KR920002961B1 - Roller apparatus adapted for sliding slab in the bridge - Google Patents

Abstract

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Description

Surface contact roller device

1 to 7 are embodiments of the present invention, Figure 1 is an overall perspective view.

2 is an exploded perspective view.

3 is a side view.

4 is a side cross-sectional view.

5 is a longitudinal cross-sectional view.

6 is a coupling state of the spacing chain.

7A and 7B are exemplary views showing the state of angular displacement along the moving direction of the heavy object and the ground.

* Explanation of symbols for main parts of the drawings

1: Surface contact roller device 2: Pedestal

3: body 4: roller

5: Spacing Chain 6: Roller Guide Gear

7: inner guide gear plate 8: acupressure plate

9: side plate 11: support groove

12: support 14: turn

15: reinforcing plate mounting groove 17: support shaft

18: reinforcement plate 19: round groove

20: shaft 22: chain plate

24: gear portion 25: shaft groove

26: groove 27, 28: connection portion

29: connecting plate 32: shaft

34: projection 36: shaft groove

47: saucer

The present invention relates to a roller used to push out concrete bridges, steel bridges, and other heavy materials, and more particularly, to a surface contact roller device that has little friction when pushing heavy weights and can withstand large weights.

Conventionally, as a device used to push out concrete bridges, steel bridges, and other heavy materials (hereinafter referred to as heavy materials), a line contact roller or a synthetic resin with surface contact is used.

In the former case, a heavy object moves a heavy object by installing a roller on the bottom. At this time, a large stress is generated even in a light load due to the linear contact between the roller and the heavy object, so that the contact point of the heavy part is cracked or deformed. have.

And, in the latter case, it is possible to reduce the acupressure stress by stacking synthetic resin between the heavy material and the friction paper surface so as to be in surface contact. When it is easy to tear due to the friction of the friction surface, due to this there is a drawback that can not push the heavy material smoothly because there is a case that the friction surface and the heavy material is in direct surface contact.

The present invention is intended to solve such a conventional drawback, all parts are made of a rigid metal material, seated on the pedestal (orbital orbit type) of the body to be rotated at a predetermined angle, the peripheral surface of the body A plurality of rollers are installed at equal intervals so that they are rotated by a space maintaining chain and a roller guide gear. A plurality of rollers and a pressure plate connected to the outside by a chain type are installed so that they can be continuously rotated. It is intended to facilitate the dispersion and smooth extrusion of large weight in a large area.

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

1 through 7 are embodiments of the present invention, reference numeral 1 denotes a surface contact roller device, and the surface contact roller device 1 includes a pedestal 2, a body 3, a plurality of rollers 4, The space maintaining chain 5, the roller guide gear 6, the inner guide gear plate (7), the pressure plate (8), the side plate (9), respectively.

The pedestal 2 is formed on each side of the support plate 10 symmetrically on each of the support portion 12 is formed with a semi-circular support groove 11 in the upper center, the support portion 12 is made of a pair of iron plate between A plurality of reinforcing ribs 13 are welded to each other to be firmly fixed.

The body (3) is formed in an ellipsoidal shape (infinite orbital shape) formed in a semicircular shape on both sides of the upper and lower surfaces of the body, and protrudes the protrusions 14 in the middle of the longitudinal direction, and on both sides of the upper surface. Reinforcing plate mounting grooves 15 are formed in each, and semicircular support shafts 17 through which holes 16 penetrate are formed on both sides, respectively.

Thereafter, by fitting the reinforcing plate 18 of the special steel to the reinforcing plate installation groove 15 of the body 3 to match the upper surface of the body (3).

The support shaft 17 of the body 3 is placed in the support groove 11 of the support portion 12 of the pedestal 2 so as to rotate left and right.

The roller 4 has an annular groove 19 is formed in the middle portion, the shaft bar 20 is formed on each side end.

Thereafter, the rollers 4 are installed on the outer circumferential surface of the body 3 at equal intervals so that the rollers are rotated, and the ring grooves 19 of the rollers 4 are fitted to the protrusions 14 of the body 3 to the left. . Prevent the flow of rain.

