KR100594375B1 - The composition pile for engineering-works structures - Google Patents

Abstract

In the present invention, by using a pile pile and a steel pipe pile or a composite pile composed of H-type piles and T-type piles as driving, foundation piles and permanent structures at a predetermined depth on the target ground, the synthetic piles simultaneously use vertical loads and horizontal loads. The steel pile supports the earth pressure and replaces the existing soil wall, and the weak vertical supporting force of the steel pile is supported by the synthetic piles that are manufactured by the synthetic piles, which plays the role of the structure and the supporting piles. The purpose is to provide a composite pile for underground structures that can reduce construction costs by shortening and eliminating unnecessary processes.

Synthetic pile for underground structures according to the present invention for achieving the above object is a steel pipe pile made of a hollow shape; Characterized in that it consists of a steel sheet pile welded to the shape of the concave groove wrapped on the outer peripheral surface of the steel pipe pile.

Civil Structure, Steel Sheet Pile, Composite Pile, Composite Pile

Description

Composite pile for underground structures {The composition pile for engineering-works structures}

1 is a perspective view showing an embodiment of a composite pile for underground structures according to the present invention;

2 is a front view showing an embodiment of a composite pile for underground structures according to the present invention;

3 is a perspective view showing an embodiment of a composite pile for underground structures according to the present invention;

Figure 4 is a front view showing an embodiment of a composite pile for underground structures according to the present invention;

5 is a perspective view 3 showing an embodiment of the composite pile for underground structures according to the present invention;

Figure 6 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 3,

7 is a perspective view 4 showing an embodiment of the composite pile for underground structures according to the present invention;

8 is a front view showing an embodiment of a composite pile for underground structures according to the present invention;

9 is a perspective view 5 showing an embodiment of the composite pile for underground structures according to the present invention;

10 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 5,

11 is a perspective view 6 showing an embodiment of the composite pile for underground structures according to the present invention;

12 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 6,

13 is a perspective view 7 showing an embodiment of the composite pile for underground structures according to the present invention;

Figure 14 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 7,

15 is a perspective view 8 showing an embodiment of a composite pile for underground structures according to the present invention;

16 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 8,

17 is a perspective view 9 showing an embodiment of a composite pile for underground structures according to the present invention;

18 is a front view showing an embodiment of the composite pile for underground structures according to the invention 9,

19 is a perspective view 10 showing an embodiment of a composite pile for underground structures according to the present invention;

20 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 10,

21 is a perspective view 11 showing an embodiment of the composite pile for underground structures according to the present invention;

Figure 22 is a front view showing an embodiment of the composite pile for underground structures according to the invention 11,

23 is a perspective view 12 showing an embodiment of the composite pile for underground structures according to the present invention;

24 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 12,

25 is a perspective view 13 showing an embodiment of a composite pile for underground structures according to the present invention;

Figure 26 is a front view showing an embodiment of the composite pile for underground structures according to the invention 13,

27 is a perspective view 14 showing an embodiment of a composite pile for underground structures according to the present invention;

28 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 14,

29 is a perspective view 15 showing an embodiment of a composite pile for underground structures according to the present invention;

30 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 15,

31 is a perspective view 16 showing an embodiment of a composite pile for underground structures according to the present invention;

32 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 16,

33 is a perspective view 17 showing an embodiment of the composite pile for underground structures according to the present invention;

34 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 17,

35 is a perspective view 18 showing an embodiment of a composite pile for underground structures according to the present invention;

36 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 18,

37 is a perspective view 19 showing an embodiment of a composite pile for underground structures according to the present invention;

38 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 19,

39 is a perspective view 20 showing an embodiment of a composite pile for underground structures according to the present invention;

40 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 20,

41 is a perspective view 21 showing an embodiment of the composite pile for underground structures according to the present invention;

42 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 21,

43 is a perspective view 22 showing an embodiment of a composite pile for underground structures according to the present invention;

44 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 22,

45 is a perspective view 23 showing an embodiment of a composite pile for underground structures according to the present invention;

46 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 23,

47 is a perspective view 24 showing an embodiment of a composite pile for underground structures according to the present invention;

48 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 24,

49 is a perspective view 25 showing an embodiment of a composite pile for underground structures according to the present invention;

50 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 25,

51 is a perspective view 26 showing an embodiment of a composite pile for underground structures according to the present invention;

52 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 26,

53 is a perspective view 27 showing an embodiment of a composite pile for underground structures according to the present invention;

54 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 27,

55 is a perspective view 28 showing an embodiment of a composite pile for underground structures according to the present invention;

56 is a front view 28 showing an embodiment of a composite pile for underground structures according to the present invention;

57 is a perspective view 29 showing an embodiment of a composite pile for underground structures according to the present invention;

58 is a front view 29 showing an embodiment of a composite pile for underground structures according to the present invention;

59 is a perspective view of an embodiment of the composite pile for underground structures according to the present invention 30,

60 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 30,

61 is a perspective view 31 showing an embodiment of a composite pile for underground structures according to the present invention;

62 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 31,

63 is a perspective view showing an embodiment of the synthetic pile for underground structures according to the present invention 32,

64 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 32,

65 is a perspective view 33 showing an embodiment of a composite pile for underground structures according to the present invention;

66 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 33,

67 is a perspective view 34 showing an embodiment of a synthetic pile for underground structures according to the present invention;

68 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 34,

69 is a perspective view 35 showing an embodiment of a composite pile for underground structures according to the present invention;

70 is a front view showing an embodiment of a synthetic pile for underground structures according to the present invention 35,

71 is a perspective view 36 showing an embodiment of a composite pile for underground structures according to the present invention;

72 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 36,

73 is a perspective view 37 showing an embodiment of a composite pile for underground structures according to the present invention;

74 is a front view 37 showing an embodiment of a composite pile for underground structures according to the present invention;

75 is a perspective view 38 showing an embodiment of a composite pile for underground structures according to the present invention;

76 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 38,

77 is a perspective view 39 showing an embodiment of a composite pile for underground structures according to the present invention;

78 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 39,

79 is a perspective view 40 showing an embodiment of a composite pile for underground structures according to the present invention;

80 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 40,

81 is a perspective view 41 showing an embodiment of a composite pile for underground structures according to the present invention;

