CN204781603U - Built -in cast -in -place reinforced concrete column of posture - Google Patents
Built -in cast -in -place reinforced concrete column of posture Download PDFInfo
- Publication number
- CN204781603U CN204781603U CN201520482888.7U CN201520482888U CN204781603U CN 204781603 U CN204781603 U CN 204781603U CN 201520482888 U CN201520482888 U CN 201520482888U CN 204781603 U CN204781603 U CN 204781603U
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- CN
- China
- Prior art keywords
- concrete column
- template
- cradling piece
- inner standpipe
- reinforced concrete
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
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Abstract
The utility model provides a built -in cast -in -place reinforced concrete column of posture, includes the internal main muscle of arranging of concrete cylinder and concrete column, the concrete cylinder is followed the direction of height interval all around and is provided with built -in support, built -in support include bracing piece and four cradling pieces that are connected with the bracing piece other end that link to each other with main muscle, it is continuous that cradling piece and the concrete column side surface parallel who corresponds, adjacent cradling piece pass through the bight connecting piece of tip, the cradling piece outside of built -in support is equipped with the template. The utility model discloses rational in infrastructure, the step is simple, during the installation, as long as the lateral surface of guaranteeing the cradling piece and bight connecting piece respectively with post outside and bight parallel and level can, in the installation not need to the template separately the alignment imitate the template perpendicularity with transferring, lower to on -the -spot template installer's technical merit requirement, can improve the efficiency of construction greatly, the installation accuracy is controlled easily, can improve construction quality, the work degree of difficulty of reduction form setting.
Description
Technical field
The utility model belongs to building structure technology field, particularly a kind of Inner standpipe formula cast-in-situ reinforced concrete column and construction method.
Background technology
At present, in building engineering construction field, adopt bamboo slab rubber to be a general selection as the template of cast-in-place structural component, its appearance is good, deeply praises highly by user.
In Building Construction, the location centering of bamboo slab rubber and degree control are very important technology, directly have influence on this procedure construction quality and concreting shaping after presentation quality.
But, the general mounting method of template of existing cast-in-situ reinforced concrete column is: and basic snap the line → template is in place → position correction → temporary fixed → verticality adjusts → inspect for acceptance → and template fixes, the method Problems existing is: the woodcraft level requirement being responsible for assembling to scene is higher, labour intensity is large, quality control difficulty is large, and poor working environment, flow chart is complicated, makes efficiency of construction too low.
Utility model content
The purpose of this utility model be to provide a kind of rational in infrastructure, easy and simple to handle and can greatly improve efficiency of construction Inner standpipe formula cast-in-situ reinforced concrete column and construction method.
For achieving the above object, the technical solution of the utility model is: a kind of Inner standpipe formula cast-in-situ reinforced concrete column, and comprise the main muscle arranged in concrete column and concrete column, concrete column surrounding is arranged at intervals with Inner standpipe along short transverse; Described Inner standpipe comprises the support bar and four cradling pieces be connected with the support bar other end that are connected with main muscle, and cradling piece parallels with corresponding concrete column body side surface, and adjacent stent bar is connected by the corner connector of end; The cradling piece outside of Inner standpipe is provided with template.
Described support bar comprises two braces arranged in "eight" shape, and brace one end is connected with cradling piece, and the brace other end is provided with elasticity draw-in groove, and elasticity draw-in groove is installed on main muscle.
The angle α of described brace and main muscle is not more than 45 °.
Reinforcement cover is filled with between described template and concrete column.
Described corner connector is " L " shape.
Each side of described concrete column is at least provided with two support bars, and the spacing of adjacent supports bar is not more than 300mm.
Described cradling piece and bight connecting rod are the tubulose that cross sectional shape is identical, and bight connecting rod is inserted in cradling piece.
