CN215406085U - Foundation ditch supporting construction for foundation engineering construction - Google Patents

Abstract

The utility model discloses a foundation pit supporting structure for foundation engineering construction, which comprises a first plate body and a second plate body, wherein the second plate body is arranged on one side of the first plate body, an installation structure is arranged between two sides of the inner parts of the first plate body and the second plate body, a splicing structure is arranged between one sides of the first plate body and the second plate body, and reinforcing structures are respectively arranged in the inner parts of one ends of the first plate body and one end of the second plate body. This foundation ditch supporting structure for foundation engineering construction is provided with reinforced structure respectively through the inside at first plate body and second plate body one end, take out and arrange in the locating plate of accomodating the chamber bottom, fix it in the pit with the bolt behind the angle of bracing piece, the inserted bar on bracing piece top relies on the buffer spring of outside parcel to slide in the inside of built-in groove and finally adjust the position of self according to elasticity this moment, both made things convenient for locating plate angle of adjustment and strengthened the intensity of auxiliary stay again, the unable problem of adjusting of side's supporting tool has been solved.

Description

Foundation ditch supporting construction for foundation engineering construction

Technical Field

The utility model relates to the technical field of foundation pit supporting devices, in particular to a foundation pit supporting structure for foundation engineering construction.

Background

The foundation pit is a soil pit planned and excavated in advance as an engineering construction, protection operations such as water prevention, drainage, stabilization, soil layer grouting and the like are often required due to different regional environments, the simplest method is to support the side wall and the soil wall by adopting a plurality of groups of supporting tools, but most of the supporting structures are in single-piece forms, the supporting structures need to be fixed by welding, and auxiliary tools on the side also need to be measured and installed one by one, so that the foundation pit is very complicated and inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a foundation pit supporting structure for foundation engineering construction, which aims to solve the problem that the lateral supporting tool cannot be adjusted in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a foundation ditch supporting construction for foundation engineering construction, includes first plate body and second plate body, one side of first plate body is provided with the second plate body, be provided with mounting structure between the both sides of first plate body and second plate body inside, be provided with mosaic structure between one side of first plate body and second plate body, the inside of first plate body and second plate body one end is provided with reinforced structure respectively.

Preferably, the reinforced structure is including accomodating the chamber, it sets up the inside in first plate body and second plate body one end respectively to accomodate the chamber, the top swing joint who accomodates the intracavity portion has the sleeve, the inside top of sleeve is provided with built-in groove, the inside in built-in groove is provided with the inserted bar, the bottom fixedly connected with bracing piece of inserted bar, the bracing piece, fixedly connected with locating plate between one side of bracing piece bottom, fixedly connected with buffer spring between built-in groove and the bracing piece.

Preferably, the mounting structure comprises an upper transverse groove, a rotating shaft, a central fluted disc, a first chain belt, a lateral fluted disc, a transmission loop bar, a lower transverse groove, a central loop bar, a second chain belt, a ground anchor and a linkage fluted disc, wherein the upper transverse groove is arranged between two sides of the top of one end of the first plate body, the middle position inside the upper transverse groove is movably connected with the central fluted disc, the top end of the central fluted disc penetrates through the upper transverse groove to be fixedly connected with the rotating shaft, two sides inside the upper transverse groove are respectively and movably connected with the lateral fluted disc, the first chain belt is movably connected between the lateral fluted disc and one side of the central fluted disc, the bottom end of the lateral fluted disc is fixedly connected with the transmission loop bar, the central loop bar is respectively and movably connected between the top end and the bottom end inside the first plate body, the lower transverse groove is arranged inside the bottom end of the first plate body, the bottom ends of the transmission loop bar and the central loop bar respectively penetrate through the lower transverse groove to be fixedly connected with the linkage fluted disc, and a second chain belt is movably connected between one side of the linkage fluted disc, and the transmission loop bar and the inside of the central loop bar are respectively and movably connected with a ground anchor.

Preferably, the transmission sleeve rods are symmetrically distributed about a vertical middle line of the first plate body.

Preferably, mosaic structure comprises draw-in groove, fixture block, cavity, inserted block, axle sleeve groove, reset spring and stationary blade, the draw-in groove sets up the inside in first plate body and second plate body one side respectively, the top and the bottom of draw-in groove are provided with the axle sleeve groove respectively, the fixture block is respectively in the inside of first plate body and second plate body opposite side, the inside top of fixture block is provided with the cavity respectively with the bottom, the inside fixedly connected with reset spring of cavity, reset spring's one end fixedly connected with inserted block, the one end fixedly connected with stationary blade of inserted block.

