KR101505800B1 - Wedge device for machine installation - Google Patents

Abstract

Disclosed is a support device for a machine installation which is easily removed after installation of a machine. According to an embodiment of the present invention, the support device for a machine installation includes: a support member having a height adjustment part inter-positioned between a base where a machine is seated, and the machine having a connection part connected to the height adjustment part; and a removal jig having a body part installed separably and couplably to the connection part of the support member, having a pressing protrusion installed in the body part to apply an external force when removing the support member.

Description

{WEDGE DEVICE FOR MACHINE INSTALLATION}

The present invention relates to a support device for machine mounting, which can be used for adjusting height or level during installation of a machine and can be easily removed after installation of the machine.

Machines such as large ship engines, large motors, generators, etc. are bulky and heavy in weight, so it is very difficult to install them at high or horizontal level. The same is true for large-scale machine structures installed at plant sites.

Usually, when installing a large machine, a large number of wedge-shaped supporting members are inserted between the bottom of the machine and the base on which the machine is placed, and then the height or the horizontal are aligned. Then, chuckfast is inserted into the gap between the base and the machine bottom. Filled with a filler such as < / RTI > After the filler has hardened and the machine is supported, it removes a large number of support members between the machine and base.

When removing the support member, the support member is hammered out with a hammer or the like to the outside. In this case, since the hammer must be able to strike in a direction of pulling out, the projected metal member is welded to the exposed portion of the receiving member, and the portion is struck.

However, since this method requires a long time for the metal member to be welded to each supporting member in the process of removing the supporting member, the metal member attached to the hammer during the hitting process of the hammer is often detached, There was a hassle. In addition, since the support member is deformed due to the hammer striking, it is difficult to reuse the support member, so that there is a problem that an excessive cost is required to manufacture a new support member every time the machine is installed.

Japan Public Utility Newspaper Bulletin Office Open No. 6-62112 (published on September 29, 1994)

The embodiment of the present invention is intended to provide a supporting device for machine mounting that can be easily removed after installation of a machine.

In addition, the embodiment of the present invention is intended to provide a support device for mounting a machine, which can easily attach or detach a jig for removal to a support member.

According to an aspect of the present invention, there is provided an image forming apparatus including: a support member having a height adjusting portion interposed between a base portion on which a machine is placed and a machine; and a connection portion connected to the height adjusting portion; And a removal part having a pressing part provided on the body part for applying an external force when the supporting part is removed when the supporting part is detachably coupled to the connection part of the supporting part, have.

The removing jig may include a receiving groove formed in the body portion and receiving the connecting portion of the receiving member, and at least one connecting pin for passing through the connecting portion and the body portion while the connecting portion is received in the receiving groove .

The height adjusting portion may extend from the connecting portion in the form of a rod having a rectangular cross-sectional structure, and at least one outer surface may be an inclined surface inclined with respect to the longitudinal direction.

Wherein the width of the height adjusting portion is a first width and the width of the height adjusting portion in a direction intersecting the first width is a second width and the second width is greater than the first width Can be largely provided.

Wherein the connecting portion and the receiving groove have a square cross-sectional structure corresponding to each other, and the connecting portion includes at least one first pin coupling hole passing through opposite sides facing each other for coupling with the coupling pin, And may include one or more second pin engagement holes passing through opposite surfaces mutually opposed in an intersecting direction.

The body may include a plurality of third pin coupling holes formed at positions corresponding to the positions of the first and second pin coupling holes formed in the coupling portion for coupling the coupling pins.

The receiving groove may be opened to facilitate coupling with the connecting portion.

The pressing portion may include a pressing surface that protrudes upward from the upper surface of the body portion and is perpendicular to the upper surface of the body portion.

The supporting device for machine mounting according to the embodiment of the present invention can remove the supporting member from the installed state by connecting the removable fixture which can be attached and detached to the connecting portion of the supporting member, Can be performed.