Compared with prior art, advantage of the present utility model is:
1, the utility model comprises the main muscle arranged in concrete column and concrete column, and concrete column surrounding is arranged at intervals with Inner standpipe along short transverse, described Inner standpipe comprises the support bar and four cradling pieces be connected with the support bar other end that are connected with main muscle, and cradling piece parallels with corresponding concrete column body side surface, and adjacent stent bar is connected by the corner connector of end, the cradling piece outside of Inner standpipe is provided with template, it is rational in infrastructure, Inner standpipe is directly cast in pillar, no longer take out after form removable, during installation, as long as ensure that the lateral surface of cradling piece is concordant with bight with outside pillar respectively with corner connector, do not need template centering and tune effect mold plate verticality separately in installation process, require lower to the technical level of Site Template installation personnel, greatly can improve efficiency of construction, installation accuracy easily controls, construction quality can be improved, reduce the work difficulty of model sheetinstallat, can avoid doing over again, the workload of rectification, be conducive to the operation of model sheetinstallat streamlined.
2, cradling piece and bight connecting rod are the tubulose that cross sectional shape is identical, and bight connecting rod is inserted in cradling piece, simple installation, and speed of application is fast.
3, support bar comprises two braces arranged in "eight" shape, and brace one end is connected with cradling piece, the other end is provided with elasticity draw-in groove, and elasticity draw-in groove is installed on main muscle, in order to fixed support bar, prevents cradling piece to be subjected to displacement, and assembling is simple, constructability.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the connection diagram of main muscle and cradling piece in Fig. 1;
Fig. 3 is the lateral view of Fig. 2.
Detailed description of the invention
Inner standpipe formula cast-in-situ reinforced concrete column as shown in Figure 1, Figure 2, Figure 3 shows, it comprises the main muscle 1 arranged in concrete column 2 and concrete column 2, Inner standpipe is arranged at intervals with along short transverse in the surrounding of concrete column 2, described Inner standpipe comprises the support bar 4 and four cradling pieces 5 be connected with support bar 4 other end that are connected with main muscle 1, cradling piece 5 parallels with the side of corresponding concrete column 2, adjacent stent bar 5 is connected by the corner connector 6 of " L " shape, and corner connector 6 is fixedly connected with by electric welding or rivet with cradling piece 5.Each side of concrete column 2 at least correspondence is provided with two support bars 4, and the spacing of adjacent supports bar 4 is not more than 300mm.Cradling piece 4 is the tubulose that cross sectional shape is identical with bight connecting rod 6, and bight connecting rod 6 is inserted in cradling piece 4, and simple installation, speed of application is fast.
Support bar 4 comprises two braces 41 arranged in "eight" shape, brace 41 one end is connected with cradling piece 5, brace 41 other end is provided with elasticity draw-in groove 42, elasticity draw-in groove 42 is installed on main muscle 1, in order to fixed support bar 5, prevent cradling piece 5 to be subjected to displacement, thus form an entirety, assembling is simple.Brace 41 is not more than 45 ° with the angle α of main muscle 1.
Be provided with template 7 in cradling piece 5 outside of Inner standpipe, between template 7 and concrete column 2, be filled with reinforcement cover 3.
In the present embodiment, the specification of cradling piece 5 is 30*30*2.0, and the specification of corner connector 6 is 25*25*1.0; Inner standpipe is 1.2m along the spacing of pillar short transverse.
In the utility model, Inner standpipe is directly cast in pillar, and template 7 is no longer taken out after removing, during installation, as long as ensure that the lateral surface of cradling piece 5 is concordant with bight with outside pillar respectively with corner connector; During installation, first pillar the top and nethermost twice Inner standpipe are installed respectively, then middle Inner standpipe is installed on this basis respectively, does not need, to template centering and tune effect mold plate verticality separately, to require lower to the technical level of Site Template installation personnel, greatly can improve efficiency of construction, installation accuracy easily controls, and can improve construction quality, reduces the work difficulty of model sheetinstallat, the workload of doing over again, rectifying and improving can be avoided, be conducive to the operation of model sheetinstallat streamlined.
