• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a river bank construction method and a construction block using waste tires, comprising the steps of: cutting along a center of the outer circumferential surface of the waste tires to form a pair of unit waste tires (2); A plurality of outer protrusions 10 protruding radially on the inner circumferential surface of the housing 8, a cylindrical coupling protrusion 9 provided at the center of the housing 8, and a plurality of radial protrusions protruding radially around the coupling protrusion 9. Storing the pair of unit waste tires (2) in a mold (7) having an inner protrusion (11) of the unit; A unit block in which a plurality of outer grooves 18 and inner grooves 19 are formed around the outer circumference and the inner circumference by filling the mold 7 containing the unit waste tire 2 with the molten synthetic resin material and solidifying for a predetermined time. Preparing (16); Position the plurality of unit blocks 16 on both sides along the stream and couple the plurality of unit blocks 16 to each other by coupling sockets to the outer grooves 18 and the inner grooves 19 of the unit blocks 16. The river bank construction method using the waste tire consisting of the coupling step and the construction block accordingly was provided. Therefore, since the banks are constructed using waste tires, the construction cost is low, and through holes 17, a plurality of inner grooves 19, and outer grooves 18 are formed in the unit block 16. It is easy to grow microorganisms, and thus it is possible to grow plants on the banks.
    公开号:KR20030068946A
    申请号:KR1020020008749
    申请日:2002-02-19
    公开日:2003-08-25
    发明作者:심정숙
    申请人:주식회사 한국엔비텍;
    IPC主号:
    专利说明:

    Construction method and construction block of waste embankment using waste tires {The method of rivers a bank carrying out of waste tire and carrying block}
    [15] The present invention relates to a river dike construction method block, and more particularly, to a river dike construction method using a waste tire and a construction block thereof.
    [16] On both sides of the stream, concrete is usually poured or concrete blocks are piled up to make embankments.
    [17] These river banks do not grow grass or weeds, so it is difficult to grow microorganisms, and thus, plants and animals cannot live, and thus, environmentally friendly, large amounts of concrete, or concrete blocks are used, and construction costs are high.
    [18] An object of the present invention is to provide a river dike construction method using the waste tire to enable a low cost of construction and microbial propagation.
    [19] The river bank construction method using the waste tire of the present invention for achieving the above object, in the river bank construction method using the waste tire, step of making a pair of ring-shaped unit waste tire by cutting along the center of the outer peripheral surface of the waste tire Wow; A pair of the unit waste tires are accommodated in a mold having a plurality of outer protrusions radially protruding on the inner peripheral surface of the housing, a cylindrical coupling protrusion provided in the center of the housing, and a plurality of inner protrusions radially protruding around the coupling protrusion. Steps; Manufacturing a unit block in which a plurality of outer grooves and inner grooves are formed around the outer circumference and the inner circumference of the mold by charging the synthetic resin material in a molten state in a mold containing the unit waste tires and solidifying for a predetermined time; Positioning the plurality of unit blocks on both sides along the stream and coupling the plurality of unit blocks to each other by coupling the socket to the outer groove and the inner groove of the unit block.
    [20] Another object of the present invention is to provide a construction block for implementing the river bank construction method using the waste tire of the present invention.
    [21] The river bank construction block using the waste tire according to the present invention for achieving the above object, in the river bank construction block using the waste tire, a pair of ring-shaped unit was formed by cutting along the center of the outer peripheral surface waste tire and the pair of units A unit block formed of a synthetic resin applied to an outer circumference of the waste tire, the outer circumferential surface of which is formed a plurality of outer grooves, and the inner block formed on the inner circumferential surface of a plurality of inner grooves; It is characterized in that the socket is coupled to the inner groove, or the outer groove of the unit blocks to couple the adjacent unit blocks.
    [22] Therefore, the construction cost is inexpensive because construction of the river bank using waste tires is inexpensive, and through holes, a plurality of inner grooves, and outer grooves are formed in the unit block, so that microorganisms can be easily grown therebetween, and thus plant propagation is possible. It is possible to grow plants on the embankment.
    [1] 1 to 3 is a side view, a separated perspective view, a plan view sequentially showing a step of manufacturing a unit block using the waste tire
    [2] 4 is a perspective view showing a completed unit block
    [3] 5 to 7 are perspective views showing sockets for assembling a unit block
    [4] 8 to 11 are a plan view and a cross-sectional view showing a state in which unit blocks are assembled in various forms by sockets.