Further, in the supporting device for a machine-mounting according to the embodiment of the present invention, since the act of hitting with a hammer or pressing with a pressing device is performed only on the pressing jaw of the removing jig, deformation of the supporting member can be prevented in the process of removing the supporting member. That is, it is possible to reuse the supporting member because the removal tool receiving the external force protects the supporting member to prevent deformation of the supporting member.

FIG. 1 is a perspective view illustrating an example of installing an engine of a large-sized ship using a support device for machine-mounting according to an embodiment of the present invention.
2 is an exploded perspective view showing a specific structure of a support device for machine-mounting according to an embodiment of the present invention.
3 is a perspective view showing a state in which a lower portion of a machine is supported by using a support member of a machine-mounting support device according to an embodiment of the present invention.
4 is a perspective view illustrating a state in which a removing fixture of a machine-mounting supporting device according to an embodiment of the present invention is mounted on a supporting member and removed with a hammer.
5 is a perspective view showing a state in which a removal fixture of a supporting device for machine mounting according to an embodiment of the present invention is mounted on a supporting member and then removed by a hydraulic pressing device.
6 is a perspective view showing an example in which the supporting member of the supporting device for machine-mounting according to the embodiment of the present invention is rotated.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

FIG. 1 is a perspective view showing an example of installing an engine of a large-sized ship using a supporting device for a machine-mounting according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view showing a specific configuration of a machine-

1 and 2, a supporting device 100 for mounting a machine according to an embodiment of the present invention includes a base portion 20 on which a machine 10 is placed and a machine 10 A supporting member 110 for adjusting the height or the level of the supporting member 110 by sandwiching the supporting member 110 between the bottom of the supporting member 110 and the supporting member 110, And a removal jig 120 to be mounted.

FIG. 1 shows a case where the support device 100 for machine installation is used for installation of an engine of a ship. However, the application of the support device 100 for a machine installation according to the present embodiment is not limited thereto. The supporting device 100 for machine-mounting according to the present embodiment can also be used in the case of installing a large machine or structure in a shipyard or various plant sites. Here, the term "machine" means not only an operation machine such as an engine, a generator, a large motor, etc., but also a large apparatus or structure installed in a factory, a plant site, a construction site or the like.

2 and 3, the support member 110 includes a height adjusting portion 111 interposed between the base portion 20 on which the machine 10 is placed and the machine 10, a removal fixture 120, And a connecting portion 112 connected to the height adjusting portion 111 for connection with the height adjusting portion 111. [

The height adjusting portion 111 extends from the connecting portion 112 in the form of a rod having a rectangular sectional structure. And the upper surface is composed of an inclined surface 111a inclined with respect to the longitudinal direction. 3, the height adjuster 111 is formed in a wedge shape so that the height of the bottom surface of the machine 10 can be adjusted according to the degree of the operator entering the space between the machine 10 and the base portion 20 Whereby the height or level of the machine 10 can be adjusted.

The maximum width from the upper inclined surface 111a to the outer surface (lower surface) opposite to the upper surface is referred to as a first width W1 and the maximum width of the height adjustment portion 111 in the both side directions intersecting the first width W1 The second width W2 is set to be larger than the first width W1.

3, the height adjuster 111 adjusts the height of the machine 10 by using the height of the first width W1 or rotates the machine 10 by 90 degrees in the vertical direction as in the example of FIG. 6, The height of the machine 10 can be adjusted by using the height of the workpiece W2. That is, any one of the first width W1 and the second width W2 may be selected as needed to support the lower portion of the machine 10, thereby varying the height adjustment range of the machine 10. [

Although the present embodiment shows a case in which both side surfaces of the height adjusting portion 111 forming the second width W2 are provided in parallel, any one of the two sides may be formed as an inclined surface. In this case, the height of the machine 10 can be adjusted according to the degree of the height adjustment portion 111 entering the space between the machine 10 and the base portion 20 while supporting the machine 10 using the second width W2 .

