CN216445978U - Screw pile vibrating guide device - Google Patents

Abstract

The utility model discloses a screw pile vibrating guide device, which comprises: locating component, the locating component lower extreme is provided with the insert assembly of one row of vertical arrangement, and the insert assembly lower extreme of below is provided with toper structural component, all be connected with coupling assembling between locating component and the insert assembly, between two adjacent insert assemblies, between insert assembly and the toper structural component of below, locating component includes the outer steel muscle circle of first outer steel muscle circle, the outer steel muscle circle of second and the outer steel muscle circle of third that the level is parallel. When the device is used, the vibrating rod is inserted into the inner steel ring in the middle of the device and extends into the pile hole to a proper depth, and the vibrating rod is limited at the central axis position of the pile hole through the matching of the inner steel ring and the limiting reinforcing steel bar, so that a worker can more easily control the depth of the vibrating rod, and the vibrating uniformity and the construction efficiency are greatly improved.

Description

Screw pile vibrating guide device

Technical Field

The utility model belongs to the technical field of vibration guiding, and particularly relates to a screw pile vibration guiding device.

Background

The screw pile is a novel pile, is a combined pile with a cylindrical upper part and a screw lower part, and is called as a screw pile technology for short. The cast-in-situ screw pile is formed by pressing concrete with the pump in the soil body by rotating and extruding the drilling tool of pile machine, and compared with the driven prefabricated pile, it has low construction noise, no vibration, no influence on the constructed pile, and no mud pollution and soil abandon problems. The screw pile is a novel pile with high practical value, and the principle that screws are firmer than nails in common knowledge is applied to the construction of the pile and the pile, so that the firmer characteristic of the screw pile can be realized.

When cast-in-place screw rod pile concrete vibrates, the stick that vibrates that uses is handheld, and the people is confirmed the stick that vibrates to transfer degree of depth and position.

But current screw rod pile concrete mode of vibrating, the stick that vibrates all carries out the manual work and holds, not only can't guarantee the stick that vibrates and transfer the degree of depth and the degree of consistency of vibrating, moreover consuming time and wasting force.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a screw pile vibrating guide device, which aims to solve the technical problems that in the existing screw pile concrete vibrating mode, a vibrating rod is manually held, the lowering depth and the vibrating uniformity of the vibrating rod cannot be guaranteed, and time and labor are consumed.

The technical scheme for solving the technical problems is as follows: the utility model provides a screw rod pile guider that vibrates, its includes locating component, the locating component lower extreme is provided with the insert assembly of one row of vertical arrangement, and the insert assembly lower extreme of below is provided with toper structure subassembly, all be connected with coupling assembling between locating component and the insert assembly, between two adjacent insert assemblies, between insert assembly and the toper structure subassembly of below.