    [5] 12 and 13 are schematic side views showing the state of the river bank construction
    [6] 14 is a perspective view showing another embodiment of a unit block according to the present invention;
    [7] * Description of the symbols for the main parts of the drawings *
    [8] 2 ; Unit waste tires 7; Form
    [9] 8 ; Housing 9; Joining
    [10] 10; Lateral projection 11; Medial protrusion
    [11] 14; Synthetic resin materials 16,26; Unit block
    [12] 18; Outer groove 19; Outer groove
    [13] 21; Straight socket 22; Cross Recessed Sockets
    [14] 23; Vertical cross receptacle 24; Auxiliary socket
    [23] Specific features and advantages of the present invention will become more apparent from the following description taken in conjunction with the accompanying drawings.
    [24] The river bank construction method using the waste tire of the present invention comprises the steps of: cutting along the center of the outer peripheral surface of the waste tire to form a pair of unit waste tires in a ring shape; Storing a pair of the unit waste tires in a mold having a plurality of outer protrusions radially protruding on an inner circumferential surface of the housing, a cylindrical coupling protrusion provided in the center of the housing, and a plurality of inner protrusions radially protruding around the coupling protrusion; ; Manufacturing a unit block in which a plurality of outer grooves and inner grooves are formed around the outer circumference and the inner circumference of the mold by charging the synthetic resin material in a molten state in a mold in which the unit waste tires are stored; Positioning the plurality of unit blocks on both sides along the stream and coupling the sockets to the outer groove and the inner groove of the unit block to combine the plurality of unit blocks, the detailed description thereof is as follows.
    [25] First, as shown in FIG. 1, two unit waste tires 2 are made by cutting along the middle portion of the collected waste tire, that is, the middle portion of the outer circumferential surface of the waste tire.
    [26] The two unit waste tires 2 thus produced are placed in the mold 7 one after another with the inside facing upwards, and the synthetic resin material 14 in a molten state is attached to the mold 7.
    [27] Here, the mold 7 has a circular bowl shape as shown in FIG. 2, and includes an accommodating part 8 in which two unit waste tires 2 are accommodated, and a center of the accommodating part 8 has a center. A coupling protrusion 9 having a penetrated shape is provided, and the through hole 3 of the unit waste tire 2 is positioned in the coupling protrusion 9.
    [28] In addition, a plurality of outer protrusions 10 are radially protruded on the inner circumference of the mold 7, and a plurality of inner protrusions 11 are radially formed on the outer circumference of the coupling protrusion 9.
    [29] When the two unit waste tires 2 are respectively inserted into the mold 7, the outer circumferential surface 4 of the unit waste tire 2 is closely attached to the outer surface of the outer protrusion 10, and the inner circumferential surface of the unit waste tire 2 is provided. (5) is in close contact with the outer surface of the inner projection (11).
    [30] As such, when two unit waste tires 2 are inserted into the mold 7, as shown in FIG. 3, the synthetic resin material 14 in a molten state is adhered therebetween, and the unit block tire as shown in FIG. 16) is prepared.
    [31] The unit block 16 has grooves corresponding to each other by the outer protrusions 10 and the inner protrusions 11 of the mold 7, and a plurality of outer grooves radially around the outer circumferential surface of the unit block 16. 18 is formed, and a plurality of inner grooves 19 are formed radially around the through hole 17 of the unit block 16.
    [32] Thus, the unit blocks 16 are coupled to each other by the sockets of FIGS. 5 to 7 (that is, the unit blocks and the sockets are combined to form a construction block).
    [33] 5 is a perspective view showing a straight socket 21, both ends of which are coupled to the corresponding outer grooves 18 of the unit block 16 as shown in FIG. 8 to be used to fix the two unit blocks 16 to each other.
    [34] 6 is a perspective view showing the horizontal connection cross socket 22, which is coupled to the four outer grooves 18, the outer end corresponding to the four unit blocks 16, as shown in FIG. It is used to fix the block 16.
    [35] In addition, the auxiliary socket (not shown) may be further formed at the lower side of the straight socket 21 and the horizontally connected cross socket 22. In this case, the straight socket 21 or the horizontally connected cross socket 22 is formed as a unit block ( When coupled to the 16) the auxiliary protrusions of the lower portion is stuck to the ground, so that the unit block 16 is firmly fixed to the ground to prevent the unit block 16 from being swept away by the river or rain water.
    [36] 7 is a perspective view showing the vertical connection cross socket 23, which has a shape in which the auxiliary socket 24 is further provided below the vertical connection cross socket 23, as shown in Figs. The two unit blocks 16 and one unit block 16 located in the center of the two unit blocks 16 are used.
    [37] That is, when the vertical connection cross socket 23 is inserted into one unit block 16 on the upper side, four ends are respectively coupled to the inner groove 19 of the unit block 0, and are provided below the vertical connection cross socket 23. The auxiliary socket 24 is coupled to the corresponding outer grooves 18 of the two lower unit blocks 16, thereby coupling the upper unit block 16 and the lower unit block 16 to each other.
