CN219298185U - Mosaic type anti-impact pile wall joint groove structure - Google Patents

Abstract

The utility model relates to the technical field of building construction, in particular to an embedded anti-impact pile wall joint groove structure, which comprises the following components: the pile wall comprises pile wall bodies which are uniformly distributed, wherein two adjacent pile wall bodies are arranged in a straight line; the connecting devices are uniformly distributed and are arranged in the pile wall body, two ends of each connecting device penetrate through two ends of the pile wall body respectively, and two adjacent connecting devices are clamped; through setting up connecting device, because this coupling mechanism is before not triggering through the rack, all coupling hooks are all hidden in the mounting groove, and I can be in the mounting bar that links to each other with it in the joint groove, coupling mechanism and joint groove are difficult to be touched when the transport, this effectual coupling mechanism and joint groove of having reduced are equipped with the probability of damaging to ensure that two adjacent stake wall bodies can establish effectual relation of connection.

Description

Mosaic type anti-impact pile wall joint groove structure

Technical Field

The utility model relates to the technical field of building construction, in particular to an embedded anti-impact pile wall joint groove structure.

Background

Sheet pile walls are a retaining structure formed of upstanding slat-like members, typically intended to resist lateral earth pressure. Therefore, the sheet pile wall is generally used for foundation pit support engineering, slope protection and temporary cofferdam and underground structure construction in a mosaic installation mode.

At present, the prefabricated pile wall is required to be integrally cast at the joint of the prefabricated pile wall and the adjacent pile wall to form a concave-convex structure, and as the convex part of the concave-convex structure is usually a plain concrete structure lacking reinforcing steel bars and coarse aggregate, the prefabricated pile wall is also easy to be stressed and damaged in the manufacturing, carrying or mounting process, so that the adjacent two prefabricated pile walls cannot establish an effective connection relationship.

Disclosure of Invention

The utility model aims to solve the problems and provides the joint groove structure of the embedded anti-impact pile wall, which improves the condition that the joint groove structure of the embedded anti-impact pile wall is easy to be stressed and damaged during manufacturing and transportation, so that the adjacent two prefabricated pile walls cannot establish an effective connection relationship.

An embedded impact-resistant pile wall joint groove structure, comprising: the pile wall comprises pile wall bodies which are uniformly distributed, wherein two adjacent pile wall bodies are arranged in a straight line; the connecting devices are uniformly distributed and are arranged in the pile wall body, two ends of each connecting device penetrate through two ends of the pile wall body respectively, and two adjacent connecting devices are clamped; wherein, connecting device includes two and respectively fixed connection in the installation strip at stake wall body both ends, two fixedly connected with evenly distributed just all sets up in the inside strengthening rib of stake wall body between the installation strip, one of them internally mounted of installation strip have with adjacent another coupling mechanism of installation strip joint, coupling mechanism's both ends all joint has anti-loosening mechanism, through setting up connecting device, because this coupling mechanism is before not triggered through the rack, all coupling hooks all hide in the mounting groove, and the joint groove I can be in the installation strip that links to each other with it, coupling mechanism and joint groove are difficult to be touched when the transport, this effectual coupling mechanism and joint groove of having reduced are equipped with the probability of loss to ensure that two adjacent stake wall bodies can establish effectual relation of connection.

Preferably, one of them the mounting bar is kept away from the one end of stake wall body and is offered the mounting groove, another the mounting bar is kept away from the one end of stake wall body and is offered evenly distributed's joint groove, coupling mechanism includes two and rotates the pivot of connecting in the mounting groove inner wall, the fixed surface of pivot is connected with evenly distributed and respectively with adjacent the coupling hook of joint groove joint, the inner wall rotation of mounting groove is connected with the spur gear, the both ends of spur gear and two equal fixedly connected with bevel gear shaft in upper end of pivot, adjacent two bevel gear shaft meshing is connected, the inner wall grafting of mounting groove has the rack of being connected with the spur gear meshing, through setting up coupling mechanism, and during all coupling hooks card was adjusted simultaneously to the staff's accessible rack was advanced corresponding joint groove, need not the staff and adjusts next to reduce the degree of difficulty of connecting two adjacent stake wall bodies of staff.

