JP2015092042A - Block lifting device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a block lifting device which can handle a block inexpensively and with small man-hours in a final stage of a manufacturing process of the large block.SOLUTION: A block lifting device 10 is composed of: support structures 1 which are used in respective support point of a block for supporting the block from below; connecting means 5 for connecting the support structures 1, 1; and a hydraulic jack system 6 for ascending and descending the support structures 1. Each support structure 1 is composed of: a body 2 arranged on a hydraulic cylinder 7; a receiving part 3 arranged on the body 2, and receiving the support point of the block; and a connecting part 4 arranged on the body 2, and connected to the connecting means 5. The hydraulic jack system 6 is composed of: the hydraulic cylinder 7 which is driven so as to be ascended and descended; and a drive part 8 for driving the hydraulic cylinder 7. The block is supported by a frame which is formed of the support structures 1 and the connecting means 5.

Description

  The present invention relates to a block lifting apparatus, and more particularly, to a block lifting apparatus that can lift and lower blocks used for wave extinguishing, revetment or consolidation in coasts and rivers with low cost and low labor.

  Conventionally, for the production of rooting blocks and wave-dissipating blocks used in rivers and coasts, ready-mixed concrete is placed on a steel formwork, the upper steel formwork is removed after concrete curing, and finally the bottom mold The procedure is to remove the frame. In this final operation of extracting the bottom formwork, a large crane has been used because the block has a considerable size and weight. In other words, in the production of a large block, a large crane was necessary only for extracting the bottom formwork.

More specifically, the machines and operations used for each procedure item for manufacturing large blocks are as follows.
Steel formwork assembly ... 2 t or less in parts even for large blocks.
Raw concrete placement .... Crane placement or concrete pump placement.
Steel mold demolding ... Demolding of parts by crane (2t or less).
Steel bottom mold extraction ... Lifted by a large crane.
As described above, as compared with the preceding three procedures, a large crane has been required only in the operation of pulling out the last bottom formwork.

  A number of technical proposals have conventionally been made for handling such large blocks. The technology disclosed in the patent document listed below is one of them, and the height position of the bottom mold is manipulated for the purpose of simplifying the demolding and transposition of the quadruped wave-dissipating block molded using the mold apparatus. Has proposed a structure comprising a formwork support mechanism provided with a hydraulic device and a holding mechanism provided with a hydraulic member provided on the support leg end of the block. .

Japanese Patent Application Laid-Open No. 8-74224 "Transfer device for quadruped wave-dissipating block"

Now, including the technology disclosed in the above-mentioned patent document, there has been the following problem in handling in conventional large block manufacturing.
In general, the maker lease for steel molds has been agreed to be 10% of the production number. If the production number of 50t blocks is 20, the borrowable number is 2 frames. In that case, the production work flow is as follows.
50t block 20 production flow Form 2 frame assembly ... 1 day raw concrete placement ... 1 day Concrete curing ... 3 days Mold removal and extraction ... 1 day Total 6 days 20 production ... 60 days

  Therefore, in this example, a crawler crane of 100 t or more must be leased for 60 days. In this way, when the number of production is small, the rental loss of a large crane that is less frequently used causes a large cost increase. Also, considerable effort is required for transporting, assembling, and dismantling large cranes. Including this, the final process part of the production of large blocks has a big problem that a large and serious energy loss occurs.

The technique disclosed in the above-mentioned patent document is intended to simplify the demolding work in a specific manufacturing method, but has the following problems.
<1> During the block manufacturing / curing period, it is necessary to continue to maintain a state of being lifted from the ground to a certain degree in consideration of the final demolding work.
<2> The hydraulic system also requires two systems for the bottom and legs, and has a complicated configuration.
<3> Since the specific manufacturing method includes a bottom part and a leg part, it cannot immediately cope with blocks of various shapes.

