CN205530729U - Ceiling radiant tube structure based on bury under reinforcing bar - Google Patents

Abstract

The embodiment of the utility model discloses ceiling radiant tube structure based on bury under reinforcing bar, include: the reinforcing bar is netted the piece, is ceiling radiant tube, floor and the concrete layer of " S " type, wherein, reinforcing bar net piece includes at least one net, the ceiling radiant tube passes through reinforcing bar net piece at least one net is connected with reinforcing bar net piece, connect the back reinforcing bar net piece with the ceiling radiant tube sets up the back just, is connected in the bottom surface top of floor reinforcing bar net piece with the ceiling radiant tube with the basal spacing of floor is 5mm, concrete layer fills reinforcing bar net piece the ceiling radiant tube with the space department of the bottom surface of floor. It is thus clear that, through the embodiment of the utility model provides a low, with high costs, the difficult problem of maintaining of thermal efficiency utilization ratio of thermal -insulated constant temperature scheme existence has at present been solved.

Description

A kind of based on the ceiling radial canal structure buried under reinforcing bar

Technical field

This utility model relates to technical field of buildings, particularly relates to a kind of based on the ceiling radial canal buried under reinforcing bar Structure.

Background technology

The raising required quality of life along with people, the standard for building is also constantly promoting, especially It is house or office block etc., in addition to meeting most basic requirement of strength and safety requirements, in addition it is also necessary to Meet the requirement of " cool in summer and warm in winter ", that is, need to realize the thermostatic control to indoor temperature.

At present, it is common that realize the thermostatic control to indoor temperature by ceiling radial canal.But, existing Having in technology, ceiling radial canal buries and is usually provided at above floor lower rebar, and the shortcoming of this technology is: its One, because reinforced concrete floor thickness needs to reach 13cm, the common floor of the 10cm that compares, this increases Cost and cost are added；Second, effective output rating ratio of heat is relatively low, because being embedded in two-layer armored concrete In mesh sheet, needing simultaneously to upper and lower transfer of heat, its downward radiation amount accounts for the 60% of total radiation, upwards accounts for total The 40% of amount, for ceiling radiation pipeline, heat radiation utilization rate is on the low side；3rd, thermal reaction rate compares Low, its total thermal output has been limited in 40w/, and variations in temperature has been limited to temperature rise 2 DEG C per hour.

Utility model content

This utility model embodiment provides a kind of based on the ceiling radial canal structure buried under reinforcing bar, to solve mesh The thermal efficiency utilization rate that front heat-insulation constant temperature scheme exists is low, cost is high, the problem of difficult maintenance.

In order to solve the problems referred to above, this utility model embodiment discloses a kind of based on the ceiling spoke buried under reinforcing bar Penetrate pipe structure, including: reinforced mesh, ceiling radial canal, floor and concrete layer in " S " type；

Wherein, described reinforced mesh includes at least one grid；

Described ceiling radial canal is connected with reinforced mesh by least one grid described of described reinforced mesh；

Described reinforced mesh and described ceiling radial canal after connection are arranged on above the bottom surface of described floor, and, Described reinforced mesh and the basal spacing of described ceiling radial canal and described floor after connection are 5mm；

Described concrete layer is filled in the bottom surface of described reinforced mesh, described ceiling radial canal and described floor Gap.

Alternatively, the inner side reinforcing bar of described reinforced mesh after connection and described ceiling radial canal and described floor Connect；Wherein, described inner side reinforcing bar is the reinforcing bar of the bottom surface near described floor.

Alternatively, described reinforced mesh and described ceiling radial canal after connection embed based on described concrete layer In described floor.

Alternatively, described reinforced mesh includes: many cold drawn wires；

Described many cold drawn wire transverse and longitudinals are arranged in a crossed manner and are connected with each other.

Alternatively, a diameter of 4mm of described cold drawn wire.

Alternatively, described ceiling radial canal includes: multiple with in parallel setting of entrance, pipe outlet Sub-level pipeline；Wherein, described entrance and pipe outlet are arranged in the same direction；

The adjacent spacing between two sub-level pipelines is equal to the width of described grid.

