KR101271816B1 - Leveling device - Google Patents

Abstract

(Problem) A leveling device having a structure in which a wedge-shaped movable body is interposed between an upper support and a lower support so as to be movable, wherein the upper surface of the upper support and the lower support of the lower support are not formed separately. To ensure that the parallelism of
(Solution means) The upper support 12, the wedge-shaped movable body 16, and the lower support 14 are stacked and arranged, and the recesses 22 and 32 formed in the support 12 and 14, respectively, are arranged. Both sides of the spindle support 20 are fitted to the recesses 24 and 34 formed on both side walls, and the spindle support 20 is freely rotatable for the spindle 18 screwed to the movable body 16. It supported and the leveling apparatus 10 was comprised.

Description

Leveling device {LEVELING DEVICE}

TECHNICAL FIELD This invention relates to a leveling apparatus. Specifically, It is related with the novel structure which can advantageously hold the parallel precision of the upper and lower surfaces in a leveling apparatus.

Conventionally, in the case of fixing an object such as a heavy machine or apparatus on a predetermined foundation, a plurality of leveling devices whose height can be adjusted are arranged at appropriate positions between the objects and the foundation surface, By adjusting the height of each leveling device, it is possible to achieve a horizontal level and to achieve horizontal fixation of such an object.

And as one of such leveling apparatus, in Unexamined-Japanese-Patent No. 2006-224230 (patent document 1), the lower mold | membrane, the intermediate | middle type superimposed on it, the upper mold | membrane superimposed on this middle type, the adjustment bolt screwed to the back of the middle type | mold, While the rear end side of the adjusting bolt is held in the horizontal direction, a circumferential support is provided to restrain the movement of the adjustment bolt in the front-rear direction, and further, a recess is formed in the rear of the medium to dig the support. In addition, the middle die is made of a wedge-shaped block viewed from a side having an inclined surface up and down, the lower end of the post is inserted into a guide hole formed in the up and down direction at the rear end of the lower die, and the upper end of the post is the rear end of the upper die. The height adjustment device of the structure which is inserted in the guide hole formed in the up-down direction at the back is proposed, and when this makes a heavy mold move largely forward or rearward, Also, it is believed that maintaining the precision of the mold stability and the height adjustment to.

However, in such a height adjustment apparatus, since the columnar support | pillar which hold | maintains an adjustment bolt inserts the upper and lower ends into the guide hole formed in the upper and lower molds, respectively, and connects the upper and lower molds, the circumference of the shaft center In order to prevent rotation (deviation) in the horizontal direction of such an adjustment bolt, and to move the wedge-shaped middle mold in a fixed direction in the horizontal direction with respect to the upper and lower upper and lower molds, such wedge It was necessary to form a mechanism for guiding the middle die of the die separately between the upper die and the lower die. In particular, the thrust load acted by the adjusting bolt becomes equal in surface pressure on the upper and lower surfaces of the wedge-shaped middle die, and is orthogonal to the adjusting bolt and the columnar strut so as to be transmitted to the upper and lower dies, and the middle die is fixed in the horizontal direction. In order to move in the direction and to maintain the parallelism of the upper surface of an upper mold | type and the lower surface of a lower mold | type precisely, such a wedge-shaped medium type | mold guide is needed.

Moreover, in the height adjustment apparatus as such a leveling apparatus, a hole penetrates with respect to an upper mold | type and a lower mold | type, respectively, and inserts the upper part and the lower part of the columnar support | pillar into these through holes, respectively, It is very difficult to reduce the height as the whole apparatus and thin the whole apparatus from the point of implementation, as long as the upper and lower molds are connected at the upper and lower portions of the support post.

Furthermore, since the upper and lower molds have through holes into which struts are inserted, the liquid flows through the through holes by liquid leakage from an object such as a machine or apparatus supported by the height adjusting device. Intrusion into the problem was inherent.

Japanese Laid-Open Patent Publication 2006-224230

The present invention has been made in view of such circumstances, and the problem to be solved is to a leveling device having a structure in which a wedge-shaped movable body is interposed between the upper support and the lower support so as to be movable. The upper surface of the upper support and the lower surface of the lower support in a structure in which the spindle support for freely rotatable the spindle for moving the movable body is prevented from rotating, and the guide mechanism of the movable body does not need to be formed separately. Another object of the present invention is to provide an effective structure capable of making the leveling device thin, in other words, lowering its height.