Construction method of the present utility model in turn includes the following steps:
1, basic snap the line: according to on-the-spot coordinate control stake, adopts total powerstation to be surveyed by the axis of pillar and is set to predetermined position, and ejected by axis on foundation platform with the line of ink marker; According to the correspondingly-sized relation between the sideline of pillar in construction drawing and axis, in conjunction with the axis ejected, surveyed in the sideline of pillar and be set on foundation platform, and ejected in sideline with the line of ink marker, every limit, the pillar sideline that the line of ink marker comparatively designs extends 300mm.
2, assembling reinforcement: the control line good according to bullet on foundation platform, accurately main muscle 1 position of location pillar, and after verticality passed examination to main muscle 1, carry out stirrup colligation; Stirrup and main muscle 1 are mutually vertical, stirrup corner and the colligation of main muscle 1 joining, and the joining of main muscle 1 and the non-corner of stirrup is that plum blossom is interlocked colligation.
3, built-in fitting is installed: reinforcing bar binding is complete, and after acceptance(check), install built-in fitting in pillar side, be welded on the reinforcing bar of pillar by the dowel of built-in fitting, built-in fitting steel plate is concordant with the side of pillar.
4, make Inner standpipe: adopt 30*30*2.0 square tube processing and fabricating Inner standpipe in precast yard, guarantee that the rigidity of Inner standpipe is enough to meet the support demand to template, ensure the requirement of reinforcement cover 3 simultaneously.
5, install Inner standpipe: first, with marking pen position along short transverse mark per pass Inner standpipe on the main muscle 1 of pillar, the spacing of adjacent Inner standpipe is 1.2m; Secondly, the elasticity draw-in groove 42 of Inner standpipe is installed on main muscle 1, guarantee that four cradling pieces 5 of per pass Inner standpipe are at sustained height, mutually concordant at cradling piece 5 lateral surface of each road Inner standpipe of pillar the same side, and align with the pillar sideline of bullet on foundation platform; Then, install corner connector, corner connector 6 is fixedly connected with by electric welding or rivet with cradling piece 5, forms a complete Inner standpipe.
6, template is in place: in precasting yard processing template 7, be transported to job site, be transported to by the pillar of pre-installation with tower crane or crane by template 7 after acceptance(check), distance pre-installed position controls within 1.5m, is convenient to mobile installation.
7, model sheetinstallat: first, install the template 7 of a pillar wherein side, being directly close on the cradling piece 5 of Inner standpipe by template 7 medial surface, aligns with corresponding sideline respectively in template 7 left and right sides, and with steel pipe by temporary fixed for the template 7 of this side; Secondly, install the template 7 of adjacent side, method is the same; Then, install the template 7 of residue two sides, method is the same; Finally, carry out the location of template 7 according to the sectional dimension of pillar, after template 7 accurate positioning, use pipe collar locking steel pipe, pipe collar spacing is 500mm, and road, upper, middle and lower three pipe collar along pillar short transverse is connected with the scaffold closed on respectively, to prevent template 7 global displacement.
8, inspect for acceptance: the requirement according to construction inspection rules carries out an acceptance inspection to template 7 installation quality, inspection item has template 7 axial location, absolute altitude, pillar sectional dimension, template 7 verticality, firmness, installation of embedded parts situation etc., guarantees all to meet code requirement.
9, concreting: the concrete requiring mixing respective strengths grade according to working design, before pillar concrete placings, first fill out in bottom and subtract stone cement mortar so that 5 ~ 10cm is thick with concrete with match ratio, adopt tower crane or pump truck to be transported to by concrete again and build position, pillar concrete one-time-concreting is complete, constuction joint is located at below girder, build layered to vibrate, during use poker vibrator, every layer thickness is not more than 50cm, vibrator must not touch reinforcing bar and built-in fitting, meanwhile, also template 7 to be beaten at any time in case produce honeycomb, pitted skin, hole.
10, the demoulding: after concrete placings completes, temperature is more than 20 °, stripping 7 two days later, temperature is below 20 °, carries out stripper's work after four days.