<4> In addition to removing the bottom formwork, there are cases where it is desired to move the block installation position in parallel, or to load it onto a transport vehicle, etc. In order to do so, it is necessary to lift and raise the block. However, since it only has a function of lowering the manufactured block and grounding it, it cannot cope with this.
<5> There is a need for a technique that can make the work easier and less expensive.

  The problem to be solved by the present invention is that, except for the above-mentioned problems of the prior art, in the final stage of the manufacturing process of a large block used for wave extinction, revetment or consolidation in a coast or a river, the large block is reduced in cost. To provide a block lifting device that can be handled with low labor.

As a result of studying the above problems, the inventor of the present application has found that the above problems can be solved by raising and lowering the block using a hydraulic jack system, resulting in the present invention. That is, the invention claimed in the present application, or at least the disclosed invention, as means for solving the above-described problems is as follows.
[1] Support structures respectively used for supporting portions of the blocks for supporting the blocks from below, connection means for connecting the support structures, and a hydraulic jack system for moving the support structures up and down The block lifting device comprises: a piece provided on a hydraulic cylinder, which will be described later, a receiving part provided on the piece for receiving a support portion of the block, and the piece on the piece. The hydraulic jack system includes a hydraulic cylinder that is driven up and down, and a drive unit that drives the hydraulic cylinder, and is connected to the support structure. A block lifting device in which the block is supported by a frame formed by the means.
[2] The block lifting device according to [1], wherein the connecting means is detachable from the support structure.

[3] The block lifting apparatus according to [1] or [2], wherein the support structure is designed according to a specification of a block to be supported.
[4] The block lifting apparatus according to any one of [1] to [3], wherein the support structure is integrally formed by elements constituting the support structure.
[5] The block lifting apparatus according to any one of [1] to [3], wherein the support structure is formed so as to be capable of being assembled and disassembled by elements constituting the support structure.
[6] The block lifting apparatus according to any one of [1] to [5], wherein the connecting means and the connecting portion are formed of a tension steel plate.

[7] The block elevating device according to [6], wherein the connecting portion is formed of a tension steel plate and an anti-vibration steel plate for reducing a bending moment thereof.
[8] The block lifting device according to [6] or [7], wherein a hinge is used for joining the tension steel plate of the connecting means and the tension steel plate of the connection portion.
[9] The block elevating device according to any one of [1] to [8], wherein the block can be raised and lowered as required without requiring the crane to suspend the block.

  Since the block raising / lowering device of the present invention is configured as described above, according to this, in the manufacturing process of the large block, the large block is handled, that is, when it is raised or lowered, it is held at the raised position. Even in this case, the process can be carried out reliably, safely and simply at low cost and with low labor. In particular, since the use of a conventional large crane is not necessary in the bottom-stage work of extracting the bottom formwork, the cost reduction and labor reduction effects in the process, which is costly, are immeasurable even during the entire production process.

  The device according to the present invention is highly versatile because it can cope with large blocks of various shapes and structures by preparing block receiving portions for each type. There are no restrictions on the use of blocks, such as surfing, revetment, and consolidation in coasts and rivers.

The device of the present invention can also be easily disassembled and assembled for each part. In addition, specifically, regardless of the size and structure of the large block, the maximum weight is 2 t or less, for example, a crane specification backhoe 0.4 m class ³ or a truck with a 2.9 t suspension crane. , Can be handled by a small machine.

  Since it can be handled by a small machine in this way, work with a small number of people can be performed, resulting in a significant cost reduction. In addition, quiet work is possible due to the hydraulic jack system. In addition, since fine adjustment is easy, optimal management is possible at any time, both in terms of operation and labor, even during work, which is extremely safe.

