KR200397519Y1 - Preloading Jack - Google Patents

Abstract

The present invention eliminates a separate hydraulic cylinder housing formed at the lower end of the screw shaft when supporting a brace which is installed to prevent the collapse of the earth wall, thereby reducing the jack weight, improving handling and workability, and reducing the risk of falling. The present invention relates to a jack device having a structure capable of easily extending the jack device as necessary even if the stroke of the hydraulic cylinder is constant by providing a reaction force member.

In the present invention, the upper plate (2); A screw shaft 3 having an upper end coupled to the upper plate 2; A shaft holder (4) for wrapping and supporting the screw shaft (3) so that the screw shaft (3) is free to move therein; A lower plate 5 formed under the shaft holder 4; Screw shaft pusher member screwed to the screw shaft (3) to maintain the jack device extended state by preventing the screw shaft (3) from being pushed out from the shaft holder (4) ( 6); And a screw shaft 3 provided between the upper plate 2 and the screw shaft pusher 6 to contact the stroke rod 9 of the hydraulic cylinder 8 to extend the stroke extension force of the hydraulic cylinder 8. A jack device is provided which comprises a reaction force member 7 for supporting and moving the screw shaft 3 outward.

Description

Jack device with reaction force member {Preloading Jack}

The present invention relates to a jack device used to support a brace, etc. Specifically, the jack device having a structure that can easily extend the jack device as necessary even if the stroke of the hydraulic cylinder is constant by providing a reaction force member .

For example, when constructing an earthquake temporary facility or an earth wall, a jack device is installed to extend the jack device between the prop beam and the earth wall, or between the prop beam and the prop beam in order to closely adhere the prop in the direction of the earth wall.

6 shows a schematic perspective view of a conventional jack device 10 using a hydraulic cylinder, where the conventional jack device 10 is combined with the lower and upper plates 10a and 10b and the lower plate 10a. The cylinder housing part 13, the screw shaft 11, and the screw shaft sliding prevention member 12 are comprised. When the hydraulic cylinder 14 is placed in the hydraulic cylinder accommodating portion 13 and the hydraulic cylinder 14 is extended to extend the hydraulic cylinder 14, the screw shaft 11 is extended to attach the lower and upper plates 10a and 10b, respectively. The support is made with the gap between the members widened. As such, when the screw shaft anti-rolling member 12 is rotated to reach the hydraulic cylinder accommodating portion 13 while the screw shaft 11 is extended, the screw shaft 11 is prevented from contracting to maintain a supported gap. Done.

However, in the conventional jack device 10 as described above, in order to install the hydraulic cylinder 14, the hydraulic cylinder housing portion 13 is formed integrally with the lower plate 10a, the presence of such a hydraulic cylinder housing portion 13 This will increase the weight of the entire jack device. Therefore, the conventional jack device 10 is difficult to handle and there is a problem that the risk of falling of the device during operation, such as a large. In particular, since the size of the hydraulic cylinder and the size of the hydraulic cylinder receiving portion 13 must correspond to each other, there is a disadvantage that the compatibility of the hydraulic cylinder is low.

In addition, the length of the entire jack device including the hydraulic cylinder housing 13 is limited, and in particular, since the length that can be adjusted by the hydraulic cylinder is limited, if the distance between the members to be supported is too wide, the length is adjusted accordingly. Long hydraulic jack system or long stroke hydraulic cylinder should be selected. Therefore, there is a disadvantage that the compatibility of the device by that much.

The present invention was developed to overcome the shortcomings and problems of the conventional jack device as described above, in the present invention, the weight of the device is not large, the hydraulic cylinder and the device by allowing the appropriate adjustment according to the distance between the two members It is an object of the present invention to provide a jack structure of a new structure with improved compatibility.

It is another object of the present invention to provide a jack device having a structure capable of extending the jack device as much as necessary even with a hydraulic cylinder having a certain stroke.

In order to achieve the above object, in the present invention the top plate; A screw shaft having an upper end coupled to the upper plate; A shaft holder for wrapping and supporting the screw shaft to freely move the screw shaft therein; A lower plate formed under the shaft holder; A screw shaft anti-rolling member screwed to the screw shaft to maintain the extended state of the jack device by preventing the screw shaft from being pushed out from the shaft holder in an outwardly moved state; And a reaction force member provided on the screw shaft between the upper plate and the screw shaft anti-rolling member to contact the stroke rod of the hydraulic cylinder to support the stroke extension force of the hydraulic cylinder to move the screw shaft outward. A jack device is provided.