82 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 41,

83 is a perspective view 42 showing an embodiment of a composite pile for underground structures according to the present invention;

84 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 42,

85 is a perspective view 43 showing an embodiment of a composite pile for underground structures according to the present invention;

86 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 43,

87 is a perspective view 44 showing an embodiment of a composite pile for underground structures according to the present invention;

88 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 44,

89 is a perspective view 45 showing an embodiment of a composite pile for underground structures according to the present invention;

90 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 45,

91 is a perspective view 46 showing an embodiment of a composite pile for underground structures according to the present invention;

92 is a front view showing an embodiment of the synthetic pile for underground structures according to the present invention 46,

93 is a perspective view 47 illustrating an embodiment of a composite pile for underground structures according to the present invention;

94 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 47,

95 is a perspective view 48 showing an embodiment of a composite pile for underground structures according to the present invention;

96 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 48,

97 is a perspective view 49 showing an embodiment of a composite pile for underground structures according to the present invention;

98 is a front view showing an embodiment of a synthetic pile for underground structures according to the present invention 49,

99 is a perspective view 50 showing an embodiment of a composite pile for underground structures according to the present invention;

100 is a front view showing an embodiment of a synthetic pile for underground structures according to the present invention 50,

101 is a perspective view 51 showing an embodiment of a composite pile for underground structures according to the present invention;

102 is a front view 51 showing an embodiment of a composite pile for underground structures according to the present invention;

103 is a perspective view 52 showing an embodiment of a composite pile for underground structures according to the present invention;

104 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 52,

105 is a perspective view 53 showing an embodiment of a composite pile for underground structures according to the present invention;

106 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 53,

107 is a perspective view showing an embodiment of the synthetic pile for underground structures according to the present invention 54,

108 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 54,

109 is a perspective view 55 showing an embodiment of a composite pile for underground structures according to the present invention;

110 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 55,

111 is a perspective view 56 showing an embodiment of a composite pile for underground structures according to the present invention;

112 is a front view showing an embodiment of a synthetic pile for underground structures according to the present invention 56,

113 is a perspective view 57 showing an embodiment of a composite pile for underground structures according to the present invention;

114 is a front view showing an embodiment of the composite pile for underground structures according to the present invention 57,

115 is a perspective view 58 showing an embodiment of a composite pile for underground structures according to the present invention;

116 is a front view 58 showing an embodiment of a composite pile for underground structures according to the present invention;

117 is a perspective view 59 showing an embodiment of a composite pile for underground structures according to the present invention;

118 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 59,

119 is a perspective view 60 showing an embodiment of a composite pile for underground structures according to the present invention;

120 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 60,

121 is a perspective view 61 showing an embodiment of a composite pile for underground structures according to the present invention;

122 is a front view 61 showing an embodiment of a composite pile for underground structures according to the present invention;

123 is a perspective view 62 showing an embodiment of a composite pile for underground structures according to the present invention;

124 is a front view 62 showing an embodiment of a composite pile for underground structures according to the present invention;

125 is a perspective view 63 showing an embodiment of a composite pile for underground structures according to the present invention;

126 is a front view 63 showing an embodiment of a composite pile for underground structures according to the present invention;

127 is a perspective view 64 showing an embodiment of a composite pile for underground structures according to the present invention;

128 is a front view 64 showing an embodiment of a composite pile for underground structures according to the present invention;

129 is a perspective view 65 showing an embodiment of the composite pile for underground structures according to the present invention;

130 is a front view showing an embodiment of a composite pile for underground structures according to the present invention 65.

Explanation of symbols on the main parts of the drawing

10: steel pipe pile 12: outer peripheral surface

14: Naeju-myeon 20: Riverbank Pile

22: recessed groove 24: steel plate pile connection

30: H pile 32: upper flange

34: lower flange 36: web

40: T pile 42: flange

44: web 50: c pile

52: upper flange 54: lower flange

56: web 60: box-shaped sheet pile

62: inner side B: H beam

C: Concrete P: Composite Pile

S: Rebar

The present invention relates to synthetic piles for underground structures, in particular, composite piles for combining steel sheet piles and steel pipe piles or H-shaped piles to be used as driving, foundation piles and permanent structures at a predetermined depth in the target ground. It's about the stakes.

In general, when building buildings and piers on soft grounds, the H piles are driven at regular intervals among the methods of constructing the earth walls to prevent nearby soils from collapsing, and the wooden soil plates are installed horizontally between adjacent H piles. And, there is a method of producing a hexagonal tube shape against the steel sheet piles, that is, piles and hitting them together.

Here, the former earth wall construction method has a problem that it takes much manpower, time, and cost, and is slow in time as it proceeds by striking the H pile, and earthing the H pile exposed to the surface after digging soil.

In addition, the latter steel sheet pile has low cross-sectional area, cross-sectional secondary moment, and cross-sectional coefficient, so it is weak to earth pressure acting in the surface direction, has high material cost and construction cost, difficult to combine, and difficult to install earth anchor. Permanent structures have problems that are inappropriate for use.

Therefore, the present invention has been made to solve the problems described above, using a synthetic pile composed of a steel sheet pile and a steel pipe pile or H-shaped piles at a predetermined depth on the target ground, used as a foundation pile and a permanent structure By doing so, the composite pile supports the vertical load and the horizontal load at the same time, the steel sheet supports the earth pressure in the form of supporting the earth pressure, and the weak vertical support force of the steel sheet pile is supported by the synthetic pile produced by the synthetic pile. Its purpose is to provide composite piles for underground structures that can significantly reduce the construction period of the structure by reducing the cost of construction by eliminating unnecessary processes.

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

[First Embodiment]

1 to 8, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; It consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile (10).

Synthetic pile for underground structures according to the present invention made of the configuration as described above by welding the steel sheet pile 20 to the steel pipe pile (10) to form a composite pile (P), in particular the load-bearing strength compared to the existing steel sheet pile There is an effect that can be obtained to the pile of piles.

Second Embodiment

1 is a perspective view 1 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 2 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel pipe pile 10 is a shape in which the concave groove 22 of the steel sheet pile 20 is wrapped around its outer peripheral surface (12) Welded structure.