    [38] Therefore, in the river bank construction method using the waste tire of the present invention, the unit block 16 manufactured using the waste tire and the sockets connecting the unit blocks 16 to the inclined surfaces on both sides of the river as shown in FIG. A bank may be constructed, or as shown in FIG. 13, a plurality of unit blocks 16 may be vertically assembled to form a side wall of a river.
    [39] The river bank construction method and the construction block using the waste tire of the present invention has the following advantages.
    [40] First, since manufacturing the unit block 16 to accumulate the river bank using waste tires, not only environmentally friendly construction method but also low construction cost can reduce the economic burden.
    [41] Second, since a plurality of holes (through holes 17 of the unit blocks 16) are formed in the constructed dike, it is easy to grow microorganisms, and thus the plants grow well in the constructed dike, resulting in flooding. As a result, the problem that the soil under the dike is swept away and the dike is collapsed is prevented.
    [42] Figure 14 is a perspective view showing another embodiment of the unit block 16 according to the present invention, by forming a plurality of grooves (26a) on the upper or lower surface of the unit block 26 to facilitate the growth of microorganisms and plant roots. Can give
    [43] According to the river bank construction method and construction block using the waste tire according to the present invention as described above, since the construction of the river dike using the waste tire construction cost is low, the unit block manufactured using the waste tire (16) Its weight is very light compared to the concrete unit block, so it is very convenient to transport and install. The unit block 16 has a through hole 17, a plurality of inner grooves 19, and outer grooves 18 formed therebetween. Easily multiply in microorganisms, and thus can be multiplying of plants to grow plants on the dike.
    权利要求:
    Claims (5)
    [1" claim-type="Currently amended] In the river bank construction method using waste tires,
    Cutting along the center of the outer circumferential surface of the waste tire to form a pair of ring-shaped unit waste tires 2;
    A plurality of outer protrusions 10 protruding radially on the inner circumferential surface of the housing 8, a cylindrical coupling protrusion 9 provided at the center of the housing 8, and a plurality of radial protrusions protruding radially around the coupling protrusion 9. Storing the pair of unit waste tires (2) in a mold (7) having an inner protrusion (11) of the unit;
    A unit block in which a plurality of outer grooves 18 and inner grooves 19 are formed around the outer circumference and the inner circumference by filling the mold 7 containing the unit waste tire 2 with the molten synthetic resin material and solidifying for a predetermined time. Preparing (16);
    Position the plurality of unit blocks 16 on both sides along the stream and couple the plurality of unit blocks 16 to each other by coupling sockets to the outer grooves 18 and the inner grooves 19 of the unit blocks 16. River dike construction method using the waste tire, characterized in that consisting of the step of combining.
    [2" claim-type="Currently amended] In the river bank construction block using waste tires,
    It consists of a pair of ring-shaped unit waste tires (2) formed by cutting along the center of the outer circumferential surface and a synthetic resin material (14) applied to the outer circumference of the pair of unit waste tires (2). A unit block 16 formed radially with a plurality of inner grooves 19 radially formed on an inner circumferential surface thereof;
    The river bank construction block using waste tires, characterized in that the socket is coupled to the inner groove (19), or the outer groove (18) of the unit blocks (16) to couple adjacent unit blocks (16).
    [3" claim-type="Currently amended] The method of claim 2, wherein the socket,
    A river bank construction block using waste tires, wherein both ends are straight sockets 21 coupled to the corresponding outer grooves 18 of two adjacent unit blocks 16 to couple the two unit blocks 16.
    [4" claim-type="Currently amended] The method of claim 2, wherein the socket,
    River banks using waste tires, characterized in that the four ends are horizontally connected cross sockets 22 which are respectively coupled to the corresponding outer grooves 18 of the four adjacent unit blocks 16 to couple the four unit blocks 16. Construction block.
    [5" claim-type="Currently amended] The method of claim 2, wherein the socket,
    It consists of a cross-shaped address socket 25 and a linear auxiliary socket 24 formed in the lower part of the address socket 25. The two unit blocks 16 and the upper part of the center of the two unit blocks 16 are horizontally positioned. A river bank construction block using waste tires, characterized in that the vertical connection cross socket (23) for coupling the unit block (16) located.
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    同族专利:
    公开号 | 公开日
    KR100479008B1|2005-03-30|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    2002-02-19|Application filed by 주식회사 한국엔비텍
    2002-02-19|Priority to KR20020008749A
    2003-08-25|Publication of KR20030068946A
    2005-03-30|Application granted
    2005-03-30|Publication of KR100479008B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR20020008749A|KR100479008B1|2002-02-19|2002-02-19|The method of rivers a bank carrying out of waste tire and carrying block|
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