In the jack device of the present invention, the reaction force member may be screwed or fixedly coupled to the screw shaft, and in the middle of the shaft holder, a hydraulic cylinder support member may be further installed to support the hydraulic cylinder. have.

The following describes the configuration of the subject innovation by looking at specific embodiments of the subject innovation with reference to the accompanying drawings.

FIG. 1 is a schematic exploded perspective view of the jack device 1 according to the present invention, and FIG. 2 is a cross-sectional perspective view illustrating a cross-sectional structure of the jack device 1 in a coupled state. 3a to 3h are schematic cross-sectional views showing step by step expansion of the jack device 1 according to the present invention. For reference, unlike the other components for convenience in FIGS. 3A to 3H and 5, the upper plate 2 and the screw shaft 3 are not shown in cross-sectional form.

Jack device (1) according to the present invention is the top plate (2), the screw shaft (3) having an upper end coupled to the top plate (2), the screw shaft (3) is freely movable therein It comprises a shaft holder (4) for wrapping and supporting the shaft (3), and a lower plate (5) formed in the lower portion of the shaft holder (4). The screw shaft 3 prevents the screw shaft 3 from being pushed in the state in which the screw shaft 3 is moved outward from the shaft holder 4 so as to keep the jack device 1 extended. 6) is screwed, and a reaction force member 7 for supporting the stroke extension force of the hydraulic cylinder 8 between the upper plate 2 and the screw shaft pusher member 6, as will be described later, the screw shaft 3 Is provided.

The shaft holder (4) is a cylindrical member, the screw shaft (3) is inserted therein to move freely, the through hole through which the screw shaft (3) is formed in the upper center of the shaft holder (4) And around the through hole is formed a jaw 41 in which the screw shaft pusher 6 is placed. A lower plate 5 is attached to the lower end of the shaft holder 4, and a hydraulic cylinder 8 is placed on the lower plate 5.

The screw shaft anti-rolling member 6 is screwed to the screw shaft 3 so that when the screw shaft 3 extends outward from the shaft holder 4 as described later, the jaw of the shaft holder 4 ( 41) so that the screw shaft (3) is not pushed back to the shaft holder (4). The reaction force member 7 is coupled to the screw shaft 3 and abuts against the stroke rod 9 of the hydraulic cylinder 8 to receive the stretching force of the hydraulic cylinder (8). That is, when the hydraulic cylinder 8 is extended as will be described later, the extension force is applied to the reaction force member 7, and thus the screw shaft 3 to which the reaction force member 7 is coupled is connected to the shaft holder 4 by the extension force. It will go outside. To this end, the reaction force member 7 protrudes out of the screw shaft 3 so as to be in contact with the stroke rod 9 of the hydraulic cylinder 8.

In the embodiment shown in Figs. 3a to 3h, the reaction force member 7 has a plate shape and is screwed to the screw shaft 3. However, as described below, the reaction force member 7 may be integrally coupled with the screw shaft 3. In the case of the reaction force member 7 in the form of a plate, a reinforcement rib may be installed in the reaction force member 7 as shown in the drawing for reinforcement.

The upper plate 2 and the lower plate 5 are in contact with and support the members on both sides, it can be firmly coupled to each supporting member by a fastening means such as a bolt.

Next, an operation process of the jack device 1 according to the present invention will be described with reference to FIGS. 3A to 3H.

3A is a state where the jack device 1 is fully retracted. In this state of being fully retracted, as shown in FIG. 3B, the operator pulls the upper plate 2 or the reaction force member 7 in the direction of the arrow so as to contact the member to be supported by the upper plate 2. Since the screw shaft 3 can move freely in the shaft holder 4, the screw shaft 3 easily moves out of the shaft holder 4 by pulling the upper plate 2 or the reaction force member 7. When the screw shaft 3 advances and the upper plate 2 comes into contact with one side member, the upper plate 2 is fixed to the one side member, and the screw shaft pusher member 6 is screwed to move the shaft holder 4. After being placed on the upper jaw 41 (FIG. 3C), the reaction force member 7 is also screwed to bring it into close contact with the screw shaft anti-rolling member 6 (FIG. 3D).