And in order to solve the said subject, this invention can be implemented suitably in various aspects as listed below, Moreover, each aspect described below can be employ | adopted by arbitrary combinations. In addition, it is to be understood that aspects and technical features of the present invention are not limited to those described below, but can be recognized based on the spirit of the invention disclosed in the description and drawings throughout the specification.

(1) The wedge-shaped movable body is interposed between the upper support and the lower support so as to be movable, and the spindle is screwed to the movable body to move the movable body by rotation of the spindle. In the leveling device to be able to adjust the distance in the vertical direction between the upper support and the lower support,

The spindle is inserted, and a block-shaped spindle support for rotatably supporting the spindle is disposed between the upper support and the lower support, and in a direction perpendicular to the spindle insertion passage direction of the spindle support. Engaging convex portions are formed on either side of each of the two side portions and respective inner surface portions of the upper support and the lower support on which the spindle support is disposed, and on the other side thereof, engaging concave portions are formed and they A leveling device characterized in that the spindle support is held and fixed to the upper support and the lower support by the fitting convex portion and the engaging concave portion.

(2) The engagement recesses are disposed at the placement sites of the spindle support in the upper support and the lower support, respectively, while the both sides of the spindle support fit into the engagement recesses. The leveling device as described in said aspect (1) comprised as an engagement convex part.

(3) Concave grooves extending in the axial direction of the spindle are formed on inner surfaces of the upper support and the lower support facing each other, respectively, and concave extending in the vertical direction on both side walls of the recess. The leveling device according to the above aspect (2), wherein portions are respectively formed as the engagement recesses.

(4) The leveling device according to any one of the aspects (1) to (3), wherein the spindle supporter has a rectangular block shape, and an insertion through hole through which the spindle is inserted is formed in a central portion thereof.

(5) While the spindle support has a rectangular block shape, the center portion is provided in the vertical direction by the stepped portions respectively formed on both side portions of the surface on any one side in the spindle axial direction of the spindle support. The leveling device according to the aspect (3) or (4), wherein the projection extends, and the projection is fitted to both side walls of the concave grooves disposed on the upper support and the lower support, respectively.

(6) The leveling device according to the above aspect (5), wherein fitting recesses to which projections of the spindle support are fitted are formed on both side walls of the recessed grooves respectively disposed on the upper supporter and the lower supporter.

(7) The engagement convex portions are respectively disposed at an arrangement site of the spindle support in the upper support and the lower support, while the engagement convex portions are fitted to both side surfaces of the spindle support, respectively. The leveling device according to the aspect (1), wherein a portion is formed as the engagement recess.

(8) While the spindle support has a rectangular block shape, concave grooves extending in the vertical direction on both sides of the spindle support are formed, and concave portions formed on both sides of the spindle support with these concave grooves. The leveling apparatus as described in the said aspect (7) in which this is comprised.

Therefore, in the leveling apparatus which concerns on such this invention, the spindle support body which supports a spindle freely rotates becomes a block shape, The both sides part, and the inner surface part of each of the upper support part and the lower support part are unevenly fitted. Since the spindle support is fixed and held at the upper support and the lower support at both sides thereof, the rotational movement of the spindle support and the movement in the horizontal direction of the spindle can be completely prevented. Thereby, even if a guide mechanism is not formed in the wedge-shaped movable body, the movable body can always be moved in a constant direction in the horizontal direction, thereby equalizing the thrust load of the spindle from the upper and lower surfaces of the movable body. As the surface pressure, the upper support and the lower support can be effectively transmitted, and the upper support and The parallel accuracy of the upper and lower surfaces of the side supports, it is possible to keep the glass.

Moreover, in such a leveling apparatus according to the present invention, the connecting portion between the upper support and the lower support is formed in both side portions of the spindle support, compared with the structure of forming the connecting portion in the upper and lower portions of the spindle support, the upper support It is possible to reduce the height between the lower supporters as much as possible, thereby making it possible to reduce the thickness of the leveling device as a whole.

In addition, by adopting a coupling structure by fitting the upper and lower supports in both side portions of the spindle support, it is necessary to form a through hole for fixing and holding the spindle support in the upper support and the lower support. In the absence of liquid leakage, it is also possible to advantageously avoid the possibility of liquid penetrating into the device through such a through hole.