Preferably, the two bevel gear shafts above are respectively meshed with the adjacent bevel gear shafts on the surfaces far away from the spur gears, and the rack drives the spur gears to ninety degrees, so that the two rotating shafts can be guaranteed to rotate in opposite directions, and further, the connecting hooks can be guaranteed to establish an effective connection relationship with the corresponding clamping grooves.

Preferably, the shapes of the clamping grooves and the connecting hooks are matched, two adjacent clamping grooves and two adjacent connecting hooks are staggered, and the positions of the connecting hooks and the adjacent clamping grooves are aligned, so that the whole volume of the connecting mechanism can be reduced, and the utilization rate of space is improved.

Preferably, a coil spring fixedly connected with the mounting groove is fixedly connected to the surface of the bevel gear shaft above, and the coil spring is in a compressed state at the moment, so that the rotation of the spur gear or the bevel gear shaft before being triggered can be prevented, and the connecting hook is always positioned in the mounting groove before being triggered.

Preferably, the constant head tank has all been seted up at the both ends of rack, one of them the standing groove that two just communicate with the mounting groove respectively has been seted up to the inside of mounting bar, locking mechanism includes sliding connection in the standing groove and with adjacent the locating piece of standing groove joint, be provided with the spring that is in compression state all the time between locating piece and the standing groove, through setting up locking mechanism, after coupling hook and the inseparable joint of joint groove, the locating piece loses the jam this moment, the spring releases the locating piece fast and is in the same place with adjacent standing groove joint, lock the rack firmly in the inside of mounting groove with the locating piece losing the jam this moment, the spring releases the locating piece fast and is in the same place with adjacent standing groove joint, lock the rack firmly in the inside of mounting groove, this can reduce the probability that the rack becomes flexible or drops, in order to ensure that coupling hook and joint groove establish effectual relation all the time.

Preferably, the connecting parts of the positioning blocks and the adjacent positioning grooves and the vertical cross section of the positioning grooves are right-angled triangles which are matched, and the oblique sides of the right-angled triangles face upwards, so that a worker can easily insert racks into the mounting grooves without actively adjusting the positions of the positioning blocks.

The beneficial effects of the utility model are as follows:

1. by arranging the connecting device, all connecting hooks are hidden in the mounting groove before the connecting mechanism is triggered by the rack, and the clamping groove can be formed in the mounting bar connected with the connecting mechanism, so that the connecting mechanism and the clamping groove are difficult to touch during carrying, the probability of standby loss of the connecting mechanism and the clamping groove is effectively reduced, and the effective connection relation between two adjacent pile wall bodies can be ensured;

2. by arranging the connecting mechanism, a worker can simultaneously adjust all the connecting hook clamps through the racks to carry out corresponding clamping grooves without the need of adjusting the worker one by one, so as to reduce the difficulty of connecting two adjacent pile wall bodies of the worker;

3. through setting up locking mechanism, after coupling hook and the inseparable joint in joint groove, the locating piece loses the blocking this moment, and the spring is with the locating piece release the standing groove fast and with adjacent constant head tank joint together, with the inside of rack firmly locking at the mounting groove, the locating piece loses the blocking this moment, and the spring releases the standing groove fast and with adjacent constant head tank joint together with the locating piece, firmly locks the rack in the inside of mounting groove, this probability that can reduce the rack and become flexible or drop to guarantee coupling hook and joint groove establish effectual relation of connection throughout.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a connecting device according to the present utility model;

FIG. 3 is a schematic view in partial section of the connecting device of the present utility model;

FIG. 4 is a schematic diagram showing the connection of the connecting hook and the clamping groove in the present utility model;

fig. 5 is a schematic structural view of the connecting mechanism and the anti-loosening mechanism in the present utility model.

