JP5383125B2 - Elevator guide rail rust remover - Google Patents

Description

  The present invention relates to an elevator guide rail rust removal device, and more particularly, to an elevator body that is guided along a guide rail by a guide shoe and moves up and down, and includes a rust removal unit that moves while contacting the guide rail to remove rust. The present invention relates to an elevator guide rail rust removal device.

  In general, the guide rail blade surface is generated by machining, and the guide rail manufacturing factory is coated with oil for the purpose of rust prevention so that it does not occur during warehouse storage or transportation, but it is shipped. The anti-rust oil is removed at the installation site because the emergency stop is difficult to work and the roller set guide shoe is corroded. On the other hand, in the hoistway, condensation is likely to occur on the guide rail blade surface due to a sudden change in temperature, and the blade surface in a state where the rust preventive oil is removed is very rusting.

  The conventional elevator guide rail rust removal device is designed so that the roller width of the roller set guide shoe is set larger than the guide rail blade surface width. By adding a degree of freedom of rotation, contact with a uniform blade surface is possible (for example, see Patent Document 1).

JP 2004-59205 A

  However, in such an elevator guide rail rust removal device, it is necessary to newly design the guide shoe itself, which takes time and labor for the design for standardization, and increases the types of guide shoes. It is necessary to carry out a confirmation test to satisfy the required performance, and this is not realistic. In addition, when adding a degree of freedom, there is a problem that the manufacturing cost becomes high because the parts are mechanically complicated and parts that require accuracy are required.

  Accordingly, an object of the present invention is to provide an elevator guide rail rust removal device that can reliably perform rust removal with a simple structure.

  The elevator guide rail rust removal apparatus of the present invention includes a rust removal unit that is provided on an elevating body that is guided and moved by a guide shoe along the guide rail, and that moves while contacting the guide rail. The unit is attached independently of the guide shoe.

  According to the elevator guide rail rust removal apparatus of the present invention, rust removal can be reliably performed with a simple structure.

Embodiment 1 FIG.
An embodiment of an elevator guide rail rust removing apparatus according to the present invention will be described with reference to FIGS. The elevator guide rail rust removal apparatus 1 according to the present invention is provided on an elevator 4 such as a car that is guided and moved by a guide shoe 3 along the guide rail 2 of the elevator, and moves while contacting the guide rail 2. A rust removal unit 5 is provided. The rust removal unit 5 is attached to the frame 6 of the elevating body 4 and is independent of the guide shoe 3. As shown in FIG. 2, the guide shoe 3 is configured such that the three guide rollers 7 come into contact with the guide surface 8 of the guide rail 2 and roll.

  3 to 6 show details of the rust removal unit 5 as the rust removal of the elevator guide rail of the present invention. The rust removing unit 5 includes a sliding body 10 that is attached to a frame 6 having a cross section of the elevating body 4 via a spring 9 and that slides on the guide surface 8 of the guide rail 2. In the illustrated example, the sliding body 10 is formed by assembling three plate-like bodies 11 together with the stay 12 together by welding to form a U-shaped groove portion surrounding the three guide surfaces 8 of the guide rail 2. A low-friction material 13 that slides while being in surface contact with the guide surface 8 of the guide rail 2 is provided in the portion with a U-shaped cross section.

  The action of the spring 9 is to absorb the fluctuation when the position of the guide rail 2 fluctuates with respect to the frame 6 as shown in FIGS. 4 to 6 and to return to the normal position shown in FIG. That is.

  As shown in FIG. 1, the rust removal unit 5 is attached to a part of the frame 6 of the elevating body 4. In particular, the rust removal unit 5 is arranged inside the C-shaped frame 6 as shown in FIGS. In that case, there will be no space penalty. In addition, since the rust removal unit 5 is provided with the low friction material 13 that has already been proven with the sliding guide shoe and slides on the guide surface 8 of the guide rail 2, the sliding is performed smoothly, and vibration and Little noise is generated. Furthermore, since the rust removing unit 5 is fixed to the frame 6 of the elevating body 4 via the spring 9, the positional relationship (FIGS. 4 and 5) and the posture relationship (FIG. 4) between the guide rail 2 and the frame 6 are illustrated. It responds flexibly to the fluctuations in 6), does not affect the frame 6 and the guide shoe 3, such as a load, and does not affect the original running performance of the guide shoe 3. This eliminates the need for new development and verification of the guide shoe 3 itself. In addition, since the parts used are simple and proven, the manufacturing cost is not required.