BRIEF DESCRIPTION OF THE DRAWINGS Explanatory drawing which shows an example of the leveling apparatus which concerns on this invention, (a), (b), and (c) are respectively the plan explanatory drawing of the state which made the height of such a leveling apparatus the minimum, (a) Is a right side explanatory diagram and a front explanatory diagram.
FIG. 2 is a cross-sectional explanatory diagram of the leveling device shown in FIG. 1, (a) is an AA cross-sectional explanatory diagram in FIG. 1 (a), and (b) is a BB cross-sectional explanatory diagram in FIG. 2 (a). It is also.
FIG. 3 is an explanatory diagram showing a state in which the height of the leveling device shown in FIG. 1 is maximized, wherein (a), (b) and (c) are respectively (a), (b) and It is explanatory drawing corresponding to (c).
FIG. 4 is an explanatory diagram of a CC cross section in FIG. 3 (a), which is an explanatory diagram corresponding to FIG. 2 (a).
FIG. 5 is an explanatory view of the upper support used in the leveling device shown in FIG. 1, wherein (a), (b), (c), (d) and (e) are plan explanatory views and front explanatory views, respectively. It is explanatory drawing of bottom face, explanatory drawing of the right side of (a), and explanatory drawing of the left side of (a).
6 is a cross-sectional explanatory view of the upper support shown in FIG. 5, wherein (a) and (b) are enlarged explanatory views of the DD cross-sectional view and EE cross-sectional enlarged view of FIG. 5 (a), respectively.
FIG. 7: is explanatory drawing of the lower support stand used in the leveling apparatus shown in FIG. 1, (a), (b), (c), and (d) are respectively plan explanatory drawing, front explanatory drawing, (a) Is a right side explanatory diagram and (a) a left side explanatory diagram.
FIG. 8: is sectional explanatory drawing of the lower support body shown in FIG. 7, (a) and (b) are explanatory drawing of FF cross-sectional enlargement and GG cross-sectional enlarged explanatory drawing in FIG. 7 (a), respectively.
FIG. 9: is explanatory drawing which shows the movable body used in the leveling apparatus shown in FIG. 1, (a), (b), (c), and (d) are respectively plan explanatory drawing, front explanatory drawing, (a) The explanatory drawing of the right side of () and the explanatory drawing of the left side of (a), (e) is HH cross-sectional explanatory drawing in (a).
FIG. 10 is an enlarged explanatory diagram showing a spindle and a spindle support used in the leveling device shown in FIG. 1, wherein (a) is a front explanatory diagram of the spindle, and (b), (c), (d) and (e) Are explanatory drawing of the spindle support body, front explanatory drawing, right side explanatory drawing of (c), and left side explanatory drawing of (c), respectively.
FIG. 11 is an enlarged explanatory view showing a form in which the spindle and the spindle support shown in FIG. 10 are mounted, (a) and (b) are explanatory views of the front of such a mounting body and a right side explanatory view of (a), ( c) is II cross-sectional explanatory drawing in such (a).
It is perspective explanatory drawing which shows the fitting arrangement form of the spindle support body with respect to the lower support stand in the leveling apparatus shown in FIG.
It is a perspective explanatory drawing which shows the different fitting arrangement form of a lower support body and a spindle support body in another example of the leveling apparatus which concerns on this invention.
14 is an enlarged front explanatory view showing a form in which a spring for elastically connecting an upper supporter and a lower supporter is formed on the side surface of the leveling device shown in FIG. 1.

EMBODIMENT OF THE INVENTION Hereinafter, in order to make this invention clear more concretely, it demonstrates in detail, referring the typical embodiment shown in drawing for the structure of this invention.

First, typical examples of the leveling device according to the present invention are shown in two operating forms in FIGS. 1 to 4. That is, in FIG. 1 and FIG. 2, the state which made the height of the leveling apparatus 10 lowest is shown, and in FIG. 3 and FIG. 4, the state which made the height of the leveling apparatus 10 the highest is shown. have. In these drawings, the leveling device 10 is stacked in the form in which the upper support 12 and the lower support 14 are interposed between the wedge-shaped movable body 16 therebetween, and the movable body ( This movable body 16 can be moved by rotating the spindle 18 screwed to 16 in the state supported by the block-shaped spindle support 20. Then, the movable body 16 is moved back and forth between the upper support 12 and the lower support 14 to change the distance (height) in the vertical direction between the upper support 12 and the lower support 14. 1-2, the minimum height position as shown in FIG.2, and the highest height position as shown in FIG.3-4 can be taken, and it mounts on such a leveling apparatus 10 by this. The height adjustment of the predetermined part of an object, such as a machine and an apparatus, and also a horizontal degree can be performed in the same manner as before.

