KR102206540B1 - A retaining wall block mold capable of forming a slope - Google Patents

Abstract

The present invention relates to a retaining wall block mold capable of forming a slope. More particularly, the present invention relates to a retaining wall block mold capable of forming a slope, which enables a retaining wall block having a slope to be made simply, easily, and conveniently, so that the masonry work of a rounded portion such as a corner can be performed easily and accurately when the retaining wall block is constructed.

Description

A retaining wall block mold capable of forming a slope}

The present invention relates to a mold for a retaining wall block capable of forming an inclined surface, and more particularly, to make a retaining wall block having an inclined surface simple, easy and convenient to facilitate the masonry work of a part having rounds such as corners when constructing the retaining wall block. It relates to a mold for a retaining wall block capable of forming an improved slope so that it can be accurately and accurately.

In general, retaining wall blocks are built on the slopes of rivers, roads, or various civil engineering works to form a retaining wall to prevent deformation and collapse due to the loss of soil.

At this time, the retaining wall is a form widely constructed for apartment complex construction, road cut soil construction, construction to secure slope stability, bridge bridge wing wall construction, and other waterway and levee construction.

Such a retaining wall block usually forms a protrusion on the upper surface of the block, and a corresponding protrusion seating groove is formed on the lower surface thereof so that the protrusion on the upper surface of the lower block is seated in the protrusion seating groove on the lower surface of the upper block. The construction method of masonry by inserting a geogrid between the lower block layers is mainly used.

Therefore, retaining wall blocks take various forms, and there are various types currently being sold.

Among them, a hexahedral block (rectangular shape) is the most basic form.

However, such a hexahedral retaining wall block is very useful for straight line construction, but has a limitation in that construction is difficult due to large gaps between blocks when the corners are curved rather than right angles.

In order to improve this, it is possible to make a retaining wall block with a certain curvature, but it is necessary to make various types of ones according to the curvature of the corners, and the curvatures vary widely, so it is necessary to make and hold the retaining wall blocks of curvature that do not require demand in terms of logistics and cost. It should be considered impossible when considering the realistic situation.

In addition, the retaining wall block having such a curvature is not easy to make the mold itself for forming the block, and even if it is made, the cost increases rapidly because the curvature enters, and it is a reality that it is difficult in reality to make a mold for each type of curvature.

Domestic Registration Patent No. 10-0906770 (2009.07.01.), retaining wall block structure No. 20-0245391 (2001.08.24.) for domestic registration office, landscaping block for building retaining wall with rain gutter

The present invention was created to solve the problems in the prior art as described above, and it is possible to make a retaining wall block having an inclined surface simply, easily and conveniently, so that the masonry of a part having a round such as a corner when constructing a retaining wall block. The main object thereof is to provide a mold for a retaining wall block capable of forming an improved slope so that the operation can be easily and accurately performed.

The present invention includes an upper mold 100, a lower mold 200, a core 300 and a pallet 400 as a means for achieving the above object; The upper mold 100 is a member that can be engaged with the lower mold 200 and pressurizes and compresses the mortar, which is a molding composition for a retaining wall block charged in the lower mold 200; The lower mold 200 has a space capable of receiving a mortar and molding it in a hexahedral shape, and a variable plate 210 capable of adjusting an inclination angle is installed on two opposite sides of the four circumferential surfaces; The core 300 is installed to be forward and backward in a direction orthogonal to the direction of the variable plate 210, and is disposed to enter the lower mold 200 during molding, and to be removed during demolding; The pallet 400 is a retaining wall block mold capable of forming an inclined surface forming a means for transporting the product block BL formed by mounting the lower mold 200 after the demolding;
The upper end of the variable plate 210 is fixed to a hinge 212 rotatably on the upper end of the inner wall 220 of the lower mold 200; The lower end of the variable plate 210 is configured to be movable through a plurality of links 214 at the lower end of the inner wall 220; The link 214 is supported to be unfolded by the pallet 400, and when unfolded, the inclination of the variable plate 210 is adjusted by adjusting the distance between the variable plate 210 and the inner wall 220 with an adjustment tool 216. It is configured to be variable; The core 300 is separated to form an anchor groove (ANC) in the product block (BL); A mold for a retaining wall block capable of forming an inclined surface is provided, wherein the inside of the mold having the variable plate 210 has a trapezoidal shape.

delete

delete

delete

delete

According to the present invention, a retaining wall block having an inclined surface can be made simply, easily, and conveniently, so that an improved effect can be obtained so that the masonry work of a rounded portion such as a corner when constructing the retaining wall block can be easily and accurately performed.