Synthetic pile for underground structures according to the present invention made of a configuration as described above welds to the outer circumferential surface 12 of the steel pipe pile 10 in a shape wrapped around the concave groove 22 of the steel sheet pile (20) synthetic pile (P) By forming the, in particular, there is an effect that can obtain a steel plate pile with a stronger load capacity than the existing steel sheet pile.

Third Embodiment

Figure 3 is a perspective view 2 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 4 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; It consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel pipe pile 10 is a structure in which the concrete (C) is poured on the inner peripheral surface.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape wrapped around the concave groove 22 of the steel sheet pile 20, and the steel pipe pile By pouring and curing the concrete (C) on the inner peripheral surface 14 of (10), it is possible to obtain a composite pile (P) with further improved strength.

Fourth Embodiment

Figure 5 is a perspective view 3 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 6 is a front view 3 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel pipe pile 10 is reinforced with a plurality of reinforcement (S) at regular intervals along the inner circumferential surface and concrete (C) ) Is a cured structure.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the outer circumferential surface 12 of the steel sheet pile 10 in a shape wrapped around the concave groove 22 of the steel sheet pile 20, and the steel pipe pile By placing a plurality of reinforcing bars (S) on the inner circumferential surface 14 of (10) and curing the concrete (C) on the inner circumferential surface 14, it is possible to obtain a composite pile P having improved strength.

[Example 5]

Figure 7 is a perspective view 4 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 8 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; It consists of a steel sheet pile 20 welded to a predetermined position of the steel pipe pile 10, the steel pipe pile is installed at the predetermined position of the inner circumferential surface of the H beam (B) and at the same time concrete (C) is poured curing Structure.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the outer circumferential surface 12 of the steel sheet pile 10 in a shape wrapped around the concave groove 22 of the steel sheet pile 20, and the steel pipe pile By installing the H beam B on the inner circumferential surface 14 of 10 and pouring and curing the concrete C on the inner circumferential surface 14, a composite pile P having improved strength can be obtained.

[Sixth Embodiment]

9 is a perspective view 5 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 10 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel sheet pile 20 has a structure in which the steel pipe pile 10 is welded to face each other on the inner side and the outer side to be.

The composite pile for underground structures according to the present invention having the configuration as described above is welded and combined with the steel pipe pile 10 to the inner and outer surfaces of the steel sheet pile 20, it is possible to obtain a further improved composite pile (P) strength have.

[Example 7]

Figure 11 is a perspective view 6 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 12 is a front view 6 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel sheet pile 20 is welded to the steel pipe pile 10 is opposed to each other on the inner and outer surfaces thereof, The steel pipe pile 10 has a structure in which the concrete (C) is poured on the inner peripheral surface (14).

Synthetic pile for underground structures according to the present invention made of a configuration as described above is the steel pipe pile 10 is welded to the inner and outer surfaces of the steel sheet pile 20, the inner peripheral surface 14 of the steel pipe pile (10) By pouring and curing the concrete (C), it is possible to obtain a composite pile (P) with improved strength.

[Example 8]

Figure 13 is a perspective view 7 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 14 is a front view 7 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the steel sheet pile 20 is welded to the steel pipe pile 10 is opposed to each other on the inner and outer surfaces thereof, The steel pipe pile 10 is a structure in which the concrete (C) is poured and cured at the same time as the reinforcement (S) is disposed at regular intervals on the inner circumferential surface (14).

Synthetic pile for underground structures according to the present invention made of a configuration as described above is the steel pipe pile 10 is welded to the inner and outer surfaces of the steel sheet pile 20, the inner peripheral surface 14 of the steel pipe pile (10) By reinforcing the reinforcing bars (S) and at the same time pouring and curing the concrete (C), it is possible to obtain a composite pile (P) with further improved strength.

[Example 9]

15 is a perspective view 8 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 16 is a front view 8 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 welded to a predetermined position of the steel pipe pile 10, the steel sheet pile 20 is welded to the outer peripheral surface 12 of the steel pipe pile 10 to face each other.

The composite pile for underground structures according to the present invention having the configuration as described above is welded and coupled to the steel sheet pile 20 on the outer circumferential surface 12 of the steel pipe pile 10, thereby obtaining a composite pile (P) having further improved strength. have.

[Example 10]

17 is a perspective view 9 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 18 is a front view 9 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

Synthetic pile for underground structures according to the present invention made of a configuration as described above is a steel plate pile 20 is welded to the outer peripheral surface 12 of the steel pipe pile 10, the inner peripheral surface 14 of the steel pipe pile 10 By pouring and curing the concrete (C), it is possible to obtain a composite pile (P) with improved strength.

[Example 11]

19 is a perspective view 10 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 20 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the reinforcement (S) at a predetermined interval to the inner circumferential surface 14 of the steel pipe pile 10 and at the same time concrete (C) Is a cured cured structure.

Synthetic pile for underground structures according to the present invention made of a configuration as described above is a steel plate pile 20 is welded to the outer peripheral surface 12 of the steel pipe pile 10, the inner peripheral surface 14 of the steel pipe pile 10 By reinforcing the reinforcing bars (S) and concrete (C), it is possible to obtain a composite pile (P) with improved strength.

[Twelfth Example]

21 is a perspective view 11 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 22 is a front view 11 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is a steel pipe pile 10 made of a hollow shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the steel pipe pile 10, the inner circumferential surface 14 of the steel pipe pile 10 is installed at a predetermined position and the H beam (B) at the same time concrete ( C) is a cast-healed structure.

Synthetic pile for underground structures according to the present invention made of a configuration as described above is a steel plate pile 20 is welded to the outer peripheral surface 12 of the steel pipe pile 10, the inner peripheral surface 14 of the steel pipe pile 10 By pouring and curing the H beam B and the concrete C, it is possible to obtain a composite pile P having improved strength.

[Thirteenth Embodiment]

Figure 23 is a perspective view 12 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 24 is a front view 12 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; The steel sheet pile 20 is composed of a steel sheet pile connecting portion 24 which is welded to face the concave groove 22 of the steel sheet pile 20 to be connected to each other by welding.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the plurality of steel pipe pile 10, by welding the steel sheet pile connection portion 24 to the steel sheet pile (20). In addition, it is possible to obtain a composite pile (P) with improved strength.

