KR102179576B1 - Basic structure mounting structure of abutment inclined elevator - Google Patents

Abstract

The present invention provides a structure for mounting a basic structure of an inclined elevator for an abutment to prevent the basic structure from being deformed due to a temperature difference in hot summer, cold winter, and the like. According to the present invention, the structure comprises: each non-shrinkage concrete formed on the upper surface of an abutment on both sides of the upper surface of the abutment in which each I-beam of both sides of the lower part of the basic structure; a pair of anchor bolts penetrating the non-shrinkage concrete to allow a lower part to be insert-fixed inside each abutment and allow an upper part to be exposed; and each fixing jig including a support plate coupled and fixed to each of the pair of anchor bolts exposed to the upper part of the abutment to be closely attached to the non-shrinkage concrete and a base plate supporting one surface of the I-beam by a dual-nut type to adjust the height of each anchor bolt on the upper part of the support plate, and supporting and fixing both upper surfaces of a lower flange of the I-beam to each anchor bolt of the upper part of the base plate to be slipped when the I-beam is shrunken or expanded due to the temperature difference. Accordingly, the structure provides effects of increasing reliability of the basic structure and securing safety and a long service time.

Description

Basic structure mounting structure of abutment inclined elevator

The present invention relates to a mounting structure for mounting a foundation structure installed for the operation of a boarding car of an inclined elevator on an abutment formed on the upper part of a pier installed on a slope, and more specifically, in the summer or when the temperature is high The present invention relates to a structure for mounting a foundation structure of an inclined elevator for shifting to prevent deformation of the foundation structure due to temperature variations in low winter season.

In general, an inclined elevator is a moving means provided to move along a slope, and is provided to provide a user with access to steep hills and slopes with minimal effort.

Such an inclined elevator is used as a moving means for raising and lowering a boarding car in a meander by installing a track on a track structure installed in an inclined manner between the upper and lower floors of a subway or a building.

In addition, inclined elevators are installed and used as part of the means of movement on steep slopes of high water areas, hilly areas, mountainous areas or open areas of the Han River.

Here, the prior art related to the inclined elevator installed in a subway or a building includes Korean Registered Patent Publication No. 10-0539086, Korean Registered Patent Publication No. 10-0459676, Korean Registered Patent Publication No. 10-1235674, and Korean Registered Patent Publication No. It has been posted in No. 10-0516514, etc. (hereinafter referred to as'prior art documents 1').

In the inclined elevators published in the prior art documents 1, the basic structure installed for the operation of the passenger car of the inclined elevator is fixedly installed on the floor of the room, and thus does not cause a significant obstacle to changes in temperature.

On the other hand, a foundation structure is installed between the steep slopes of relatively long sections, such as high water sites, hilly areas, mountainous areas, or open fields of the Han River, especially between piers formed on top of the piers for lifting or running the boarding car. The foundation structure is a conventional frame structure including a rail for driving a boarding car.

At this time, in the alternate fixing of the foundation structure, each of the eye beams (I), which are fixings provided on both sides of the lower part of the foundation structure, are directly fixed to the alternate structure by anchor bolts or the like.

Accordingly, each eye-beam prepared to fix the foundation structure alternately due to temperature fluctuations in the summer season when the temperature is high or the winter season when the temperature is low must compensate for the fluidity caused by contraction or expansion due to the temperature difference. By being fixed without fluidity, deformation occurs in the foundation structure fixed to the eye-beam, thereby causing a dangerous situation when driving the boarding car, as well as concludingly providing a cause of damage due to the deformation of the foundation structure.

In this way, no prior art has been proposed for fixing a foundation structure installed for elevating or running a boarding car of an inclined elevator to an abutment formed on the upper part of the pier.

Korean Patent Publication No. 10-0539086 Republic of Korea Patent Publication No. 10-0459676 Korean Patent Publication No. 10-1235674 Korean Patent Publication No. 10-0516514

A specific technical solution of the present invention for solving the above problems in the related art is for the elevation or operation of the boarding car in the shift formed on the upper part of the pier according to the temperature deviation in the summer season with high temperature or the winter season with low temperature. It is to provide a foundation structure mounting structure of an inclined elevator for shifting to prevent deformation of the installed foundation structure.

Another specific technical problem of the present invention is to minimize friction during a slip phenomenon due to temperature deviation.

The specific technical solution of the present invention for solving the specific technical problem as described above includes respective eye beams on both sides of the lower side for elevating or running the boarding car of the inclined elevator in the shift formed on the upper part of the pier on the slope. In the mounting structure for mounting the foundation structure to be installed, the mounting structure is each non-shrink concrete to be constructed as the upper surface of the shift on both sides of the upper surface of the shift where each eye beam is located; A pair of anchor bolts each penetrating through each of the non-shrinkable concrete so that the lower part is inserted into the interior of each shift and the upper part is exposed; And a support plate fastened and fixed to the non-shrinkable concrete to each pair of anchor bolts exposed to the upper part of the abutment, and the eye beam by a double nut method so that the height can be adjusted to each anchor bolt on the upper side of the support plate. Each fixing jig that supports and fixes the upper surfaces of both sides of the lower flange of the eye beam to enable slip when the eye beam contracts and expands according to temperature deviations to each anchor bolt on the upper side of the support plate Includes (jig).

