation d'ascenseur avec dispositif de freinage
US8991561B2 (en) 2010-03-18 2015-03-31 Inventio Ag Elevator braking equipment
US9169104B2 (en) * 2010-12-17 2015-10-27 Inventio Ag Activating a safety gear
US20120152663A1 (en) * 2010-12-17 2012-06-21 Benoit Legeret Activating a safety gear
WO2013083430A1 (fr) 2011-12-09 2013-06-13 Inventio Ag Actionnement d'un frein de sécurité
US9919899B2 (en) 2011-12-09 2018-03-20 Inventio Ag Actuation of a safety brake
US9919898B2 (en) 2012-03-20 2018-03-20 Inventio Ag Safety brake device for an elevator installation
WO2013139616A1 (fr) 2012-03-20 2013-09-26 Inventio Ag Dispositif antichute pour installation d'ascenseur
US9457990B2 (en) 2012-03-20 2016-10-04 Inventio Ag Safety brake device for an elevator installation
RU2607906C2 (ru) * 2012-03-20 2017-01-11 Инвенцио Аг Ловитель лифта
CN104936882A (zh) * 2012-11-27 2015-09-23 因温特奥股份公司 用于电梯设备的行驶体的防坠装置
US9708159B2 (en) 2012-11-27 2017-07-18 Inventio Ag Safety brake for a travel body of an elevator system
CN104936882B (zh) * 2012-11-27 2017-02-22 因温特奥股份公司 用于电梯设备的行驶体的防坠装置
RU2643078C2 (ru) * 2012-11-27 2018-01-30 Инвенцио Аг Ловитель для транспортного объекта лифта
US9663326B2 (en) 2012-11-27 2017-05-30 Inventio Ag Brake device for a travel body of an elevator system
WO2014090688A1 (fr) * 2012-12-13 2014-06-19 Inventio Ag Parachute pour installation d'ascenseur
US9745171B2 (en) 2012-12-13 2017-08-29 Inventio Ag Safety brake for an elevator installation
CN104837758B (zh) * 2012-12-13 2017-04-12 因温特奥股份公司 用于电梯系统的防坠装置
CN104837758A (zh) * 2012-12-13 2015-08-12 因温特奥股份公司 用于电梯系统的防坠装置
WO2014090689A1 (fr) * 2012-12-13 2014-06-19 Inventio Ag Parachute pour installation d'ascenseur

Also Published As

Publication number Publication date
JPWO2008099487A1 (ja) 2010-05-27
CN101605713B (zh) 2011-12-07
KR20100004956A (ko) 2010-01-13
JP5112342B2 (ja) 2013-01-09
CN101605713A (zh) 2009-12-16
EP2112116A4 (fr) 2012-03-28
KR101033343B1 (ko) 2011-05-09
WO2008099487A1 (fr) 2008-08-21
EP2112116B1 (fr) 2017-08-30

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