[Example 14]

25 is a perspective view 13 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 26 is a front view 13 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connecting portion 24 is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding, the inner peripheral surface 14 of the steel pipe pile 10 ) Is a structure in which concrete (C) is poured and cured.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. After that, by pouring the concrete (C) to the inner peripheral surface 14 of the steel pipe pile 10, it is possible to obtain a composite pile (P) with further improved strength.

[Example 15]

Figure 27 is a perspective view 14 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 28 is a front view 14 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connecting portion 24 is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding, the inner peripheral surface 14 of the steel pipe pile 10 Reinforced steel (S) is placed at every regular interval in) and concrete (C) is poured and cured.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Then, by pouring and curing reinforcing bars (S) and concrete (C) on the inner circumferential surface 14 of the steel pipe pile 10, it is possible to obtain a composite pile (P) with further improved strength.

[Example 16]

29 is a perspective view 15 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 30 is a front view 15 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connecting portion 24 is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding, the inner peripheral surface 14 of the steel pipe pile 10 ) H beam B is installed at a predetermined position and concrete C is poured and cured.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Thereafter, by pouring and curing the H beam B and the concrete C on the inner circumferential surface 14 of the steel pipe pile 10, a composite pile P having improved strength can be obtained.

[Example 17]

Figure 31 is a perspective view 16 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 32 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connection portion 24 that is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding,

The steel pipe pile connection portion 24 has a structure in which the steel pipe pile 10 is welded to its inner concave groove 22.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. After that, by welding the steel pipe pile 10 to the concave groove 22 of the steel pipe pile connection portion 24, it is possible to obtain a composite pile (P) further improved strength.

[Example 18]

33 is a perspective view 17 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 34 is a front view 17 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; The steel sheet pile 20 is composed of a steel sheet pile connecting portion 24 to be welded to face the concave groove 22 of the steel sheet pile 20 to be connected to each other by welding, the steel pipe pile connecting portion 24 therein Steel pipe pile 10 is welded to the side concave groove 22, the concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Thereafter, the steel pipe pile 10 is welded to the concave groove 22 of the steel pipe pile connection part 24 again, and then the concrete C is poured into the inner circumferential surface 14 of the steel pipe pile 10 to further increase the strength. The improved synthetic pile (P) can be obtained.

[Example 19]

35 is a perspective view 18 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 36 is a front view 18 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connecting portion 24 is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet pile 20 by welding,

The steel pipe pile 10 is welded to the inner concave groove 22 of the steel pipe pile connection portion 24, the reinforcement (S) at a predetermined interval to the inner circumferential surface 14 of the steel pipe pile 10 is reinforced at the same time Concrete (C) is a cast-healed structure.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Then, after welding the steel pipe pile 10 to the concave groove 22 of the steel pipe pile connection part 24, the reinforcing bars (S) to the inner circumferential surface 14 of the steel pipe pile 10, the concrete (C) By pouring curing), it is possible to obtain a composite pile (P) with improved strength.

[Example 20]

37 is a perspective view 19 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 38 is a front view 19 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connection portion 24 that is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding,

The steel pipe pile connection portion 24 is welded and coupled to the steel pipe pile 10 to its inner concave groove 22, the H beam (B) is installed at a predetermined position on the inner circumferential surface 14 of the steel pipe pile 10 and At the same time, concrete (C) is cast and cured structure.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Then, after welding the steel pipe pile 10 to the concave groove 22 of the steel pipe pile connection part 24, and then install the H beam (B) on the inner peripheral surface 14 of the steel pipe pile 10, the concrete ( By pouring and curing C), it is possible to obtain a synthetic pile P having improved strength.

[Example 21]

Figure 39 is a perspective view 20 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 40 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connection portion 24 to be welded to face the concave groove 22 of the steel sheet pile 20 to connect between the steel sheet piles 20 by welding, the inside of the steel sheet pile connection portion 24 Steel pipe pile 10 and the outside is welded structure.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. After that, by welding the steel pipe pile 10 to the inside and the outside of the steel pipe pile connection portion 24, it is possible to obtain a composite pile (P) further improved strength.

[Example 22]

41 is a perspective view 21 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 42 is a front view 21 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connection portion 24 that is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding,

The steel sheet pile connection portion 24 is a steel pipe pile 10 is welded and coupled to the inside and the outside, the concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Then, after welding the steel pipe pile 10 to the inside and the outside of the steel pipe pile connection part 24, by pouring concrete (C) on the inner circumferential surface 14 of the steel pipe pile 10, the strength is further improved Synthetic pile P can be obtained.

[Example 23]

43 is a perspective view 22 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 44 is a front view 22 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is made of a hollow shape, steel pipe pile 10 consisting of a plurality; A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; Consists of the steel sheet pile connection portion 24 that is welded to face the concave groove 22 of the steel sheet pile 20 to connect the steel sheet piles 20 by welding,

Steel plate pile 10 is welded to the inner and outer sides of the steel sheet pile connection portion 24, reinforcing bars (S) at regular intervals to the inner circumferential surface 14 of the steel pipe pile 10 and at the same time concrete (C) Is a cured cured structure.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the plurality of steel pipe piles 10, and welds the steel sheet pile connection portion 24 to the steel sheet pile 20. Then, after welding the steel pipe pile 10 to the inner side and the outer side of the steel pipe pile connection part 24, reinforcing bars (S) to the inner circumferential surface 14 of the steel pipe pile 10, the concrete (C) By pouring curing, it is possible to obtain a synthetic pile (P) with further improved strength.

[Example 24]

45 to 52, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 composed of upper and lower flanges 32 and 34 and a web 36; It consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile (30).

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the H-shaped pile 30, it is possible to obtain a more improved composite pile (P).

25th Example

45 is a perspective view 23 showing an embodiment of a composite pile for underground structures according to the present invention, and FIG. 46 is a front view 23 showing an embodiment of a composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; The steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30, the steel pipe pile 10 is the H-shaped pile on the outer surface of the upper flange 32 of the H-shaped pile (30) 30) is a welded structure in a shape wrapped around.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in a shape surrounding the outer surface of the upper flange 32 of the H-shaped pile 30, the composite pile further improved strength (P) can be obtained.

