CN219261001U

CN219261001U - Recoverable ground anchor structure

Info

Publication number: CN219261001U
Application number: CN202222706969.3U
Authority: CN
Inventors: 陈灿志
Original assignee: Shaoxing Shangyu Lianguang Rubber Plastic Metal Products Co ltd
Current assignee: Shaoxing Shangyu Lianguang Rubber Plastic Metal Products Co ltd
Priority date: 2022-10-14
Filing date: 2022-10-14
Publication date: 2023-06-27
Anticipated expiration: 2032-10-14

Abstract

The utility model provides a recoverable ground anchor structure, including a ground anchor body, a locating element and a recovery element, this ground anchor body is equipped with a head end and a tail end respectively in front and back both ends, be provided with a joint portion on this tail end, this joint portion is used for linking an implantation element, this locating element is set firmly in this ground anchor body and is close to middle department, and this recovery element is set firmly in this ground anchor body and is close to this head end department, by this, this implantation element is used for implanting this ground anchor body into the soil layer, this locating element is used for overturning this ground anchor body in the soil layer to be parallel with the soil table, in order to do benefit to the location, this recovery element is then used for overturning this ground anchor body in the soil layer to be perpendicular with the soil table again, in order to be favorable to drawing out recovery from the soil layer.

Description

Recoverable ground anchor structure

Technical Field

The utility model relates to a recyclable ground anchor structure which is used for being implanted into the ground to fix sloping fields, turf or ground objects, in particular to the ground anchor structure which can be recycled and taken out again.

Background

In hillside fields, turf maintenance or construction, civil engineering, ground anchors may be used to strengthen the connection between an asset (e.g., turf, tree, building structure, pole or foundation) and a ground formation to avoid collapse or loss of the asset.

In the current ground anchor structure, the ground anchor body is mainly implanted into the stratum, and the ground anchor body is provided with a rope body exposed out of the surface of the stratum, and the rope body can enable the ground anchor body to generate a clamping or overturning angle and further be fastened in the stratum in an irreversible manner, so that the fastening purpose can be achieved, but the ground anchor body is difficult to take out easily in the stratum, and if the ground anchor body needs to be taken out, a great deal of cost is consumed to dig out of the stratum.

Disclosure of Invention

The utility model aims to provide a recyclable ground anchor structure which is simple in structure and convenient to operate, overcomes the defects of the prior art, realizes stable anchoring, can smoothly and rapidly pull out a ground anchor body from a soil layer, and is more convenient to recycle and take out.

In order to achieve the above object, the present utility model discloses a recoverable ground anchor structure, which is characterized by comprising:

the ground anchor body is provided with a head end and a tail end at the front end and the rear end respectively, and the tail end is provided with a joint part for connecting an implantation element;

the positioning element is fixedly arranged at the position, close to the middle, of the ground anchor body; and

and the recovery element is fixedly arranged at the position of the ground anchor body close to the head end.

Wherein, this earth anchor body is dull and stereotyped form.

The joint part is a duct surrounded by a plurality of staggered ring sheets, and the implantation element is a long straight rod body so as to be convenient to insert into the duct.

The two outer sides of the ground anchor body, which are close to the middle, are respectively penetrated with a first hole, and the positioning element is a rope body, so that the positioning element can pass through one of the first holes from the top surface of the ground anchor body and then be wound out from the other first hole from the back surface and then be fixed on the ground anchor body.

The head end is penetrated with a second hole which is fixed with the recovery element, and the recovery element is a rope body so that the recovery element can pass through the second hole from the top surface of the ground anchor body and then be fixed on the back surface.

Wherein, this earth anchor body is three-dimensional cubic.

The joint part is a hole channel dug out by the ground anchor body, and the implantation element is a long straight rod body so as to be convenient to insert into the hole channel.

The ground anchor body is provided with a first fin block near the middle, a first hole is formed in the first fin block in a penetrating mode, and the positioning element is a rope body and can pass through the first hole from one side of the ground anchor body and then wind out from the other side of the ground anchor body to be fixed on the ground anchor body.

