CN112636295B - Slip form construction concrete structure with embedded cable and buried pipe - Google Patents

Abstract

The utility model relates to a slipform construction concrete structure of buried pipe of buried cable of pre-buried, include the pipeline group of constituteing by multisection pipe connection, pipeline periphery side be provided with and hold the subassembly tightly, it has the head subassembly to peg graft at pipeline group end, be provided with clutch assembly in the head subassembly. The beneficial effect of this application does: the component of holding tightly can play protection and fixed effect to the pipeline assembly in the pipeline assembly outside setting, prevents that the pipeline assembly from producing great deformation volume when concreting, and the seal head subassembly is installed through the mode of pegging graft to the pipeline assembly tip, and simple to operate is swift, has improved the installation effectiveness, the clutch pack of setting be convenient for the dismantlement of seal head subassembly.

Description

Slip form construction concrete structure with embedded cable and buried pipe

Technical Field

The application relates to the technical field of building wire embedding, in particular to a slip form construction concrete structure with embedded cable embedded pipes.

Background

The slip form engineering technology is a construction technology which has high mechanization degree, high construction speed, less occupied site, strong structural integrity, good earthquake resistance, guaranteed safe operation and obvious environmental and economic comprehensive benefits in the cast-in-place concrete structural engineering construction in China.

In the related technology, after connecting a plurality of sections of pipelines, the pipelines are arranged at preset positions, one end of an embedded pipe is provided with a plug, a steel wire penetrates through the steel pipe, one end of the steel wire is fixed on the plug, and then the embedded pipeline is poured.

However, the inventors found that the above-described related art has the following drawbacks: when concrete is poured, the impact of the concrete can cause the deformation and displacement of the pipeline, so that the subsequent cable is difficult to penetrate, and the plug is fixed on the pipeline in a threaded connection mode, so that the installation efficiency is low.

Disclosure of Invention

For more firm fixed pipeline, reduce the deformation volume of pipeline, improve the installation effectiveness, this application provides a slipform construction concrete structure of buried pipe of embedded cable.

The application provides a slipform construction concrete structure of buried pipe of buried cable in advance adopts following technical scheme:

the slip form construction concrete structure with the embedded cable and the embedded pipe comprises a pipeline group formed by connecting a plurality of sections of pipelines, wherein a holding component is arranged on the periphery of each pipeline, an end socket component is inserted at the tail end of each pipeline group, and a clutch component is arranged in each end socket component.

By adopting the technical scheme: the multi-section pipelines are connected into a whole pipeline group, the pipeline groups with different lengths can be formed by installing the multi-section pipelines as required, the tightly-holding component is arranged outside the pipeline group, the pipeline group can be protected and fixed, the pipeline group is prevented from generating large deformation when concrete is poured, the end socket component is installed at the end part of the pipeline group in a splicing mode, the installation is convenient and fast, the installation efficiency is improved, and the arranged clutch component is convenient to disassemble the end socket component.

Optionally, the clasping assembly comprises a connecting plate fixedly arranged on the outer side wall of the pipeline, two elastic clasping pieces are arranged on the connecting plate, and the two elastic clasping pieces can coat the pipeline.

By adopting the technical scheme: through set up two elasticity armful pieces on the connecting plate, when concreting, on the elasticity armful piece was fallen to the concrete, the elasticity armful piece played the effect of buffering concrete, received the impact of concrete simultaneously, and the elasticity armful piece takes place to warp, holds tightly in the outside of pipeline group and realizes fixed effect to pipeline group.

Optionally, the head subassembly includes the shrouding, one side of shrouding is equipped with annular post, and the opposite side of shrouding is equipped with the push-and-pull piece, and the opposite side of annular post is equipped with the elasticity plug connector, the inboard cavity of annular post, the inboard fixedly connected with traction block of annular post, one side that the shrouding was kept away from to the traction block is connected with the traction lever, it perforates to be equipped with the steel wire on the traction lever.

By adopting the technical scheme: annular post is used for cooperating the installation with the mouth of pipe of pipeline, and the dismantlement of shrouding is convenient for to the push-and-pull piece, and the elasticity plug connector carries out the joint between the head subassembly of being convenient for and the pipeline inside wall, and the steel wire is perforated and is used for the tip of fixed steel wire.