Preferably, the insert block and the shaft sleeve groove are in the same horizontal plane.

Compared with the prior art, the utility model has the beneficial effects that: the foundation pit supporting structure for foundation engineering construction not only realizes convenient adjustment of lateral supporting tools, realizes convenient installation and disassembly of supporting tools, but also realizes convenient splicing and fixing among plates;

(1) the reinforcing structures are respectively arranged inside one ends of the first plate body and the second plate body and comprise a containing cavity, the positioning plate arranged at the bottom end of the containing cavity is taken out, the supporting rod is fixed in the pit by a bolt after the angle of the supporting rod is changed, the inserted rod at the top end of the supporting rod slides in the inner part of the built-in groove by virtue of a buffer spring wrapped outside and finally adjusts the position of the inserted rod according to elasticity, so that the angle of the positioning plate can be conveniently adjusted, and the strength of the auxiliary support is reinforced;

(2) the installation structure is arranged between two sides of the inner parts of the first plate body and the second plate body and consists of an upper transverse groove, a rotary shaft, a central fluted disc, a first chain belt, a lateral fluted disc, a transmission loop bar, a lower transverse groove, a central loop bar, a second chain belt, a ground anchor and a linkage fluted disc, the rotary shaft is rotated, the central fluted disc fixed at the bottom end of the rotary shaft and the first chain belt connected with various objects drive the lateral fluted disc and the transmission loop bar to rotate together, and each central loop bar is driven by the linkage fluted disc and the second chain belt to rotate synchronously with the transmission loop bar, so that the ground anchor arranged by internal threads of the central loop bar can be screwed into the ground bottom from the lower transverse groove;

(3) through being provided with mosaic structure between one side at first plate body and second plate body, mosaic structure is by the draw-in groove, the fixture block, the cavity, the inserted block, the axle sleeve groove, reset spring and stationary blade are constituteed, stir the stationary blade that inserted block one end set up to center department along the cavity, and insert after aiming at the draw-in groove with its fixture block when the inserted block retraction cavity is inside, loosen the stationary blade, alright insert the inside in axle sleeve groove with the axis body of inserted block one end under reset spring's promotion, accomplish the installation concatenation of first plate body and second plate body promptly, and direction of rotation is adjustable, dismantle also comparatively save time.

Drawings

FIG. 1 is a schematic front sectional view of the present invention;

FIG. 2 is a schematic front sectional view of the mounting structure of the present invention;

FIG. 3 is a schematic view of a front cross-sectional structure of the splicing structure of the present invention;

fig. 4 is a schematic front sectional view of the first plate according to the present invention.

In the figure: 1. a first plate body; 2. a mounting structure; 201. an upper transverse groove; 202. rotating the shaft; 203. a central fluted disc; 204. a first chain belt; 205. a lateral fluted disc; 206. a drive loop bar; 207. a lower transverse groove; 208. a central loop bar; 209. a second chain belt; 210. a ground anchor; 211. a linkage fluted disc; 3. splicing structures; 301. a card slot; 302. a clamping block; 303. a cavity; 304. inserting a block; 305. a shaft sleeve groove; 306. a return spring; 307. a fixing sheet; 4. a receiving cavity; 5. a support bar; 6. positioning a plate; 7. a sleeve; 8. a buffer spring; 9. a second plate body; 10. inserting a rod; 11. a groove is arranged in the groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1: referring to fig. 1-4, a foundation pit supporting structure for foundation engineering construction comprises a first plate body 1 and a second plate body 9, wherein the second plate body 9 is arranged on one side of the first plate body 1, an installation structure 2 is arranged between two sides of the inner parts of the first plate body 1 and the second plate body 9, a splicing structure 3 is arranged between one sides of the first plate body 1 and the second plate body 9, and reinforcing structures are respectively arranged in the inner parts of one ends of the first plate body 1 and one end of the second plate body 9;

referring to fig. 1-4, a foundation pit supporting structure for foundation engineering construction further comprises a reinforcing structure, the reinforcing structure comprises a containing cavity 4, the containing cavity 4 is respectively arranged inside one end of the first plate body 1 and one end of the second plate body 9, the top end inside the containing cavity 4 is movably connected with a sleeve 7, the top end inside the sleeve 7 is provided with an internal groove 11, an inserted rod 10 is arranged inside the internal groove 11, the bottom end of the inserted rod 10 is fixedly connected with a supporting rod 5, the supporting rod 5 is fixedly connected with a positioning plate 6 between one side of the bottom end of the supporting rod 5, and a buffer spring 8 is fixedly connected between the internal groove 11 and the supporting rod 5;

specifically, as shown in fig. 1 and 4, the positioning plate 6 disposed at the bottom end of the storage cavity 4 is taken out, the supporting rod 5 is fixed in the pit by a bolt after the angle thereof is adjusted, and at this time, the inserted rod 10 at the top end of the supporting rod 5 slides in the inner groove 11 by virtue of the buffer spring 8 wrapped outside and finally adjusts the position thereof according to elasticity, so that the angle adjustment of the positioning plate 6 is facilitated, and the strength of the auxiliary support is enhanced.

