KR102018202B1 - Safety elevation level adjustment system for elevators - Google Patents

Abstract

Disclosed is a safe elevation leveling system for elevators, which enables an elevation level of a cage to be automatically adjusted without the need for cage level adjustment simply by being installed in a cage and at each hall sill on every floor. The safe elevation leveling system for elevators comprises: a sensor operation module installed at a lower frame of a hall sill provided on each floor of a building; an elevation level sensor module installed at a lower frame of a cage, wherein the elevation level sensor module is operated by the sensor operation module to sequentially generate first and second elevation leveling completion signals when the elevation level sensor module approaches each hall sill on each floor as moving up and down along a hoistway, and faces the sensor operation module installed at the lower frame of each hall sill at a predetermined distance apart from the hall sill; and a controller determining that elevation leveling of the cage is completed so that the bottom of the cage and the bottom of the hall sill at which the cage is to stop are leveled if the first and second elevation leveling completion signals that are sequentially generated by the elevation level sensor module are all received, and then stopping the elevated cage.

Description

Safety conception level adjustment system for elevators {SAFETY ELEVATION LEVEL ADJUSTMENT SYSTEM FOR ELEVATORS}

The present invention relates to a safety concept level adjustment system for an elevator, and more particularly, so that the bottom surface of the cage, which is elevated along the hoistway during operation of the elevator, is horizontal to the floor surface of the hall room provided for each floor so that no step is generated. A safety concept level adjustment system for elevators for adjusting the level of a cage.

In general, an elevator refers to a device that carries a passenger or a cargo to a hall room of each floor of a building while a passenger boarding or a cage carrying cargo is lifted along the hoistway.

In the case of such an elevator cage, the floor of the cage and the floor of the hall are flush with each other when the passenger descends into the hall room provided on each floor of the building or stops for the passenger to board the cage from the hall room. The stop height of the cage, i.e., the level of landing of the cage, must be adjusted, and the level of the bottom of the cage and the bottom of the hall chamber cannot be adjusted so that the bottom of the cage and the bottom of the hall chamber cannot be leveled. In case of occurrence, there is a problem that a safety accident occurs such that a passenger falls down from the cage to the hall room or the passenger falls down on the stepped portion when the passenger boards from the cage to the cage.

Therefore, in order to operate an elevator, an installation level adjusting device is installed to move along the hoistway to adjust the level of the cage to be leveled so that the bottom of the cage and the floor of the hall side are leveled at the hall rooms provided on each floor of the building. do.

As described above, in the case of an idea level adjusting device that adjusts the level of the cage so that the bottom of the cage and the bottom of the hall are horizontally aligned with the hall seal provided on each floor while being elevated along the hoistway, the outer top of the cage The level adjustment switch is installed in the upper part, and the switch operation part is installed at a position corresponding to each floor of the building of the guide rail installed along the hoistway in the vertical direction along the hoistway. When the level adjustment switch installed on the outer top of the cage is operated by the operation unit, the level adjustment completion signal of the cage is transmitted to the control unit so that the cage stops, so that the level of the cage is adjusted to stop the cage.

In the case of such a conventional elevator leveling device for elevators, the level of the cage is adjusted according to the installation position of the switch operation unit installed on the guide rail for each floor of the building, the conventional level of elevator leveling device as described above In order to adjust the level of the cage by using the one operator is located at the upper cage and operate the low speed operation lift switch installed on the cage to raise or lower the cage at low speed, the other operator of the cage inside the cage When the floor surface of the cage and the floor surface of the hall are observed to be in parallel with each other, and the level of the cage is determined to be adjusted, the operator on the cage is notified to turn off the low speed operation lift switch. Level at the adjusted position The operator on the cage adjusts the installation position of the switch control unit so that the adjustment switch can be operated on each floor of the guide rail.

In the conventional general elevator leveling device for elevators as described above, two operators move by each floor, and the switch operation unit must be installed while checking the position where the bottom surface of the cage and the floor of the hall room are horizontal. There is a problem that a large number of workers and manpower must be put into the level adjustment.

On the other hand, in order to solve such a problem, in recent years, by adjusting the cage idea level on one floor to install the switch operation unit, the position of the switch operation unit is calculated from the bottom surface of the hall seal, the floor surface of each hall floor The switch operation unit was spaced apart from each other and installed on the guide rail to adjust the idea of the cage level.

However, as described above, when the switch operation unit is installed, the operator calculates the position where the switch operation unit is installed from the floor of the hall room on the floor where the level of idea is manually adjusted, and applies it to the entire floor of the building, so that Not only an error may occur when measuring the distance to the switch operation unit, but also an error may occur when measuring the distance from the bottom surface of the hall seal for installing the switch operation unit to the position where the switch operation unit is to be installed. In this case, there is a problem that the task of adjusting the conception level must be redone over the whole floor.

In addition, the switch operation unit may be subjected to a load, such as stepping on the operator during maintenance work of the elevator, in this case, the position of the switch operation unit is changed to occur when the level of the cage is not matched after the maintenance work of the elevator There is a problem that occurs frequently.