The connecting portion 112 of the supporting member 110 may be provided in the form of a rod having a square sectional structure as shown in FIGS.

The removal jig 120 includes a body portion 121 to be detachably coupled to the connection portion 112 of the supporting member 110 and an upper body portion 121 to apply an external force when the supporting member 110 is removed, (Not shown). The removing jig 120 is formed at a lower portion of the body portion 121 and includes a receiving groove 123 for receiving the connecting portion 112 of the receiving member 110 and a receiving groove 123 for receiving the body portion 121 and the body portion 121 And at least one coupling pin 124 that can be coupled through the coupling portion 112 received in the groove 123.

2, the receiving groove 123 may be provided with a groove having a square cross-sectional structure corresponding to the outer shape of the connecting portion 112 of the receiving member 110, and an easy coupling with the connecting portion 112 This can be in an open form if possible.

As shown in FIG. 2, the connection portion 112 of the support member 110 includes at least one first pin coupling hole 114 which penetrates through opposite surfaces facing each other for coupling with the coupling pin 124, And one or more second pin coupling holes (115) passing through opposite surfaces mutually opposite to each other in a direction intersecting the pin coupling hole (114). In other words, the first pin coupling hole 114 is formed to penetrate both opposite side surfaces, and the second pin coupling hole 115 may be formed to penetrate the upper surface and the opposite upper surface. 2, when the first and second pin coupling holes 114 and 115 are formed in plural numbers, the first pin coupling hole 114 and the second pin coupling hole 115 alternate in the longitudinal direction of the coupling portion 112 .

The body portion 121 of the removal jig 120 is formed so as to penetrate both side surfaces thereof at positions corresponding to the positions of the first and second pin engagement holes 114 and 115 formed in the connection portion 112 for engagement of the engagement pin 124 And a plurality of third pin coupling holes 125 formed therein. The number of the third pin coupling holes 125 may be formed by the number of the first pin coupling holes 114 and the number of the second pin coupling holes 115 in total.

3, the engaging pin 124 is engaged with the third pin engaging hole 125 of the body portion 121 and the first pin engaging hole 114 of the connecting portion 112, The coupling pin 124 is inserted into the third pin coupling hole 125 of the body portion 121 and the coupling pin 112 of the coupling portion 112. In this case, Can be fastened through the two-pin coupling hole (115).

This configuration allows the coupling part 112 and the removal tool 120 to be coupled with each other in a state where the pressing jaw part 122 of the removal jig 120 is always directed upward. That is, the removal jig 120 is coupled in the same direction, and the coupling pin 124 is moved to the first pin coupling hole 114 and the second pin coupling hole 115 So that it can be selectively fastened to one side.

 The coupling pins 124 may be formed of one or a plurality of coupling pins. The coupling pin 124 may have a smaller outer diameter than the inner diameters of the first to third pin coupling holes 114, 115 and 125 for easy fastening of the coupling part 112 and the removal tool 120. As shown in Fig. 2, a head portion 124a having a large diameter may be provided at one end portion, and a male screw portion 124b may be provided on the opposite side. The tightening nut 127 may be fastened to the male threaded portion 124b after the fastening member 110 and the removal tool 120 are fastened.

The pressing jaw portion 122 of the removing jig 120 may be formed of steel integrated with the body portion 121. The pressing jaw 122 may include a pressing surface 122a protruding upward from the upper surface of the body portion 121 and perpendicular to the upper surface of the body portion 121. [

The following explains how to use these mounting devices.