The head end is provided with a second fin block, a second hole is formed in the second fin block in a penetrating mode, and the recovery element is a rope body and can pass through the second hole from one side of the ground anchor body and then wind out from the other side of the ground anchor body to be fixed on the ground anchor body.

Wherein, two sides of the head end are respectively provided with a bevel edge so that the head end is in a pointed cone shape.

Through the structure, the implantation element implants the ground anchor body into the soil layer, the positioning element is used for overturning the ground anchor body in the soil layer to be parallel to the soil surface so as to be beneficial to positioning, and the recovery element is used for overturning the ground anchor body in the soil layer to be perpendicular to the soil surface again so as to be beneficial to pulling out and recovering from the soil layer.

Drawings

Fig. 1: is a schematic perspective exploded view of a first embodiment of the recyclable ground anchor structure of the present utility model.

Fig. 2: is another perspective view of the first embodiment of the recyclable anchor structure of the present utility model.

Fig. 3: is a schematic cross-sectional view of a first embodiment of the recyclable ground anchor structure of the present utility model.

Fig. 4: schematic representation of the implantation soil layer is implemented by the first embodiment of the recyclable ground anchor structure of the present utility model.

Fig. 5: the first embodiment of the recoverable ground anchor structure of the present utility model is positioned in a schematic view of a soil layer.

Fig. 6: the first embodiment of the recyclable ground anchor structure of the present utility model is a recycling schematic.

Fig. 7: the first embodiment of the recyclable anchor structure of the present utility model is a recycling and extracting schematic.

Fig. 8: is a perspective schematic view of a second embodiment of the recyclable ground anchor structure of the present utility model.

Fig. 9: is a schematic side view of a second embodiment of the recyclable ground anchor structure of the present utility model.

Detailed Description

Regarding other technical aspects, features and effects of the present utility model, the two aspects of the present utility model are divided into flat plate and solid block in appearance, and the following two aspects will be clearly presented in the detailed description of the preferred embodiments with reference to the drawings, and the following description is not particularly limited, and may be applied to sloping fields, turf maintenance, or tree and building anchoring.

Referring to fig. 1, 2 and 3, a structure of a first embodiment is shown, and as shown in the drawings, the ground anchor body 1 has a plate-shaped ground anchor body 1, a head end 11 and a tail end 12 are respectively disposed at front and rear ends of the ground anchor body 1, oblique sides 111 are respectively formed at two sides of the head end 11, so that the head end 11 is in a pointed cone shape, a joint portion 13 is disposed on the tail end 12, the joint portion 13 is used for connecting an implant element 2, the joint portion 13 may be a duct 132 formed by surrounding a plurality of staggered ring pieces 131, and the implant element 2 may be a long straight rod for facilitating insertion into the duct 132.

A positioning element 3 is further fixed at the position of the ground anchor body 1 near the middle, the positioning element 3 can be a rope body, and two outer sides of the ground anchor body 1 near the middle can be respectively penetrated with a first hole 14, so that the positioning element 3 can penetrate through one of the first holes 14 from the top surface of the ground anchor body 1 and then wind out from the other first hole 14 on the reverse surface, and the wound positioning element 3 is fixed on the ground anchor body.

The ground anchor body 1 is further fixed with a recovery element 4 near the head end 11, the recovery element 4 may also be a rope, and the head end 11 may be penetrated with a second hole 15, so that the recovery element 4 may penetrate through the second hole 15 from the top surface of the ground anchor body 1 and then be fixed on the opposite surface (the fixing manner may use rivets, bolts or clips).

Referring to fig. 4, 5, 6 and 7, the usage of the first embodiment shows that the implanting element 2 can implant the earth anchor body 1 into the soil layer a with the head end 11 facing downwards, so that the earth anchor body 1 is perpendicular to the soil layer A1, each inclined edge 111 can reduce resistance, so that the action is smooth and rapid, when the earth anchor body 1 is implanted into the soil layer a, the implanting element 2 can be pulled out, the positioning element 3 still can be exposed out of the soil layer A1, when the positioning element 3 is pulled by external force, the earth anchor body 1 can be turned over by the tensile force near the middle, finally, the earth anchor body 1 is parallel to the soil layer A1, so as to achieve the purpose of positioning the earth anchor body 1 in the soil layer a, when the earth anchor body 1 is positioned in the soil layer a, the recovering element 4 can also be exposed out of the soil layer A1, when the recovering element 4 is pulled through external force, the head end 11 can be influenced by the tensile force to turn over again, finally, the earth anchor body 1 can be pulled out of the soil layer A1 again, and the purpose of recovering the earth anchor body 1 can be smoothly achieved, and the purpose of recovering the earth anchor body 1 can be achieved by the inclined edge 11.