In addition, in the case of the conventional conventional leveling device for elevators, when the switch operation unit is installed on the guide rail through bolts and nuts, a phenomenon such as the switch operation unit being installed at a predetermined angle or sagging due to its own weight is generated. Since the floor surface of the cage and the floor of the hall room cannot be leveled by each floor, the passenger's feet are caught in the step that is generated on the floor of the cage and the floor of the hall room when passengers move in and out. There is a problem that a safety accident may occur, such as falling.

On the other hand, in the case of an elevator, when a power failure occurs, it often happens to stop at the middle of the floor and the floor.In the case of an elevator equipped with a conventional general leveling level adjusting device, the leveling device is not activated during a power failure. Even if the manager raises the cage to the nearest hall by using emergency power, the cage's conception level will not be adjusted correctly. Therefore, the general manager who can't open the cage door and has no elevator expertise can rescue the passenger. No rescuers will be able to rescue the passengers unless a rescue team, such as a 119 rescuer, will open the door to the hall and open the cage door forcibly, or the rescuer will rise to the top of the cage to open the emergency escape door above the cage. Could.

More specifically, in the case of an elevator, when the level of the hall seal and the cage are not matched, the door of the cage where the door of the hall chamber is opened is not opened, so that when installing a conventional level of elevator level adjustment device that does not operate during a power failure, Even if the cage is raised and lowered by using a power source, it is difficult to accurately match the level of conception of the hall chamber and the cage, which causes a lot of difficulties in opening the cage door.

Therefore, the general manager cannot rescue the passenger at all if the cage's conception level does not match during a power outage, and the cage door is forcibly opened or the cage is forced after opening the hall room even if a professional rescuer is dispatched. Rescue personnel must go up to open the emergency escape door in the cage to rescue the passengers, so the safety risks of passengers and rescue workers are not only high when the passengers are rescued, but there is also a problem that the elevator is broken.

Republic of Korea Patent Publication No. 10-0167185 (1998.09.26.)

An object of the present invention is to adjust the level of safety of the elevator to automatically adjust the level of the cage across the floor simply by installing in the cage and each hall room provided for each floor without the need to adjust the level of cage for each floor. To provide a system.

Another object of the present invention is that even if the power supply is not supplied due to a power failure, the cage stops at the middle of the floor and the floor, thereby elevating the cage to the close hall, thereby accurately matching the concept of the cage. It is to provide a safety leveling system for elevators that allows for quick and safe rescue.

Other detailed objects of the present invention will be apparently understood and understood by those skilled in the art through the detailed contents described below.

In order to achieve the above object, the present invention provides a sensor operation module installed in each lower frame of the hall chamber provided in each floor of the building, and installed in the lower frame of the cage to raise and lower the cage along the hoistway to reach each hall provided in each floor. When it is encountered in the state spaced apart from the sensor operation module installed in each of the lower chamber lower frame predetermined distance is activated by the sensor operation module to generate the first and second idea level adjustment completion signal sequentially and When the first and second idea level adjustment completion signals sequentially generated from the idea level sensor module are received, it is determined that the idea of the level of the cage is completed so that the bottom of the cage and the bottom of the hall chamber where the cage stops are horizontal. Elevator safety including a control unit for stopping the cage to be elevated It presents a level control system.

For example, the sensor operation module is a fixing frame fixed by a plurality of fixing members on the lower surface of each lower chamber lower frame provided for each floor of the building, and the level of the idea when the cage is stopped in each hall chamber It may include a permanent magnet operating part which is formed to extend in the vertical direction of the fixed frame long to face the sensor module spaced apart from the predetermined distance so as to operate the idea level sensor module attached to the fixed frame.

On the other hand, the sensor operation module is extended to the upper end of the fixing frame is bent to form a fixed angle of the fixing frame by being supported by the side of the lower frame of the lower frame when the fixing frame is fixed to the lower chamber frame by the fixing member It may further include an installation angle fixing portion to install the fixing frame to the lower frame lower frame so that the permanent magnet operating portion and the concept level sensor module is always face to the front.

For example, the idea of the level sensor module is the cage lower frame so that when the cage is elevated along the hoistway to reach the respective hall chamber provided for each floor, the cage lower face so as to face the sensor operation module at a predetermined interval. A fixed frame fixed to a lower surface of the fixed frame by a plurality of fixing members, and respectively installed on the upper and lower portions of the fixed frame, and the cages are elevated along the hoistway to reach respective hall chambers provided for each floor. The first and second electromagnets, which are sequentially operated by any one of the sensor operation modules and sequentially transmit the first and second level adjustment completion signals to the controller, when facing the sensor operation module installed in the lower frame at a predetermined interval. It may include a switch sensor.

Here, after the first level adjustment completion signal is received by one of the first and second electromagnet switch sensors, the control unit receives a second level adjustment completion signal by another electromagnet switch sensor after a predetermined time. It is determined that the leveling of the cage is completed only when is received to stop the cage being lifted.

On the other hand, the implantation level sensor module is bent to extend to the upper end of the fixed frame is fixed to the lower surface of the cage lower frame when the fixed frame is installed on the lower surface of the cage lower frame by the fixing member to the fixed frame By preventing the installation angle of the misalignment of the first and second electromagnet switch sensor and the sensor operation module may be further provided with an installation angle fixing portion to install the fixing frame to the cage lower frame so that the front facing always. have.