[Example 26]

Figure 47 is a perspective view 24 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 48 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; Consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30,

The steel pipe pile 10 has a structure in which the H-shaped pile 30 is welded to the inner surface of the upper flange 32 of the H-shaped pile 30.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in a shape wrapped around the inner surface of the upper flange 32 of the H-shaped pile 30, the composite pile further improved strength (P) can be obtained.

[Example 27]

49 is a perspective view 25 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 50 is a front view 25 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; It consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30, the steel pipe pile 10 is opposed to the left and right of the web 36 of the H-shaped pile 30, respectively Welded structure.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the web 36 of the H-shaped pile 30, to obtain a composite pile (P) further improved strength Can be.

[Example 28]

51 is a perspective view 26 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 52 is a front view 26 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; Consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30,

The steel pipe pile 10 is a coupled structure welded in a shape wrapped around the H-shaped pile 30 so as to face the left and right ends of the upper flange 32 of the H-shaped pile 30, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the left end and the right end of the upper flange 32 of the H-shaped pile 30, the strength is further improved The pile P can be obtained.

[Example 29]

Figure 53 is a perspective view 27 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 54 is a front view showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; Consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30,

The steel pipe pile 10 has a structure in which the H-shaped pile 30 is welded and coupled to face the left and right ends of the lower flange 34 of the H-shaped pile 30, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the left end and the right end of the lower flange 34 of the H-shaped pile 30, the strength is further improved The pile P can be obtained.

30th Example

55 is a perspective view 28 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 56 is a front view 28 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention includes an H-shaped pile 30 consisting of upper and lower flanges 32 and 34 and a web 36; Consists of a steel sheet pile 20 is welded to a predetermined position of the H-shaped pile 30,

The steel pipe pile 10 is a welded structure opposite to the left and right of the portion extending to the web 36 between the upper flange 32 and the lower flange 34 of the H-shaped pile 30, respectively.

The composite pile for underground structures according to the present invention having the configuration as described above welds the steel sheet pile 20 to the left and right sides of the web 36 between the upper and lower flanges 32 and 34 of the H-shaped pile 30. By combining, it is possible to obtain a composite pile (P) with further improved strength.

[Example 31]

57 to 66, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; The steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the T-shaped pile 40, it is possible to obtain a more improved composite pile (P).

[Example 32]

57 is a perspective view 29 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 58 is a front view 29 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; The steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40, the steel pipe pile 10 is the T-shaped pile 40 on the outer surface of the flange 42 of the T-shaped pile 40 It is a welded structure in a shape wrapped around.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in the shape of wrapping the T-shaped pile 40 on the outer surface of the flange 42 of the T-shaped pile 40, It is possible to obtain a composite pile (P) with further improved strength.

[Example 33]

Figure 59 is a perspective view 30 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 60 is a front view 30 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; Consists of a steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40,

The steel pipe pile 10 has a structure in which the steel pipe pile 10 is welded and coupled to the inner surface of the flange 42 of the T-shaped pile 40.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in the shape wrapped around the T-shaped pile 40 on the inner surface of the flange 42 of the T-shaped pile 40, It is possible to obtain a composite pile (P) with further improved strength.

[Example 34]

61 is a perspective view 31 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 62 is a front view 31 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; Consists of a steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40,

The steel pipe pile 10 is a welded structure opposite to the left and right of the web 44 of the T-shaped pile 40, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the web 44 of the T-shaped pile 40, further improved composite pile (P) You can get it.

[Example 35]

63 is a perspective view 32 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 64 is a front view 32 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; Consists of a steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40,

The steel pipe pile 10 has a structure in which the steel pipe pile 10 is welded to the flange 42 of the T-shaped pile 40 so as to surround the T-shaped pile 40 so as to face the left and right ends, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in the shape of wrapping the T-shaped pile 40 to the flange 42 of the T-shaped pile 40, Synthetic pile P with improved strength can be obtained.

[Example 36]

65 is a perspective view 33 showing an embodiment of a composite pile for underground structures according to the present invention, and FIG. 66 is a front view 33 showing an embodiment of a composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a T-shaped pile 40 consisting of a flange 42 and a web 44; Consists of a steel sheet pile 20 is welded to a predetermined position of the T-shaped pile 40,

The steel pipe pile 10 has a structure welded to face the left end and the right end to the flange 42 of the T-shaped stake 40, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the flange 42 of the T-shaped pile 40, to obtain a composite pile (P) further improved strength Can be.

[Example 37]

As shown in Figures 67 to 80, the composite pile for underground structures according to the present invention comprises a c-shaped pile 50 consisting of the upper, lower flanges 52, 54 and the web 56 and at the same time as a c shape; The steel sheet pile 20 is welded to a predetermined position of the c-shaped pile (50).

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 to the c-shaped pile 50, it is possible to obtain a further improved composite pile (P) strength.

38th Example

Figure 67 is a perspective view 34 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 68 is a front view 34 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (52, 54) and the web (56) and the c-shaped pile 50 made of the c shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The steel sheet pile 20 has a structure in which the c-shaped pile 50 is welded and coupled to a shape where the c-shaped pile 50 is blocked on the outside of the upper surface.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in the state of the c-shaped pile 50 is blocked, it is possible to obtain a further improved composite pile (P) strength. .

[Example 39]

69 is a perspective view 35 showing an embodiment of the composite pile for underground structures according to the present invention, and FIG. 70 is a front view 35 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges 52, 54 and the web 56 and the c-shaped pile 50 made of a c shape; It consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50, the steel sheet pile 20 is the c-shaped pile 50 in the shape of the c-shaped pile 50 is blocked on the outside of the bottom. Welded structure.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel sheet pile 20 in the shape of the c-shaped pile 50 is blocked, it is possible to obtain a further improved composite pile (P).

[Example 40]

71 is a perspective view 36 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 72 is a front view 36 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises a c-shaped pile 50 consisting of a top, bottom flange (52, 54) and the web 56 and at the same time a c shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The c-shaped pile 50 has a structure in which the steel sheet pile 20 is welded to the upper flange 52 and the lower flange 54 while the c-shaped pile 50 is arranged in an inverted U shape.