By the way, in this leveling apparatus 10, as shown in FIG. 5 and FIG. 6, the upper support 12 shows a substantially rectangular planar shape as a whole, and the upper surface 12a becomes a flat horizontal plane. On the other hand, the lower surface 12b is formed as an inclined surface corresponding to the inclined upper surface of the wedge-shaped movable body 16, and is configured such that the opposite one side is thin and the other side is thick. And in the thick part of the upper support 12, the spindle is located in the lower surface 12b of the upper support 12 so that the spindle 18 and the spindle support 20 may be located. In order to avoid interference with (18), concave grooves 22 of a predetermined width having a stepped structure in the width direction and the depth direction are formed in the direction in which the spindle 18 extends (axial direction). Moreover, the rectangular recessed part which entered into the groove perpendicular | vertical direction (the width direction of the upper support 12) in both side walls of the deepest part of the depth opening to the cross section of the upper support 12 of this recessed groove 22, respectively. 24 is formed in the same depth as the recessed groove 22, and the edge part of the cross section side of the upper support 12 of this recessed part 24 which the recessed groove 22 opens is notched to predetermined length. The auxiliary recesses 26 and 26 having the same depth as the recessed portions 24 are formed as fitting portions.

In addition, as shown in FIG. 7 and FIG. 8, the lower support 14 has the same planar shape and inner structure as the upper support 12 shown in FIG. 5 and FIG. 6 described above. That is, as for the lower support body 14 which has a substantially rectangular planar shape, the lower surface 14b becomes a flat horizontal surface, while the upper surface 14a becomes an inclined surface corresponding to the lower surface of the movable body 16. It is. The upper surface 14a serving as the inner surface of the lower supporter 14 has a stepped structure having a predetermined width in the site where the spindle 18 and the spindle supporter 20 are arranged, similarly to the upper supporter 12. The concave groove 32 is formed so as to extend in the axial direction of the spindle 18, and on both side walls of the concave groove 32, the grooves are arranged at right angles to each other so as to be located at an arrangement site of the spindle support 20. Rectangular concave portions 34, 34 extending in the shape of the concave portions are formed, and the concave portions 34, 34 each have corner portions on the cross-sectional side of the lower support 14 on which the concave grooves 32 open. The auxiliary concave portions 36 and 36 of the predetermined length are formed at the same depth as the fitting portions, respectively.

Moreover, as shown in FIG. 9, the wedge-shaped movable body 16 is formed in the inclined surface inclined at the upper surface 16a and the lower surface 16b with the same inclination angle with respect to a horizontal plane, respectively, and is substantially rectangular. In the planar shape of the cross-sectional shape which becomes thin gradually from the corresponding one side side to the other side side, it is formed in the wedge-shaped form. And while the notch part 42 of the step shape is formed in the center part in the thin part of this movable body 16, in the center part of this notch part 42, it is further to the thick part side. The cut notch inner part 44 cut off is formed. Moreover, the screw hole 46 which penetrates the movable body 16 is formed in the center line extended toward the thin part from the thick part of the movable body 16 so that it may open to the center of this notch inner part 44. The screw portion 18a of the spindle 18 described later can be screwed into the screw hole 46.

In addition, the spindle 18 and the block-shaped spindle support 20 in which it is inserted and supported are shown by (a) and (b)-(e) of FIG. 10, respectively. There, the spindle 18 is comprised from the screw part 18a of predetermined length and the hexagonal operation part 18b integrally formed in the one end as shown to (a). And by rotating the operation part 18b with a tool, the spindle 18 is rotated about the axis | shaft, but the center part of the operation part 18b other than the method of extrapolating and rotating a tool to the outer peripheral surface of such operation part 18b. It is also possible to employ a method of forming a hexagonal hole in the hole, inserting a tool therein, and rotating the same. Moreover, as shown to (b)-(c), the spindle support 20 shows the rectangular block shape as a whole, and the insertion passage hole 52 which penetrates through the center part is formed, and this insertion passage The threaded portion 18a of the spindle 18 is inserted into the hole 52 so as to be freely rotatable. Moreover, the edge part 54, 54 extended in the up-down direction in the both side part is formed in the one surface side which this insertion hole 52 of the spindle support 20 opens, and therebetween The projection 56 of the form in which the center part protruded laterally is formed in the form extended in the up-down direction.