The space maintaining chain 5 is formed by matching the shaft holes 21a and 21b of the chain plates 22 adjacent to each other so that the chain plates 22 having shaft holes 21a and 21b formed on both sides thereof are connected to each other. After inserting into the shaft rod 20 of the roller (4) to maintain the evenly spaced between the rollers (4) to be rotated integrally at the same time.

Of course, the spacer 5 is provided on both sides of the roller (4).

The roller guide gears 6 are in contact with both shafts 20 of the rollers 4, respectively, and the shafts 20 and the roller guide gears 6 are in contact with each other so that mutual slip does not occur. It is fixed by the set screw right 23 and integrated.

The inner guide gear plate 7 is of the same shape as the ellipsoid of the body 3, and forms the gear portion 24 on the peripheral surface thereof, and forms a semicircular shaft groove 25 in the center thereof, and then the shaft groove 25. Two inner shaft guide gear plates 7 are fitted to both side ends of the body 3 so as to be fixed to the support shaft 17 of the body 3.

At this time, the roller guide gears 6 condensed to the plurality of rollers 4 are installed on the gears 24 of the inner guide gear plates 7 on both sides such that the roller guide gears 6 interlock with each other at equal intervals. Along the outer circumferential surface of (3), it shall be installed to contact at equal intervals.

The acupressure plate 8, the connecting plate 27 is formed to protrude the connecting portion 27 to be formed on both sides of the groove 26 on one side plate, the connecting plate 28 is formed to protrude each of the connecting portion 28 to be inserted into the groove 26 on the other side Connect (29) by link.

That is, after the shaft holes 30 and 31 pass through the connecting portions 27 and 28 of the connecting plate 29, the grooves 26 and the connecting portion 28 of the adjacent connecting plates 29 are joined together. The acupressure plate 8 is formed by sandwiching the rod 32 in the shaft holes 30 and 31.

At this time, the shaft rod 32 is fixed to the set screw 33 to the contact portion so as not to fall out of the shaft hole (30) (31).

In addition, the bottom of the intermediate portion of each connecting plate 29 is to be installed so as to surround the roller 4, the cross section is formed in the trapezoidal protrusions 34 and the pressure plate 8 is provided at equal intervals. At the time of insertion into the annular groove 19 of each roller 4, the position of each shaft 32 which connected each connecting plate 29 of the pressure plate 8 is always directly above the respective rollers 4 It is positioned so as to support the load of the weight (39) and at the same time to the surface contact by the pressure plate (8) to minimize the pressure stress.

And, the side plate (9) is formed in the same ellipsoidal shape as the body (3), each forming a cutting groove (35) in each corner and the upper middle, and forms a semi-circular shaft groove (36) in the center, The support piece 37 is installed at right angles in the longitudinal direction.

The side plate (9) is fitted to each of the shaft grooves (36) to the support shaft (17) so as to be installed on each side of the body (3), the side plate (9) is the support 12 and the body of the pedestal (2) (3) is provided between them so that the supporting pieces 37 are opposed to each other.

In addition, the support piece 37 supports the spacer holding chain 5 so that the roller guide gear 6 is always engaged with the inner guide gear plate 7. Reference numeral 40 is the ground.

According to the present invention configured as described above, the surface contact roller device 1 is seated on the ground 40 for the movement of the weight 39.

At this time, according to the size of the heavy material 39, the surface contact roller device 1 is seated a plurality of at regular intervals.

Thereafter, the weight 39 may be placed on the top of the surface contact roller apparatus 1.

Such a state is a state in which the weight 39 is in surface contact with the upper surface of the pressure plate 8, the weight is transmitted on each connecting plate 29 of the pressure plate (8) and the line contact with each connecting plate 29 It is transmitted to the roller 4, the weight transmitted to the roller 4 is transmitted to the reinforcing plate 18 of the body 3 to the support shaft 17, so that the weight of the weight 39 is the body ( The support shaft 17 of 3) and the support 12 of the pedestal 18 are supported.