The composite pile for underground structures according to the present invention having the configuration as described above, while the c-shaped pile 50 is arranged in an inverted U-shape, welding the steel sheet pile 20 between the upper flange and the lower flange 52, 54. By doing so, it is possible to obtain a composite pile P having improved strength.

[Example 41]

73 is a perspective view 37 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 74 is a front view 37 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (52, 54) and the web (56) and the c-shaped pile 50 made of the c shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The c-shaped pile 50 has a structure in which the c-shaped pile 50 is arranged in an inverted U-shape, extending to the web 56, and the steel sheet pile 20 is welded to each of the left and right sides thereof.

The composite pile for underground structures according to the present invention having the configuration as described above, while the c-shaped pile 50 is arranged in an inverted U-shape, extends to the web 56 and welds the steel sheet pile 20 to the left and right sides, respectively. By doing so, it is possible to obtain a composite pile P having improved strength.

[Example 42]

75 is a perspective view 38 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 76 is a front view 38 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention, as shown in these drawings, the composite pile for underground structures according to the present invention is upper, lower flanges (52, 54) and web 56 At the same time consisting of a c-shaped pile consisting of 50 and; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The c-shaped pile 50 has a U-shaped pile 50 is arranged in a U-shape, the steel sheet pile 20 is welded to the upper flange 52 and the lower flange 54, respectively.

The composite pile for underground structures according to the present invention having the configuration as described above, while the c-shaped pile 50 is disposed in a U-shape, extends to the upper flange 52 and the lower flange 54, respectively, on the left and right sides. By welding the null pile 20, it is possible to obtain a composite pile (P) with further improved strength.

[Example 43]

77 is a perspective view 39 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 78 is a front view 39 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges 52, 54 and the web 56 and the c-shaped pile 50 made of a c shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The c-shaped pile 50 is a U-shaped pile 50 is arranged in a U-shape, while the steel sheet pile 20 is welded and coupled to each of the left and right sides while extending to the web 56.

The composite pile for underground structures according to the present invention having the configuration as described above, while the c-shaped pile 50 is arranged in a U-shape, by extending the web 56 by welding the steel sheet pile 20 to the left and right sides, respectively. In addition, it is possible to obtain a composite pile (P) with improved strength.

[Example 44]

79 is a perspective view 40 showing an embodiment of a composite pile for underground structures according to the present invention, and FIG. 80 is a front view 40 showing an embodiment of a composite pile for underground structures according to the present invention.

As shown in these figures, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges 52, 54 and the web 56 and the c-shaped pile 50 made of a c shape; Consists of a steel sheet pile 20 is welded to a predetermined position of the c-shaped pile 50,

The steel sheet pile 20 has a structure in which the c-shaped pile 50 is welded in a U-shape and an inverted U-shape, respectively, on the outside of the upper and lower portions thereof.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by the U-shaped pile 50 is welded to the U and inverted U-shape on the upper and lower portions of the steel sheet pile 20, further improved strength Synthetic pile P can be obtained.

45th Example

81 is a perspective view 41 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 82 is a front view 41 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other.

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, it is possible to obtain a more improved composite pile (P).

46th Example

83 is a perspective view 42 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 84 is a front view 42 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

Concrete (C) is cast on the inner surface 62 of the box-shaped sheet pile 60 is cured.

Synthetic pile for underground structures according to the present invention made of a configuration as described above after welding the box-shaped steel sheet pile 60 and the steel sheet pile connection portion 24, the concrete on the inner surface 62 of the box-shaped steel sheet pile 60 By pouring and curing (C), it is possible to obtain a synthetic pile P having improved strength.

47th Embodiment

85 is a perspective view 43 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 86 is a front view 43 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

Reinforcement (S) is reinforced at a predetermined interval on the inner surface 62 of the box-shaped steel sheet pile 60 and the concrete (C) is cast and cured structure.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, and then reinforced on the inner side 62 of the box-shaped steel sheet pile 60. By strengthening (S) and pouring and curing the concrete (C), it is possible to obtain a synthetic pile (P) having further improved strength.

48th Example

87 is a perspective view 44 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 88 is a front view 44 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

At the same time as the H beam (B) is installed on the inner surface 62 of the box-shaped steel sheet pile 60, the concrete (C) is cast and cured.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connection part 24, and then to the inner side 62 of the box-shaped steel sheet pile 60. By installing the H beam B and pouring and curing the concrete C, it is possible to obtain a synthetic pile P having improved strength.

49th Example

89 is a perspective view 45 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 90 is a front view 45 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 has a structure in which the steel pipe pile 10 is welded to the inner concave groove 22.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 By welding the pile 10, it is possible to obtain a composite pile (P) with improved strength.

50th Example

91 is a perspective view 46 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 92 is a front view 46 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other, the steel sheet pile connection portion 24 is a steel pipe pile 10 is welded to the inner concave groove 22, Concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 After welding the pile 10, by pouring concrete (C) on the inner peripheral surface 14 of the steel pipe pile 10, it is possible to obtain a composite pile (P) with improved strength.

51st Example

93 is a perspective view 47 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 94 is a front view 47 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other, the steel sheet pile connection portion 24 is a steel pipe pile 10 is welded to the inner concave groove 22,

Reinforcement (S) is reinforced at regular intervals on the inner circumferential surface 14 of the steel pipe pile 10, and the concrete (C) is cast and cured.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 After welding the pile 10, the reinforcing bars (S) to the inner circumferential surface 14 of the steel pipe pile 10, and by pouring the curing of concrete (C), it is possible to obtain a composite pile (P) with improved strength. have.

52 Example

95 is a perspective view 48 showing an embodiment of a composite pile for underground structures according to the present invention, and FIG. 96 is a front view 48 showing an embodiment of a composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other, the steel sheet pile connection portion 24 is a steel pipe pile 10 is welded to the inner concave groove 22,

The H beam B is installed at regular intervals on the inner circumferential surface 14 of the steel pipe pile 10, and concrete C is poured and cured.

