CN115162545A - Independent bearing structure of post-cast strip - Google Patents

Abstract

The application discloses an independent supporting structure of a post-cast strip, which relates to the technical field of post-cast strips and comprises a supporting component for enclosing to form a casting cavity, wherein the supporting component comprises a supporting plate, side plates and supporting columns, the side plates are arranged on two sides of a containing hole, the supporting plate is arranged between the opposite side plates, the side plates are provided with inserting columns, and one side of the supporting plate, which faces towards the side plates, is provided with inserting grooves; a plurality of groups of connecting plates are arranged on one side of the supporting plate away from the accommodating hole, a resisting plate is connected between each group of connecting plates in a vertical sliding mode, a plurality of supporting columns are arranged and correspond to the resisting plates one by one, guide surfaces are obliquely arranged on the resisting plates, and the supporting plate is provided with an elastic driving piece; the connecting plate is hinged to the supporting plate, the supporting plate is provided with a driving assembly, the supporting plate is provided with a transmission structure, and the transmission structure drives the inserting column to slide to the side plate to tightly support the supporting plate when the tight column supports the supporting plate and the tight plate. This application can make things convenient for the post-cast strip to pour.

Description

Independent bearing structure of post-cast strip

Technical Field

The application relates to the technical field of post-cast strips, in particular to an independent supporting structure of a post-cast strip.

Background

Can reserve a crack during construction on the floor for supply post-cast strip pouring construction, prevent that the reinforced concrete structure from appearing because self shrink is uneven or subside the harmful crack that uneven probably produced in the building later stage.

Referring to fig. 1, a floor structure includes a floor 1 and an accommodation hole 11 opened in the floor 1, where the accommodation hole 11 penetrates the floor 1 and extends in a width direction of the floor 1, and a post-cast strip may be poured at a position of the accommodation hole 11 during construction. A shielding plate 12 is detachably arranged at the top of the floor 1 before the post-cast strip is constructed and is used for shielding an orifice above the accommodating hole 11, so that a safety accident that people fall from the accommodating hole 11 to the next floor 1 before the post-cast strip is cast is avoided.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when the post-cast strip is constructed, the shielding plate 12 needs to be removed firstly, and then the post-cast strip can be poured, which is troublesome.

Disclosure of Invention

In order to facilitate the post-cast strip pouring, the application provides an independent supporting structure of post-cast strip.

The application provides an independent bearing structure of post-cast strip adopts following technical scheme:

a post-cast strip independent supporting structure comprises a supporting component used for enclosing to form a casting cavity, wherein the supporting component comprises a supporting plate, side plates and supporting columns, the side plates are arranged on two sides of an accommodating hole, the supporting plate is arranged between the opposite side plates, the side plates are provided with inserting columns, and inserting grooves for the inserting columns to be inserted are formed in one sides of the supporting plate, which face the side plates;

a plurality of groups of connecting plates are arranged on one side of the supporting plate away from the accommodating hole, two connecting plates are symmetrically arranged in each group, a resisting plate is connected between every two connecting plates in a vertical sliding mode, a plurality of supporting columns correspond to the resisting plates one by one, a guide surface for guiding the supporting columns to slide to the lower side of the resisting plate is obliquely arranged on the resisting plate, and an elastic driving piece for driving the resisting plate to resist the supporting columns is arranged on the supporting plate;

the supporting plate is provided with a driving assembly, the supporting plate is provided with a transmission structure, and the transmission structure drives the inserting column to slide to the side plate to abut against the supporting plate when the abutting column abuts against the supporting plate and the abutting plate.

Through adopting above-mentioned technical scheme, earlier insert the inserting groove with the grafting post during use for curb plate and backup pad are tentatively connected, place curb plate and backup pad in the floor below after that, make curb plate butt in the floor bottom, curb plate, backup pad and floor form the chamber of pouring that is linked together with the accommodation hole this moment. Then slide the support column to supporting tight board bottom under the guide of guide face for the drive assembly drive supports tight post upset to butt backup pad respectively and supports tight board, makes the plug-in column slip into the inserting groove through transmission structure transmission power simultaneously, promotes the tight degree of supporting between curb plate and the backup pad. The whole process is simple, the containing hole does not need to be plugged before the post-cast strip is poured, the post-cast strip can be directly poured when needed, and the pouring difficulty of the post-cast strip is reduced.