In addition, the spindle 18 and the spindle support 20 are mounted as follows. That is, as shown in FIG. 11, the thrust bearings 62 and 62 and the flat washers 64 and 64 are arrange | positioned at the both sides of the spindle support body 20, respectively, the spindle 18 is inserted and the hexagon The nut 18 is screwed to the threaded portion 18a of the spindle 18, and the hex nut 66 is welded and fixed to the threaded portion 18a of the spindle 18, whereby the spindle 18 is a spindle support ( 20 is a mounting body 60 of a structure that is supported so as to be freely rotatable.

And using the mounting body 60 of such a spindle 18 and the spindle support body 20, the screw part 18a of the spindle 18 is moved to the screw hole 46 of the movable body 16 by the movable body. While it is made to screw-in from the notch part 42 side of (16), on the upper surface 16a side of this movable body 16, it overlaps so that the lower surface 12a of the upper support 12 may face, On the lower surface 16b side of the movable body 16, the upper surface 14a of the lower support stand 14 is opposed to each other, and is superimposed, and in the direction perpendicular to the spindle axis center of the spindle support 20, and also in a horizontal direction. Concave portions formed on both side walls of the concave portions 24 and 24 formed on both side walls of the concave groove 22 in the upper support 12 and the concave groove 32 in the lower support 14 ( The upper and lower support members 12 are arranged at both sides of the spindle support 20 by being fitted to the 34 and 34, respectively. The leveling device 10 of the mounting structure as shown in FIGS. 1 to 4 is completed by being held and fixed to the lower support 14.

In addition, in the assembling work of such a leveling device 10, both side portions of the spindle support 20, and the recessed portions 24 and 24 of the upper support 12 and the recessed portions 34 and 34 of the lower support 14. ) Is fitted to the lower side of both sides of the spindle support 20, for example, as shown in the form of the fit with the recessed portions 34 and 34 of the lower support 14 in FIG. 12. In the upper portions of the both sides of the spindle support 20, while being fitted to the recessed portions 24, 24 of the lower support 14, respectively. Will be fitted. And the protrusion 56 which protrudes in the side surface of the spindle support 20 at that time is one of the recessed parts 24, 24; 34, 34 in the upper support 12 or the lower support 14. The auxiliary concave portions 26, 26; 36, 36 formed in the openings are respectively fitted so that the movement of the leveling device 10 in the width direction of the spindle support 20 and further the spindle 18 can be prevented. have. In particular, the fitting of the projections 56 and the auxiliary concave portions 26, 26; 36, 36 is, as in the present embodiment, the side surfaces of the concave portions 24, 24; 34, 34 and the spindle support 20. It is effective when a gap exists between them. In addition, the concave grooves 22 and 32 of the stepped structure formed in the inner surface (inner side) portion of the upper support 12 and the lower support 14 are configured to move the spindle 18 to the upper support 12 and the lower support 14. ) Is a lightening unit formed in order to avoid contact (interference) between them.

Therefore, in the leveling device 10 of such a structure, the block-shaped spindle support 20 is unevenly fitted and fixed to the upper support 12 and the lower support 14 at both sides thereof. In this regard, such a spindle support 20 is not rotated at all, and the spindle 18 inserted into the spindle support 20 is rotated to move in and out of the movable body 16. Even if it implements, since the spindle 18 does not shake in a horizontal direction, the movable body 16 can always move in a fixed direction in a horizontal direction, and thereby, the upper surface 12a of the upper support 12 and , The accuracy of the parallelism of the lower surface 14b of the lower supporter 14 can be maintained high.