The locating component comprises a first outer steel ring, a second outer steel ring and a third outer steel ring which are parallel horizontally, the second outer steel ring is located between the first outer steel ring and the third outer steel ring, Z-shaped connecting steel bars which are evenly distributed on the first outer steel ring, the second outer steel ring and the third outer steel ring are fixedly connected with a circle of evenly distributed Z-shaped connecting steel bars, the lower ends of the Z-shaped connecting steel bars protrude out of the third outer steel ring, locating sleeves which are evenly distributed on the first outer steel ring and the second outer steel ring are fixedly connected with a circle of evenly distributed locating sleeves, and anchoring nails are sleeved on the inner sides of the locating sleeves, the first outer steel ring and the third outer steel ring are both provided with a first inner steel ring at the middle part of the inner side, and the upper and lower first limiting steel bars which are evenly distributed on the outer side of the two first inner steel rings are fixedly connected with a circle of evenly distributed.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the inserting assembly comprises two fourth outer reinforcing rings which are horizontally arranged side by side from top to bottom, the inner sides of the upper and lower fourth outer reinforcing rings are fixedly connected with a first splicing mechanism with a circle of uniformly distributed first splicing mechanisms, the inner sides of the upper and lower fourth outer reinforcing rings are respectively provided with a second inner reinforcing ring, and the outer sides of the upper and lower second inner reinforcing rings are fixedly connected with a circle of uniformly distributed second limiting reinforcing steel bars.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: first concatenation mechanism is including the first concatenation sleeve pipe of erectting, first concatenation sleeve pipe lower extreme fixedly connected with concatenation reinforcing bar, and the diameter homogeneous phase of first concatenation sheathed tube inboard diameter and concatenation reinforcing bar, Z type connecting reinforcement matches, the inboard fixed connection of the outer steel bar circle of first concatenation sleeve pipe outside upper end and top fourth, the inboard fixed connection of the outer steel bar circle of concatenation reinforcing bar outside lower extreme and below fourth, and the downside of the outer steel bar circle of the lower extreme protrusion below fourth of concatenation reinforcing bar.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: and a circle of third connecting steel bars which are uniformly distributed are fixedly connected between the outer side of the upper second inner steel bar ring and the inner side of the upper fourth outer steel bar ring and between the outer side of the lower second inner steel bar ring and the inner side of the lower fourth outer steel bar ring.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the toper structure subassembly includes the outer reinforcing ring of horizontally fifth, the reinforcing ring in the third all is equipped with under the inboard middle part of the outer reinforcing ring of fifth, the outer reinforcing ring of fifth and below be connected with round evenly distributed's second splicing mechanism between the reinforcing ring in the third, the top fixedly connected with round evenly distributed's fourth connecting reinforcement between the reinforcing ring outside in the third and the outer reinforcing ring of fifth inboard, two from top to bottom the spacing reinforcing bar of third of the outside fixedly connected with round evenly distributed of reinforcing ring in the third.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the second splicing mechanism comprises a second splicing sleeve, the lower end of the second splicing sleeve is fixedly connected with a diagonal reinforcement, the inner side diameter of the second splicing sleeve is matched with the diameter homogeneous phase of the splicing reinforcement and the Z-shaped connecting reinforcement, the upper end of the outer side of the second splicing sleeve is fixedly connected with the inner side of a fifth outer reinforcement ring, and the lower end of the diagonal reinforcement is fixedly connected with the third inner reinforcement ring below the diagonal reinforcement.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the connecting assembly comprises an arc-shaped clamping sleeve, and fixing bolts are arranged at two ends between the upper wing plate and the lower wing plate of the arc-shaped clamping sleeve.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the third outer steel bar ring, the fourth outer steel bar ring and the fifth outer steel bar ring are the same in size; the first inner steel ring, the second inner steel ring and the third inner steel ring are the same in size.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the upper portion fixedly connected with round evenly distributed's first connecting reinforcement between the first interior reinforcing ring outside and the first outer reinforcing ring inboard, the below fixedly connected with round evenly distributed's second connecting reinforcement between the first interior reinforcing ring outside and the third outer reinforcing ring inboard.

The utility model adopts the device for vibrating and guiding the screw pile, and further comprises: the first outer steel bar ring and the second outer steel bar ring have the same size, and the size of the second outer steel bar ring is larger than that of the third outer steel bar ring.

The utility model has the beneficial effects that:

1. when the device is used, the vibrating rod is inserted into the inner steel ring in the middle of the device and extends into the pile hole to a proper depth, and the vibrating rod is limited at the central axis position of the pile hole through the matching of the inner steel ring and the limiting reinforcing steel bar, so that a worker can control the depth of the vibrating rod more easily, and the vibrating uniformity and the construction efficiency are greatly improved.

2. In the utility model, the outer side size of the positioning component is larger than the inner side size of the pile hole, and the outer side sizes of the inserting component and the conical structure component are smaller than the inner side size of the pile hole.