In addition, the implantation level sensor module is installed in the fixed frame so as to be located between the first and second electromagnet switch sensors, the power supply is supplied only to the drive unit for raising the cage by the emergency power is generated, the power is not supplied to the implantation level sensor module. Therefore, even when the first and second electromagnet switch sensors are not operated, when the cage is lifted by the emergency power supply and the conception level sensor module faces the sensor operation module, the sensor operation module is activated by the sensor operation module to provide an emergency completion level adjustment completion signal. It may further include a permanent magnet switch sensor that can be generated and transmitted to the control unit.

In addition, the leveling completion sensor means is operated by the control unit when the emergency level adjustment completion signal is transmitted from the permanent magnet switch sensor to the control unit, the level adjustment completion notification means for informing the administrator that the level of the level adjustment of the cage has been completed It may further include.

As described above, the safety leveling system for elevators according to an embodiment of the present invention installs a sensor operation module on each lower frame of a hall chamber provided for each side of a building, and installs a leveling sensor module on a lower frame of the cage. When the cage moves to the hallroom of the desired floor and the lower chamber frame and the lower frame of the cage become horizontal, the sensor operating module automatically activates the leveling sensor module to generate a leveling adjustment signal, thereby raising the cage by the controller. Will stop.

Therefore, in the case of an elevator equipped with a safety leveling system for elevators according to an embodiment of the present invention, the installation of the leveling sensor module on the lower frame of the cage and the operation of the sensor on each lower frame of the hall chamber provided for each side of the building If only the module is installed and the cage is operated, the cage automatically stops according to the level of conception in each hall room provided for each floor of the building. There is no need to adjust extra long and difficult cage conception levels, which can greatly reduce the installation work and maintenance cost of the elevator.

In addition, the safety leveling system for elevators according to an embodiment of the present invention is provided with an installation angle fixing part which is supported on the side of the lower chamber lower frame at the upper end of the fixed frame of the sensor operation module, the fixed frame of the level sensor module An installation angle fixing part is provided on the upper side of the cage lower frame to support the sensor operating module and the idea level sensor module by rotating fixing members such as bolts and nuts to the hall lower frame and the cage lower frame, respectively. The mounting angle fixing part of the sensor operation module and the mounting angle fixing part of the idea level sensor module are supported by the side part of the frame and the side part of the cage lower frame, respectively, by the rotational force of the fixing member such as the bolt and nut. Prevents the module from rotating .

Accordingly, the sensor operation module and the level sensor module of the safety leveling system for elevators according to an embodiment of the present invention are provided only when the fixing frame is installed in the lower chamber and the lower frame of the cage through the fixing member, respectively. The sensor operation module and the implantation level sensor module are precisely and quickly installed in the right position so that the permanent magnet operating part, the first and second electromagnetic switch sensors, and the permanent magnet switch sensor face each other even when the installation angle is not corrected. By doing so, the installation work can be greatly reduced.

In addition, in the safety leveling system for elevators according to an embodiment of the present invention, the permanent magnet switch sensor of the leveling sensor module is operated by the permanent magnet operating portion of the sensor operating module even if power is not supplied due to a power failure. After generating the emergency completion level adjustment completion signal to the control unit by the level adjustment completion notification means is operated by the control unit to inform the administrator that the completion of the level adjustment of the cage.

Therefore, the elevator installed safety level adjustment system for an elevator according to an embodiment of the present invention is very easy and easy even if the cage stops in the middle of the hall room and the hall room in the event of a power failure even in the case of a general manager without expert knowledge. By manually moving the cage to the closest hall side, the level of cage is adjusted, and then both the hall and cage doors are opened so that passengers in the cage can be quickly and safely moved to the side of the hall and rescued.

Other effects of the present invention will be apparent to and understood by those skilled in the art through the following detailed description or in the course of carrying out the present invention.

Figure 1 is a schematic cross-sectional view for explaining the implantation level adjustment system according to an embodiment of the present invention
Figure 2 is a detailed view for explaining a state in which the idea level adjustment system installed according to an embodiment of the present invention
3 is a schematic block diagram illustrating a conception level adjustment system according to an embodiment of the present invention;

As the inventive concept allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to the specific disclosed form, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. For example, without departing from the scope of the present invention, the first component may be referred to as the second component, and similarly, the second component may also be referred to as the first component.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and that one or more other features It should be understood that it does not exclude in advance the possibility of the presence or addition of numbers, steps, actions, components, parts or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art.

Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a schematic cross-sectional view for explaining a conception level adjustment system according to an embodiment of the present invention, Figure 2 is a detailed view for explaining a state in which the conception level adjustment system is installed according to an embodiment of the present invention, 3 is a schematic block diagram illustrating a conception level adjustment system according to an embodiment of the present invention.

1 to 3, the safety leveling system 100 for an elevator according to an embodiment of the present invention includes a sensor operation module 110, a leveling sensor module 120, and a controller 130. can do.

The sensor operation module 110 may be installed in each hall chamber lower frame 210 provided for each floor of a building.

For example, the sensor operation module 110 may include a fixed frame 111 and a permanent magnet operating portion 112.

The fixing frame 111 may be fixedly installed by a plurality of fixing members 114 on the lower surface of each hall chamber lower frame 210 provided for each floor of the building.

