JP5665708B2 - Elevator guide rail lubrication device and elevator guide rail lubrication method - Google Patents

Description

  The present invention relates to an elevator guide rail oil supply device and an elevator guide rail oil supply method for supplying oil to a guide rail that guides a lifting body that moves up and down a hoistway.

  Conventionally, an oil supply tank for storing oil, an oil supply member that supplies oil in the oil supply tank to the guide rail by being immersed in the oil stored in the oil supply tank, and the oil supply member are provided in the oil supply member. 2. Description of the Related Art There is known an elevator guide rail oil supply device that includes an oil amount adjusting device that adjusts the amount of oil flowing through an oil supply member by changing an oil flow passage cross-sectional area. The oil amount adjusting device has a pair of plate members that sandwich the oil supply member, and a distance changing member that changes the distance between the pair of plate members. The distance changing member includes a bimetal that is deformed by a change in temperature, and changes the distance between the pair of plate members by the change in temperature. When the temperature is high, the flow passage cross-sectional area of the oil supply member is reduced, and when the temperature is low, the flow passage cross-sectional area of the oil supply member is increased. Thereby, although the viscosity of oil changes with temperature changes, the change of the quantity of the oil which flows through the oil supply member which generate | occur | produces with the change of temperature is reduced. As a result, the change in the amount of oil supplied to the guide rail caused by the change in temperature is reduced (see, for example, Patent Document 1).

JP 2000-136077 A

  However, the oil amount adjusting device has a pair of plate members that sandwich the oil supply member, and a distance changing member that changes the distance between these plate members. It includes a bimetal that reduces the distance between the members and a spring that biases in a direction opposite to the direction of the force generated by the bimetal, that is, a direction that increases the distance between the pair of plate members. Since a spring is required to increase the distance between the pair of plate members when the temperature is lowered, there is a problem that the configuration of the elevator guide rail oil supply device becomes complicated.

  The present invention provides an elevator guide rail oil supply device and an elevator guide rail oil supply method capable of reducing a change in the amount of oil supplied to a guide rail caused by a change in temperature and simplifying the configuration. is there.

  An elevator guide rail oil supply device according to the present invention is an elevator guide rail oil supply device that is provided in a lift body of an elevator and supplies oil to a guide rail that guides the lift body, an oil supply tank that stores the oil, The fixed oil supply member immersed in the oil stored in the oil supply tank and contacting the guide rail, the contact position immersed in the oil stored in the oil supply tank and contacting the guide rail, and the guide rail A movable oil supply member that is displaced between the separated positions and a displacement device that displaces the movable oil supply member according to a change in temperature is provided.

  An elevator guide rail lubrication method according to the present invention is an elevator guide rail lubrication method in which oil is supplied to a guide rail that guides an elevator lifting body, and a fixed lubrication member immersed in the oil contacts the guide rail. The fixed oil supply member oil supply step, and the movable oil supply member immersed in the oil is displaced between a contact position in contact with the guide rail and a separated position away from the guide rail according to a change in temperature. A displacement step.

  According to the elevator guide rail oil supply device according to the present invention, the oil supply tank that stores oil, the fixed oil supply member that is immersed in the oil stored in the oil supply tank and contacts the guide rail, and the oil stored in the oil supply tank A movable oil supply member that is displaced between a contact position that contacts the guide rail and a separated position that is separated from the guide rail, and a displacement device that displaces the movable oil supply member in response to a change in temperature are provided. When the temperature is higher than a predetermined value, the movable oil supply member can be displaced to the separated position, and when the temperature is lower than the predetermined value, the movable oil supply member can be displaced to the contact position. Thereby, although the viscosity of oil changes with temperature changes, the change of the quantity of oil supplied to the guide rail which generate | occur | produces with the change of temperature can be reduced. Further, since the amount of oil supplied to the guide rail is adjusted by the displacement of the movable oil supply member, the configuration of the elevator guide rail oil supply device can be simplified.

  According to the elevator guide rail lubrication method according to the present invention, the fixed lubrication member lubrication process in which the fixed lubrication member immersed in the oil contacts the guide rail and the movable lubrication member immersed in the oil according to a change in temperature. And a movable oil supply member displacing step that displaces between a contact position that contacts the guide rail and a separation position that is separated from the guide rail. Therefore, when the temperature is higher than a predetermined value, the movable oil supply member is moved to the separation position. When the temperature is lower than a predetermined value, the movable oil supply member can be displaced to the contact position. Thereby, although the viscosity of oil changes with temperature changes, the change of the quantity of oil supplied to the guide rail which generate | occur | produces with the change of temperature can be reduced. Further, since the amount of oil supplied to the guide rail is adjusted by the displacement of the movable oil supply member, the configuration of the elevator guide rail oil supply device can be simplified.