It is explanatory drawing which shows notionally the basic composition of this invention block raising / lowering apparatus. It is explanatory drawing of the side view of the Example of this invention block raising / lowering apparatus. It is explanatory drawing of the connection means which concerns on the Example shown in FIG. It is explanatory drawing of the support structure which concerns on the Example shown in FIG. It is explanatory drawing of the planar view of the frame which concerns on the Example shown in FIG. It is explanatory drawing which shows the state at the time of the raise of the Example shown in FIG. It is explanatory drawing of the side view which shows the Example of the support structure which concerns on this invention block raising / lowering apparatus. It is a top view of the Example which concerns on FIG. It is sectional drawing of the hinge site | part which concerns on the Example shown in FIG.

Hereinafter, an example in which the device of the present invention is applied to a quadruped wave-dissipating block will be described in detail with reference to the drawings. This is merely an example, and as described above, the device of the present invention can be applied not only to the quadruped wave-dissipating block but also to large blocks having any shape and structure.
FIG. 1 is an explanatory diagram conceptually showing the basic structure of the block lifting apparatus of the present invention. As shown in the drawing, the block lifting device 10 is used to connect the support structure 1 and the support structures 1, 1 used for supporting the block (not shown) from below to support the block. It comprises a connecting means 5 and a hydraulic jack system 6 for moving the support structure 1 up and down. Of these, the support structure 1 is provided on a piece 2 provided on a hydraulic cylinder 7 and a block provided on the piece 2. The hydraulic jack system 6 includes a hydraulic cylinder 7 that is driven up and down. And a drive unit 8 that drives the hydraulic cylinder 7, and the basic configuration is that the block is supported by a frame formed by the support structure 1 and the connecting means 5. Since the figure is a conceptual diagram, only two sets of support structures 1 and the like are shown, but since the block support by the apparatus 10 is support by at least three points, three or more sets of support structures 1 and the like are also provided.

  As the support structure 1 and the connecting means 5, those made of steel or other appropriate materials can be used as long as these functions can be sufficiently achieved. In addition, “support from below” in the present invention does not only indicate support from vertically below, but widely includes support from an obliquely downward direction at an arbitrary angle. That is, the support function includes a wide range including a vertical component.

  With this configuration, in the block lifting apparatus 10 according to the present invention, each support structure 1 is used as a block support portion so as to support the block from below, and the support structures 1 and 1 are connected by the connecting means 5. This forms a frame. That is, the frame has a frame shape with respect to the planar structure of the block, and the frame is supported in such a manner that the frame is fitted to the block from outside.

  On the other hand, the piece 2 which is an element constituting the support structure 1 is provided on the hydraulic cylinder 7, and when the hydraulic cylinder 7 is driven up and down by the drive unit 8, the piece 2 is also driven up and down. The support structure 1 as a whole is driven up and down. The raising / lowering drive of the hydraulic cylinder 7 and the piece 2 (support structure 1) can be performed simultaneously in all the support structures 1, 1,... In a supported state, it can be freely raised, lowered, or stopped at any position. That is, it is possible to control all the hydraulic cylinders 7, 7,... To be lifted all at once, and to be uniformly driven under the same driving conditions so that the blocks are spaced apart from the ground in parallel.

  .. Are received by the receiving portions 3, 3,..., And the connection between each support structure 1 and the connecting means 5 is on the piece 2. The connecting portion 4 is provided for connecting to the connecting means 5. The hydraulic jack system 6 may be configured by a conventionally known method such as using a hydraulic operation valve, a generator, a hydraulic unit, and a hydraulic inverter control panel. Further, the control panel and the generator of the hydraulic jack system 6 may be used in a vehicle-mounted state.

  Further, as shown in the figure, the connecting means 5 can be detachably attached to the support structure 1. With this configuration, when not in use, the support structure 1, the connecting means 5, and the drive unit 8 of the hydraulic jack system 6 are separated from each other. It is convenient to store, transport, use, and dismantle the device. In addition, the support structure 1 is good also as a form which can be further isolate | separated into the component and the group of a component.