3. The positioning assembly, the inserting assembly and the conical structure assembly are all detachable through the connecting assembly, so that the device is convenient to transport and use in a turnover mode; the plurality of inserting assemblies arranged in the utility model can be mutually butted through the first splicing mechanism and are mutually fixed through the connecting assembly, so that a corresponding proper amount of inserting assemblies can be selected according to the depth of the pile hole for assembly and connection, the device can be suitable for pile holes with various depths, and the device can be suitable for pile holes with various inner diameters, wherein the inner diameter of the pile hole is larger than the diameter of the inserting assembly and smaller than the maximum diameter of the positioning assembly.

Drawings

The above and/or other advantages of the utility model will become more apparent and more readily appreciated from the following detailed description taken in conjunction with the accompanying drawings, which are given by way of illustration only and not by way of limitation, and in which:

FIG. 1 is a front view of a screw pile tamping guide according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a positioning assembly according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of an anchor nail according to an embodiment of the present invention;

FIG. 4 is a perspective view of an insert assembly according to an embodiment of the present invention;

FIG. 5 is a perspective view of a cone assembly according to one embodiment of the present invention;

fig. 6 is a schematic perspective view of a connecting assembly according to an embodiment of the utility model.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a positioning assembly; 101. a first outer bead ring; 102. a second outer steel bar ring; 103. a third outer bead ring; 104. z-shaped connecting steel bars; 105. anchoring nails; 106. positioning the sleeve; 107. a first inner bead ring; 108. a first connecting bar; 109. a second connecting reinforcement; 110. a first limiting steel bar; 2. an insertion assembly; 201. a fourth outer steel reinforcement ring; 202. a first splice sleeve; 203. splicing the steel bars; 204. a second inner bead ring; 205. a third connecting steel bar; 206. a second limiting steel bar; 3. a conical structural component; 301. a fifth outer reinforcing ring; 302. a third inner reinforcement ring; 303. a second splice sleeve; 304. diagonal bracing steel bars; 305. a fourth connecting steel bar; 306. a third limiting steel bar; 4. a connecting assembly; 401. an arc-shaped cutting sleeve; 402. and (5) fixing the bolt.

Detailed Description

Hereinafter, embodiments of the screw pile vibro-guiding apparatus of the present invention will be described with reference to the accompanying drawings.

The examples described herein are specific embodiments of the present invention, are intended to be illustrative and exemplary in nature, and are not to be construed as limiting the scope of the utility model. In addition to the embodiments described herein, those skilled in the art will be able to employ other technical solutions which are obvious based on the disclosure of the claims and the specification of the present application, and these technical solutions include technical solutions which make any obvious replacement or modification for the embodiments described herein.

The drawings in the present specification are schematic views to assist in explaining the concept of the present invention, and schematically show the shapes of respective portions and their mutual relationships. It is noted that the drawings are not necessarily to the same scale so as to clearly illustrate the structures of the various elements of the embodiments of the utility model. Like reference numerals are used to denote like parts.

Fig. 1 to 6 show a screw pile vibrating guide according to an embodiment of the present invention, which includes: locating component 1, 1 lower extreme of locating component is provided with one row of vertical arrangement's insert assembly 2, and 2 lower extremes of insert assembly of below are provided with toper structure subassembly 3, all be connected with coupling assembling 4 between locating component 1 and the insert assembly 2, between two adjacent insert assemblies 2, between insert assembly 2 of below and the toper structure subassembly 3.

The positioning assembly 1 comprises a first outer steel bar ring 101, a second outer steel bar ring 102 and a third outer steel bar ring 103 which are horizontally parallel, the second outer steel bar ring 102 is positioned between the first outer steel bar ring 101 and the third outer steel bar ring 103, the first outer steel bar ring 101 and the second outer steel bar ring 102 are the same in size, the size of the second outer steel bar ring 102 is larger than that of the third outer steel bar ring 103, a circle of Z-shaped connecting steel bars 104 which are uniformly distributed are fixedly connected to the inner sides of the first outer steel bar ring 101, the second outer steel bar ring 102 and the third outer steel bar ring 103, the lower end of each Z-shaped connecting steel bar 104 protrudes out of the lower side of the third outer steel bar ring 103, positioning sleeves 106 which are uniformly distributed are fixedly connected to the outer sides of the first outer steel bar ring 101 and the second outer steel bar ring 102, anchoring nails 105 are sleeved on the inner sides of the positioning sleeves 106, a first inner steel bar ring 107 is arranged in the middle parts of the inner sides of the first outer steel bar ring 101 and the third outer steel bar ring 103, specifically, the top fixedly connected with round evenly distributed's first connecting reinforcement 108 between the inside of first interior steel ring 107 outside and first outer steel ring 101, the below fixedly connected with round evenly distributed's second connecting reinforcement 109 between the inside of first interior steel ring 107 outside and third outer steel ring 103, the outside fixedly connected with round evenly distributed's first spacing reinforcing bar 110 of two upper and lower first interior steel ring 107.