Optionally, the driving assembly includes a driving block and a driving column, the abutting columns are symmetrically arranged between the same group of relative connecting plates, the abutting columns can be turned over to be perpendicular to the connecting plates, the driving block is connected to one side, facing the supporting plate, of the abutting plate in a sliding mode and corresponds to the abutting columns one to one, one end of each driving column is hinged to the driving block, the other end of each driving column is hinged to one side, close to the abutting plate, of the abutting column, the supporting plate is provided with a power assembly, and the power assembly drives the two driving blocks to move towards opposite directions when the supporting column slides to one side, far away from one side of the supporting plate, of the abutting plate.

Through adopting above-mentioned technical scheme, the drive block slides towards the connecting plate for the drive block drives and supports tight post upset, until supporting tight post both ends respectively butt backup pad and support tight board, promotes the support column and to the support capacity of backup pad.

Optionally, the power assembly includes power plate and power post, the drive block is kept away from backup pad one side and is provided with the ring and establishes the linkage post that slides in supporting tight board, the power plate sets up in linkage post keeps away from drive block one side, the power post wears to locate the support column near the position of supporting tight board with power plate one-to-one and slip, the power post is mutually perpendicular with the power plate, power post periphery side threaded connection has the power wheel, power wheel swivelling joint is in support column and roll connection in supporting tight board, the support column is provided with the gliding limiter of guide power post towards the connecting plate.

Through adopting above-mentioned technical scheme, the support column slides and drives the power column rotation in the time of supporting tight board bottom for the power column promotes the power board, realizes the drive of drive block.

Optionally, the limiting piece is a limiting block, the support pillar is provided with a power groove for the power column to slide, the limiting block is arranged on a groove wall on one side of the power groove, and a limiting groove for the limiting block to slide is arranged on the outer peripheral side of the power column.

Through adopting above-mentioned technical scheme, the restriction piece slides in the restriction inslot, can guide the power post to move towards the power board direction.

Optionally, the abutting plate is provided with a pushing spring for pushing the driving block towards a direction away from the abutting plate.

By adopting the technical scheme, when the power column is far away from the power plate, the pushing spring is elastically released to push the driving block to slide, so that the abutting column can be reversely turned back to the original position.

Optionally, the transmission structure is a linkage groove, the linkage groove is formed in one side, close to the abutting plate, of the plug-in connection column, and the abutting column is far away from one side of the abutting plate during overturning and clamped into the linkage groove.

Through adopting above-mentioned technical scheme, support tight post card and go into the linkage groove, keep away from curb plate one side cell wall through supporting tight post butt linkage groove, drive the curb plate and support tight backup pad.

Optionally, the elastic driving member is a driving spring, the driving spring is disposed between the abutting plate and the supporting plate, one end of the driving spring abuts against the supporting plate, and the other end of the driving spring abuts against the abutting plate.

Through adopting above-mentioned technical scheme, the drive spring elasticity releases during the use, promotes to support tight board and supports tight support column for the support column tentatively supports the backup pad, reduces the installation degree of difficulty of support column.

Optionally, a plurality of rolling balls are rotatably connected to the bottom of the supporting column.

Through adopting above-mentioned technical scheme, the spin rolls in ground during the use, conveniently removes the support column.

In summary, the present application includes at least one of the following benefits:

1. the supporting structure is formed in advance through the supporting plate, the side plate and the supporting column, so that the potential safety hazard can be reduced while a pouring cavity for pouring the post-cast strip is formed, and the pouring complexity of the post-cast strip is reduced;

2. the abutting column is turned over, so that the abutting degree of the supporting plate and the side plate is improved while the supporting plate can be better supported by the supporting column.