FIG. 2 is a side view of the embodiment of the block lifting device of the present invention. Also,
FIG. 2-2 is an explanatory view of the connecting means according to the embodiment shown in FIG.
FIG. 3 is an explanatory view of a support structure according to the embodiment shown in FIG.
FIG. 4 is an explanatory diagram of a plan view of the frame according to the embodiment shown in FIG.
FIG. 5 is an explanatory diagram showing a state during lift (lift-up) of the embodiment shown in FIG. Further description will be given with reference to these.

  The support structure 21 of the block lifting / lowering device 210 may be appropriately designed according to the specifications of the block B to be supported. Since the block B has various specifications as described above, the support structure 21 having the specifications corresponding to the block B may be designed and used.

  In addition, the support structure 21 of the block lifting and lowering device 210 is configured to receive each element constituting the block, that is, the piece 22 provided on the hydraulic cylinder 27 and the support portion of the block provided on the piece 22. The receiving portion 23, the piece 22 and the connecting portion 24 for connecting to the connecting means 25 and other additional elements can be integrally formed. By adopting an integrated form, that is, a modularized form, handling can be simplified, and the entire apparatus can be conveniently stored, moved, used, and disassembled. Therefore, working time can be shortened and efficiency can be improved.

  However, the support structure 21 is formed so that it can be assembled and disassembled by the above-described elements (including a case where a plurality of elements are combined. For example, the piece 22 and the receiving portion 23 are integrated). Such a configuration is not excluded from the present invention. In such a configuration, although the advantages of the above-described modularized form cannot be obtained, for example, only the receiving unit 23 can be changed according to the specifications of the block B, so that it can be closely matched to the work content and safer. It can improve the reliability and certainty. The structure that can be assembled and disassembled can be handled by a small machine, and saves space for convenient transportation, installation, and storage.

  In addition, the connection means 25 and the connection part 24 of the block raising / lowering apparatus 210 can be specifically formed with a tension steel plate. Further, the connecting portion 24 may be formed of a tension steel plate and a vibration-preventing steel plate 215 for reducing the bending moment of the tension steel plate and connected by a high tension bolt. What is necessary is just to connect the connection means 25 and the connection part 24 with a connection pin, for example.

  The present invention is not limited to these, and other materials can be used as a matter of course. However, the use of the tension steel plate and the anti-blurred steel plate sufficiently exhibits the effect of the device 210 of the present invention. In particular, the anti-vibration steel plate 215 can effectively reduce the bending moment of the tension steel plate and maintain the strength of the apparatus 210 high. In addition, the connecting means 25 can be provided with a level for maintaining a horizontal connection between the support structures 21 and 21.

  With this configuration, when the block lifting / lowering device 210 is used for extracting the bottom mold after the quadruped wave-dissipating block B is manufactured, a plurality of locations (supporting locations) to be supported in order to support the block B from below first. The support structure 21 is installed so that the receiving part 23 of the support structure 21 is applied to each. The support structure 21 is in a state in which the receiving portion 23 is attached to the piece 22 on the hydraulic cylinder 27, and can be smoothly attached to the block B.

  Next, the support structures 21 are connected to each other by the connecting means 25 to form a frame that supports the block B so as to be bound from the outside. That is, by this, the planar positional relationship between the support structures 21 and 21 is maintained, and the block B is supported from the outside in such a manner that the frame is fitted. The connection is made between the connection means 25 and the connection portion 24 of the support structure 21.

  Subsequently, by raising the hydraulic cylinder 27 by the operation of the hydraulic jack system, each piece 22 is raised, and the entire support structure 21 is raised. The block B is in a state of being securely and safely supported from the bottom to the top by the frame formed by the support structures 21 and the connecting means 25, and the block B is raised while the state is maintained. That is, when the block B is raised, the receiving portion 23, the piece 22 to which the block B is attached, and the hydraulic cylinder 27 are removed outwardly by the gravity (pressure) of the block B, and the block B cannot be supported from below. Thus, the situation where the block B falls> is completely prevented, and the intended ascending drive is performed reliably and safely.