The fastening and fixing of the supporting plate is at least one or more nuts fastened and fixed to the anchor bolt, and the double nut method for fixing the supporting plate is at least two or more respective nuts fastened and fixed to the anchor bolt with the supporting plate interposed therebetween. .

Each of the fixing jig includes a fastening block positioned on a support plate and fastened to an anchor bolt, a support block extending from an upper side of the fastening block and formed stepped from the fastening block so as to cover the upper surfaces of both sides of the lower flange of the eye beam. Include.

Each lubricant is interposed between the upper surface of the support plate and the lower surface of the lower flange of the eye beam in contact with the upper surface of the support plate, and between the upper surface of the lower flange of the eye beam and the lower surface of the support block of the fixing jig.

At least one receiving groove for receiving a lubricant is provided on an upper surface of the support plate, a lower surface and an upper surface of the lower flange of the eye beam, and a lower surface of the support block of the fixing jig, respectively.

The present invention prevents the deformation of the foundation structure installed for elevating or running a boarding car on an abutment formed on the upper part of the pier according to temperature variations in the summer season with high temperature or the winter season with low temperature. It has the effect of increasing reliability and securing a safe and long use period.

In addition, by minimizing friction during a slip phenomenon due to temperature deviation, wear due to friction is minimized, thereby improving reliability as well as securing a longer use period.

1 is a partial side view in which the present invention is applied to an alternation of a pier;
Figure 2 is a partially enlarged front view according to Figure 1,
3 is an excerpt cross-sectional view for explaining a state in which the present invention is installed alternately.

Hereinafter, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings, and the present invention is not limited or limited by the embodiments.

1 is a partial side view in which the present invention is applied to an alternation of a pier, FIG. 2 is a partially enlarged front view according to FIG. 1, and FIG. 3 is an excerpted cross-sectional view for explaining a state in which the present invention is installed in an alternation.

As shown, each eye beam 110 is provided on both sides of the lower side for elevating or running the boarding car C of the inclined elevator on the shift (P-1) formed on the top of the pier (P) on a conventional slope. The foundation structure 100 to be installed including is mounted.

In the above, the basic structure is a frame structure of a conventional type including a rail for the operation of the boarding car, and each of the eye beams for alternately fixing on both sides of the lower portion is fixed and coupled.

As described in the technology behind the invention by the eye beam, the above-described foundation structure is directly fixed and installed without fluidity in the shift, so that the foundation structure fixed to the eye beam is deformed due to contraction or expansion according to temperature deviation. As a result, it provided a cause of damage caused by deformation of the foundation structure as well as a problem that caused a dangerous situation when driving the boarding car.

The present invention is an inclined type for a shift to prevent deformation of a foundation structure installed for elevating or operating a boarding car in a shift formed at the top of a pier according to temperature deviations such as in a high summer season or a low temperature winter season. It is to provide an elevator's basic structure mounting structure.

The mounting structure (1) according to the present invention is constructed by a conventional method on both sides of the upper surface of the shift (P-1) where each eye beam 110 is located. Including concrete 10. The lower part of the non-shrink concrete is drawn in from the upper surface of the abutment, and the upper part of the non-shrink concrete is provided to protrude to a predetermined height from the upper surface of the abutment.

Such non-shrinkable concrete can have high strength while maintaining a state where there is little change in volume as well as no shrinkage even in temperature variations.

This is a component for preventing fluidity in the alternating phase in the mounting structure of the present invention.

In addition, each of the non-shrinkable concrete 10 includes a pair of anchor bolts 20, each of which is inserted into the lower portion of the abutment P-1 and the upper portion is exposed. Each of the pair of anchor bolts is a part of a fixing means for fixing each eye beam provided on both sides of the lower part of the foundation structure. Moreover, since each of the pair of anchor bolts is provided on the non-shrinkable concrete, it has a high fixing force while always maintaining a constant width.

In addition, a support plate 32 that is fastened and fixed to the non-shrinkable concrete 10 to each pair of anchor bolts 20 exposed to the upper portion of the abutment P-1, and the upper portion of the support plate 32 Including a support plate 34 supporting and supporting the bottom of the eye beam 110 by a conventional double nut method so as to be able to adjust the height to each side anchor bolt 20, the upper side of the support plate 34 Each of the fixing jigs 30 for supporting and fixing the upper surfaces of both sides of the lower flange 112 of the eye beam 110 so as to be able to slip when the eye beam 110 contracts and expands according to the temperature deviation of the anchor bolt 20. .

In other words, the support plate plays a role of intimately fixing to the alternating side, and the support plate serves to support and support the eye beam, and the fixing jig fastens and fixes the eye beam, but the eye beam on the support plate according to temperature deviation It is to provide a structure capable of slipping with this predetermined width.