Drawings

Fig. 1 is a schematic structural view of the related art;

FIG. 2 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 3 is an internal cross-sectional schematic view of an embodiment of the present application;

FIG. 4 is an enlarged schematic view of section A of FIG. 3;

fig. 5 is an enlarged schematic view of a portion B of fig. 2.

Reference numerals: 1. a floor; 11. an accommodation hole; 12. a shielding plate; 2. a support assembly; 21. pouring a cavity; 3. a support plate; 31. inserting grooves; 32. a connecting plate; 321. a chute; 33. a resisting plate; 331. a guide surface; 332. a push spring; 333. a slider; 334. a drive slot; 335. a communicating hole; 34. tightly abutting against the column; 35. a transmission groove; 36. a drive spring; 4. a side plate; 41. inserting the column; 411. a linkage groove; 5. a support pillar; 51. a limiting block; 52. a power tank; 53. rolling a ball; 6. a drive assembly; 61. a drive block; 62. a drive column; 7. a power assembly; 71. a power plate; 72. a power column; 721. a limiting groove; 73. a linkage column; 74. a power wheel.

Detailed Description

The present application is described in further detail below with reference to figures 2-5.

The embodiment of the application discloses independent bearing structure of post-cast strip. Referring to fig. 2, the post-cast strip independent support structure comprises a support component 2, a containing hole 11 is reserved in a floor 1, and a casting cavity 21 communicated with the containing hole 11 is formed by the support component 2 in a surrounding mode below the floor 1 in use. When the post-cast strip is poured, the reinforcing cage can be directly placed into the pouring cavity 21 and post-poured concrete forms a post-cast strip structure, the accommodating hole 11 does not need to be shielded before the post-cast strip is poured, the accommodating hole 11 is protected through the supporting component 2, the possibility of potential safety hazards is reduced, and the supporting component 2 can be directly detached after the post-cast strip is poured.

Referring to fig. 3 and 4, the supporting assembly 2 includes a supporting plate 3, a side plate 4 and a supporting pillar 5, two supporting plates 3 are symmetrically disposed and located at two sides of the accommodating hole 11, two ends of the supporting plate 3 abut against wall bodies at two sides respectively, and the supporting plate 3 may adopt a multi-section splicing structure. Backup pad 3 sets up between two curb plates 4, and curb plate 4 has a plurality of spliced poles 41 towards 3 one side fixedly connected with of backup pad, and spliced groove 31 has been seted up respectively to backup pad 3 towards the lateral wall of curb plate 4, and spliced pole 41 inserts in spliced groove 31 during the use for realize being connected between curb plate 4 and the backup pad 3.

Referring to fig. 3 and 5, a plurality of support pillars 5 are provided below the support plate 3 at intervals along the extension direction of the accommodation hole 11, and the support plate 3 is supported by the support pillars 5 in use, so that the side plate 4 can be kept in abutment with the floor 1. The side of the support plate 3 away from the accommodating hole 11 is provided with a plurality of groups of connecting plates 32 at intervals along the extending direction of the accommodating hole 11, and each group of connecting plates 32 is provided with two connecting plates which are symmetrically arranged. The abutting plate 33 is arranged between the two connecting plates 32 in the same group, the sliding block 333 is arranged on the side wall of the abutting plate 33, the sliding grooves 321 are respectively formed in the opposite sides of the two connecting plates 32 in the same group, and the sliding block 333 slides in the sliding grooves 321 up and down, so that the abutting plate 33 slides between the connecting plates 32 along the vertical direction. The abutting plate 33 has a guide surface 331 formed at one side thereof, and the support post 5 slides on the guide surface 331 when in use, so as to guide the support post 5, and the support post 5 can slide to a position right below the abutting plate 33. Four corners at the bottom of the support column 5 are respectively and rotatably connected with rolling balls 53, and the rolling balls 53 are connected to the ground in a rolling manner during use, so that the support column 5 is convenient to move.