Referring to fig. 8 and 9, a structure of a second embodiment is shown, and the ground anchor has a three-dimensional ground anchor body 1, wherein a head end 11 and a tail end 12 are respectively disposed at front and rear ends of the ground anchor body 1, and oblique sides 111 are respectively formed at two sides of the head end 11, such that the head end 11 is in a pointed cone shape, a joint portion 13 is disposed on the tail end 12, the joint portion 13 is used for connecting an implant element 2, the joint portion 13 may be a hole 132 dug from the ground anchor body 1, and the implant element 2 may be a long straight rod for facilitating insertion into the hole 132.

A positioning element 3 is further fixed at the position of the ground anchor body 1 near the middle, the positioning element 3 can be a rope body, a first fin block 112 is arranged at the position of the ground anchor body 1 near the middle, a first hole 14 is penetrated through the first fin block 112, so that the positioning element 3 can penetrate through the first hole 14 from one side of the ground anchor body 1 and then wind out from the other side, and the wound positioning element 3 is fixed on the ground anchor body.

The ground anchor body 1 is further fixedly provided with a recovery element 4 near the head end 11, the recovery element 4 can also be a rope body, the head end 11 is provided with a second fin block 113, and a second hole 15 is penetrated through the second fin block 113, so that the recovery element 4 can pass through the second hole 15 from one side of the ground anchor body 1 and then wind out from the other side, and the wound recovery element 4 is fixed on the ground anchor body.

Since the operation of the second embodiment is exactly the same as that of the first embodiment, the description thereof will not be repeated.

The foregoing embodiments are merely illustrative of the present utility model and are not intended to be limiting, and it will be apparent to those of ordinary skill in the art that various modifications and variations can be made in the present utility model without departing from the spirit or scope of the utility model.

Claims

1. A recyclable ground anchor structure comprising at least:

2. The recyclable ground anchor structure as recited in claim 1, wherein the ground anchor body is planar.

3. The recoverable ground anchor structure of claim 2 wherein the engagement portion is a channel surrounded by a plurality of interlaced annular sheets, and the implant member is a long straight rod for insertion into the channel.

4. The recoverable ground anchor structure of claim 2 wherein the two outer sides of the ground anchor body near the middle are respectively penetrated by a first hole, and the positioning element is a rope so that the positioning element can pass through one of the first holes from the top surface of the ground anchor body and then be wound out from the other first hole on the opposite side and then be fixed on the ground anchor body.

5. The recoverable ground anchor structure of claim 2 wherein the head end has a second hole therethrough, the second hole being secured to the recovery element and the recovery element being a rope such that the recovery element can be secured to the opposite surface from the top surface of the ground anchor body through the second hole.

6. The recyclable ground anchor structure as recited in claim 1, wherein the ground anchor body is solid block-shaped.

7. The recoverable ground anchor structure of claim 6 wherein the engagement portion is a channel cut into the ground anchor body and the implant member is a long straight rod for insertion into the channel.

8. The recoverable ground anchor structure of claim 6, wherein the ground anchor body has a first fin near the middle, a first hole is formed in the first fin, and the positioning element is a rope, so that the positioning element can pass through the first hole from one side of the ground anchor body and then wind out from the other side of the ground anchor body to be fixed on the ground anchor body.

9. The recoverable ground anchor structure of claim 6, wherein the head end has a second fin block with a second hole therethrough, and the recovery element is a rope passing through the second hole from one side of the ground anchor body and then being wound out from the other side and then being fixed to the ground anchor body.

10. The recoverable ground anchor structure of claim 1, wherein each of the two sides of the head end is formed with a beveled edge such that the head end is pointed.