For example, the fixing frame may include a fixing portion 111a and a main body portion 111b.

The fixing part 111a may be fixed by a plurality of fixing members 114 to the lower surface of each hall chamber lower frame 210 provided for each floor of the building.

Here, the fixing member 114 may use a bolt and a nut.

The body portion 111b may extend from the fixing portion 111a and be bent in a '-' shape in a lower direction of the fixing portion 111a.

When the cage 300 stops at each of the hall chambers 200, the permanent magnet operation unit 112 faces the implantation level sensor module 120 at a predetermined distance from the implantation level sensor module 120. The fixing frame 111, that is, can be extended to a predetermined length in a vertical length direction of the main body portion 111b so as to be operated by a magnetic force, and may be attached to the main body portion 111b.

In addition, the sensor operation module 110 may further include an installation angle fixing part 113.

The installation angle fixing part 113 may be bent to extend from an upper end of the fixing frame 111, that is, the fixing part 111a so as to be supported by a side portion of the lower hall frame 210.

The installation angle fixing part 113 is supported by the side of the lower frame lower frame 210 when the fixing frame 111 is fixed to the lower hole frame 210 by the fixing member 114, the fixing frame ( Permanent magnet operating part by preventing the angle of the fixing frame 111 from being fixed when the fixing part 111a of the 111 is fixed to the lower frame 210 using the fixing member 114 such as a bolt and a nut. The fixing frame 111 may be installed in the lower chamber frame 210 so that the 112 and the idea level sensor module 120 face the front at all times.

In more detail, when there is no installation angle fixing part 113 supported on the side portion of the lower chamber lower frame 210, fixing members 111a of the fixing frame 111 may be fixed members such as bolts and nuts ( When the fixing is performed on the lower surface of the lower chamber lower frame 210 using the 114, the fixing member 114 such as the bolt and the nut is rotated to move the fixing unit 111a of the fixing frame 111 to the lower chamber lower frame ( When fixed to the lower surface of the 210 and the fixing member 114, the fixing part 111a of the fixing frame 111 is also interlocked with the fixing member 114 is rotated in the rotation direction of the fixing member 114 Since the main body 111b to which the permanent magnet operating unit 112 is attached is not installed to face the implantation level sensor module 120 in front, the operation error of the implantation level sensor module 120 may occur. The fixed frame 111 is installed After that, the installation angle of the sensor operating module 110 is increased by adjusting the installation angle of the fixing frame 111.

Therefore, in the safety leveling system 100 for elevators according to an embodiment of the present invention, the installation angle fixing part 113 is provided at the upper end of the fixing part 111a so as to be supported by the side part of the lower chamber frame 210. Is extended and bent to rotate the fixing member 114, such as bolts and nuts to fix the fixing portion 111a to the lower surface of the lower chamber lower frame 210 installed on the side of the lower chamber lower frame 210 The angle fixing part 113 is supported to prevent the fixing part from being rotated by the rotational force of the fixing member 114 such as a bolt and a nut fixing the fixing part 111a to the lower surface of the lower chamber frame 210.

Therefore, the sensor operation module 110 of the safety concept level adjustment system 100 for an elevator according to an embodiment of the present invention has a lower surface of the lower frame 210 of the hall chamber through the fixing member 111. The sensor operation module 110 is installed so that the permanent magnet operating unit 112 and the conception level sensor module 120 face each other even when the installation of the fixing frame 111 is not performed while only the installation of the fixed frame 111 is performed. By doing so, the sensor operation module 110 can be installed very quickly and easily.

The idea level sensor module 120 is installed in the cage lower frame 310 so that the cage 300 is elevated along the hoistway 400 to reach each hall chamber 200 provided for each floor to each of the hall chambers. When facing the sensor operation module 110 installed in the lower frame 210 at a predetermined interval spaced state is operated by the magnetic force of the permanent magnet operating portion 112 of the sensor operation module 110, the first and second implantation level Allows the adjustment completion signal to be generated sequentially.

For example, the idea level sensor module 120 may include a fixed frame 121 and first and second electromagnet switch sensors 122 and 123.

When the cage 300 reaches the hall chamber 200 provided for each floor by elevating the cage 300, the front of the fixing frame 121 is spaced apart from the sensor operation module 110 by a predetermined interval. It may be fixed to the lower surface of the cage lower frame 310 by a plurality of fixing members 124 to face with.

For example, the fixing frame 121 may include a fixing portion 121a and a main body portion 121b.

The fixing part 121a may be fixed to a lower surface of the cage lower frame 310 by a plurality of fixing members 124.

Here, the fixing member 124 may be used bolts and nuts.

The body portion 121b may extend from the fixing portion 121a to be bent in a '-' shape in the lower direction of the fixing portion 121a.

The first and second electromagnet switch sensors 122 and 123 are respectively installed on the upper and lower portions of the fixed frame 121 so that the cage 300 is elevated along the hoistway 400 so as to be provided in each hall room for each floor ( When it reaches the 200 and the sensor operation module 110 installed in each of the lower chamber frame 210 spaced apart at a predetermined interval, the sensor operation module 110 is sequentially operated from any one of the first The first and second level adjustment completion signals may be sequentially transmitted to the controller 130.

In addition, the conception level sensor module 120 may further include an installation angle fixing part 123 like the sensor operation module 110.

