KR20100022767A - A rock bed extension type ground anchor - Google Patents

Abstract

PURPOSE: A wedge type extended anchor to be installed in a rock bed is provided to easily expand the rock bed by deeply embedding a wedge in the perforated ground. CONSTITUTION: A wedge type extended anchor to be installed in a rock bed comprises a body(10), a compression plate(40), levers(50), wedges(60), and a striking bar. The compression plate is composed of a fixing plate(20) and a transfer plate(30). The wedges have multiple extension saw-teeth(62). And the wedges are slid along guide grooves(11) of the body. The striking bar has a support plate(72) coupled to the wedges.

Description

Ground anchor for rock extension {A rock bed extension type ground anchor}

The present invention relates to a rock anchor ground anchor, and more particularly to a rock anchor ground anchor for easily and simply expanding the rock in the perforation through a simple structure.

Ground anchors are classified into permanent anchors applied to permanent structures according to the period of use and purpose, and temporary anchors generally used for less than two years, and classified into friction type, acupressure type, composite type, etc. according to the support method for the ground. According to the supporting method of the grout of the tension member, it is classified into a tension type, a compression dispersion type, a compression concentration type, and the like.

And it is classified into PC strand strand anchor, steel rod anchor, buried anchor, removable anchor, etc. according to the type and use of the tensioning material.

In order to secure the tensile force, which is the most important reason that the ground anchoring method is classified into various types as above, the construction method and the material selection according to the ground conditions should be made.

The current application sequence is to insert the anchor (about 10 ~ 30m in length) into the drilled hole (about 105mm) by the drilling equipment, then grout (water + cement) and go through the curing period, then the structure (Wall) and anchor are fixed, prestressing (tension, about 40-80 tons) is applied, and construction is performed in order to stabilize.

Since the tensile force is secured only by the friction between the perforated cross-sectional area and the grout, it is difficult to secure the tensile force due to the frictional force when the ground layer is weak, so that the construction period is due to the parallel design (increase in quantity) and the complementary (deformation) method. In addition to increased delays and construction costs, there were risk factors such as top ground displacements (such as splitting) and collapse due to excessive construction.

In addition, there is a permanent anchor type to be applied to the rock bed named by acupressure anchor, which has the advantage that it can secure the tensile force even if the length is shorter than other anchors, but it is not applicable to the soft layer, the unit cost is too high, construction Due to the principle that the effect is exerted only when the additional process is artificially performed, there are problems caused by the worker's avoidance of the additional process and the elimination of the additional process.

As such, in the past, technical and economical lacks, and it is difficult to secure smooth construction in any strata.

The present invention was developed in order to solve the various problems as described above, the purpose of which is to support the wedge by the external impact of the base plate strongly open to the outside at the same time the wedge slides along the guide groove of the body to the rock in the perforation The present invention provides a ground anchor for rock expansion that is deeply embedded to allow expansion.

In order to achieve the above object, the present invention forms a guide groove into which a plurality of wedges are inserted into a surface, and forms an insertion hole into which a strike bar is fastened to a center thereof, and a plurality of guide rods having a hollow therein is inserted into an outer surface of the insertion hole. A body which is installed to be; It is installed on the upper side of the guide rod of the body has a fixed plate formed with an insertion hole for inserting a plurality of strands on the top, and a transfer plate having an insertion hole so as to penetrate the guide rod while having a fixing groove is fixed to the bottom surface installed correspondingly A compression plate formed with a compression spring installed in a space between the fixed plate and the transfer plate; A lever fixedly installed at a fixing groove of the transfer plate and having a fastening hole at an upper end and a lower end; A plurality of wedges coupled to the lower end of the lever, the inner and outer surfaces of which are rounded in the same manner as the outer surface of the lever, and a plurality of expansion teeth are formed at the center of the inner surface and a plurality of expansion teeth are formed at the upper end; And a striking bar formed with a base plate having an inclined surface on the top outer circumferential surface to be in contact with the bottom inner circumferential surface of the wedge and having a striking plate having a plurality of striking protrusions at the bottom thereof.

The present invention as described above has the effect that the wedge having a sharp expansion saw blade is inserted into the guide groove of the body by a strong force of the compression spring, so that the expansion is easily embedded in the rock in the perforation.

EMBODIMENT OF THE INVENTION Hereinafter, the rock anchoring ground anchor for realizing this invention is demonstrated in detail.

1 to 3 is a view showing the overall configuration of the present invention, the reference numeral 100 in the drawing shows the main body of the rock anchor for rock expansion of the present invention.

The main body 100 is composed of a body 10, the compression plate 40 and the lever 50, the wedge 60, the striking bar 70.

The body 10 forms a plurality of guide grooves 11 formed along the inclined surface 10a on the outer circumferential surface having the inclined surface 10a and has a circular insertion hole 12 in which a striking bar 70 is inserted into the center. To form.

And the outer surface of the insertion hole 12 is installed so that a plurality of guide rods 15 having a hollow 13 therein. The guide rods 15 may be used by installing more than four according to the basic or situation.

In addition, a strand wire 90 is inserted into and used as the inner hollow 13 of the guide rod 15.