1 is an exemplary view of a mold for a retaining wall block capable of forming an inclined surface according to the present invention.
2 is a plan view and a perspective view of a retaining wall block formed by the mold of FIG. 1.
3 is a flowchart showing a method of manufacturing a retaining wall block using the mold of FIG. 1.
4 is an exemplary view showing an example of forming a corner having a curvature by using a retaining wall block molded according to the present invention.

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

Prior to the description of the present invention, the following specific structure or functional descriptions are exemplified only for the purpose of describing embodiments according to the concept of the present invention, and embodiments according to the concept of the present invention may be implemented in various forms, It should not be construed as being limited to the embodiments described herein.

In addition, since embodiments according to the concept of the present invention can be modified in various ways and have various forms, specific embodiments are illustrated in the drawings and will be described in detail in the present specification. However, this is not intended to limit the embodiments according to the concept of the present invention to a specific type of disclosure, and it should be understood that all modifications, equivalents, and substitutes included in the spirit and scope of the present invention are included.

As shown in FIG. 1, the mold for a retaining wall block capable of forming an inclined surface according to the present invention includes an upper mold 100, a lower mold 200, a core 300 and a pallet 400.

In this case, the upper mold 100 may be engaged with the lower mold 200 and performs a function of pressing and compressing the molding composition for the retaining wall block charged in the lower mold 200.

In addition, the lower mold 200 has a space to accommodate the molding composition, variable plates 210 are installed on both sides, and fixed plates (not shown) are installed on both sides orthogonal to the variable plate 210 It is constructed so that the molding composition can be molded into a hexahedral shape.

In this case, the variable plate 210 may be disposed in an inclined manner, and the fixed plate has a structure in which the fixed plate is disposed in a vertical state.

Therefore, as illustrated in FIG. 2, the molded product block BL is rectangular when viewed from the top, the surface supported by the variable plate 210 forms an inclined surface INC, and the surface supported by the fixed plate is a vertical surface (VER). Is achieved.

In addition, the upper end of the variable plate 210 is fixed to the hinge 212 rotatably on the top of the inner wall 220 of the lower mold 200, the lower end of the variable plate 210 is at the bottom of the inner wall 220 It is configured to be movable through a number of links 214.

Here, the link 214 further includes an adjuster 216 to adjust the distance between the variable plate 210 and the inner wall 220 when unfolded, through which the inclination of the variable plate 210 can be adjusted. It is very efficient because it does not have to be made at every curvature like the existing curvature mode because it is possible to make inclined surfaces with various inclination angles with one mold.

In this case, as will be described later, the link 214 is unfolded by the force supported by the pallet 400, and is folded by its own weight when spaced apart from the pallet 400 during demolding.

In addition, the link 214 may flow the variable plate 210 while being folded downward as in the mold working example of FIG. 3.

At this time, in the present invention, the link 214 is described as a preferred embodiment, but the scope of the present invention is not limited to the link type, and any member within the scope having an equivalent function can be modified as long as it is. Of course.

In addition, the core 300 is configured to move in the front-rear direction as illustrated.

That is, a separate movable means (cylinder, etc.) is disposed in a direction orthogonal to the direction of the variable plate 210, that is, penetrates the lower portion of the fixed plate to enter the lower mold 200, and is removed during demolding.

This is to form the anchor groove (ANC) in FIG. 2, and the anchor groove (ANC) is required to install an anchor (not shown) that binds and fixes the product block BL.

In addition, the pallet 400 is a member that guides the molded product block BL to be deformed in a seated state, and is disposed below the lower mold 200 in an open position.