Synthetic pile for underground structures according to the present invention made of a configuration as described above after welding the box-shaped steel sheet pile 60 and the steel sheet pile connection portion 24, in the concave groove 22 of the steel sheet pile connection portion 24 After welding the steel pipe pile 10, by installing the H beam (B) on the inner circumferential surface 14 of the steel pipe pile 10, and curing the concrete (C), the strength of the composite pile (P) improved even more You can get it.

53rd Example

97 is a perspective view 49 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 98 is a front view 49 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 has a structure in which the steel pipe pile 10 is welded to the inner concave groove 22.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 By welding the pile 10, it is possible to obtain a composite pile (P) with improved strength.

54th Example

99 is a perspective view 50 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 100 is a front view 50 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connection portion 24 is a steel pipe pile 10 is welded to the inner concave groove 22, the concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 After welding the pile 10, by pouring concrete (C) on the inner peripheral surface 14 of the steel pipe pile 10, it is possible to obtain a composite pile (P) with improved strength.

55th Example

101 is a perspective view 51 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 102 is a front view 51 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connection portion 24 is the steel pipe pile 10 is welded to the inner concave groove 22, the reinforcement (S) is placed at a certain interval on the inner peripheral surface 14 of the steel pipe pile 10 at the same time Concrete (C) is a cast-healed structure.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 After welding the pile 10, the reinforcement (S) is placed on the inner circumferential surface 14 of the steel pipe pile 10, and the concrete (C) is cast and cured, thereby obtaining a composite pile (P) having further improved strength. have.

56th Example

103 is a perspective view 52 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 104 is a front view 52 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 is a steel pipe pile 10 is welded to the inner concave groove 22, the H beam (B) is installed at a predetermined position on the inner circumferential surface 14 of the steel pipe pile (10) Concrete (C) is a cast-healed structure.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe in the concave groove 22 of the steel sheet pile connecting portion 24 After welding the pile 10, by installing the H beam (B) on the inner circumferential surface 14 of the steel pipe pile 10, and by pouring the curing of concrete (C), to obtain a composite pile (P) with further improved strength Can be.

57th Embodiment

105 is a perspective view 53 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 106 is a front view 53 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 has a structure in which the steel pipe piles 10 are welded to the inner side and the outer side thereof, respectively.

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe pile (inside and outside of the steel sheet pile connecting portion 24) By welding 10), it is possible to obtain a composite pile P having improved strength.

58th Example

107 is a perspective view 54 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 108 is a front view 54 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 is a steel pipe pile 10 is welded to each of the inner and outer sides, the concrete (C) is cast on the inner circumferential surface of the steel pipe pile 10 is cured.

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe pile (inside and outside of the steel sheet pile connecting portion 24) After welding 10), by pouring concrete C on the inner circumferential surface 14 of the steel pipe pile 10, it is possible to obtain a composite pile P with improved strength.

[Example 59]

109 is a perspective view 55 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 110 is a front view 55 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention comprises at least one box-shaped steel sheet pile 60 welded up and down to form a steel sheet pile 20 facing each other; The box-shaped steel sheet pile 60 is composed of a steel sheet pile connection portion 24 is welded to each other,

The steel sheet pile connecting portion 24 is a steel pipe pile 10 is welded to each of the inner and outer sides, the reinforcement (S) is placed on the inner circumferential surface of the steel pipe pile 10 and at the same time the concrete (C) poured structure to be.

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the box-shaped steel sheet pile 60 and the steel sheet pile connecting portion 24, the steel pipe pile (inside and outside of the steel sheet pile connecting portion 24) After welding 10), the reinforcement S is placed on the inner circumferential surface 14 of the steel pipe pile 10, and the concrete C is cast and cured, whereby a composite pile P having improved strength can be obtained.

[Example 60]

111 is a perspective view 56 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 112 is a front view 56 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; It is composed of a steel pipe pile 10 made of a hollow shape welded between the H-shaped pile (30).

Synthetic pile for underground structures according to the present invention made of a configuration as described above by welding the steel pipe pile 10 between the H-shaped pile 30, it is possible to obtain a further improved composite pile (P) strength. .

[Example 61]

113 is a perspective view 57 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 114 is a front view 57 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile 10 made of a hollow shape welded between the H-shaped pile 30, the concrete (C) is cast on the inner circumferential surface 14 of the steel pipe pile (10).

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the steel pipe pile 10 between the H-shaped pile 30, the concrete on the inner peripheral surface 14 of the steel pipe pile (10) By pouring and curing C), it is possible to obtain a synthetic pile P having improved strength.

[Example 62]

115 is a perspective view 58 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 116 is a front view 58 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

Reinforcement (S) is reinforced at regular intervals on the inner circumferential surface 14 of the steel pipe pile 10, and concrete (C) is poured and cured.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the steel pipe pile 10 between the H-shaped pile 30, the reinforcing bar (14) on the inner circumferential surface 14 of the steel pipe pile (10) By reinforcing S) and placing and curing concrete (C), it is possible to obtain a synthetic pile (P) having further improved strength.

[Example 63]

117 is a perspective view 59 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 118 is a front view 59 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The H beam B is installed on the inner circumferential surface 14 of the steel pipe pile 10 and the concrete C is poured and cured.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the steel pipe pile 10 between the H-shaped pile 30, H on the inner peripheral surface 14 of the steel pipe pile 10 By installing the beam B, and pouring and curing the concrete C, it is possible to obtain a synthetic pile P with improved strength.

64th Embodiment

119 is a perspective view 60 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 120 is a front view 60 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The steel sheet pile 20 is welded to both sides of the upper flange 32 of each of the H-shaped pile 30.

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the steel pipe pile 10 between the H-shaped pile 30, each of the upper flange 32 of the H-shaped pile (30) By welding the steel sheet pile 20 on both sides, it is possible to obtain a composite pile (P) with improved strength.

[Example 65]

121 is a perspective view 61 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 122 is a front view 61 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The steel sheet pile 20 is welded to the outer surface of each of the upper flange 32 of the H-shaped pile (30).

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the steel pipe pile 10 between the H-shaped pile 30, each of the upper flange 32 of the H-shaped pile (30) By welding the steel sheet pile 20 to the outer side, it is possible to obtain a composite pile (P) with further improved strength.

66th Example

123 is a perspective view 62 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 124 is a front view 62 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The steel sheet pile 20 is welded to the inner surface of each of the upper flange 32 of the H-shaped pile (30).