The inserting assembly 2 comprises two fourth outer steel reinforcing rings 201 which are horizontally arranged in parallel, wherein a circle of first splicing mechanisms is fixedly connected to the inner sides of the upper and lower fourth outer steel reinforcing rings 201, the first splicing mechanisms comprise vertical first splicing sleeves 202, splicing steel bars 203 are fixedly connected to the lower ends of the first splicing sleeves 202, the inner diameters of the first splicing sleeves 202 are matched with the diameters of the splicing steel bars 203 and the Z-shaped connecting steel bars 104, the upper outer ends of the first splicing sleeves 202 are fixedly connected with the inner sides of the upper fourth outer steel reinforcing rings 201, the lower outer ends of the splicing steel bars 203 are fixedly connected with the inner sides of the lower fourth outer steel reinforcing rings 201, the lower ends of the splicing steel bars 203 protrude out of the lower sides of the lower fourth outer steel reinforcing rings 201, and a second inner steel reinforcing ring 204 is arranged in the middle of the inner sides of the upper and lower fourth outer steel reinforcing rings 201, a circle of third connecting steel bars 205 which are uniformly distributed is fixedly connected between the outer side of the second inner steel bar ring 204 above and the inner side of the fourth outer steel bar ring 201 above and between the outer side of the second inner steel bar ring 204 below and the inner side of the fourth outer steel bar ring 201 below, and a circle of second limiting steel bars 206 which are uniformly distributed is fixedly connected with the outer sides of the upper and lower second inner steel bar rings 204.

The conical structural component 3 comprises a horizontal fifth outer steel bar ring 301, a third inner steel bar ring 302 is arranged at the middle part and under the inner side of the fifth outer steel bar ring 301, a circle of uniformly distributed second splicing mechanism is connected between the fifth outer steel bar ring 301 and the third inner steel bar ring 302 below, the second splicing mechanism comprises a second splicing sleeve 303, the lower end of the second splicing sleeve 303 is fixedly connected with an inclined strut steel bar 304, the diameter of the inner side of the second splicing sleeve 303 is matched with that of the splicing steel bar 203 and the Z-shaped connecting steel bar 104, the upper end of the outer side of the second splicing sleeve 303 is fixedly connected with the inner side of the fifth outer steel bar ring 301, the lower end of the inclined strut steel bar 304 is fixedly connected with the lower third inner steel bar ring 302 below, a circle of uniformly distributed fourth connecting steel bar 305 is fixedly connected between the outer side of the third inner steel bar ring 302 and the inner side of the fifth outer steel bar ring 301, the outer sides of the upper and lower third inner reinforcement rings 302 are fixedly connected with a circle of third limiting reinforcements 306 which are uniformly distributed.

The connecting assembly 4 comprises an arc-shaped clamping sleeve 401, two ends of the arc-shaped clamping sleeve 401 between the upper wing plate and the lower wing plate are respectively provided with a fixing bolt 402, the third outer steel rib ring 103, the fourth outer steel rib ring 201 and the fifth outer steel rib ring 301 are all made of steel bars with the same diameter, the height of the inner side of the arc-shaped clamping sleeve 401 is equal to twice of the diameter of the steel bars, and the distance between the waist web of the arc-shaped clamping sleeve 401 and the fixing bolt 402 is the same as the diameter of the steel bars.