Referring to fig. 4, the supporting plate 3 is provided with an elastic driving member, which is a plurality of driving springs 36, and the driving springs 36 are respectively disposed between the supporting plate 3 and the abutting plate 33. One end of the driving spring 36 abuts against the supporting plate 3, and the other end abuts against the abutting plate 33, so that when in use, the driving spring 36 is elastically released to push the abutting plate 33 in a direction away from the supporting plate 3, so that the abutting plate 33 can abut against the top of the supporting column 5.

Referring to fig. 4, two fixing plates are fixedly connected between the two connecting plates 32 of the same group, and the two fixing plates are symmetrically arranged. Two articulated shafts are symmetrically fixed between the two fixed plates, the outer peripheral sides of the two articulated shafts are respectively and rotatably connected with a supporting column 34, the supporting columns 34 are located on the same vertical face, the supporting columns 34 can be turned over up and down during use, and the supporting columns 34 are perpendicular to the connecting plate 32 when turned over to be horizontal.

Referring to fig. 4, the supporting plate 3 is provided with the driving assembly 6, when the supporting column 5 slides to the bottom of the abutting plate 33, the driving assembly 6 drives the abutting column 34 to turn over until the two ends of the abutting column 34 abut against the supporting plate 3 and the abutting plate 33 respectively, so that the stability of the supporting plate 3 is improved. The driving assembly 6 includes a driving block 61 and a driving post 62, one side of the supporting plate 3 facing the abutting plate 33 is provided with driving grooves 334 corresponding to the abutting posts 34 one to one, the extending direction of the driving grooves 334 is perpendicular to the connecting plate 32, and the driving block 61 corresponds to the abutting posts 34 one to one and slides in the driving grooves 334. The driving column 62 is located below the hinge shaft, one end of the driving column 62 is hinged to one side of the driving block 61 facing the supporting plate 3, and the other end is hinged to one side of the abutting column 34 far away from the supporting plate 3. When the driving block 61 slides towards the connecting plate 32, the driving column 62 drives the abutting column 34 to turn over, at this time, one side of the abutting column 34, which is far away from the driving column 62, is close to the supporting plate 3 until the abutting supporting plate 3 is abutted, and one side of the abutting column 34, which is close to the driving column 62, is close to the abutting plate 33 until the abutting plate 33 is abutted.

Referring to fig. 4 and 5, the supporting plate 3 is provided with a power assembly 7, and when the supporting column 5 slides to the bottom of the abutting plate 33, the power assembly 7 generates power to drive the two opposite driving blocks 61 to move back and forth. The power assembly 7 comprises a power plate 71 and a power column 72, a communicating hole 335 communicated with the driving groove 334 is formed in one side, far away from the supporting plate 3, of the abutting plate 33, a linkage plate is fixedly connected to one side, far away from the supporting plate 3, of the driving block 61, the linkage plate downwards penetrates through the communicating hole 335 and then protrudes out of the abutting plate 33, and when the driving block 61 slides in the driving groove 334, the linkage plate slides in the communicating hole 335. The power plate 71 is fixed on the side of the linkage column 73 far away from the driving block 61, the power plate 71 is in sliding contact with the abutting plate 33, and the support column 5 slides between the two opposite power plates 71. The side wall of the support column 5 facing the power plate 71 is provided with a power groove 52, and the power columns 72 correspond to the power plate 71 one by one and are respectively connected to the power groove 52 in a sliding manner. The power wheel 74 is connected with the outer periphery of the power column 72 in a threaded manner, the power wheel 74 is connected with the support column 5 in a rotating manner, the power wheel 74 is in sliding contact with the bottom of the abutting plate 33 and has a certain friction force, and when the support column 5 slides to the bottom of the abutting plate 33, the power wheel 74 enters a rotating state. The supporting column 5 is provided with a limiting piece which is a limiting block 51, the limiting block 51 is fixed on one side groove wall of the power groove 52, a limiting groove 721 extending along the axial direction is formed on the outer peripheral side of the power column 72, and the limiting block 51 slides in the limiting groove 721 and is used for guiding the movement direction of the power column 72. When the supporting column 5 slides to the bottom of the abutting plate 33 in the direction away from the guiding surface 331, the power wheel 74 drives the power column 72 to move towards the power plate 71, so that the power column 72 pushes the power plate 71 to move, and the driving block 61 is driven to move towards the connecting plate 32.