Optionally, the elastic plug connector comprises a plurality of support rods uniformly arranged on the inner side wall of the annular column, each support rod is provided with an elastic fixture block, and the elastic fixture blocks can be inserted into the clamping grooves of the pipeline.

By adopting the technical scheme: when the end socket assembly is installed, the elastic clamping blocks are clamped in the clamping grooves of the pipeline to fix the end socket assembly, and the supporting rods are used for installing the elastic clamping blocks.

Optionally, the clutch assembly comprises a connecting frame, a plurality of push rods are uniformly distributed on the connecting frame, the push rods sequentially penetrate through the sealing plate, the traction block and the supporting rod of the sealing head assembly and then abut against the elastic clamping blocks of the elastic plug connectors, and a baffle is arranged on the push rod at the joint of the sealing plate.

By adopting the technical scheme: through setting up the push rod, push rod and elasticity fixture block butt through promoting the push rod to the pipeline interior square, elasticity fixture block is to the central direction shrink of pipeline under the effect of push rod, and the butt with the draw-in groove is relieved to elasticity fixture block, removal head subassembly that can be convenient, the dismantlement of the head subassembly of being convenient for.

Optionally, one end of the elastic clamping block is fixedly connected with the supporting rod, the other end of the elastic clamping block is provided with a clamping portion, and the clamping portion is clamped in a clamping groove of the pipeline.

By adopting the technical scheme: the clamping part is clamped in the clamping groove, so that relative rotation between the end socket assembly and the pipeline can be prevented; secondly, the joint portion can contact with the tank bottom of draw-in groove under the effect of elasticity, fixes the head subassembly in the mouth of pipe department of pipeline group, plays the effect of shutoff, prevents when concreting that the concrete flows into inside the pipeline.

Optionally, the clamping portion is parallel to two ends of the clamping groove and is provided with a guide surface.

By adopting the technical scheme: through setting up the spigot surface, when promoting the push rod, can be so that convenient relative slip between joint portion and the draw-in groove, the operation of being convenient for.

Optionally, one end of each of the two elastic holding pieces is fixed on the connecting plate, the free end cover of one of the two elastic holding pieces passes through the other end of the other elastic holding piece, and the pipeline is located between the two elastic holding pieces.

By adopting the technical scheme: above-mentioned setting, when concreting, can cross make two elasticity embrace the piece deformation and be a tube-shape, tightly hug closely on the pipeline lateral wall.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the pipe group can be protected and fixed effect to the pipeline group in the outside setting of pipeline group, prevents that the pipeline group from producing great deformation volume when concreting, and the seal head subassembly is installed through the mode of pegging graft to the pipeline group tip, and simple to operate is swift, has improved the installation effectiveness, and the clutch assembly of setting is convenient for seal head subassembly's dismantlement.

2. Through setting up the spigot surface, when promoting the push rod, can be so that convenient relative slip between joint portion and the draw-in groove, be convenient for install and dismantle the head subassembly.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic structural view of a clasping assembly and a pipeline according to an embodiment of the present application.

Fig. 3 is a schematic structural diagram of a head assembly according to an embodiment of the present application.

Fig. 4 is a schematic view of a fitting structure of the head assembly and the pipeline according to an embodiment of the present application.

Reference number legend, 100, pipe; 110. a card slot; 200. a pipe set; 300. a clasping component; 310. a connecting plate; 311. a fixing hole; 320. an elastic holding sheet; 400. a head assembly; 410. closing the plate; 420. an annular column; 430. a push-pull block; 440. an elastic plug connector; 441. a support bar; 442. an elastic clamping block; 4421. a clamping part; 4422. a guide surface; 450. a traction block; 460. a draw bar; 470. perforating a steel wire; 500. a clutch assembly; 510. a connecting frame; 520. a push rod; 530. and a baffle plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a slip form construction concrete structure of a pre-buried cable pipe, which adopts the following technical scheme:

referring to fig. 1, a slip-form construction concrete structure for embedding cables into pipes includes a pipe assembly 200 formed by connecting a plurality of sections of pipes 100, each section of pipe 100 is fixed by means of threaded connection, in order to improve installation efficiency, quick connectors may be disposed at two ends of the pipe 100 to be connected, the pipe assembly 200 is assembled by means of quick connector clamping, the pipe 100 is divided into a straight pipe 100 and a turning pipe 100, and the pipe 100 is assembled and installed in different environments, a holding assembly 300 is disposed at an outer peripheral side of the pipe 100, the holding assembly 300 can protect and fix the pipe assembly 200, the pipe assembly 200 is prevented from generating large deformation when concrete is poured, a head assembly 400 is inserted into an end of the pipe assembly 200, and a clutch assembly 500 is disposed in the head assembly 400. Through the mode installation head subassembly 400 of pegging graft, simple to operate is swift, has improved the installation effectiveness, and the clutch pack 500 that sets up is convenient for the dismantlement of head subassembly 400.