The third outer bead ring 103, the fourth outer bead ring 201 and the fifth outer bead ring 301 are all the same in size; the first inner bead ring 107, the second inner bead ring 204, and the third inner bead ring 302 are all the same size.

The working principle is as follows:

in the utility model, the outer side size of the positioning component 1 is larger than the inner side size of the pile hole, the outer side sizes of the inserting component 2 and the conical structure component 3 are smaller than the inner side size of the pile hole, when the device is installed, the inserting component 2 and the conical structure component 3 are required to be inserted into the pile hole firstly, the positioning component 1 is positioned at the upper end of the pile hole, the conical structure of the conical structure component 3 can enable the bottom end of the device to be inserted into the pile hole more easily, and then the anchoring nails 105 on the positioning component 1 are hammered into soil around the pile hole, so that the fixed installation of the device is realized, and the stability of the device is ensured.

When the device is used, the vibrating rod is inserted into the inner steel ring in the middle of the device and extends into the pile hole to a proper depth, and the vibrating rod is limited at the central axis position of the pile hole through the matching of the inner steel ring and the limiting reinforcing steel bar, so that a worker can control the depth of the vibrating rod more easily, and the vibrating uniformity and the construction efficiency are greatly improved.

The positioning assembly 1, the inserting assembly 2 and the conical structure assembly 3 are arranged in the device and can be detached through the connecting assembly 4, so that the device is convenient to transport and use in a turnover mode; the plurality of inserting components 2 arranged in the utility model can be mutually butted through the first splicing mechanism and are mutually fixed through the connecting component 4, so that a proper amount of inserting components 2 can be selected according to the depth of the pile hole for assembly and connection, the device can be suitable for the pile holes with various depths, and the device can be suitable for the pile holes with various inner diameters, wherein the inner diameter of the pile holes is larger than that of the inserting components 2 and smaller than the maximum diameter of the positioning component 1.

The technical features disclosed above are not limited to the combinations with other features disclosed, and other combinations between the technical features can be performed by those skilled in the art according to the purpose of the utility model, so as to achieve the purpose of the utility model.

Claims (10)

1. A screw pile vibrating guide, comprising: the positioning device comprises a positioning assembly (1), wherein a row of vertically arranged inserting assemblies (2) is arranged at the lower end of the positioning assembly (1), a conical structure assembly (3) is arranged at the lower end of the lowest inserting assembly (2), and connecting assemblies (4) are connected between the positioning assembly (1) and the inserting assemblies (2), between two adjacent inserting assemblies (2) and between the lowest inserting assembly (2) and the conical structure assembly (3);

the positioning component (1) comprises a first outer steel bar ring (101), a second outer steel bar ring (102) and a third outer steel bar ring (103) which are horizontally parallel, the second outer steel bar ring (102) is positioned between the first outer steel bar ring (101) and the third outer steel bar ring (103), the first outer steel bar ring (101), the second outer steel bar ring (102) and the third outer steel bar ring (103) are fixedly connected with a circle of Z-shaped connecting steel bars (104) which are uniformly distributed on the inner side, the lower ends of the Z-shaped connecting steel bars (104) protrude out of the lower side of the third outer steel bar ring (103), the first outer steel bar ring (101) and the second outer steel bar ring (102) are fixedly connected with a circle of positioning sleeves (106) which are uniformly distributed on the outer side, anchoring nails (105) are sleeved on the inner side of the positioning sleeves (106), and a first inner steel bar ring (107) is arranged in the middle of the inner sides of the first outer steel bar ring (101) and the third outer steel bar ring (103), the outer sides of the upper and lower first inner steel bar rings (107) are fixedly connected with a circle of first limiting steel bars (110) which are uniformly distributed.