The compression plate 40 is composed of a fixed plate 20 and the transfer plate 30, the fixed plate 20 is a circular plate is formed with an insertion hole 21 is inserted into the plurality of strands 90 on the top.

And to correspond to this to form a transfer plate 30 which is a circular plate having an insertion hole 32 to penetrate the guide rod 15 having a plurality of fixing grooves 31, the lever 50 is fixed to the bottom surface.

The fixing plate 20 is fixedly installed on the top of the guide rod 15, the transfer plate 30 is inserted into the guide rod 15 through the insertion hole 32 and at the same time have a fixed distance to the fixed plate 30 In the meantime, the compression spring 35 is fixedly installed.

In this case, the transfer plate 30 can be moved up and down along the guide rod 15.

The lever 50 has a bar shape and forms the fastening holes 51 and 52 at the top and the bottom thereof, and the fastening hole 51 formed at the top is inserted into the fixing groove 31 formed at the bottom of the fixing plate 30. After that, it can be combined by hinge.

And the fastening hole 52 formed at the lower end of the lever 50 is inserted into the coupling groove 63 formed at the upper end of the wedge 60 to be described later and then coupled to the hinge can be rotated.

The wedge 60, as shown in the accompanying drawings, Figures 4 and 5, the inner and outer surfaces have the same round shape as the outer surface of the body 10, the engaging projection 61 is formed to project outward in the center of the inner surface is formed. And a plurality of expansion teeth 62 having a sharp step shape on the outer surface.

And the upper end is formed with a coupling groove 63 into which the lower end of the lever 50 is inserted.

The striking bar 70 forms a support plate 72 having a plurality of insertion grooves 75 into which the guide rod 15 is inserted while having the inclined surface 71 on the upper outer circumferential surface thereof, and a plurality of the striking protrusions 73 at the bottom thereof. To form a striking plate 74.

The position of the support plate 72 is initialized in contact with the lower surface of the inner surface of the plurality of wedges 60, as shown in FIG. That is, the support plate 72 is to support the wedge 60 so that the fixed state is maintained.

The present invention as described above, as shown in the accompanying drawings, Figure 6, first, the body 100 is inserted after inserting the spacer 80 for securing the drilling margin into the hole (1). The boring clearance securing type spacer 80 serves to counteract buoyancy that may occur when inserting into the boring 1.

The main body 100 is inserted in a sliding manner according to the weight of the anchor and the angle of the perforation, and the impact plate 74 of the striking bar 70 collides with the perforated clearance securing type spacer 80.

At this time, as shown in Figure 7 attached to the base plate 72 of the striking bar 70 is in contact with the lower side of the wedge 60 in the coupled state to move upwards while the wedge 60 was retracted inward Causes the outside to open.

At this time, since the support plate 72 rises along the guide rod 15, the support plate 72 rises without tilting left and right, and at the same time, the compression spring 35 installed between the fixed plate 20 and the transfer plate 30 is compressed. .

Then, the coupling protrusion 61 of the wedge 60 comes to a position coinciding with the guide groove 11 of the body 10, and at this time, as shown in FIG. 8, the coupling protrusion of the wedge 60 ( 61 is inserted into the guide groove 11 of the body 10 and at the same time the compression of the compression spring 35 is released and the wedge 60 is moved deeply in the perforated inner rock while moving strongly downward along the guide groove 11. .

Referring to another embodiment of the present invention as described above in detail.

9 is a view showing another configuration of the present invention, in which reference numeral 200 denotes a main body of another rock expansion ground anchor of the present invention.

The main body 200 is composed of a body 110 and the striking bar 120 and the steel 130, the compression plate 140, the lever 150, the wedge 160.

The body 110 forms a plurality of guide grooves 111 formed along the inclined surface 110a on the outer circumferential surface having the inclined surface 110a and has a circular insertion hole 112 into which a strike bar 120 is inserted. Form.

The striking bar 120 has a coupling groove 121 at the center of the upper end and forms a support plate 123 having an inclined surface 122 formed on the outer side thereof, and a striking plate 125 having a plurality of striking protrusions 124 on the outer side thereof. ).

The striking bar 120 is inserted into the circular insertion hole 112 formed in the center of the body 110 and is installed in a state in which the lower surface is in contact with the upper surface of the body 110.

The steel 130 is a tension member having a coupling protrusion 131 inserted into the coupling groove 121 of the striking bar 120 at the bottom, which is to use PC strands, PC steel wires, steel bars, deformed steel bars, etc. In some cases, it is installed by using a rail, a lock bolt, a micro pile, or the like.

The compression plate 140 is composed of a fixed plate 141 and the transfer plate 143, the fixed plate 141 is a circular plate fixedly installed on the upper side of the steel 130, while maintaining a predetermined interval downward to correspond to this The transfer plate 143 of the circular plate having the insertion hole 142 in the center is installed.

The compression spring 144 is fixedly installed in the space between the fixing plate 141 and the transfer plate 143.

In addition, the outer surface of the transfer plate 143 is coupled to the fastening hole 151 formed on the upper end of the lever 150 by a hinge, the fastening hole 152 formed on the lower end of the lever 150 is a wedge (to be described later) Insert into the coupling groove 163 formed on the top of the 160 and then fasten with a hinge to fix it.