Position the hydraulic cylinder 8 on the lower plate 5 around the shaft holder 4 (FIG. 3E), extend the hydraulic cylinder 8 so that the stroke rod 9 touches the reaction force member 7 and then continue. Stretching the hydraulic cylinder 8 causes the screw shaft 3 to extend further outward from the shaft holder 4 as shown in FIG. 3F. After the screw shaft 3 advances to the desired member spacing, the screw shaft anti-rolling member 6 is screwed again so as to be placed on the upper jaw 41 of the shaft holder 4 (FIG. 3G). In this way, when the screw shaft pusher member 6 is positioned in contact with the shaft holder 4 while the screw shaft 3 is extended, the screw shaft 3 is prevented from being pushed back into the shaft holder 4. The gap between the two members is maintained. Subsequently, after contracting the stroke rod 9 of the hydraulic cylinder 8, the reaction force member 7 is also screwed to bring it into close contact with the screw shaft pusher member 6 as shown in FIG. 3H.

In the case where it is necessary to further open the two side members, the steps described in connection with FIG. 3F to FIG. 3H, that is, the hydraulic cylinder 8 after the stroke rod 9 of the hydraulic cylinder 8 is in close contact with the reaction force member 7 To further extend the screw shaft (3), and after the hydraulic cylinder (8) shrinks, the screw shaft anti-rolling member (6) and the reaction force member (7) are screwed to bring the screw shaft (4) into close contact with the shaft holder (4). 3) Repeat the steps to maintain the advancement state.

Thus, in the present invention, even if the stroke of the hydraulic cylinder 8 is not increased further, if the above operation is repeated, the screw shaft 3 can be continuously extended as much as possible to widen the distance between both members. Therefore, even if the distance between the two members is too wide, it is not necessary to use a hydraulic jack device with a long length or select a hydraulic cylinder with a long stroke. You will be able to open.

On the other hand, the reaction force member 7 is in close contact with the screw shaft pusher member 6 is supported, there is an effect to prevent the screw shaft pusher member 6 from loosening under the influence of vibration or the like.

In particular, in the jack device (1) of the present invention, unlike the conventional case, since there is no need for a storage unit in which the hydraulic cylinder is placed at all, the weight of the jack device due to the presence of the storage portion, difficulty in handling, increase in production cost There is no problem such as, and there is no need to match the hydraulic cylinder to the size of the receiving portion has the advantage that the compatibility of the hydraulic cylinder is good.

4 shows another embodiment of the jack device 1 according to the present invention in cross section. In FIG. 4, the top plate 2 and the screw shaft 3 are also shown in cross-section, like other components. In the embodiment shown in FIGS. 1 to 3H described above, the top plate 2 and the screw shaft 3 are integrated, whereas in the embodiment shown in FIG. 4, the top plate 2 and the screw shaft 3. This screw is coupled. In short, the jack device 1 of the present invention can be used by screwing each other by making the upper plate 2 and the screw shaft 3 as separate members, respectively, as shown in FIG. Therefore, in this configuration, the upper plate (2) and the screw shaft (3) can be transported separately, there is an advantage that the screw shaft (3) can be separated while leaving the upper plate (2) on one side, in particular the upper plate ( There is an advantage that the length of the entire jack device 1 can be further increased by rotating 2). On the other hand, in the embodiment shown in Figure 4, the reaction force member (7) has a configuration that is integrally fixed to the screw shaft (3), as described above in the jack device 1 according to the present invention the reaction force member (7) ) May be fixedly coupled to the screw shaft (3). Other configurations in the embodiment shown in FIG. 4 are the same as those shown in FIGS. 1 to 3H.

5 shows another embodiment of the jack device 1 according to the present invention in a cross-sectional view of a state corresponding to FIG. 3F described above. In the embodiment shown in FIG. 5, a hydraulic cylinder support member 42 capable of supporting the hydraulic cylinder 8 on the outside of the shaft holder 4 is further provided. The hydraulic cylinder support member 42 is installed in the middle or upper portion of the shaft holder 4 above the lower plate 5. Thus, the hydraulic cylinder support member 42 is installed outside the shaft holder 4. When the hydraulic cylinder 8 is placed thereon, the distance between the hydraulic cylinder 8 and the reaction force member 7 is reduced, so there is an advantage that a small capacity hydraulic cylinder 8 having a small stroke may be used. .