In other words, in the summer when the temperature is high, the eye beam expands, and in the winter when the temperature is low, the eye beam contracts. At this time, the eye beam that is mounted on the base plate and mounted on the mounting jig experiences a certain amount of slip. It is possible to prevent the deformation of the basic structure provided on the upper portion of each eye beam.

As a result, not only does not cause any hindrance to the operation of the boarding car of the inclined elevator, but also it is possible to minimize the deformation, it is possible to establish a condition that ensures high reliability as well as a long service life.

Here, the fastening and fixing of the support plate 32 is at least one nut 22 fastened and fixed to the anchor bolt 20, and the double nut method for fixing the support plate 34 is the support plate 34 It is at least two or more of each nut 22 that is fastened and fixed to the anchor bolt 20 between them.

In the above, the support plate is in close contact with the non-shrinkable concrete to be fixed, so that at least one or more than one support plate may be fixed.

However, the support plate must be fastened and fixed in a state capable of adjusting the height when fastened to the anchor bolt, so it is preferable to use at least two or more nuts, which is a conventional double nut method, so that the fastening and fixing can be performed with height adjustment. Do.

In addition, each of the fixing jig 30 includes a fastening block 30A positioned on the support plate 34 and fastened to the anchor bolt 20, and extends from an upper portion of one surface of the fastening block 30A to the eye beam 110 ) Includes a support block (30B) formed stepped from the fastening block (30A) so as to cover and support the upper surfaces of both sides of the lower flange (112).

In other words, when the fixing jig is formed in the form of a conventional plate, a space spaced apart from the base plate is generated, and the tight fixing force is also reduced, so that the fastening block and the support block are stepped in consideration of the thickness of the lower flange of the eye beam It is desirable to form it.

In addition, it provides a technical configuration capable of smoother slip while reducing friction when the lower flange of the eye beam slips between the support plate and the fixing jig according to temperature deviation.

Between the upper surface of the support plate 34 and the lower surface of the lower flange 112 of the eye beam 110 in contact with the upper surface of the support plate 34 and the upper surface of the lower flange 112 of the eye beam 110 and a fixing jig It further includes that a conventional lubricant 40 is interposed between the bottom surface of the support block 30B of (30).

That is, the lubricant minimizes the friction between the base plate and the fixing jig when the eye beam according to the temperature deviation is slipped, as well as the more natural slip, so that the wear of the eye beam as well as the base plate and the fixing jig is minimized. It is desirable to ensure the period of use.

In addition, at least one receiving groove in which lubricant is accommodated on the upper surface of the support plate 34, the lower surface and the upper surface of the lower flange 112 of the eye beam 110, and the lower surface of the support block 30B of the fixing jig 30 50 further includes that each is provided.

In other words, the lubricant interposed in the contacting portions may be exhausted due to the slip phenomenon, and the lubricant is stored by the receiving groove formed on each contacting surface to secure a longer use period. Have.

1: mounting structure
10: non-shrink concrete 20: anchor bolt
22: nut 30: fixing jig
30A: Fastening block 30B: Support block
32: support plate 34: support plate
40: lubricant 50: receiving groove
100: basic structure
110: eye beam 112: lower flange

Claims (5)

In the mounting structure for mounting a foundation structure including respective eye beams on both sides of the lower side for elevating or running a boarding car of an inclined elevator on an abutment formed on an upper part of a pier on a slope,
The mounting structure,
Each non-shrinkable concrete constructed as the upper surface of the shift on both sides of the upper surface of the shift where each eye beam is located;
A pair of anchor bolts each penetrating through each of the non-shrinkable concrete so that the lower part is inserted into the interior of each shift and the upper part is exposed; And
A support plate fastened and fixed to the non-shrinkable concrete to each pair of anchor bolts exposed to the upper part of the abutment, and the bottom of the eye beam by a double nut method to enable height adjustment to each anchor bolt on the upper side of the support plate Each fixing jig for supporting and fixing the upper surfaces of both sides of the lower flange of the eye beam, including a support plate supporting and supporting the support plate, so that slip is possible when the eye beam contracts and expands according to temperature deviations in each anchor bolt on the upper side of the support plate ( jig),
The fastening and fixing of the supporting plate is at least one or more nuts fastened and fixed to the anchor bolt, and the double nut method for fixing the supporting plate is at least two or more respective nuts fastened and fixed to the anchor bolt with the supporting plate interposed therebetween. ,
Each of the fixing jig includes a fastening block positioned on a support plate and fastened to an anchor bolt, a support block extending from an upper side of the fastening block and formed stepped from the fastening block so as to cover the upper surfaces of both sides of the lower flange of the eye beam. Including,
Alternating inclination further comprising a lubricant interposed between the upper surface of the support plate and the lower surface of the lower flange of the eye beam in contact with the upper surface of the support plate, and between the upper surface of the lower flange of the eye beam and the lower surface of the support block of the fixing jig Mounting structure of the basic structure of a type elevator. delete delete delete The method of claim 1,
Mounting of the foundation structure of an alternating inclined elevator further comprising at least one receiving groove for receiving a lubricant in the upper surface of the support plate, the lower surface and the upper surface of the lower flange of the eye beam, and the lower surface of the support block of the fixing jig respectively rescue.

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