Example 2: the mounting structure 2 comprises an upper transverse groove 201, a rotating shaft 202, a central fluted disc 203, a first chain belt 204, a lateral fluted disc 205, a transmission sleeve rod 206, a lower transverse groove 207, a central fluted disc 208, a second chain belt 209, a ground anchor 210 and a linkage fluted disc 211, wherein the upper transverse groove 201 is arranged between two sides of the top of one end of the first plate body 1, the central fluted disc 203 is movably connected at the middle position inside the upper transverse groove 201, the rotating shaft 202 is fixedly connected with the top end of the central fluted disc 203 by penetrating through the upper transverse groove 201, the lateral fluted disc 205 is respectively and movably connected at two sides inside the upper transverse groove 201, the first chain belt 204 is movably connected between the lateral fluted disc 205 and one side of the central fluted disc 203, the transmission sleeve rod 206 is fixedly connected at the bottom end of the lateral fluted disc 205, the central fluted disc 208 is respectively and movably connected between the top end and the bottom end inside the first plate body 1, the lower transverse groove 207 is arranged inside the bottom end of the first plate body 1, the transmission sleeve rod 206 and the bottom end of the central fluted disc 208 are respectively and fixedly connected with the linkage fluted disc 211 by penetrating through the lower transverse groove 207, a second chain belt 209 is movably connected between one side of the linkage fluted disc 211, the inner parts of the transmission loop bar 206 and the central loop bar 208 are respectively and movably connected with a ground anchor 210, and the transmission loop bar 206 is symmetrically distributed about the vertical mid-line of the first plate body 1;

specifically, as shown in fig. 1 and 2, the rotating shaft 202 is rotated, the central toothed disc 203 fixed at the bottom end thereof and the first chain belt 204 connected to the objects drive the lateral toothed disc 205 and the driving sleeve rod 206 to rotate together, and each central sleeve rod 208 is driven by the linkage toothed disc 211 and the second chain belt 209 to rotate synchronously with the driving sleeve rod 206, so that the ground anchor 210 screwed therein can be screwed into the ground from the lower transverse groove 207.

Example 3: the splicing structure 3 comprises a clamping groove 301, a clamping block 302, a cavity 303, an inserting block 304, a shaft sleeve groove 305, a reset spring 306 and a fixing plate 307, wherein the clamping groove 301 is respectively arranged inside one side of the first plate body 1 and one side of the second plate body 9, the top end and the bottom end of the clamping groove 301 are respectively provided with the shaft sleeve groove 305, the clamping block 302 is respectively arranged inside the other side of the first plate body 1 and the other side of the second plate body 9, the top end and the bottom end inside the clamping block 302 are respectively provided with the cavity 303, the reset spring 306 is fixedly connected inside the cavity 303, one end of the reset spring 306 is fixedly connected with the inserting block 304, one end of the inserting block 304 is fixedly connected with the fixing plate 307, and the inserting block 304 and the shaft sleeve groove 305 are positioned on the same horizontal plane;

specifically, as shown in fig. 1 and fig. 3, the fixing plate 307 arranged at one end of the insertion block 304 is shifted toward the center along the cavity 303, and when the insertion block 304 retracts into the cavity 303, the clamping block 302 is aligned with the clamping groove 301 and then inserted, and the fixing plate 307 is released, so that the shaft body at one end of the insertion block 304 can be inserted into the shaft sleeve groove 305 under the pushing of the return spring 306, that is, the first plate body 1 and the second plate body 9 can be assembled and spliced, and the rotation direction can be adjusted, so that the disassembly is time-saving.