  Like the ascending drive, the descending drive is also performed reliably and safely. Of course, it is possible to stand still at any height. For example, in the operation of pulling out the bottom formwork from the lower part of the block B using a crane-specific backhoe, the block B is raised by the block lifting device 210 of the present invention and stopped at that position. As a result, the bottom mold is opened upward and can be removed, and the bottom mold can be pulled out safely and easily by the backhoe.

  The ascending operation by the hydraulic jack system can be performed as an operation if the hydraulic cylinders 27 in all the places where the receiving portions 23 are attached are performed simultaneously and in the same operation by one operation by one system. Is simple. However, for fine adjustment of the posture of the block B, etc., each part may be configured to be controlled up and down separately. Moreover, according to this invention, the raise / lowering of the block B as needed can be performed, without requiring the suspension of the block B by a crane.

  As shown in FIG. 3, the receiving portion 23 of the support structure 21 of the present apparatus 210 may have a structure in which a cushion rubber 233 is attached to the upper surface of the wedge steel plate 234, for example. Due to the elasticity of the cushion rubber 233, the block B can be supported upward without damaging the support portion of the block B.

  The block raising / lowering device 210 of the present invention is not limited to the quadruped wave-dissipating block of this example, but may be any number of shapes / structures, and the number of support structures 21 may be at least three. In addition, as described above, the shape and structure to which the present invention apparatus is applied are not particularly limited. For example, for a wave-dissipating block, a hexapod, shake, triple, klinger, sealock, quadruple Applicable to any shape, dugong shape, palm shape, quadrilateral pyramid shape, pentagon shape, and other structures and shapes. In addition, large blocks of various shapes and structures have been proposed in the past depending on the purpose of wave-dissipation, revetment, and consolidation, as well as the specific topography and other geographical and weather conditions of the coast and rivers. The present invention is applicable to all of them.

FIG. 6 is an explanatory view in a side view showing an embodiment of a support structure according to the block lifting device of the present invention. Also,
FIG. 7 is a plan view of the embodiment according to FIG.
FIG. 8 is a cross-sectional view of the hinge portion according to the embodiment shown in FIG. As shown in these figures, in this block lifting apparatus, the hinge 39 can be used for joining the tension steel plate of the connecting means 35 and the tension steel plate of the connecting portion 34. Thereby, generation | occurrence | production of the bending moment to a tension steel plate can be prevented effectively.

  That is, in the example shown in the figure, the connecting portion (tensioned steel plate) 34, which is a component of the support structure, and the connecting means (tensioned steel plate) 35 are connected to each other by means of the members 351, 35A, and 35B. The connecting portion 34 on the support structure side is inserted into the tip portion of 35 and both are coupled by a hinge 39. Thereby, since a hinge structure is formed, generation of a bending moment to the tension steel plate is effectively prevented.

Examples of the present invention will be described below, but the present invention is not limited thereto.
A block lifting device was manufactured according to the specifications shown in FIGS. And when we tried to make a 80t shake block (large wave-dissipating block) production work privately using this, the structure of the device itself is simple, so even the first worker who was involved in the work can easily assemble it. It was. In addition, a significant reduction effect in terms of cost and energy was confirmed. After the block was completed, the bottom formwork under the block was removed using a crane-specific backhoe, and as expected, of course, it could be done safely and reliably with low labor, low cost, and short time.

In addition, when analysis was performed by a verification test (not disclosed) of this device and safety evaluation was performed, sufficient safety could be confirmed. The outline of the experimental method is as follows.
<1> Experimental method use block 80t shake block (large wave-dissipating block)
Equipment used The present invention block lifting device suitable for the above block Jack loading method The target height is 1 m, and the jack is horizontally moved up and down three times.
Measured at landing (0 cm), target height 50 cm, and 1 m 2.
Repeat 0-50-100-50-0 (cm) three times.
Measuring equipment Displacement meter, strain gauge, switch box, data logger, personal computer, inclinometer, convex use.