The installation angle fixing part 123 may be bent to extend to the upper end of the fixing frame 121 to be supported by the side portion of the cage lower frame 310.

The installation angle fixing part 123 is supported by the side of the cage lower frame 310 when the fixing frame 121 is fixed to the cage lower frame 310 by the fixing member 124 to fix the fixing frame ( When the fixing part 121a of 121 is fixed to the cage lower frame 310 by using fixing members 124 such as bolts and nuts, the angle of the fixing frame 121 is not twisted. 2 so that the fixed frame 121 can be installed in the cage lower frame 310 so that the electromagnet switch sensor 122, 123 and the sensor operation module 110 can always face the front.

In more detail, when there is no installation angle fixing part 123 supported on the side of the cage lower frame 310, the fixing member 121a of the fixing frame 121 may be fixed to a fixing member such as a bolt and a nut ( When the bottom surface of the cage lower frame 310 is fixed using the 124, the fixing member 124 such as the bolt and nut is rotated to fix the fixing portion 121a of the fixing frame 121 to the cage lower frame ( When fixed to the lower surface of 310, the fixing portion 121a of the fixing frame 121 together with the fixing member 124 is also interlocked with the fixing member 124 is rotated in the rotation direction of the fixing member 124 fixed As a result, the main body part 121b on which the first and second electromagnet switch sensors 122 and 123 are installed is not installed to face the front surface of the sensor operation module 110 so that the first and second electromagnet switch sensors 122 ( 123) may cause an operating error, Since the installation angle of the fixing frame 121 is to be adjusted after installing the frame 121, the man-hour for installing the idea level sensor module 120 is increased.

Accordingly, in the elevator level adjustment system 100 according to an embodiment of the present invention, the installation angle fixing part 123 is extended to the upper end of the fixing part 121a so as to be supported by the side part of the cage lower frame 310. The bending angle is formed by rotating the fixing member 124, such as bolts and nuts to fix the fixing portion 121a to the lower surface of the cage lower frame 310, the installation angle fixing portion on the side of the cage lower frame 310 123 is supported to prevent the fixing part 121a from being rotated by the rotational force of the fixing member 124 such as a bolt and a nut that fixes the fixing part 121a to the lower surface of the cage lower frame 310. .

Therefore, the leveling sensor module 120 of the safety leveling system for elevators 100 according to an embodiment of the present invention, the fixing frame 121 together with the sensor operation module 110 to the fixing member 124. If only the bottom surface of the cage lower frame 310 is installed through the first and second electromagnet switch sensor 122, 123 is the sensor operation module 110 even if the correction operation of the installation angle of the fixing frame 121 is not performed The installation level sensor module 120 can be installed very quickly and easily by installing the level sensor module 120 to face the front at all times.

In addition, the idea level sensor module 120 may further include a permanent magnet switch sensor (125).

The permanent magnet switch sensor 125 may be installed on the fixed frame 121 to be positioned between the first and second electromagnet switch sensors 122 and 123.

The permanent magnet switch sensor 125 is a power failure is supplied only to the drive unit for emergency power to lift the cage 300 and the power supply is not supplied to the concept level sensor module 120, the first and second electromagnet switch sensor ( 122) When the 123 is not operated, the cage 300 is lifted by the emergency power supply so that the conception level sensor module 120 faces the sensor operation module 110 and the permanent magnet of the sensor operation module 110. It is operated by the magnetic force of the operation unit 112 to generate the emergency level adjustment completion signal to be transmitted to the control unit 130.

In addition, the conception level sensor module 120 may further include a level adjustment completion notification unit 126.

The level adjustment completion notifying means 126 is operated by the control unit 130 when an emergency conception level adjustment completion signal is transmitted from the permanent magnet switch sensor 125 to the control unit 130 to install the cage 300 to the manager. Make sure that the level adjustment is complete.

For example, it is preferable to use a lamp with a built-in battery that can supply power as the level adjustment completion notifying means 126.

The control unit 130 receives the first and second idea level adjustment completion signals sequentially generated from the idea level sensor module 120 receives the bottom of the cage 300 and the hall chamber 200 to stop the cage 300. It is determined that the leveling of the cage 300 is completed so that the bottom surface of the) is horizontal to stop the cage 300 to be elevated.

Again, with reference to Figures 1 to 3 will be described the operation and operation effects of the safety leveling system for elevators according to an embodiment of the present invention.

1 to 3, in the safety leveling system 100 for elevators according to an embodiment of the present invention, when the user selects a floor to move, the cage 300 rises along the hoistway 400. Or descend to move to the hall chamber 200 side of the desired floor.

The cage 300 is moved up or down along the hoistway 400 to move toward the hall chamber 200 of the desired floor, and the idea level sensor module 120 installed in the cage lower frame 310 is connected to the lower chamber 210. When faced with the installed sensor operation module 110, the idea of the level sensor module 120 is activated by the sensor operation module 110 to sequentially generate the first, second level adjustment level completion signal.