In the case of the embodiment shown in FIG. 5, the other configuration is the same as the embodiment shown in FIGS. 1 to 3H described above, so that the expansion of the hydraulic cylinder 8, the screw shaft stop member 6, and the reaction force member 7 are performed. Repeated movements can extend the jacking device as much as the length of the screw shaft allows.

The hydraulic cylinder support member 42 may be composed of a plate-like member like the reaction force member 7, but may be configured in various forms. In particular, the mounting of the hydraulic cylinder support member 42 may be integrally attached to the shaft holder 4, but a screw is formed on the outside of the shaft holder 4 and the hydraulic cylinder support member 42 is screwed together. Alternatively, the hydraulic cylinder support member 42 may be detachably coupled to the shaft holder 4 by another structure.

In the drawing, reference numeral 31 denotes a locking portion 31 for preventing the screw shaft 3 from being completely detached from the shaft holder 4.

As described above, the conventional jack device requires a separate hydraulic cylinder receiving portion at the lower end of the screw shaft, whereas in the present invention does not require a separate hydraulic cylinder receiving portion formed at the lower end of the screw shaft, there exists a hydraulic cylinder receiving portion It is possible to prevent the increase in the weight of the device due to. In addition, it is possible to reduce the weight of each component. Therefore, when using the device of the present invention, since the handling is relatively easy, workability is improved, it is possible to lower the risk of the device falling during work.

In particular, in the conventional jack device, the length of the entire jack device including the hydraulic cylinder housing part is limited, and the length that can be adjusted by the hydraulic cylinder is limited, so that the length of the hydraulic jack is long according to the case when the distance between the members to be supported is too wide. It is necessary to use a device or to select a hydraulic cylinder with a long stroke, and accordingly, there is a disadvantage that the device is incompatible.

However, in the jack device of the present invention, even if the size of the hydraulic cylinder is constant, there is an advantage that the jack device can be extended continuously as the length of the screw shaft allows, and the compatibility of the device is improved as much. In addition, the use of the hydraulic cylinder support member has the advantage that the jack device can be sufficiently extended to a desired degree even if a small capacity hydraulic cylinder having a small stroke is used.

1 is a schematic exploded perspective view of a jack device according to the present invention.

Figure 2 is a schematic coupling perspective view of the jack device according to the present invention shown in FIG.

3a to 3h are schematic cross-sectional views showing the expansion process of the jack device according to the present invention step by step.

Figure 4 is a schematic cross-sectional view showing another embodiment of the jack device according to the present invention.

Figure 5 is a cross-sectional view of a state corresponding to Figure 3f showing another embodiment of a jack device according to the present invention.

6 is a schematic perspective view showing a conventional jack device.

<Explanation of symbols for the main parts of the drawings>

1: jack device 2: top plate

3: screw shaft 4: shaft holder

5: lower plate 6: screw shaft stop member

7: reaction force member 8: hydraulic cylinder

Claims (4)

A jack device that opens and maintains a gap between two members, An upper plate 2 supporting one side member; A screw shaft 3 having an upper end coupled to the upper plate 2; A shaft holder (4) for wrapping and supporting the screw shaft (3) so that the screw shaft (3) is free to move therein; A lower plate 5 formed below the shaft holder 4 so as to support the other side member; Screw shaft pusher member screwed to the screw shaft (3) to maintain the jack device extended state by preventing the screw shaft (3) from being pushed out from the shaft holder (4) ( 6); And It is provided on the screw shaft (3) between the upper plate (2) and the screw shaft pusher member 6, abuts on the stroke rod 9 of the hydraulic cylinder (8) to support the stroke extension force of the hydraulic cylinder (8) Jack device, characterized in that it comprises a reaction force member (7) for moving the screw shaft (3) to the outside. The method of claim 1, Jack device, characterized in that the reaction force member (7) is installed screwed to the screw shaft (3) so that the screw movement. The method of claim 1, Jack device, characterized in that the reaction force member (7) is integrally fixed to the screw shaft (3). The method according to any one of claims 1 to 3, A jack device, characterized in that the hydraulic cylinder support member (42) is provided on the outside of the shaft holder (4) to support the hydraulic cylinder (8).