1, the height adjusting portion 111 of the supporting member 110 is sandwiched between the bottom surface of the machine 10 and the base portion 20, and the machine 10 ) The height or level of the machine 10 can be adjusted in a manner that supports the bottom surface. A plurality of such support members 110 may be provided at mutually spaced positions. The height of the bottom surface of the machine 10 supporting the supporting members 110 can be adjusted by adjusting the degree of entry of the height adjusting unit 111 or by rotating the supporting members 110 to select the supporting surface of the height adjusting unit 111. [

After the machine 10 has been leveled or leveled in this manner, the gap between the base 20 and the bottom of the machine 10 is filled with a filler such as chockfast and cured. In this way, since the hardened filler supports the bottom surface of the machine 10, the machine 10 can be supported in a state of height or horizontal adjustment, and the machine 10 can be fixed in this state.

4, when the removal tool 120 is attached to the connection portion 112 of the support member 110, the worker pushes the pressing jaw 122 (or the like) with the hammer 40 or the like, The support member 110 can be pulled out. 5, when the hydraulic pressure device 50 is installed between the pressure jaw 122 of the removal tool 120 and the machine 10, the pressure jaw 122 is operated to push the pressure jaw 122 outwardly It is possible to easily remove the support member 110 also by the method.

Since the removing jig 120 can be alternately mounted on the plurality of supporting members 110, a plurality of supporting members 110 can be sequentially removed using one removing jig 120. 6, the removing jig 120 may be mounted in the same manner to remove the supporting member 110 even when the supporting member 110 is rotated.

As described above, the supporting device 100 for a machine-mounting according to the present embodiment is configured to remove the supporting member 110 from the lower part of the machine 10 by engaging the removable fixture 120, which can be attached to and detached from the connecting part 112 of the supporting member 110 It is possible to easily perform the operation of removing the support member 110 after installation of the machine 10. [ Since the operation of hitting the hammers 40 or pressing the hammers 40 by the hydraulic pressure device 50 is performed only on the pressing jaws 122 of the removal jig 120, It is possible to prevent deformation. That is, since the removal tool 120 receiving the external force protects the support member 110 to prevent deformation of the support member 110, the support member 110 can be reused.

10: machine, 20: base part,
100: Supporting device for machine installation, 110: Supporting member,
111: height adjusting portion, 112: connecting portion,
114: first pin coupling hole, 115: second pin coupling hole,
120: removing jig, 121: body part,
122: pressing jaw, 124: engaging pin,
125: third pin coupling ball.

Claims (8)

A supporting member having a height adjusting portion interposed between a base portion on which the machine is placed and the machine, and a connecting portion connected to the height adjusting portion; And a removing unit having a body part detachably coupled to the connection part of the receiving member and a pressing part provided on the body part for applying an external force when the receiving member is removed,
The removing jig may include at least one engaging pin formed in the body portion and receiving the connecting portion of the receiving member and at least one engaging pin for engaging the connecting portion through the body portion and the connecting portion while the connecting portion is received in the receiving groove ,
Wherein the connecting portion and the receiving groove have a cross-sectional structure corresponding to each other,
Wherein the connection portion includes at least one first pin coupling hole passing through both opposite faces for coupling with the coupling pin and at least one second pin coupling hole penetrating both sides mutually opposing in the direction crossing the first pin coupling hole, A mounting device for mounting a machine. delete The method according to claim 1,
Wherein the height adjusting portion extends from the connecting portion in the form of a rod having a rectangular cross-sectional structure, and at least one outer surface has an inclined surface inclined with respect to the longitudinal direction. The method of claim 3,
Wherein the width of the height adjusting portion is a first width and the width of the height adjusting portion in a direction intersecting the first width is a second width and the second width is greater than the first width A large supporting device for machine installation. delete The method according to claim 1,
And the body portion includes a plurality of third pin engagement holes formed to penetrate both side surfaces of the body portion at positions corresponding to positions of the first and second pin engagement holes formed in the connection portion for engagement of the engagement pins. The method according to any one of claims 1, 3, and 4,
Wherein the receiving recess is opened at the bottom for easy coupling with the connecting portion. The method according to claim 1,
Wherein the pressing jaw portion includes a pressing surface projecting upward from the upper surface of the body portion and perpendicular to the upper surface of the body portion.

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