In more detail, when the cage 300 is moved along the hoistway 400 to be moved to the hall chamber 200 of the desired floor, the level of the concept sensor module 120 together with the cage 300 is raised to form the desired floor. It faces the sensor operation module 110 installed in the lower chamber frame 210. That is, when the conception level sensor module 120 rises together with the cage 300 and moves toward the hall chamber 200 of the desired floor, the first electromagnet switch sensor 122 installed on the upper end of the fixing frame 121. , The permanent magnet switch sensor 125 installed at the center of the fixed frame 121, and the second electromagnet switch sensor 123 installed at the lower end of the fixed frame 121. It faces the permanent magnet operating portion (112).

Therefore, when the conception level sensor module 120 is moved together with the cage 300 to move to the hall chamber 200 of the desired floor, the first electromagnet switch sensor 122 which firstly faces the permanent magnet operating part 112. ) Is operated by the permanent magnet operating unit 112 to generate a first completion level adjustment completion signal to be transmitted to the control unit 130, the conception level sensor module 120 is further a predetermined interval with the cage 300 Ascending, the permanent magnet switch sensor 125 is operated by the permanent magnet operating unit 112 to generate an emergency conception level adjustment completion signal to be transmitted to the control unit 130, the conception level sensor module 120 If the cage 300 is further increased by a predetermined interval, the second electromagnet switch sensor 123 is operated by the permanent magnet operating unit 112 to face the permanent magnet operating unit 112, so that the second implantation level is achieved. Adjustment completion signal It is generated and transmitted to the control unit 130.

As described above, when the first and second electromagnet switch sensors 122 and 123 are all operated by the permanent magnet operating unit 112, and the first and second idea level adjustment completion signals are all transmitted to the controller 130. The control unit 130 is the cage 300 is determined that the level of adjustment of the cage 300 is completed so that the bottom surface of the cage 300 and the bottom surface of the hall chamber 200 to stop the cage 300 is raised cage 300 ) Will stop.

Meanwhile, when the cage 300 descends along the hoistway 400 and moves toward the hall chamber 200 of the desired floor, the idea level sensor module 120 is lowered together with the cage 300 to lower the hall chamber lower frame of the desired floor ( It faces the sensor operation module 110 installed in 210. That is, when the conception level sensor module 120 descends together with the cage 300 to move toward the hall chamber 200 of the desired floor, the second electromagnet switch sensor 123 installed at the lower end of the fixing frame 121. , The permanent magnet switch sensor 125 is installed in the center of the fixed frame 121, the first electromagnet switch sensor 122 is installed in the upper end of the fixed frame 121 of the sensor operation module 110 of the It faces the permanent magnet operating portion (112).

Therefore, when the conception level sensor module 120 is lowered together with the cage 300 to move toward the hall chamber 200 of the desired floor, the first electromagnet switch sensor 123 is first encountered with the permanent magnet operating unit 112. ) Is operated by the permanent magnet operating unit 112 to generate a first completion level adjustment completion signal to be transmitted to the control unit 130, the conception level sensor module 120 is further a predetermined interval with the cage 300 When descending, the permanent magnet switch sensor 125 is operated by the permanent magnet operation unit 112 to generate an emergency idea level adjustment completion signal to transmit to the control unit 130, the idea level sensor module 120 If the cage is further lowered by a predetermined interval, the first electromagnet switch sensor 122 is operated by the permanent magnet operating unit 112 to face the permanent magnet operating unit 112, thereby completing the second idea level adjustment completion signal. Foot By is sent to the controller 130.

As described above, when the second and first electromagnet switch sensors 123 and 122 are all operated by the permanent magnet operating unit 112, and the first and second idea level adjustment completion signals are all transmitted to the controller 130. The controller 130 stops the cage 300 which is lowered because it is determined that the leveling of the cage 300 is completed so that the bottom surface of the cage 300 and the bottom surface of the hall chamber 200 where the cage is to be stopped are horizontal. Let's go.

On the other hand, when a power failure occurs during operation of the elevator, the power supply to the elevator is stopped, the cage 300 is stopped, when the power failure occurs as described above the cage 300 is stopped passengers in the cage 300 To escape safely from the cage 300 to the hall chamber 200 side.

As described above, when the cage 300 is stopped in a state where the level of the cage 300 is aligned so that the bottom surface of the hall chamber 200 and the bottom surface of the cage 300 are horizontal when the power failure occurs, the manager is connected with the door of the hall chamber 200. The cage 300 may be opened to easily escape a passenger in the cage 300, but if the cage 300 stops in the middle of the hall chamber 200 and the hall chamber 200, the cage 300 may be in the cage 300. In order to escape the passengers on board, the emergency power is supplied to the elevator to raise the cage 300 to the close hall 200 to open the cage 300 door and the hall chamber 200 door to secure the passengers from the cage 300. It can escape to the hall chamber 200 side.

However, even if a power failure occurs to supply emergency power to the elevator, in the case of emergency power supply to the driving unit for elevating the cage 300, the administrator can manually elevate the cage 300, but the concept of level adjustment system 100 Even though the manager manually raises and lowers the cage 300 to the close hall 200, it is impossible to determine whether the level of the cage 300 is properly adjusted, and the manual level of the cage 300 can be manually adjusted. The problem is that it is very difficult to fit, so that ordinary managers who do not have the expertise cannot rescue passengers.