That is, in such a leveling device 10, the spindle 18 is rotated, the movable body 16 is retracted outward, and the state of the lowest height as shown in Figs. The movable body 16 enters between the upper support 12 and the lower support 14 by rotation of the opposite direction to the above of 18, as shown in FIG. 3 and FIG. 4. In the state of height, the spindle support body 20 which supports the spindle 18 does not rotate by the uneven | corrugated fitting in the both sides, but the state which makes the spindle 18 constant always in the axial direction. In order to maintain parallel accuracy, the device structure is not required to separately form a guide for guiding the movable body 16 in a fixed direction from the point of holding and holding the roller. Dog Simplification can be advantageously realized.

Further, according to the structure of the leveling device 10, the spindle support 20 for supporting the spindle 18 is fitted and fixed to the upper support 12 and the lower support 14 at both sides thereof. In the upper and lower portions of the columnar support which supports the spindle as in the prior art, in connection with the upper support and the lower support, the height portion of the upper or lower connection of such support is Since the height can be reduced at least and the height can be made low, the height as a whole of the leveling device 10 can be reduced as much as possible.

In addition, in the leveling device 10 of such an embodiment, as is apparent from FIG. 5 and FIG. 7, since the through hole is not formed in the upper support 12 or the lower support 14 at all, in other words, In connection with the upper support 12 or the lower support 14 and the spindle support 20, there is no need to form through-holes in the support 12, 14 for the interior of the leveling device 10. The problem of liquid intrusion can also be advantageously avoided.

As mentioned above, although typical embodiment of this invention was described in detail, it is only an illustration to the last and it should be understood that this invention is not interpreted at all limitedly by the specific technique which concerns on such embodiment.

For example, the movable body 16 moved by the screwing of the spindle 18 is a double-sided wedge shape in which the upper surface 16a and the lower surface 16b become inclined surfaces, respectively, in the said example, It is also possible to make single-sided wedge shape in which only one of these upper surface 16a and lower surface 16b becomes an inclined surface. And when such a one-sided wedge shape is adopted, only the opposing surface of the upper support 12 or the lower support 14 on the side opposite to the inclined surface formed on the movable body 16 becomes the inclined surface corresponding thereto. .

In the illustrated embodiment, both sides of the spindle support 20 become engagement convex portions, while concave grooves 22 and 32 formed in the inner surface portions of the upper support 12 and the lower support 14 are provided. Concave portions 24, 24; 34, 34 on both sides are configured as engagement recesses, on the contrary, while forming engagement recesses on the spindle support 20 side, the upper support 12 and the lower side It is also possible to form the engagement convex part in each inner surface part of the support stand 14.

Specifically, as illustrated in FIG. 13, rectangular angular grooves 58, 58 extending in the vertical direction, respectively, are formed as engagement recesses on both side portions of the spindle support 20 ′, while the lower support stands Projections of the planar rectangular shape facing each other projecting from the side walls of the stepped concave grooves 22 'formed in the inner surface portion where the spindle support 20' in 14 'is disposed, each predetermined length. , 28 are formed as engagement projections.

And there, the angle grooves 58 and 58 in which the projections 28 and 28 formed in the both side walls of the recessed groove 22 'in the lower support 14' were formed in the both side parts of the spindle support 20 '. The spindle support 20 'is fixed and held to the lower support 14' by being unevenly fitted to each other, and the same as the lower support 14 'also on the upper support 12 side. In the structure, the support of the spindle 18 inserted and passed into the insertion through hole 52 'of the spindle support 20' is supported by the uneven fitting to the spindle support 20 '. In the same way as, it can be effectively implemented.

In addition, in the illustrated leveling device 10, the upper support 12 and the lower support 14 constituting the upper support 12 have a structure in which the concave-convex fitting with the spindle support 20 is connected. If the upper support 12 is likely to be separated when the upper support 12 is gripped or lifted, it is preferable to connect the upper support 12 and the lower support 14 with more suitable connection means. For example, as shown in FIG. 14, it is preferable to connect the upper support 12 and the lower support 14 to the catching spring 70 of an appropriate number in the both side parts, respectively. In addition, here, the catching spring 70 shows W-shape, and the structure in which two are screwed and connected to the upper support 12 and the lower support 14 in each edge part is employ | adopted. It is becoming.