The wedge 160 has an inner and an outer surface formed in the same round shape as the outer surface of the body 110, and forms a coupling protrusion 161 protruding outward from the center of the inner surface, and a plurality of expansion teeth 162 are formed on the outer surface.

And the upper end forms a coupling groove 163 to which the lower end of the lever 150 is coupled.

The inclined surface 122 of the support plate 123 is coupled to the lower surface of the inner circumferential surface of the wedge 160 to be in contact with each other to form an initialization.

In the present invention as described above, first, the main body 200 is inserted after inserting the space for securing the drilling margin into the drilled hole.

The main body 200 is inserted in a sliding manner according to the weight of the anchor and the angle of the perforation, and the impact plate 125 of the striking bar 120 collides with the perforated clearance securing type spacer.

At this time, as shown in Figure 10 attached to the base plate 123 of the striking bar 125 is in contact with the bottom of the inner surface of the wedge 160 is moved to the upper side in the coupled state, the wedge 160 was retracted inward Causes the outside to open.

At this time, the support plate 123 ascends along the steel 130 and at the same time the compression spring 144 installed between the fixed plate 141 and the transfer plate 143 is subjected to compression.

Then, the coupling protrusion 161 of the wedge 160 comes to a position coinciding with the guide groove 111 of the body 110, and in this case, the coupling protrusion 161 of the wedge 160 guides the body 110. At the same time the compression of the compression spring 144 is released into the groove 111 is released and the wedge 160 is driven to the inner rock by the inner perforation while moving strongly downward along the guide groove (111).

1 to 2 is a perspective view showing the configuration of the present invention

3 is a cross-sectional view showing the configuration of the present invention.

Figure 4 is a perspective view showing the configuration of the inventors wedge

5 is a plan view showing the configuration of the present invention

6 is a use state diagram showing a use state of the present invention

7 to 8 is an operating state diagram showing an operating state of the present invention

9 to 10 are cross-sectional views showing another configuration of the present invention.

♣ Explanation of symbols for the main parts of the drawing

100,200: main body

10,110: body 11,111: guide groove

12,21,32,112,142: Insertion hole 13: hollow

15: guide rod 20,141: fixed plate

30,143: transfer plate 31: fixing groove

35,144: Compression spring 40,140: Compression plate

50,150: lever 51,52: fastening hole

60,160: Wedge 61,131,161: Combined projection

62,162: expansion tooth 63,121,163: coupling groove

70,120: Strike Bar 71,122: Slope

72,123: Base 73: Strike protrusion

74,125: Strike Plate 130: Steel

Claims (3)

A body in which a guide groove into which a plurality of wedges are inserted is formed on an outer circumference thereof, and an insertion hole into which a strike bar is fastened to a center thereof, and a plurality of guide rods having a hollow therein are inserted into the outer surface of the insertion hole; It is installed on the upper side of the guide rod of the body has a fixed plate formed with an insertion hole for inserting a plurality of strands on the top, and a transfer plate having an insertion hole so as to penetrate the guide rod while having a fixing groove is fixed to the bottom surface installed correspondingly A compression plate formed with a compression spring installed in a space between the fixed plate and the transfer plate; A lever fixedly installed at a fixing groove of the transfer plate and having a fastening hole at an upper end and a lower end; A plurality of wedges coupled to the lower end of the lever, the inner and outer surfaces of which are rounded in the same manner as the outer surface of the lever, and a plurality of expansion teeth are formed at the center of the inner surface and a plurality of expansion teeth are formed at the upper end; Rock anchoring ground anchors comprising a; forming a support plate having an inclined surface on the upper outer peripheral surface so as to contact the lower inner circumferential surface of the wedge; A body having a guide hole into which a plurality of wedges are inserted on an outer circumferential surface thereof and an insertion hole into which a strike bar is inserted; An installation bar inserted into the insertion hole of the body and having a coupling groove in the upper center, forming a support plate having an inclined surface on the outer surface thereof, and a blow bar having a blow plate at the bottom thereof; A steel material installed in the coupling groove of the hitting bar and having a coupling protrusion at a lower end thereof; The compression plate is installed on the upper side of the steel and fixedly installed on the top of the fixing plate, the lever is fixedly installed on the outer side to correspond to the lower side, and forms a transfer plate having an insertion hole in the center, and a compression spring is installed in the space between the fixed plate and the transfer plate. and; A lever installed on an outer surface of the transfer plate and having a fastening hole at an upper end and a lower end; It is coupled to the lower end of the lever and the inner and outer surfaces are formed in the same round as the outer surface of the body, the engaging projection and the inner surface of the plurality of expansion teeth are formed on the inclined surface of the hitting plate having a coupling groove that is coupled to the lower end of the lever Rock anchoring ground anchors, characterized in that consisting of; a plurality of wedges are installed to abut the inner circumferential surface. The method of claim 2, The steel material is a rock expandable ground anchor, characterized in that the steel material is installed and used as a soil rail, rock bolt, micro pile.

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