That is, in the case of an elevator, the door of the cage 300 is opened only when the landing level of the cage 300 is exactly aligned so that the bottom surface of the hall chamber 200 and the bottom surface of the cage 300 are horizontal for safety. If the design level of the cage 300 is not exactly matched so that the bottom surface of the hall chamber 200 and the bottom surface of the cage 300 are horizontal, the door of the hall chamber 200 is opened but the cage 300 door is opened. When the power failure occurs, the implantation level adjustment system 100 is not operated at the time of power failure, so that when the power failure occurs, the cage 300 stops to be located in the middle of the hall chamber 200 and the hall chamber 200. Even though the door is moved to the near hall side, the cage 300 may not be adjusted so that the bottom surface of the hall chamber 200 to which the cage 300 is moved and the bottom surface of the cage 300 are horizontal, so the door of the cage 300 is opened. In the case of general managers who could not afford and had no specialized knowledge, passengers were not rescued.

In such a case, a professional rescuer such as a 119 rescuer moves out to open the door of the hall chamber 200 and then forcibly opens the door of the cage 300 or the rescuer climbs to the upper part of the cage 300 so that the cage 300 The emergency escape door (not shown) of the upper part may be opened to rescue the passengers. When the passengers are rescued in this manner, the rescuers and the passengers are exposed to the hoistway 400 where safety accidents occur very frequently. Passenger rescue work is very difficult and takes a long time, and there is a problem that the risk of safety accidents is always followed.

However, in the elevator in which the safety conception level adjustment system 100 for an elevator according to an embodiment of the present invention is installed, the cage 300 is emergency stopped and implanted so that the power failure occurs so that the cage 300 is positioned in the middle of the hall chamber 200 and the hall chamber 200. Even if power is not supplied to the level adjustment system 100, the manager manually moves the cage 300 toward the close hall chamber 200, so that the idea level sensor module 120 installed in the cage 300 has a lower frame of the hall chamber. When faced with the sensor operation module 110 installed in the 210, the permanent magnet switch sensor 125 of the implantation level sensor module 120 is operated by the permanent magnet operating portion 112 of the sensor operation module 110 to emerge emergency A level adjustment completion signal is generated and transmitted to the control unit 130. The control unit 130 operates the level adjustment completion notifying means 126 as soon as an emergency conception level adjustment completion signal is received to the manager. It is let me know that the implantation level adjustment of the cage 300 is complete, so that the administrator can determine that the implantation level adjustment of the cage 300 is completed.

Therefore, in the case of an elevator in which the safety leveling system 100 for elevators according to an embodiment of the present invention is installed, the cage 300 is connected to the hall room 200 when a power failure occurs even in the case of a general manager who does not have professional knowledge. Even if an emergency stop is made in the middle of the hall chamber 200, the cage 300 is manually moved to the near hall chamber 200 side very easily and easily to adjust the idea of the cage 300, and then the door and cage 300 of the hall chamber 200. The door is opened so that passengers in the cage 300 can be rescued quickly and safely.

As described above, the safety leveling system 100 for elevators according to one embodiment of the present invention installs the sensor operation module 110 on each lower chamber frame 210 provided for each side of the building, and the cage bottom When the level sensor module 120 is installed on the frame 310 and the cage 300 moves to the hall chamber 200 of the desired floor, the lower chamber 210 frame and the lower cage frame 310 become horizontal. The conception level sensor module 120 is automatically operated by the operation module 110 to generate a conception level adjustment completion signal to stop the cage 300 which is elevated by the controller 130.

Therefore, in the case of the elevator installed safety leveling system for level adjustment 100 according to an embodiment of the present invention to install the leveling sensor module 120 in the cage lower frame 310 and each side of the building After only the operation of installing the sensor operation module 110 in each of the provided lower chamber frames 210, the cage 300 is operated, the cage 300 in each hall chamber 200 provided for each floor of the building. After the installation of the level adjustment system 100 is automatically stopped by adjusting the level of the implantation level, the work takes a very long time for each floor and the installation of the elevator is not necessary to adjust the level of the difficult cage 300 difficult to install separately Significantly reduce the labor and maintenance costs.

In addition, the safety leveling system 100 for elevators according to an embodiment of the present invention is an installation angle of the support that is supported on the side of the lower chamber frame 210 in the upper end of the fixed frame 111 of the sensor operation module 110. The government 113 is provided, and an installation angle fixing part 123 is provided at an upper end of the fixing frame 121 of the idea level sensor module 120 to support the side surface of the cage lower frame 310. ) And the conception level sensor module 120 by rotating the fixing members 114 and 124 such as bolts and nuts to the hall lower frame 210 and the cage lower frame 310, respectively. The bolt and the mounting angle fixing part 113 of the sensor operation module 110 and the mounting angle fixing part 123 of the idea level sensor module 120 are respectively supported by the side part of the cage and the lower frame 310 of the cage. Fixing members such as nuts (11) 4) prevents the sensor operation module 110 and the idea level sensor module 120 from being rotated by the rotational force of 124.

Therefore, the sensor operation module 110 and the conception level sensor module 120 of the safety conception level adjustment system 100 for an elevator according to an embodiment of the present invention, the fixing frame 111, 121 fixing member 114 Permanent magnet operating unit 112 is always installed even if only the installation of the fixing frame 111, 121 of the lower frame 310 and the cage lower frame 310 through the operation of the correction angle of the fixing frame 111, 121, respectively; And the first and second electromagnet switch sensors 122 and 123 and the permanent magnet switch sensor 125 face the front face, and the sensor operation module 110 and the implantation level sensor module 120 are precisely and quickly in place. The installation can greatly reduce the number of installation work.