Referring to fig. 4, the abutting plate 33 is provided with a pushing spring 332, the pushing spring 332 is installed in the driving slot 334, one end of the pushing spring 332 abuts against one side of the driving block 61 close to the connecting plate 32, and the other end abuts against a slot wall of the driving slot 334. When the power column 72 is far away from the power plate 71, the pushing spring 332 is released elastically, and pushes the driving block 61 to slide in the direction far away from the connecting plate 32, so that the fastening column 34 can be reversely turned.

Referring to fig. 4, the supporting plate 3 is provided with a transmission structure, and when the fastening column 34 is turned over and approaches the supporting plate 3, power is transmitted through the transmission structure, so that the inserting column 41 slides towards the inserting groove 31, and the side plate 4 is driven to fasten the supporting plate 3. The transmission member is a linkage groove 411, and the linkage groove 411 is opened at one side of the plugging column 41 close to the abutting plate 33. The bottom of the supporting plate 3 is symmetrically provided with transmission grooves 35, and the transmission grooves 35 are communicated with the insertion grooves 31 and used for allowing the abutting columns 34 to turn into the insertion grooves 31. When the abutting column 34 is turned, the abutting column 34 is clamped into the linkage groove 411 through the transmission groove 35, then the abutting column 34 continues to turn, at the moment, the abutting column 34 abuts against the groove wall of the side wall of the linkage groove 411 far away from the side plate 4, the inserting column 41 is driven to slide, and the abutting degree of the side plate 4 abutting against the supporting plate 3 is improved.

The implementation principle of the independent bearing structure of post-cast strip of the embodiment of the application is as follows:

during installation, the inserting columns 41 are inserted into the inserting grooves 31 to support the side plates 4 and the supporting plate 3, and then the supporting plate 3 and the side plates 4 are installed below the floor 1, so that the side plates 4, the supporting plate 3 and the floor 1 are enclosed to form a pouring cavity 21 communicated with the accommodating hole 11. Then, the support plate 3 and the side plate 4 are supported, and the support column 5 slides into the lower portion of the support plate 3 under the guidance of the guide surface 331, at the moment, the power column 72 pushes the power plate 71, so that the tightening column 34 is turned over and the insertion column 41 is driven to slide into the insertion groove 31, the tightening degree between the side plate 4 and the support plate 3 is improved, until the insertion column 41 stops sliding, one side of the tightening column 34 abuts against the tightening plate 33, and the other side abuts against the insertion column 41, so that the support column 5 supports the support plate 3. Whole process is simple, forms before the post-cast strip is pour and pours chamber 21 to need not to seal accommodation hole 11, reduce the loaded down with trivial details degree of pouring of post-cast strip when the probably reduction that the potential safety hazard appears.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, 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 (8)

1. The utility model provides an independent bearing structure of post-cast strip which characterized in that: the supporting component (2) is used for enclosing to form a pouring cavity (21), the supporting component (2) comprises a supporting plate (3), side plates (4) and supporting columns (5), the side plates (4) are arranged on two sides of a containing hole (11), the supporting plate (3) is arranged between the opposite side plates (4), the side plates (4) are provided with inserting columns (41), and one side, facing the side plates (4), of the supporting plate (3) is provided with inserting grooves (31) for the inserting columns (41) to be inserted;