Therefore, the load of the heavy object 39 is distributed to the pressure plate 8 of the surface contact roller device 1, so that the portion in contact with the heavy object 39 is in surface contact and a small pressure stress occurs in the heavy object 39 Deformation such as cracking or breaking of 39) is prevented.

Thus, when the heavy object 39 is to be moved in a state where it is placed on the surface contact roller device 1 of the present invention, when the heavy object 39 is pushed by a separate device (not shown in the drawing), the pressure plate 8 becomes a heavy object ( It is moved by the frictional force with 39).

That is, since the large load of the heavy material 39 is pressed on the pressure plate 8 and only the frictional force exists between the pressure plate 8 and the heavy material 39, no sliding occurs, and thus the pressure plate 8 is applied to the plurality of rollers 4. Will be guided and moved.

At this time, the pressure plate 8 is a plurality of connecting plates 29 are connected to each other because the link plate 8 is rotated along the ellipsoid of the body (3).

That is, as shown in FIG. 4, the connecting plate 29 of the pressure plate 8 which is moved in surface contact with the heavy material 39 in the arrow direction is sequentially rotated downward from the heavy material 39, and rotated upward from the other side. The connecting plate 29 to be moved in order to be in contact with the weight 39 again and again to enable the smooth use of the weight (39).

At this time, the connecting plate 29 positioned at the tension side of the acupressure plate 8, that is, the upper portion is maintained by the rollers 4, but the connecting plate 29 positioned at the lower side is relaxed to sag in a parabolic manner. do.

Moreover, the roller 4 located in the upper surface of the body 3 supports each connecting plate 29 of the pressure plate 8 in the state where it is leveled by the upper surface of the body 3, and each roller ( 4) is always positioned to move directly below the shaft rod 32 connecting each connecting plate 29, so that the connecting plate 29 located at the top is always flat and at the same time bent until the downward rotation It is possible to reduce the pressure stress by dispersing and supporting a large load on a wide support surface because the heavy object 39 is always in uniform contact with the flat surface by keeping it flat at all times.

On the other hand, during the rotation of the pressure plate (8) a plurality of rollers in linear contact with it is to rotate and move simultaneously with the pressure plate (8).

That is, in the roller 4 located on the upper side of the body 3, the load of the heavy material 39 is transferred from the pressure plate 8 to the roller 4 in line contact with the pressure plate 8 in linear contact. The body 3 is in line contact with the body 3 again, and the line contact part at this time is made of a high-strength material on both sides to facilitate large load support.

In addition, since the heavy object and the pressure plate 8 has a large friction, the heavy object 39 moves on the body 3 by a rotating roller 4 having a low friction between the pressure plate 8 and the body 3. Go.

At this time, the load acts only on the roller 4 in contact with the reinforcing plate 18 on the upper side of the body 3, and the load does not act on the rollers 4 positioned on the lower side and the left and right sides of the body 3. The lower and left and right rollers 4 are simply drawn to rotate and move when the upper roller 4 is rotated and moved.

Because both ends of the rollers (4) are connected by a space maintaining chain (5) to be able to move integrally and not to move separately, respectively, and also to the roller guide gears at both ends of each roller (4) 6) are integrally fixed to each other and engaged with the inner shaft guide gear plate 7, so that the roller guide gear 6 is rotated by the inner guide gear plate 7 when the respective rollers 4 are moved. Will rotate at equal intervals.

In other words, each roller 4 is rolling to reduce the friction force as possible to enable the pressure plate 8 to move smoothly.

In addition, the reinforcing plate 18 is a place where a large acupressure stress is generated in a line contact with each roller (4) requires a special steel (high steel) material is installed separately of a special material.

When the pressure plate 8 is moved, the protrusions 34 of the connecting plates 29 are guided by the annular grooves 19 of the rollers 4 so as to move in a linear direction, and are rotated and moved by the pressure plate 8. Each roller (4) is to be guided to move by the guide of the ring 14 of the body (3) to prevent the acupressure plate (8) and each roller (4) to be rotated and shifted outward or inclined at both sides.