It is a front view which shows the elevator which concerns on Embodiment 1 of this invention. It is a top view which shows the oil supply apparatus of FIG. It is arrow sectional drawing along the III-III line of FIG. It is a top view which shows the oil supply apparatus of the state which the movable lamp core of FIG. 2 displaced to the separation position. It is arrow sectional drawing along the VV line of FIG.

Embodiment 1 FIG.
1 is a front view showing an elevator according to Embodiment 1 of the present invention. In the figure, an elevator includes a pair of guide rails 1 provided in the hoistway, a car (elevating body) 2 that is guided by the guide rail 1 and moves along the hoistway, and a pair of oil that supplies oil to each guide rail 1. An oil supply device (elevator guide rail oil supply device) 3 is provided.

  The car 2 includes a car body 21, a pair of upper guide shoes 22 provided on the upper part of the car body 21, and a pair of lower guide shoes 23 provided on the lower part of the car body 21. The upper guide shoe 22 and the lower guide shoe 23 are slid on the guide rail 1. The car 2 is guided to the guide rail 1 by sliding the upper guide shoe 22 and the lower guide shoe 23 on the guide rail 1.

  The oil supply device 3 supplies oil to the guide rail 1 so that sliding of the upper guide shoe 22 with respect to the guide rail 1 and sliding of the lower guide shoe 23 with respect to the guide rail 1 are performed smoothly. When the supply of oil to the guide rail 1 is insufficient, abnormal noise is generated due to sliding, and wear of the guide rail 1, the upper guide shoe 22, and the lower guide shoe 23 occurs. On the other hand, when the amount of oil supplied to the guide rail 1 is excessive, there is a possibility that the hoistway is soiled due to the scattering of oil or the oil leaks into the car 2.

  The oil supply device 3 is provided on each upper portion of the pair of upper guide shoes 22. 2 is a plan view showing the oil supply device 3 of FIG. 1, and FIG. 3 is a cross-sectional view taken along the line III-III of FIG. In the figure, an oil supply device 3 includes an oil supply tank 31 that stores oil, a pair of fixed lamp cores (fixed oil supply members) 32 that are immersed in the oil stored in the oil supply tank 31 and that contact the guide rail 1, and an oil supply tank 31. A pair of movable lamp cores (movable oil supply members) 33 that are immersed in the oil stored in the tank and displaced between a contact position that contacts the guide rail 1 and a separated position that separates from the guide rail 1, and a fixed lamp core 32 are connected to an oil tank 31. And a pair of displacement devices 35 for displacing each movable lamp core 33 according to a change in temperature.

  The fixed lamp core 32 is made of a fiber into which oil penetrates. Note that the fixed lamp core 32 is not limited to fibers, and may be formed of, for example, felt through which oil penetrates. The lower part of the fixed lamp core 32 is immersed in oil stored in the oil tank 31. The upper part of the fixed lamp core 32 is located above the oil level of the oil stored in the oil tank 31 and faces the side surface of the guide rail 1. The upper parts of the pair of fixed lamp cores 32 are arranged to face each other. The pair of fixed lamp cores 32 are arranged such that the guide rail 1 is positioned between the upper parts of the fixed lamp cores 32. The upper part of each fixed lamp core 32 is always in contact with the guide rail 1 regardless of the temperature change. Thereby, the fixed lamp core 32 always supplies the oil in the oil tank 31 to the guide rail 1. The amount of oil supplied to the guide rail 1 by the fixed lamp core 32 changes with changes in temperature because the viscosity of the oil changes with changes in temperature. That is, when the temperature is high, such as in summer, the viscosity of the oil is low, so the amount of oil supplied to the guide rail 1 by the fixed lamp core 32 increases. On the other hand, when the temperature is low, such as in winter, the viscosity of the oil increases, so the amount of oil supplied to the guide rail 1 by the fixed lamp core 32 decreases.