11, maintenance: after template 7 is removed, with plastic sheeting, pillar is wrapped immediately, plastic sheeting is wound around firmly by blend compounds band, exposed position, pillar top covers with cotton felt after concrete initial set, water seasoning after final set, to avoid the exposed or plastic sheeting of pillar to leak out, prevent the too fast evaporation of moisture, curing time, is limited to ten days.
In steps of 5, when per pass Inner standpipe is installed, the cradling piece 5 of first location and installation two opposite face, other two cradling pieces 5 are installed after passed examination again, in installation process, the size in the size cross section corresponding to pillar between the lateral surface guaranteeing the cradling piece 5 that pillar two is relative is consistent, and this place's cradling piece 5 plays the cushion block effect of reinforcement cover 3, this place is without the need to installing the cushion block of reinforcement cover separately, and technique is simple; In step 9, concrete is no more than 2m from the eminence free height fallen of inclining, and when the vertical structure height of building is more than 3m, needs to offer casting and compacting of concrete hole in pillar side.
In step 7, if when the length of any side of pillar is greater than 600mm, according to sectional dimension, concrete placings speed and Force Calculation situation, reduce pipe collar spacing or increase Screw arbor with nut at both-ends in the middle of pillar, at the outer sheathed pvc pipe of Screw arbor with nut at both-ends, pvc pipe internal diameter 3-5mm larger than the diameter of Screw arbor with nut at both-ends.
Claims (7)
1. Inner standpipe formula cast-in-situ reinforced concrete column, it is characterized in that, comprise the main muscle arranged in concrete column and concrete column, concrete column surrounding is arranged at intervals with Inner standpipe along short transverse; Described Inner standpipe comprises the support bar and four cradling pieces be connected with the support bar other end that are connected with main muscle, and cradling piece parallels with corresponding concrete column body side surface, and adjacent stent bar is connected by the corner connector of end; The cradling piece outside of Inner standpipe is provided with template.
2. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 1, it is characterized in that: described support bar comprises two braces arranged in "eight" shape, brace one end is connected with cradling piece, and the brace other end is provided with elasticity draw-in groove, and elasticity draw-in groove is installed on main muscle.
3. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 2, it is characterized in that, the angle α of described brace and main muscle is not more than 45 °.
4. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 3, is characterized in that, be filled with reinforcement cover between described template and concrete column.
5. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 4, it is characterized in that, described corner connector is " L " shape.
6. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 5, it is characterized in that, each side of described concrete column is at least provided with two support bars, and the spacing of adjacent supports bar is not more than 300mm.
7. Inner standpipe formula cast-in-situ reinforced concrete column as claimed in claim 6, it is characterized in that, described cradling piece and bight connecting rod are the tubulose that cross sectional shape is identical, and bight connecting rod is inserted in cradling piece.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520482888.7U CN204781603U (en) | 2015-07-07 | 2015-07-07 | Built -in cast -in -place reinforced concrete column of posture |
Applications Claiming Priority (1)
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CN201520482888.7U CN204781603U (en) | 2015-07-07 | 2015-07-07 | Built -in cast -in -place reinforced concrete column of posture |
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CN204781603U true CN204781603U (en) | 2015-11-18 |
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CN201520482888.7U Withdrawn - After Issue CN204781603U (en) | 2015-07-07 | 2015-07-07 | Built -in cast -in -place reinforced concrete column of posture |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104947853A (en) * | 2015-07-07 | 2015-09-30 | 中国化学工程第十一建设有限公司 | Built-in stand type cast-in-place reinforced concrete pillar and construction method |
-
2015
- 2015-07-07 CN CN201520482888.7U patent/CN204781603U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104947853A (en) * | 2015-07-07 | 2015-09-30 | 中国化学工程第十一建设有限公司 | Built-in stand type cast-in-place reinforced concrete pillar and construction method |
CN104947853B (en) * | 2015-07-07 | 2017-03-01 | 中国化学工程第十一建设有限公司 | A kind of Inner standpipe formula cast-in-situ reinforced concrete column and construction method |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20151118 Effective date of abandoning: 20171114 |
|
AV01 | Patent right actively abandoned |