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the steel pipe pile 10 between the H-shaped pile 30, each of the upper flange 32 of the H-shaped pile (30) By welding the steel sheet pile 20 to the inner surface, it is possible to obtain a composite pile (P) with improved strength.

67th Example

125 is a perspective view 63 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 126 is a front view 63 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

Steel sheet pile 20 is welded to each of the web 36 of the H-shaped pile (30).

Synthetic pile for underground structures according to the present invention made of a configuration as described above, after welding the steel pipe pile 10 between the H-shaped pile 30, each of the web 36 of the H-shaped pile (30) By welding the steel sheet piles 20 to the composite piles P, the strength is further improved.

68th Example

127 is a perspective view 64 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 128 is a front view 64 showing an embodiment of the composite pile for underground structures according to the present invention.

As shown in these drawings, the composite pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The H-shaped pile 30 has a structure in which the steel sheet pile 20 is welded to the upper and lower flanges 32 and 34 of the H-shaped pile 30 on one side thereof.

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the steel pipe pile 10 between the H-shaped pile 30, the H-shaped pile of one side of the H-shaped pile (30) By welding the steel sheet piles 20 over the upper and lower flanges 32 and 34 of 30), it is possible to obtain a composite pile P having improved strength.

69th Example

129 is a perspective view 65 showing an embodiment of the composite pile for underground structures according to the present invention, Figure 130 is a front view 65 showing an embodiment of the composite pile for underground structures according to the present invention.

Synthetic pile for underground structures according to the present invention is composed of the upper, lower flanges (32, 34) and the web 36 at the same time at least one H-shaped pile 30; Consists of a steel pipe pile (10) made of a hollow shape welded between the H-shaped pile (30),

The H-shaped pile 30 has a structure in which the steel sheet pile 20 is welded and coupled to the H-shaped pile 30 over the upper and lower flanges 32 and 34 of the H-shaped pile 30 on one side thereof. .

The composite pile for underground structures according to the present invention having the configuration as described above is welded to the steel pipe pile 10 between the H-shaped pile 30, the H-shaped pile of one side of the H-shaped pile (30) By welding the steel sheet pile 20 to the shape surrounding the H-shaped pile 30 over the upper and lower flanges (32, 34) of the 30, it is possible to obtain a composite pile (P) with improved strength.

As described in various embodiments as described above, the composite pile for underground structures according to the present invention is a composite pile produced by synthesizing a steel sheet pile and steel pipe pile or H-type pile and T-type pile with structural load capacity By using it as a driving force, foundation pile and permanent structure at a predetermined depth, the composite pile supports both vertical and horizontal loads, and the steel sheet supports earth pressure, replacing the existing soil wall wall and weakening the vertical piles. The bearing capacity is supported by the synthetic piles produced synthetically, and there is an effect of acting as a structure and a supporting pile.

As described above, the composite pile for underground structures according to the present invention is a composite pile and a steel sheet pile produced by synthesizing a steel sheet pile and a steel pipe pile or an H-type pile at a predetermined depth on the target ground, and the foundation pile and the permanent structure. The composite pile supports the vertical load and the horizontal load at the same time, and the steel sheet supports the earth pressure, replacing the existing soil wall, and the weak vertical support force of the steel sheet is supported by the composite pile. And by acting as a support pile, the construction period of the structure can be significantly shortened, and unnecessary costs can be omitted to reduce the construction cost.

Claims (15)

Steel pipe pile 10 made of a hollow shape; In the steel sheet pile 20, which is formed with the concave grooves 22 formed at both ends at a predetermined position of the steel pipe pile 10 is welded, Concrete (C) is placed on the inner circumferential surface 14 of the steel pipe pile 10, or reinforcement (S) is placed at regular intervals and concrete (C) is placed or H beam (B) is installed and concrete (C) at the same time. Is poured out, The steel sheet pile 20 is welded to the steel pipe pile 10 is opposed to each other on the inner and outer surfaces thereof or the steel sheet pile 20 is welded to face the outer peripheral surface 12 of the steel pipe pile (10) Composite pile for underground structures, characterized in that. delete delete delete delete It is made of a hollow shape, consisting of a plurality of steel pipe pile (10); A steel sheet pile 20 welded to the outer circumferential surface 12 of the steel pipe pile 10 in a shape in which a concave groove 22 is wrapped; In consisting of the steel sheet pile connection portion 24 that is welded to face the concave groove 22 of the steel sheet pile 20 to be connected to each other by welding between the steel sheet piles, Concrete (C) placing or reinforcing bars (S) are placed in the steel pipe pile (10) and at the same time concrete (C) placing or H beam (B) is installed and concrete (C) is poured. The steel sheet pile connection portion 24 is a composite pile for underground structures, characterized in that the steel pipe pile 10 is welded to the inner concave groove (22). delete delete delete delete The c-shaped pile 50 and the c-shaped pile 50, which are composed of upper and lower flanges 52 and 54 and a web 56, and have a c shape, are welded to the upper or lower surface of the steel sheet pile 20, or the c-shaped pile is reversed. While being arranged in a U-shape, composite piles for underground structures, characterized in that the steel sheet pile 20 is welded to the upper flange 52 and the lower flange 54, respectively. At least one box-shaped steel sheet pile 60 is welded up and down in a shape opposite to the steel sheet pile 20; In the configuration consisting of a steel sheet pile connection portion 24 welded to connect the box-shaped steel sheet pile 60, The box-shaped steel sheet pile 60 is placed on the inner surface 62 of the concrete (C) placing or reinforcing bars (S) at the same time the concrete (C) is poured or H beam (B) is installed at the same time concrete (C) Composite pile for underground structures, characterized in that is poured. delete An upper and lower flanges 32 and 34 and a web 36, and at least one or more H-shaped piles 30; In the configuration consisting of a steel pipe pile 10 made of a hollow shape welded between the H-shaped pile 30, The steel pipe pile 10 is placed on the inner circumferential surface 14 of the concrete (C), or reinforced (S) at the same time the concrete (C) is poured or H beam (B) is installed at the same time concrete (C) Composite pile for underground structures, characterized in that it is poured. delete

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