Referring to fig. 2, in order to fix and protect the pipeline assembly 200, the clasping assembly 300 in this embodiment includes a connecting plate 310 fixedly disposed on the outer side wall of the pipeline 100, two elastic clasping pieces 320 are disposed on the connecting plate 310, the two elastic clasping pieces 320 can cover the pipeline 100, a fixing hole 311 is further disposed on the connecting plate 310, so as to fix the connecting plate 310, by disposing the two elastic clasping pieces 320 on the connecting plate 310, when concrete is poured, the concrete falls on the elastic clasping pieces 320, the elastic clasping pieces 320 play a role in buffering the concrete, and simultaneously receive the impact of the concrete, the elastic clasping pieces 320 deform, and clasping outside the pipeline assembly 200 to fix the pipeline assembly 200.

Referring to fig. 2, in more detail, one end of each of the two elastic clasps 320 is fixed on the connecting plate 310, the free end of one of the elastic clasps 320 passes through the other end of the other elastic clasp 320, and the pipeline 100 is located between the two elastic clasps 320. Through the arrangement, when concrete is poured, the two elastic holding pieces 320 can be deformed into a cylinder shape and tightly held on the outer side wall of the pipeline 100.

Referring to fig. 3, in order to close the end of the pipe assembly 200, the sealing head assembly 400 in this embodiment includes a sealing plate 410, and an annular column 420 is disposed on one side of the sealing plate 410, and the annular column 420 is configured to be fitted to the nozzle of the pipe 100; the opposite side of shrouding 410 is equipped with push-and-pull piece 430, push-and-pull piece 430 is convenient for shrouding 410's dismantlement, the opposite side of annular post 420 is equipped with elastic plug connector 440, the inboard cavity of annular post 420, the inboard fixedly connected with traction block 450 of annular post 420, one side that shrouding 410 was kept away from to traction block 450 is connected with traction lever 460, be equipped with the steel wire perforation 470 on the traction lever 460, elastic plug connector 440 is convenient for carry out the joint between head subassembly 400 and the pipeline 100 inside wall, steel wire perforation 470 is used for the tip of fixed steel wire.

Referring to fig. 3 and 4, in order to facilitate the clamping between the sealing head assembly 400 and the pipeline 100, the elastic connector 440 in this embodiment includes a plurality of support rods 441 uniformly disposed on the inner side wall of the annular column 420, each support rod 441 is provided with an elastic latch 442, the elastic latch 442 can be inserted into the slot 110 of the pipeline 100, the number of the support rods 441 and the slots 110 is set as required, in this embodiment, in order to enhance the connection firmness between the sealing head assembly 400 and the pipeline 100, 6 sets of the support rods 441 and the elastic latches 442 are selected to be used, when the installation is performed, each elastic latch 442 is inserted into the corresponding slot 110, and the sealing head assembly 400 is fixed.

Referring to fig. 3 and 4, in more detail, one end of the elastic latching block 442 in this embodiment is fixedly connected to the supporting rod 441, the other end of the elastic latching block 442 is provided with a latching portion 4421, and the latching portion 4421 is latched in the latching groove 110 of the conduit 100. The engagement of the engagement portion 4421 in the card slot 110 has at least two functions: firstly, the relative rotation between the end socket assembly 400 and the pipeline 100 can be prevented; secondly, the clamping portion 4421 can contact with the groove bottom of the clamping groove 110 under the action of elastic force, so that the sealing head assembly 400 is fixed at the pipe orifice of the pipeline set 200 to play a role in plugging, and concrete is prevented from flowing into the pipeline 100 when the concrete is poured.