  Similar to the fixed lamp core 32, the movable lamp core 33 is made of a fiber through which oil penetrates. The movable lamp core 33 is not limited to fibers, and may be composed of, for example, felt through which oil penetrates. The lower part of the movable lamp core 33 is immersed in the oil stored in the oil tank 31. The upper part of the movable lamp core 33 is positioned above the oil level of the oil stored in the oil supply tank 31 and faces the side surface of the guide rail 1. The upper parts of the pair of movable lamp cores 33 are arranged to face each other. The pair of movable lamp cores 33 are arranged so that the guide rail 1 is positioned between the upper parts of the movable lamp cores 33. The upper part of each movable lamp core 33 contacts the guide rail 1 when the position of the movable lamp core 33 is the contact position, and is separated from the guide rail 1 when the position of the movable lamp core 33 is the separated position. The upper part of the movable lamp core 33 is disposed on a vertical line passing through the upper part of the fixed lamp core 32 when the position of the movable lamp core 33 is the contact position. In other words, the movable lamp core 33 is arranged so as to contact the portion of the guide rail 1 to which oil is supplied by the fixed lamp core 32 when the car 2 is lowered in a state where the position of the movable lamp core 33 is the contact position. . The movable lamp core 33 supplies the oil in the fuel tank 31 to the guide rail 1 when the movable lamp core 33 contacts the guide rail 1.

  The displacement device 35 is provided between the holding member 351 attached to the upper part of the movable lamp core 33, the fixing member 352 attached to the fuel tank 31, and the holding member 351 and the fixing member 352, and is made of bimetal. And a deformable member 353. The deformable member 353 is disposed so as to displace the position of the movable lamp core 33 to the contact position when the temperature is lower than a predetermined value. 4 is a plan view showing the fuel supply device 3 in a state where the movable lamp core 33 of FIG. 2 is displaced to the separated position, and FIG. 5 is a cross-sectional view taken along line VV of FIG. When the temperature is higher than a predetermined value, the deformable member 353 is deformed so that the position of the movable lamp core 33 becomes the separated position. When the temperature is lower than the predetermined value, the amount of oil supplied to the guide rail 1 by the fixed lamp core 32 decreases, but the movable lamp core 33 is displaced to the contact position, and the movable lamp core 33 causes the guide rail 1 to be oiled. Is supplied. On the other hand, when the temperature is higher than the predetermined value, the amount of oil supplied to the guide rail 1 by the fixed lamp core 32 increases, but the movable lamp core 33 is displaced to the separated position, and the guide rail 1 by the movable lamp core 33 is displaced. Oil supply to the machine stops. A predetermined value serving as a reference for displacing the movable lamp core 33 is arbitrarily set.

  Next, operation | movement of the oil supply apparatus 3 is demonstrated. The fixed lamp core 32 immersed in the oil stored in the oil supply tank 31 contacts the guide rail 1 (fixed oil supply member oil supply step). Thereby, the oil stored in the oil tank 31 is always supplied to the guide rail 1 via the fixed lamp core 32.

  The movable lamp core 33 immersed in the oil stored in the oil tank 31 is displaced between the contact position and the separated position in accordance with a change in temperature. When the temperature is lower than the predetermined value, the movable lamp core 33 is displaced to the contact position (movable oil supply member displacement step). When the position of the movable lamp core 33 is the contact position, the oil stored in the oil tank 31 is supplied to the guide rail 1 via the movable lamp core 33. Since the temperature is lower than the predetermined value, the viscosity of the oil is increased, and this reduces the amount of oil supplied to the guide rail 1 via the fixed lamp core 32, but compensates for this decreased amount of oil. Oil is supplied to the guide rail 1 through the movable lamp core 33. On the other hand, when the temperature is higher than the predetermined value, the movable lamp core 33 is displaced to the separated position (movable oil supply member displacement step). When the position of the movable lamp core 33 is the separated position, the oil stored in the oil tank 31 is stopped from being supplied to the guide rail 1 via the movable lamp core 33. Since the temperature is higher than the predetermined value, the viscosity of the oil is lowered, and this increases the amount of oil supplied to the guide rail 1 through the fixed wick 32, but this corresponds to the increased amount of oil. In addition, the supply of oil to the guide rail 1 via the movable lamp core 33 is stopped.