<2> Results (1) The inclination angle and fulcrum displacement at the time of block loading were very small.
(2) As for the generated stress, neither the maximum value of the tensile stress nor the compressive stress was less than half of the allowable stress of the steel material SS400 of the construction structure.
(3) Therefore, in raising and lowering the block using this apparatus, it was confirmed that the raising and lowering operation was performed well and the safety of work was sufficient.

  If it adds, according to the structure of the block raising / lowering apparatus of this invention, if it is a structure of a fixed shape not only for a large block use but a considerable weight, it can be widely used for raising / lowering work. That is, a weight structure lifting apparatus comprising a required number of support structures having receiving portions for supporting the weight structure from below, a connecting means for connecting the support structures, and a hydraulic jack system. It is possible to stably form a “frame” that supports the frame to be bound from the outside. In particular, heavy constructions are often handled at construction and construction sites, and it is considered that there are many cases where the present invention apparatus can be used for such purposes.

  The block lifting device of the present invention is small and lightweight. Furthermore, as described above, a block receiving portion that matches the block shape and structure is prepared as an attachment, and can be used for a wide variety of blocks simply by exchanging with an appropriate type of attachment. Therefore, it is expected to become an indispensable device for block production in the future.

  Furthermore, if the apparatus of the present invention is used, the block can be loaded on the truck. The block raising / lowering device of the present invention has various advantages as described above, and is an invention having extremely high utility value particularly in the construction industry field.

DESCRIPTION OF SYMBOLS 1, 21 ... Support structure 2, 22, 32 ... Piece 3, 23, 33 ... Reception part 4, 24, 34 ... Connection part 5, 25 ... Connection means 6 ... Hydraulic jack system 7, 27, 37 ... Hydraulic cylinder 8 ... Drive unit 10, 210 ... Block lifting device 215, 315 ... Anti-shake steel plate 233 ... Cushion rubber 234 ... Wedge steel plate 32 ... Piece 33 ... Receiving portion 34 ... Connecting portion (tensioned steel plate)
35. Connecting means (tensioned steel plate)
351, 35A, 35B ... Materials of the connecting means 35 359 ... Guide plate 39 ... Hinge B ... Block GL ... Installation surface

Claims (9)

A block comprising a support structure used at each block support location for supporting the block from below, a connecting means for connecting the support structures, and a hydraulic jack system for moving the support structure up and down An elevating device, wherein the support structure is provided on a piece provided on a hydraulic cylinder described later, a receiving part provided on the piece for receiving a support portion of a block, and the piece. The hydraulic jack system includes a hydraulic cylinder that is driven up and down, and a drive unit that drives the hydraulic cylinder. The support structure and the coupling means A block lifting device in which a block is supported by a formed frame. The block elevating device according to claim 1, wherein the connecting means is detachable from the support structure. The block lifting device according to claim 1, wherein the support structure is designed according to a specification of a block to be supported. The block lifting apparatus according to any one of claims 1 to 3, wherein the support structure is integrally formed by elements constituting the support structure. The block lifting device according to any one of claims 1 to 3, wherein the support structure is formed so as to be assembled and disassembled by elements constituting the support structure. The block elevating device according to any one of claims 1 to 5, wherein the connecting means and the connecting portion are formed of a tension steel plate. The block lifting device according to claim 6, wherein the connecting portion is formed of a tension steel plate and an anti-vibration steel plate for reducing a bending moment thereof. The block lifting device according to claim 6 or 7, wherein a hinge is used for joining the tension steel plate of the connecting means and the tension steel plate of the connection portion. The block elevating device according to any one of claims 1 to 8, wherein the block can be raised and lowered as needed without requiring the crane to suspend the block.