Referring to fig. 3 and 4, in order to more conveniently mount the header assembly 400, the catching portions 4421 are provided with guide surfaces 4422 parallel to both ends of the catching groove 110 in this embodiment. By providing the guiding surface 4422, when the push rod 520 is pushed, the clamping portion 4421 and the slot 110 can slide relatively to each other, which facilitates the operation.

Referring to fig. 3 and 4, in order to conveniently mount the head assembly 400, the clutch assembly 500 in this embodiment includes a connecting frame 510, a plurality of push rods 520 are uniformly distributed on the connecting frame 510, the push rods 520 sequentially pass through the sealing plate 410, the pulling block 450 and the supporting rod 441 of the head assembly 400 and then abut against the elastic latch 442 of the elastic plug connector 440, a baffle 530 is disposed on the push rod 520 at the connection position of the sealing plate 410, and the baffle 530 can prevent the push rods 520 from being separated from the head assembly 400. Through setting up push rod 520, push rod 520 and elasticity fixture block 442 butt, when pushing away push rod 520 in to pipeline 100, elasticity fixture block 442 contracts to the central direction of pipeline 100 under the effect of push rod 520, make elasticity fixture block 442 remove the butt with draw-in groove 110, removal head assembly 400 that can be convenient, be convenient for the dismantlement of head assembly 400, also can adopt above-mentioned mode to push rod 520 inwards when installing, make elasticity fixture block 442 leave the tank bottom of draw-in groove 110 slightly, can install more laborsaving, but notice at the in-process of installation, elasticity fixture block 442 can not break away from draw-in groove 110.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (5)

1. Slip form construction concrete structure of pre-buried cable pipe laying, its characterized in that: the pipeline assembly comprises a pipeline group (200) formed by connecting a plurality of sections of pipelines (100), wherein a holding assembly (300) is arranged on the outer peripheral side of each pipeline (100), a sealing head assembly (400) is spliced at the tail end of each pipeline group (200), a clutch assembly (500) used for clutching the sealing head assembly (400) and the pipeline group (200) is arranged in each sealing head assembly (400), each sealing head assembly (400) comprises a sealing plate (410), an annular column (420) is arranged on one side of each sealing plate (410), a push-pull block (430) is arranged on the other side of each sealing plate (410), an elastic connector (440) is arranged on one side, far away from each sealing plate (410), of each annular column (420), the inner side of each annular column (420) is hollow, a traction block (450) is fixedly connected to the inner side of each annular column (420), a traction rod (460) is connected to one side, far away from each sealing plate (410), and a steel wire through hole (470) is arranged on each traction rod (460), elastic plug connector (440) includes that a plurality of even settings are at bracing piece (441) of annular post (420) inside wall, every all be provided with elasticity fixture block (442) on bracing piece (441), elasticity fixture block (442) can peg graft in draw-in groove (110) of pipeline (100), clutch module (500) are including link (510), the equipartition has a plurality of push rods (520) on link (510), push rod (520) pass shrouding (410), traction block (450) and bracing piece (441) of head subassembly (400) in proper order after with elastic plug connector (440) elasticity fixture block (442) butt, be equipped with baffle (530) on push rod (520), baffle (530) are located between shrouding (410) and traction block (450).

2. The slipform construction concrete structure of the embedded cable pipe laying of claim 1, which is characterized in that: the holding component (300) comprises a connecting plate (310) fixedly arranged on the outer side wall of the pipeline (100), two elastic holding pieces (320) are arranged on the connecting plate (310), and the two elastic holding pieces (320) can cover the pipeline (100).

3. The slipform construction concrete structure of the embedded cable pipe laying of claim 1, which is characterized in that: one end of the elastic clamping block (442) is fixedly connected with the supporting rod (441), the other end of the elastic clamping block (442) is provided with a clamping portion (4421), and the clamping portion (4421) is clamped in a clamping groove (110) of the pipeline (100).

4. The slipform construction concrete structure of the embedded cable pipe laying of claim 3, characterized in that: the clamping portion (4421) is provided with guide surfaces (4422) parallel to the two ends of the clamping groove (110).

5. The slipform construction concrete structure of embedded cable pipe laying according to claim 2, characterized in that: one end of each of the two elastic holding pieces (320) is fixed on the connecting plate (310), the free end of one of the elastic holding pieces (320) passes through the free end of the other elastic holding piece (320), and the pipeline (100) is located between the two elastic holding pieces (320).

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