Embodiment 2. FIG.
FIG. 7 is a cross-sectional view similar to FIG. 3 showing a second embodiment of the elevator guide rail rust removal apparatus of the present invention. The rust removing unit 14 of the elevator guide rail rust removing device includes a brush 15 that is a sliding body that slides on the guide surface 8 of the guide rail 2. The brush 15 is directly implanted in the frame body 6 or is implanted in a plate-like body 16 welded to the frame body 6. In this example, since the brush 15 itself has elasticity, even if there is a change in position or posture between the guide rail 2 and the elevator guide rail rust removal device, it can be absorbed. Other configurations are the same as those of the first embodiment described above.

Embodiment 3 FIG.
In the third embodiment of the elevator guide rail rust removal apparatus of the present invention shown in FIGS. 8 to 10, the rust removal unit 17 is in contact with a part of the guide surface 8 of the guide rail 2 and combined to cooperate. A plurality of rollers 18 are provided which work to cover the entire guide surface 8 of the guide rail 2. That is, a total of four shafts 19, two on each side of the guide rail 2, are provided on the inner surface of the frame 6 having a C-shaped cross section.

  That is, in the example shown in the figure, two rows of rollers 18 are disposed on the respective side surfaces of the guide rail 2 so that their axial positions are alternately shifted from each other. When moving in the direction 2, the entire guide surface 8 of the guide rail 2 is brought into contact with any one of the rollers 18, and as a result, rust removal is performed over the entire guide surface 8 on the side surface of the guide rail 2. It is.

  The elevator apparatus illustrated and described above is merely an example, and various modifications can be made, and the features of each specific example can be used altogether or selectively combined.

  For example, in the elevator guide rail rust removing apparatus shown in FIGS. 8 to 10, the guide surface 8 on the top surface of the guide rail 2 is rust removed by the guide roller 7 as shown in FIGS. 1 and 2. In particular, the roller 18 for removing rust is not provided, but a similar roller can be provided if necessary. Moreover, the rust removal unit 17 of FIGS. 8-10 and the rust removal unit 14 with the brush 15 shown in FIG. 7 can also be combined.

  As described above, in the elevator guide rail rust removal apparatus of the present invention, the guide shoe itself can be used without any modification, and the time and cost required for design, production and testing are unnecessary. The existing elevator device can be easily installed, and the rust removal can surely be performed on the guide rail.

It is a schematic front view which shows the elevator provided with one Embodiment of the elevator guide rail rust removal apparatus of this invention. It is sectional drawing along line II-II which shows the guide shoe part of the elevator of FIG. It is sectional drawing along line III-III which shows the rust removal unit of the elevator of FIG. It is sectional drawing which shows the state which the rust removal unit of the elevator of FIG. 3 received the deformation | transformation. It is sectional drawing which shows the state which the rust removal unit of the elevator of FIG. 3 received another deformation | transformation. It is sectional drawing which shows the state which the rust removal unit of the elevator of FIG. 3 received another deformation | transformation. It is sectional drawing similar to FIG. 3 which shows 2nd Embodiment of the elevator guide rail rust removal apparatus of this invention. It is sectional drawing similar to FIG. 3 which shows 3rd Embodiment of the elevator guide rail rust removal apparatus of this invention. It is the front view seen by removing a frame along line IX-IX of FIG. FIG. 10 is a side view of FIG. 9.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Elevator guide rail rust removal apparatus, 2 guide rail, 3 guide shoe, 4 raising / lowering body, 5, 14, 17 rust removal unit, 6 frame body, 8 guide surface, 9 spring, 10 sliding body, 15 brush, 18 roller.

Claims (1)

Provided on a lifting body that is guided and moved by a guide shoe along the guide rail, and includes a rust removal unit that moves while contacting the guide rail,
The rust removal unit is attached independently to the guide shoe,
The rust removal unit is attached to the frame of the lifting body via a spring, and includes a sliding body that slides on the guide rail,
The sliding body is formed by assembling three plate-like bodies to form a U-shaped groove portion surrounding the three guide surfaces of the guide rail,
In the groove portion, a low friction material used for a sliding guide shoe is provided so as to slide while being in surface contact with the three guide surfaces of the guide rail having a U-shaped cross section. ,
Elevator guide rail rust remover characterized by that.

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