  As described above, according to the oil supply device 3 according to the first embodiment of the present invention, the oil tank 31 that stores the oil, and the fixed that is immersed in the oil stored in the oil tank 31 and contacts the guide rail 1. A lamp core 32, a movable lamp core 33 that is immersed in oil stored in the oil tank 31, and is displaced between a contact position that contacts the guide rail 1 and a separated position that is separated from the guide rail 1, and is movable according to a change in temperature. A displacement device 35 for displacing the lamp core 33 is provided. Therefore, when the temperature is higher than a predetermined value, the movable lamp core 33 is displaced to a separated position, and when the temperature is lower than the predetermined value, the movable lamp core 33 is displaced. Can be displaced to the contact position. Thereby, although the viscosity of oil changes with temperature changes, the change of the quantity of the oil supplied to the guide rail 1 which generate | occur | produces with the change of temperature can be reduced. Further, since the amount of oil supplied to the guide rail 1 is adjusted by the displacement of the movable lamp core 33, the configuration of the oil supply device 3 can be simplified. Moreover, since the movable lamp core 33 is not in contact with the guide rail 1 when the movable lamp core 33 is in the separated position, wear caused by the contact between the movable lamp core 33 and the guide rail 1 can be reduced. .

  The displacement device 35 has a deformation member 353 made of a bimetal that deforms in response to a change in temperature, and the movable lamp core 33 is displaced in accordance with the deformation of the deformation member 353. The movable lamp core 33 can be displaced between the contact position and the separation position.

  In addition, according to the elevator guide rail refueling method according to the first embodiment of the present invention, the fixed oil supply member refueling process in which the fixed lamp core 32 immersed in the oil contacts the guide rail 1, and the movable lamp core 33 immersed in the oil. However, since it includes a movable oil supply member displacing step that displaces between a contact position that contacts the guide rail 1 and a separated position that moves away from the guide rail 1 according to a change in temperature, the temperature is higher than a predetermined value. In this case, the movable lamp core 33 can be displaced to the separated position, and when the temperature is lower than a predetermined value, the movable lamp core 33 can be displaced to the contact position. Thereby, although the viscosity of oil changes with temperature changes, the change of the quantity of the oil supplied to the guide rail 1 which generate | occur | produces with the change of temperature can be reduced. Further, since the amount of oil supplied to the guide rail 1 is adjusted by the displacement of the movable lamp core 33, the configuration of the oil supply device 3 can be simplified. Moreover, since the movable lamp core 33 is not in contact with the guide rail 1 when the movable lamp core 33 is in the separated position, wear caused by the contact between the movable lamp core 33 and the guide rail 1 can be reduced. .

  In the first embodiment, the oil supply device 3 that is provided in the elevator car 2 and supplies oil to the guide rail 1 that guides the car 2 has been described. However, the oil supply device 3 is provided in an elevator counterweight (elevating body), An oil supply device that supplies oil to a guide rail that guides the counterweight may be used.

  In Embodiment 1 described above, the displacement device 35 has been described as having a deformation member 353 made of a bimetal that deforms in response to a change in temperature. However, the displacement device 35 corresponds to a change in temperature. Other configurations for displacing the movable lamp core 33 may be used.

  DESCRIPTION OF SYMBOLS 1 Guide rail, 2 Car (elevating body), 3 Oil supply apparatus (elevator guide rail oil supply apparatus), 21 Car main body, 22 Upper guide shoe, 23 Lower guide shoe, 31 Oil tank, 32 Fixed light core (fixed oil supply member), 33 Movable lamp core (movable oil supply member), 34 fixing member, 35 displacement device, 351 holding member, 352 fixing member, 353 deformation member.

Claims (3)

An elevator guide rail oiling device that is provided in an elevator lifting body and supplies oil to a guide rail that guides the lifting body,
An oil tank for storing the oil;
A fixed oil supply member immersed in the oil stored in the oil supply tank and in contact with the guide rail;
A movable oil supply member that is immersed in the oil stored in the oil supply tank and is displaced between a contact position that contacts the guide rail and a separated position that is separated from the guide rail;
An elevator guide rail oiling device comprising: a displacement device that displaces the movable oiling member according to a change in temperature.   The displacement device includes a deformable member made of a bimetal that deforms in response to a change in temperature, and displaces the movable oil supply member in accordance with the deformation of the deformable member. The elevator guide rail fueling device described in 1. An elevator guide rail oiling method for supplying oil to a guide rail for guiding an elevator lifting body,
A fixed oil supply member oiling step in which a fixed oil supply member immersed in the oil contacts the guide rail; and
The movable oil supply member immersed in the oil includes a movable oil supply member displacing step of displacing between a contact position in contact with the guide rail and a separated position away from the guide rail according to a change in temperature. An elevator guide rail refueling method characterized by the above.

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