Each roller (4) is in close contact with the trajectory of the metamorphism of the body (3) to be rotated and moved at equal intervals so as to match the shaft rod 32 connecting each connecting plate 29 of the pressure plate (8) In order to do so, the roller guide gear 6 of each roller 4 should always be engaged with the gear part 24 of the inner guide gear plate 7.

Therefore, the roller guide gear 6 located on the upper side of the body 3 is engaged with the gear portion 24 of the inner guide gear plate 7, but the roller guide gear 6 located on the lower side has each roller ( The roller guide gear 6 sag parabolically by the weight of 4), so that each roller guide gear 6 is displaced from the inner guide gear plate 7.

That is, the side plate (9) is installed on both sides of the body (3), so that the support piece (39) of the side plate (9) supports the interval holding chain (5) connecting the rollers (4), so that the gap The holding chain gear 5 horizontally moves each roller 4 located at the lower side of the body 3 while maintaining horizontality, so that each roller 4 rotates and moves while maintaining an equal interval at all times. Done.

In addition, FIG. 7A shows that the support shaft 17 of the body 3 supports the support shaft 17 so as to smoothly move in the direction of movement of the heavy object 39 when the ground 40 forms the inclined plane of α ＂when the heavy object 39 moves. In the support groove 11 of the support part 12 of (2), it rotates by a load as much as the said angle of (alpha) (alpha).

In addition, FIG. 7B shows the ground 40 when the heavy object 39 is moved, but the movement direction of the heavy object 39 is shifted by an angle of α ＂.

In addition, the hole 16 penetrating the support shaft 17 of the body 3 has a purpose to reduce the weight, and is easy to move by inserting a separate tool into the hole 16 for easy handling. I did it.

In this way, the present invention can achieve the protection and smooth movement of the heavy material, which is very useful as a heavy weight moving device.

Claims (1)

The support 12 having a semicircular support groove 11 formed in the upper center is formed symmetrically on both sides of the support plate 10 to form a pedestal 2, the upper and lower surfaces of which are flat, and both sides of the semicircular ellipsoidal shape. Protruding protrusions 14 formed in the middle portion, and the reinforcing plate 18 of the special steel on both sides of the upper surface to form a semi-circular support shaft (17) on both sides to form the body (3) to support the body (3) The shaft 17 is seated so as to pivot in the support groove 11 of the pedestal 2, the ring groove 19 is formed in the middle portion, and the rollers 4 each having the shaft rods 20 formed at both ends thereof have the body ( 3) At the same time, a plurality of grooves are installed on the outer circumferential surface of the outer circumferential surface, and the annular grooves 19 are fitted to the annular ring 14, and the chain plates 22 having shaft holes 21a and 21b formed on both sides are connected to each other. After the shaft holes 21a and 21b of the chain plate 22 coincide with each other, the gap retaining chain 5 is formed by inserting the shaft holes 21a into the two shaft bars 20 of the roller 4. The distance between each roller 4 is equally maintained and rotated, the roller guide gears 6 are respectively fixed to both shaft rods 20 of the rollers 4, and gears ( A semicircular shaft groove 23 is formed at the center of the inner guide gear plate 7 having the 22 formed thereon, and fixed to both support shafts 17 of the body 3, respectively. And a plurality of connecting plates 29 each having a plurality of roller guide gears 6 installed therein, and a plurality of connecting plates 29 formed with connecting portions 27 and 28 having grooves 26 formed on both sides thereof. Forming the linkage pressure plate (8) by fitting the connecting portion 28 to the shaft rod 32, and installed to surround the plurality of rollers (4) and at the same time projecting projections (34) protruding on the bottom surface of each connecting plate (29) ) Into the annular groove (19) of each roller (4), to form a shaft groove (36) in the center and to form the support piece (37) in the longitudinal direction at the bottom The shaft groove 36 of the side plate 9 is fixed to the support shaft 17 of the body 3 so that one side plate 9 is installed on both sides of the body 3, respectively, and the supporting piece 37 is the space keeping chain. Surface contact roller device characterized in that to support the lower portion (5).

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