a plurality of groups of connecting plates (32) are arranged on one side, away from the accommodating hole (11), of the supporting plate (3), two connecting plates (32) in each group are symmetrically arranged, a pressing plate (33) is connected between every two connecting plates (32) in an up-and-down sliding manner, a plurality of supporting columns (5) are arranged and correspond to the pressing plates (33) one by one, guide surfaces (331) for guiding the supporting columns (5) to slide to the lower portions of the pressing plates (33) are obliquely arranged on the pressing plates (33), and an elastic driving piece for driving the pressing plates (33) to tightly press the supporting columns (5) is arranged on the supporting plate (3);

the connecting plate is characterized in that a supporting column (34) capable of being turned over up and down is hinged between the connecting plates (32), the supporting plate (3) is provided with a driving assembly (6) which drives the supporting column (34) to turn over to two ends to abut against the supporting plate (3) and the supporting plate (33) respectively when the supporting column (5) slides to one side of the supporting plate (33) far away from the supporting plate (3), the supporting plate (3) is provided with a transmission structure, and the transmission structure drives the plug-in column (41) to slide to the side plate (4) to abut against the supporting plate (3) when the supporting column (34) abuts against the supporting plate (3) and the supporting plate (33).

2. A post-cast strip freestanding support structure as claimed in claim 1, wherein: the driving assembly (6) comprises a driving block (61) and a driving column (62), the abutting columns (34) are symmetrically arranged between the same group of opposite connecting plates (32), the abutting columns (34) can be turned to be perpendicular to the connecting plates (32), the driving block (61) is connected to one side, facing the supporting plate (3), of the abutting plate (33) in a sliding mode and corresponds to the abutting columns (34) one by one, one end of the driving column (62) is hinged to the driving block (61), the other end of the driving column (62) is hinged to one side, close to the abutting plate (33), of the abutting column (34), the supporting plate (3) is provided with a power assembly (7), and the power assembly (7) drives the two driving blocks (61) to move towards opposite directions simultaneously when the supporting column (5) slides to one side, far away from the supporting plate (3), of the abutting plate (33).

3. A post-cast strip freestanding support structure as claimed in claim 2, wherein: power component (7) include power board (71) and power post (72), backup pad (3) one side is kept away from in drive block (61) and is provided with the ring and establishes the linkage post (73) that slide in supporting tight board (33), power board (71) set up and keep away from drive block (61) one side in linkage post (73), power post (72) and power board (71) one-to-one and slide and wear to locate support column (5) and be close to the position of supporting tight board (33), power post (72) are perpendicular mutually with power board (71), power post (72) periphery side threaded connection has power wheel (74), power wheel (74) swivelling joint is in support column (5) and roll connection in supporting tight board (33), support column (5) are provided with the gliding limiter of guide power post (72) towards connecting plate (32).

4. A post-cast strip freestanding support structure as claimed in claim 3, wherein: the limiting piece is a limiting block (51), the supporting column (5) is provided with a power groove (52) for the power column (72) to slide, the limiting block (51) is arranged on the groove wall on one side of the power groove (52), and the outer peripheral side of the power column (72) is provided with a limiting groove (721) for the limiting block (51) to slide.

5. A post-cast strip freestanding support structure as claimed in claim 2, wherein: the abutting plate (33) is provided with a pushing spring (332) which pushes the driving block (61) towards the direction away from the abutting plate (33).

6. A post-cast strip freestanding support structure as claimed in claim 2, wherein: the transmission structure is a linkage groove (411), the linkage groove (411) is formed in one side, close to the abutting plate (33), of the plug column (41), and the abutting column (34) is far away from one side, far away from the abutting plate (33), of the abutting column during overturning and clamped into the linkage groove (411).

7. The post-cast strip independent support structure of claim 1, wherein: the elastic driving piece is a driving spring (36), the driving spring (36) is arranged between the abutting plate (33) and the supporting plate (3), one end of the driving spring (36) abuts against the supporting plate (3), and the other end of the driving spring (36) abuts against the abutting plate (33).

8. A post-cast strip freestanding support structure as claimed in claim 1, wherein: the bottom of the supporting column (5) is rotatably connected with a plurality of rolling balls (53).

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