In the figure: 1. a pile wall body; 2. a connecting device; 21. a mounting bar; 211. a mounting groove; 212. a clamping groove; 213. a placement groove; 22. reinforcing ribs; 23. a connecting mechanism; 231. a rotating shaft; 232. a connecting hook; 233. spur gears; 234. a bevel gear shaft; 235. a rack; 236. a coil spring; 237. a positioning groove; 24. an anti-loosening mechanism; 241. a positioning block; 242. and (3) a spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The specific implementation method comprises the following steps: as shown in fig. 1-5, a mosaic type impact-resistant pile wall joint groove structure comprises: the pile wall comprises pile wall bodies 1 which are uniformly distributed, wherein two adjacent pile wall bodies 1 are arranged in a straight line; the connecting devices 2 are uniformly distributed, the connecting devices 2 are arranged in the pile wall body 1, two ends of each connecting device 2 respectively penetrate through two ends of the pile wall body 1, and two adjacent connecting devices 2 are clamped; wherein, connecting device 2 includes two and respectively fixed connection in the installation strip 21 at stake wall body 1 both ends, and fixedly connected with evenly distributed just all sets up in the inside strengthening rib 22 of stake wall body 1 between two installation strips 21, and the internally mounted of one of them installation strip 21 has the coupling mechanism 23 with adjacent another installation strip 21 joint, and the both ends of coupling mechanism 23 all joint has locking mechanism 24.

As shown in fig. 3, fig. 4 and fig. 5, one end of one mounting bar 21 far away from the pile wall body 1 is provided with a mounting groove 211, the other end of the other mounting bar 21 far away from the pile wall body 1 is provided with uniformly distributed clamping grooves 212, the connecting mechanism 23 comprises two rotating shafts 231 which are rotatably connected to the inner wall of the mounting groove 211, the surfaces of the rotating shafts 231 are fixedly connected with connecting hooks 232 which are uniformly distributed and respectively clamped with the adjacent clamping grooves 212, the inner wall of the mounting groove 211 is rotatably connected with a spur gear 233, two ends of the spur gear 233 and the upper ends of the two rotating shafts 231 are fixedly connected with bevel gear shafts 234, the adjacent two bevel gear shafts 234 are in meshed connection, and the inner wall of the mounting groove 211 is spliced with racks 235{ the positions of the initial states of the connecting hooks 232 { are all positioned in the inner part of the mounting groove 211 }; the surfaces of the upper two bevel gear shafts 234 far away from the spur gear 233 are respectively connected with adjacent bevel gear shafts 234 in a meshed manner, and the angle of the rack 235 driving the spur gear 233 is ninety degrees; the shapes of the clamping grooves 212 and the connecting hooks 232 are matched, the adjacent two clamping grooves 212 and the adjacent two connecting hooks 232 are mutually staggered, and the positions of the connecting hooks 232 and the adjacent clamping grooves 212 are aligned; a coil spring 236 fixedly coupled to the mounting groove 211 is fixedly coupled to a surface of the upper bevel gear shaft 234, and the coil spring 236 is in a compressed state at this time.

As shown in fig. 3 and 5, positioning grooves 237 are formed at two ends of the rack 235, two positioning grooves 213 which are respectively communicated with the mounting grooves 211 are formed in one mounting bar 21, the anti-loosening mechanism 24 comprises a positioning block 241 which is slidably connected with the positioning grooves 213 and is clamped with the adjacent positioning grooves 237, a spring 242 which is always in a compressed state is arranged between the positioning block 241 and the positioning groove 213 { after the connecting hook 232 is tightly clamped with the clamping groove 212, the rack 235 just completely submerges into the mounting groove 211 at the moment, the positioning groove 237 just aligns with the positioning groove 213, at the moment, the positioning block 241 is blocked by the positioning block 241, and the spring 242 rapidly pushes the positioning block 241 out of the positioning groove 213 and is clamped with the adjacent positioning groove 237, so that the rack 235 is firmly locked in the mounting groove 211 }; the connection part of the positioning block 241 and the adjacent positioning groove 237 and the vertical cross section shape of the positioning groove 237 are right triangles which are matched, and the hypotenuse of the right triangle faces upwards.

When the utility model is used, when a worker needs to connect two pile wall bodies 1 together, the worker firstly installs two adjacent pile wall bodies 1 in a straight shape, and attaches and aligns the mounting bar 21 driving the connecting mechanism 23 with the mounting bar 21 with the clamping groove 212, then the worker inserts the rack 235 into the corresponding mounting groove 211, in the process of downward movement of the rack 235, the rack 235 is meshed with the spur gear 233 and drives the spur gear 233 to rotate, the spur gear 233 simultaneously drives the upper two bevel gear shafts 234 connected with the spur gear 233 to rotate, the upper bevel gear shaft 234 drives the lower bevel gear shaft 234 connected with the spur gear shafts to rotate in opposite directions, the lower bevel gear shaft 234 drives the rotating shaft 231 to rotate, the rotating shaft 231 drives the connecting hooks 232 connected with the rotating shaft 231 to rotate out of the mounting groove 211 and clamp the adjacent clamping groove 212, at the moment, the two adjacent mounting bars 21 are firmly locked together by the connecting mechanism 23 in cooperation with the clamping groove 212, and the worker can perform the connection work of the next pile wall body 1;