In addition, in the mounting body 60 shown in FIG. 11, although the protrusion 56 formed in the spindle support body 20 is attached so that it may be located in the operation part 18b side of the spindle 18, in contrast, the spindle It is also possible to mount so that it may be located in the free end side of the screw part 18a of (18). In that case, the auxiliary concave portions 26, 26; 36, 36 as the fitting portions, into which the projections 56 are fitted, are the concave grooves of the openings of the concave grooves 34, 24; 34, 34. 22, 32) to be formed in the inner corner.

The fitting portion into which the projections 56 formed on the spindle support 20 are fitted is not limited to the auxiliary concave portions 26, 26; 36, 36 as shown in the example, and the concave grooves 22, 32 are provided. It is also possible to use the side wall itself, and furthermore, the inner protrusions may be integrally formed on the side wall surfaces of the concave grooves 22 and 32 and used as fitting portions.

In addition, cast iron products are generally used for the upper support 12, the lower support 14, the movable body 16, etc. constituting the leveling device 10, but the present invention is not limited thereto. Or processed products can be used.

In addition, although illustration is abbreviate | omitted, in the illustrated leveling apparatus 10, the big clearance gap is formed between the upper support 12 and the lower support 14 between the site | parts thinned by each inclined surface. In both sides of the upper support 12 and the lower support 14, the lower part and the granular part are integrally formed, and the gap between the upper support 12 and the lower support 14 is as narrow as possible. On the handling of the leveling device 10, it is advantageous.

In addition, although it does not enumerate one by one, this invention can be implemented in the aspect which added various changes, correction, improvement, etc. based on the knowledge of a person skilled in the art, and such an embodiment deviates from the meaning of this invention. It goes without saying that all belong to the scope of the present invention unless otherwise stated.

10: leveling device
12: upper support
14: lower support
16: movable body
18: spindle
18a: thread
18b: control panel
20: spindle support
22: concave groove
24: concave portion
26: secondary recess
28: turning
32: concave groove
34: concave portion
36: secondary recess
42: notch
44: inside notch
46: screw hole
52: insertion through hole
54: end
56: turning
60: mounting body
62: thrust bearing
64: flat washer
66: hex nut

Claims (8)

The wedge-shaped movable body is interposed between the upper support and the lower support so as to be movable, and the spindle is screwed to the movable body, and the movable body is moved by the rotation of the spindle. In the leveling device to adjust the distance in the vertical direction between the lower support,
The spindle is inserted, and a block-shaped spindle support for rotatably supporting the spindle is disposed between the upper support and the lower support, and in a direction perpendicular to the spindle insertion passage direction of the spindle support. Engaging convex portions are formed on either side of each of the two side portions and respective inner surface portions of the upper support and the lower support on which the spindle support is disposed, and on the other side thereof, engaging concave portions are formed and they A leveling device characterized in that the spindle support is held and fixed to the upper support and the lower support by the fitting convex portion and the engaging concave portion. The method of claim 1,
The engaging convex portions are arranged at the placement portions of the spindle support in the upper support and the lower support, respectively, while the engaging convex portions of which both side portions of the spindle support fit into the engaging recess. The leveling device comprised as a part. 3. The method of claim 2,
Concave grooves extending in the axial direction of the spindle are formed on inner surfaces of the upper support and the lower support facing each other, and concave portions extending in the vertical direction on both side walls of the recess, respectively, A leveling device, each formed as said engaging recess. The method according to any one of claims 1 to 3,
A leveling device, wherein the spindle supporter has a rectangular block shape, and an insertion through hole through which the spindle is inserted passes through a central portion thereof. The method of claim 3, wherein
The spindle support has a rectangular block shape and a projection extending in the vertical direction by the stepped portions formed on both side portions of the surface of any one side of the spindle support in the spindle axial direction. And the projections are fitted to both side walls of the concave grooves respectively disposed on the upper support and the lower support. The method of claim 5, wherein
A leveling device, each of which has a fitting concave portion into which projections of the spindle support are fitted, on both side walls of the concave groove disposed on the upper support and the lower support, respectively. The method of claim 1,
The engagement convex portions are respectively disposed at the placement portions of the spindle support in the upper support and the lower support, while concave portions to which the engagement convex portions are fitted to both side surfaces of the spindle support, respectively, A leveling device formed as said engagement recess. The method of claim 7, wherein
While the spindle support has a rectangular block shape, concave grooves extending in the vertical direction on both sides of the spindle support are formed, and the concave grooves constitute concave portions formed on both sides of the spindle support. Leveling device.

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