The working principle is as follows: when the utility model is used, firstly, the fixing plate 307 arranged at one end of the inserting block 304 is shifted towards the center along the cavity 303 at the bottom of the foundation pit, the inserting block 304 is inserted after aligning the clamping block 302 with the clamping groove 301 when being retracted into the cavity 303, the fixing plate 307 is loosened, the shaft body at one end of the inserting block 304 can be inserted into the shaft sleeve groove 305 under the pushing of the reset spring 306, namely, the first plate body 1 and the second plate body 9 are assembled and spliced, the direction angle is adjusted, the rotating shaft 202 is rotated, the central fluted disc 203 fixed at the bottom end thereof and the first chain belt 204 connected with all the objects drive the lateral fluted disc 205 and the driving sleeve rod 206 to rotate together, each central sleeve rod 208 is driven by the linkage fluted disc 211 and the second chain belt 209 to rotate synchronously with the driving sleeve rod 206, the ground anchor 210 arranged on the inner thread thereof is screwed into the ground bottom from the lower transverse groove 207, finally, the positioning plate 6 arranged at the bottom end of the accommodating cavity 4 is taken out, the supporting rod 5 is fixed in the ground pit by bolts, at this time, the inserted rod 10 at the top end of the support rod 5 slides in the built-in groove 11 by virtue of the buffer spring 8 wrapped outside and finally adjusts the position of the inserted rod according to elasticity, so that the angle of the positioning plate 6 can be conveniently adjusted, and the strength of the auxiliary support is strengthened.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a foundation ditch supporting construction for foundation engineering construction, includes first plate body (1) and second plate body (9), its characterized in that: one side of the first plate body (1) is provided with a second plate body (9), a mounting structure (2) is arranged between two sides of the inner portions of the first plate body (1) and the second plate body (9), a splicing structure (3) is arranged between one side of the first plate body (1) and one side of the second plate body (9), and reinforcing structures are arranged in the inner portions of one ends of the first plate body (1) and the second plate body (9) respectively.

2. The foundation pit supporting structure for foundation engineering construction according to claim 1, wherein: the reinforced structure is including accomodating chamber (4), accomodate chamber (4) and set up respectively in the inside of first plate body (1) and second plate body (9) one end, the inside top swing joint of accomodating chamber (4) has sleeve (7), the inside top of sleeve (7) is provided with built-in groove (11), the inside in built-in groove (11) is provided with inserted bar (10), the bottom fixedly connected with bracing piece (5) of inserted bar (10), bracing piece (5), fixedly connected with locating plate (6) between one side of bracing piece (5) bottom, fixedly connected with buffer spring (8) between built-in groove (11) and bracing piece (5).

3. The foundation pit supporting structure for foundation engineering construction according to claim 1, wherein: the mounting structure (2) comprises an upper transverse groove (201), a rotary shaft (202), a central fluted disc (203), a first chain belt (204), a lateral fluted disc (205), a transmission loop bar (206), a lower transverse groove (207), a central loop bar (208), a second chain belt (209), a ground anchor (210) and a linkage fluted disc (211), wherein the upper transverse groove (201) is arranged between two sides of the top of one end of the first plate body (1), the central fluted disc (203) is movably connected to the middle position inside the upper transverse groove (201), the top end of the central fluted disc (203) penetrates through the upper transverse groove (201) and is fixedly connected with the rotary shaft (202), the two sides inside the upper transverse groove (201) are respectively and movably connected with the lateral fluted disc (205), the first chain belt (204) is movably connected between one side of the lateral fluted disc (205) and the central fluted disc (203), the bottom end of the lateral fluted disc (205) is fixedly connected with the transmission loop bar (206), center loop bar (208) swing joint is respectively between the inside top of first plate body (1) and bottom, horizontal groove (207) set up the inside in first plate body (1) bottom down, horizontal groove (207) fixedly connected with linkage fluted disc (211) down is passed respectively with the bottom of center loop bar (208) in transmission loop bar (206), swing joint has second chain belt (209) between one side of linkage fluted disc (211), swing joint has earth anchor (210) respectively with the inside of center loop bar (208).

4. The foundation pit supporting structure for foundation engineering construction according to claim 3, wherein: the transmission sleeve rods (206) are symmetrically distributed about a vertical middle line of the first plate body (1).

5. The foundation pit supporting structure for foundation engineering construction according to claim 1, wherein: mosaic structure (3) comprise draw-in groove (301), fixture block (302), cavity (303), inserted block (304), axle sleeve groove (305), reset spring (306) and stationary blade (307), draw-in groove (301) sets up the inside in first plate body (1) and second plate body (9) one side respectively, the top and the bottom of draw-in groove (301) are provided with axle sleeve groove (305) respectively, fixture block (302) are respectively in the inside of first plate body (1) and second plate body (9) opposite side, the inside top and the bottom of fixture block (302) are provided with cavity (303) respectively, the inside fixedly connected with reset spring (306) of cavity (303), the one end fixedly connected with inserted block (304) of reset spring (306), the one end fixedly connected with stationary blade (307) of inserted block (304).

6. The foundation pit supporting structure for foundation engineering construction according to claim 5, wherein: the insert block (304) and the shaft sleeve groove (305) are in the same horizontal plane.

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