because the connecting mechanism 23 is hidden in the mounting groove 211 before being triggered by the racks 235, and the clamping groove 212 can be arranged in the mounting bar 21 connected with the connecting mechanism 23, the connecting mechanism 23 and the clamping groove 212 are difficult to touch during carrying, the probability of standby damage of the connecting mechanism 23 and the clamping groove 212 is effectively reduced, and the effective connection relation between two adjacent pile wall bodies 1 can be ensured.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (7)

1. The utility model provides a mosaic formula scour protection stake wall joint groove structure which characterized in that includes:

the pile wall comprises pile wall bodies (1) which are uniformly distributed, wherein two adjacent pile wall bodies (1) are arranged in a straight line;

the connecting devices (2) are uniformly distributed, the connecting devices (2) are arranged in the pile wall body (1), two ends of each connecting device (2) respectively penetrate through two ends of the pile wall body (1), and two adjacent connecting devices (2) are clamped;

wherein, connecting device (2) include two and respectively fixed connection in installing strip (21) at stake wall body (1) both ends, two fixedly connected with evenly distributed just all set up in inside strengthening rib (22) of stake wall body (1) between installing strip (21), one of them internally mounted of installing strip (21) have with adjacent another coupling mechanism (23) of installing strip (21) joint, the equal joint in both ends of coupling mechanism (23) has locking mechanism (24).

2. The embedded impact-resistant pile wall joint groove structure as claimed in claim 1, wherein: one of them mounting bar (21) is kept away from one end of stake wall body (1) and is offered mounting groove (211), and the other mounting bar (21) is kept away from one end of stake wall body (1) and is offered evenly distributed's joint groove (212), coupling mechanism (23) are including two and rotate pivot (231) of being connected in mounting groove (211) inner wall, the fixed surface of pivot (231) be connected with evenly distributed and respectively with adjacent connecting hook (232) of joint groove (212) joint, the inner wall rotation of mounting groove (211) is connected with spur gear (233), the both ends of spur gear (233) and two equal fixedly connected with bevel gear axle (234) of upper end of pivot (231), adjacent two bevel gear axle (234) meshing are connected, the inner wall grafting of mounting groove (211) has rack (235) of being connected with spur gear (233) meshing.

3. The embedded anti-impact pile wall joint groove structure according to claim 2, wherein: the surfaces, far away from the spur gears (233), of the upper two bevel gear shafts (234) are respectively connected with adjacent bevel gear shafts (234) in a meshed mode, and the angle of the rack (235) driving the spur gears (233) is ninety degrees.

4. The embedded anti-impact pile wall joint groove structure according to claim 2, wherein: the shapes of the clamping grooves (212) and the connecting hooks (232) are matched, two adjacent clamping grooves (212) and two adjacent connecting hooks (232) are mutually staggered, and the positions of the connecting hooks (232) and the adjacent clamping grooves (212) are aligned.

5. The embedded anti-impact pile wall joint groove structure according to claim 2, wherein: a coil spring (236) fixedly connected with the mounting groove (211) is fixedly connected to the surface of the bevel gear shaft (234) above, and the coil spring (236) is in a compressed state at the moment.

6. The embedded anti-impact pile wall joint groove structure according to claim 2, wherein: positioning grooves (237) are formed in two ends of the rack (235), two placing grooves (213) which are communicated with the mounting grooves (211) are formed in one mounting strip (21), the anti-loosening mechanism (24) comprises a positioning block (241) which is connected with the placing grooves (213) in a sliding mode and is clamped with the adjacent positioning grooves (237), and springs (242) which are always in a compressed state are arranged between the positioning block (241) and the placing grooves (213).

7. The embedded impact-resistant pile wall joint groove structure as claimed in claim 6, wherein: the connecting parts of the positioning blocks (241) and the adjacent positioning grooves (237) and the vertical cross section shapes of the positioning grooves (237) are right triangles which are matched, and the hypotenuses of the right triangles face upwards.

Images