2. The screw pile vibrating and guiding device as claimed in claim 1, wherein the insertion assembly (2) comprises two fourth outer reinforcing rings (201) which are horizontally arranged up and down, a circle of first splicing mechanism is fixedly connected to the inner sides of the upper and lower fourth outer reinforcing rings (201) and is uniformly distributed, a second inner reinforcing ring (204) is arranged in the middle of the inner sides of the upper and lower fourth outer reinforcing rings (201), and a circle of second limiting reinforcing bars (206) is fixedly connected to the outer sides of the upper and lower second inner reinforcing rings (204) and is uniformly distributed.

3. A screw pile vibrating guide as claimed in claim 2, wherein the first splicing mechanism comprises a first vertical splicing sleeve (202), the lower end of the first splicing sleeve (202) is fixedly connected with a splicing steel bar (203), the inside diameter of the first splicing sleeve (202) is matched with the diameters of the splicing steel bar (203) and the Z-shaped connecting steel bar (104), the upper outside end of the first splicing sleeve (202) is fixedly connected with the inside of the fourth upper outer steel bar ring (201), the lower outside end of the splicing steel bar (203) is fixedly connected with the inside of the fourth lower outer steel bar ring (201), and the lower end of the splicing steel bar (203) protrudes out of the lower side of the fourth lower steel bar ring (201).

4. A screw pile vibrating guide as claimed in claim 2, wherein a ring of evenly distributed third connecting bars (205) is fixedly connected between the outside of the upper second inner bead (204) and the inside of the upper fourth outer bead (201), and between the outside of the lower second inner bead (204) and the inside of the lower fourth outer bead (201).

5. The screw pile vibrating guide device according to claim 1, wherein the conical structural component (3) comprises a horizontal fifth outer reinforcement ring (301), a third inner reinforcement ring (302) is arranged in the middle of and right below the inner side of the fifth outer reinforcement ring (301), a circle of uniformly distributed second splicing mechanism is connected between the fifth outer reinforcement ring (301) and the lower third inner reinforcement ring (302), a circle of uniformly distributed fourth connecting reinforcements (305) are fixedly connected between the outer side of the upper third inner reinforcement ring (302) and the inner side of the fifth outer reinforcement ring (301), and a circle of uniformly distributed third limiting reinforcements (306) are fixedly connected to the outer sides of the upper and lower third inner reinforcement rings (302).

6. A screw pile vibrating guide device according to claim 5, wherein the second splicing mechanism comprises a second splicing sleeve (303), the lower end of the second splicing sleeve (303) is fixedly connected with a diagonal reinforcement (304), the inside diameter of the second splicing sleeve (303) is matched with the diameters of the splicing reinforcement (203) and the Z-shaped connecting reinforcement (104), the upper end of the outside of the second splicing sleeve (303) is fixedly connected with the inside of a fifth outer reinforcement ring (301), and the lower end of the diagonal reinforcement (304) is fixedly connected with a lower third inner reinforcement ring (302).

7. The screw pile vibrating guide device according to claim 1, wherein the connecting assembly (4) comprises an arc-shaped clamping sleeve (401), and fixing bolts (402) are arranged at two ends between an upper wing plate and a lower wing plate of the arc-shaped clamping sleeve (401).

8. A screw pile vibrating guide as claimed in claim 1, characterised in that the third outer tendon (103), fourth outer tendon (201) and fifth outer tendon (301) are all the same size; the first inner reinforcement ring (107), the second inner reinforcement ring (204) and the third inner reinforcement ring (302) are all the same in size.

9. A screw pile vibrating guide according to claim 1, characterised in that a circle of evenly distributed first connecting reinforcement bars (108) is fixedly connected between the outer side of the upper first inner reinforcement ring (107) and the inner side of the first outer reinforcement ring (101), and a circle of evenly distributed second connecting reinforcement bars (109) is fixedly connected between the outer side of the lower first inner reinforcement ring (107) and the inner side of the third outer reinforcement ring (103).

10. A screw pile vibrating guide as claimed in claim 1, in which the first outer bead (101) and the second outer bead (102) are of the same size, and the second outer bead (102) is of a larger size than the third outer bead (103).

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