That is, it is easy to understand if the lower mold 200 is seated on the pallet 400.

The retaining wall block, that is, the product block BL thus manufactured, has a trapezoidal shape as illustrated in FIG. 4, and when constructing a corner having a curvature, the widest surface forms the outer front, and the slope forms the side, The anchor groove (ANC) is constructed so that the surface on which the ANC is formed forms the rear surface, while the anchor and the grid are used to bind together.

At this time, by adjusting the variable plate 210 to adjust the inclination angle of the inclined surface, the curvature of the corner can be freely adjusted.

Then, a method of forming a retaining wall block will be described with reference to FIG. 3.

First, a preparation step in which the lower mold 200 is seated on the pallet 400 is performed.

Accordingly, the link 214 is opened as much as possible by the force pushed up by the pallet 400, which guides the variable plate 210 to continuously maintain a certain inclination.

When the preparation step is completed, a mortar supply step of advancing the core 300 and placing it inside the lower mold 200 and pouring and filling the mortar as a molding composition into the lower mold 200 is performed.

Then, the mortar is prepared to be molded to fit the inner shape of the lower mold 200, and in the process, the anchor groove ANC is prepared to be formed by the core 300.

Subsequently, a compression step of pressing the mortar by lowering the upper mold 100 is performed.

The compression step is a step in which the mortar is hardened to have a product block (BL) form under a certain pressure.

In this way, when the compression is completed, the mortar is in a state of being hardened to some extent to have a certain shape, and thus the core retraction step of removing the core 300 is performed.

Subsequently, a demoulding step of lifting the upper mold 100 is performed.

At this time, the upper mold 100 is bound to the lower mold 200 after the compression step so that it can move together, and when the upper mold 100 is lifted upward, the lower mold 200 also rises together. do.

However, when the lower mold 200 rises, the link 214 is separated from the pallet 400 that was supporting the link 214 from the bottom, so that the link 214 is folded while sagging downwards as shown in the illustration because there is no member to support it anymore. Accordingly, since the variable plate 210 is vertically erected so that there is no interference with the product mold BL, the product mold BL can be smoothly demolded.

When the demolding is completed, the product mold BL is returned to the curing site on the pallet 400 to be cured, thereby being commercialized as a retaining wall block as a final product.

Thereafter, the upper mold 100, the lower mold 200, the core 300, and the pallet 400 are again waiting at the home position to repeat the subsequent operation, and another retaining wall block is formed through the above process as it is. It will be molded.

This process proceeds in a form in which a plurality of molds are repeatedly performed.

100: upper mold
200: lower mold
300: core
400: pallet

Claims (5)

It includes an upper mold 100, a lower mold 200, a core 300 and a pallet 400; The upper mold 100 is a member that can be engaged with the lower mold 200 and pressurizes and compresses the mortar, which is a molding composition for a retaining wall block charged in the lower mold 200; The lower mold 200 has a space capable of receiving a mortar and molding it in a hexahedral shape, and a variable plate 210 capable of adjusting an inclination angle is installed on two opposite sides of the four circumferential surfaces; The core 300 is installed to be forward and backward in a direction orthogonal to the direction of the variable plate 210, and is disposed to enter the lower mold 200 during molding, and to be removed during demolding; The pallet 400 is a retaining wall block mold capable of forming an inclined surface forming a means for transporting the product block BL formed by mounting the lower mold 200 after the demolding;
The upper end of the variable plate 210 is fixed to a hinge 212 rotatably on the upper end of the inner wall 220 of the lower mold 200;
The lower end of the variable plate 210 is configured to be movable through a plurality of links 214 at the lower end of the inner wall 220;
The link 214 is unfolded and supported by the pallet 400, and when unfolded, the inclination of the variable plate 210 is adjusted by adjusting the distance between the variable plate 210 and the inner wall 220 with an adjustment tool 216. Is configured to be variable;
The core 300 is separated to form an anchor groove (ANC) in the product block (BL); A mold for retaining wall blocks capable of forming an inclined surface, characterized in that the inside of the mold having the variable plate 210 has a trapezoidal shape. delete delete delete delete

Images