In addition, in the safety leveling system 100 for elevators according to an embodiment of the present invention, the permanent magnet switch sensor 125 of the leveling sensor module 120 operates the sensor even if a power failure is not supplied. Operated by the permanent magnet operation unit 112 of the module 110 generates an emergency conception level adjustment completion signal and transmits it to the control unit 130 to operate the level adjustment completion notification means 126 by the control unit 130 manager It may be informed that the concept of adjusting the level of the cage 300 is completed.

Therefore, the elevator in which the safety leveling system for elevators 100 is installed according to an embodiment of the present invention, even in the case of a general manager who does not have professional knowledge, the cage 300 is the hall room 200 and the hall room when a power failure occurs. (200) Even if the emergency stop in the middle, very easy and easy to manually move the cage 300 to the near hall 200 side after adjusting the level of the cage 300, hall room 200 door and cage 300 door By opening all the passengers in the cage 300 has the advantage that can be quickly and safely moved to the hall room 200 side to rescue.

In the detailed description of the present invention described above with reference to the preferred embodiments of the present invention, those skilled in the art or those skilled in the art having ordinary skill in the art will be described in the claims to be described later It will be understood that various modifications and variations can be made in the present invention without departing from the scope of the present invention.

110: sensor operation module 120: idea level sensor module
130: control unit

Claims (8)

A sensor operation module installed on each lower frame of the hall chamber provided for each floor of the building;
Installed in the lower frame of the cage, the cage is elevated along the hoistway to reach the respective hall chamber provided for each floor to face the sensor operation module installed in each of the lower chamber frame spaced at a predetermined distance from the sensor operation module An idea level sensor module which is operated to sequentially generate first and second idea level adjustment completion signals; And
When all the first and second leveling completion adjustment signals sequentially generated from the leveling level sensor module are received, it is determined that the leveling of the leveling of the cage is completed so that the bottom of the cage and the bottom of the hall chamber where the cage is to be stopped are horizontal. It includes a control unit for stopping the cage being lifted,
The sensor operation module,
A fixing frame fixedly installed by a plurality of fixing members on a lower surface of each lower chamber lower frame provided for each floor of the building;
When the cage stops in each hall chamber, the cage is extended in the vertical length direction of the fixing frame so as to face the implantation level sensor module at a predetermined interval and operate the implantation level sensor module to be attached to the fixing frame. Permanent magnet actuating unit; And
Permanent magnet operating part by extending the upper end of the fixing frame is bent to be supported by the side of the lower frame of the lower frame when the fixed frame is fixed to the lower hole frame by the fixing member so that the installation angle of the fixed frame is not twisted And an installation angle fixing unit for installing the fixing frame to the lower frame of the hall chamber so that the idea level sensor module may face the front at all times.
The idea level sensor module,
When the cage is elevated along the hoistway to reach each hall chamber provided for each floor, a plurality of fixing members are provided on the lower surface of the cage lower frame so as to face the front face at a predetermined interval from the sensor operation module. A fixed frame fixedly installed;
When installed in the upper and lower portions of the fixed frame, respectively, the cage is elevated along the hoistway to reach the respective hall chambers provided for each floor, so as to face the sensor operation module installed in the lower frame of the hall chamber at a predetermined interval. First and second electromagnet switch sensors sequentially operated by any one of the sensor operation modules to sequentially transmit first and second level adjustment completion signals to a controller; And
When the fixing frame is extended to the upper end of the fixing frame and fixedly installed on the lower surface of the cage lower frame by the fixing member, it is supported by the side portion of the cage lower frame so that the installation angle of the fixing frame is not twisted. And an installation angle fixing unit configured to install the fixing frame on the cage lower frame such that the first and second electromagnet switch sensors and the sensor operation module are always face to face. delete delete delete According to claim 1,
The control unit,
After the first level adjustment completion signal is received by one of the first and second electromagnet switch sensors, the second level adjustment completion signal must also be received by the other electromagnet switch sensor after a predetermined time. An elevator safety level adjustment system for stopping the cage that is lifted by determining that the level is adjusted. delete According to claim 1,
The idea level sensor module,
The first and second electromagnet switches are installed in the fixed frame so as to be located between the first and second electromagnet switch sensors so that an emergency power is supplied only to a driving unit for elevating the cage, and power is not supplied to the idea level sensor module. Even when the sensor is not operated, when the cage is lifted by the emergency power and the conception level sensor module faces the sensor operation module, the sensor operation module is operated by the sensor operation module to generate an emergency ideation level adjustment completion signal and transmit the signal to the controller. Safety leveling system for elevators further comprising a permanent magnet switch sensor. The method of claim 7, wherein
The idea level sensor module,
When the emergency conception level adjustment completion signal is transmitted from the permanent magnet switch sensor to the control unit is operated by the control unit safety level for elevator further comprising a level adjustment completion notification means for informing the administrator that the level of the level of completion of adjustment of the cage is completed. Coordination system.

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