This utility model has the advantages that

This utility model embodiment discloses a kind of based on the ceiling radial canal structure buried under reinforcing bar, including steel Muscle mesh sheet, ceiling radial canal, floor and concrete layer in " S " type；Wherein, described reinforced mesh includes At least one grid；Described ceiling radial canal passes through at least one grid described and the reinforcing bar of described reinforced mesh Mesh sheet connects；Described reinforced mesh and described ceiling radial canal after connection are arranged on the bottom surface of described floor Side, and, described reinforced mesh after connection and described ceiling radial canal with the basal spacing of described floor are 5mm；Described concrete layer is filled in the bottom surface of described reinforced mesh, described ceiling radial canal and described floor Gap.Visible, in this utility model embodiment, ceiling radial canal is embedded under floor lower floor reinforcing bar Surface so that within relative time and space, can be more rapid, more efficient heat is transported to indoor, And delay the thermal-radiating speed to opposite side floor and time.Overcome and must the most uniformly heating mix The shortcoming that armored concrete could be utilized to transfer out heat after solidifying soil.Secondly, ceiling radial canal is directly embedded in The lower surface of floor lower floor reinforcing bar, the total amount of required concrete when decreasing constructed, decrease heating coagulation Gross calorific value needed for soil, shortens the heat time to indoor conduct radiation.Finally, due to ceiling radial canal Can the temperature in heating chamber improve heat simultaneously and ring rapidly closer to so that its heat from the surface of floor Response.Simultaneously as pipeline avoids reinforcing bar, shallow embedding is on the surface of concrete layer so that maintenance is more Convenient.

Accompanying drawing explanation

By reading the detailed description of hereafter preferred implementation, various other advantage and benefit for ability Territory those of ordinary skill will be clear from understanding.Accompanying drawing is only used for illustrating the purpose of preferred implementation, and also It is not considered as restriction of the present utility model.And in whole accompanying drawing, it is denoted by the same reference numerals phase Same parts.In the accompanying drawings:

Fig. 1 is a kind of structure based on the ceiling radial canal structure buried under reinforcing bar in this utility model embodiment one Schematic diagram；

Fig. 2 is the structural representation of a kind of reinforced mesh in this utility model embodiment one；

Fig. 3 is the attachment structure signal of a kind of reinforced mesh and ceiling radial canal in this utility model embodiment one Figure；

Fig. 4 is a kind of structure based on the ceiling radial canal structure buried under reinforcing bar in this utility model embodiment two Schematic diagram.

Detailed description of the invention

In description of the present utility model, except as otherwise noted, " multiple " be meant that two or two with On；Term " on ", D score, "left", "right", " interior ", the orientation of the instruction such as " outward " or Position relationship is based on orientation shown in the drawings or position relationship, be for only for ease of description this utility model and Simplify and describe rather than indicate or imply that the machine of indication or element must have specific orientation, with specifically Azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, art Language " is installed ", " being connected ", " connection " should be interpreted broadly, and connects, also for example, it may be fixing Can be to removably connect, or be integrally connected；Can be to be mechanically connected, it is also possible to be electrical connection；Permissible It is to be joined directly together, it is also possible to be indirectly connected to by intermediary.For the ordinary skill in the art, Above-mentioned term concrete meaning in this utility model can be understood with concrete condition.

With embodiment, detailed description of the invention of the present utility model is described in further detail below in conjunction with the accompanying drawings.Below Embodiment is used for illustrating this utility model, but is not limited to scope of the present utility model.

Below with reference to accompanying drawing and describe this utility model in detail in conjunction with the embodiments.It should be noted that In the case of not conflicting, the embodiment in this utility model and the feature in embodiment can be mutually combined.

Embodiment one

With reference to Fig. 1, it is shown that a kind of based on the ceiling radial canal buried under reinforcing bar in this utility model embodiment one The structural representation of structure.In the present embodiment, described permissible based on the ceiling radial canal structure buried under reinforcing bar Including: reinforced mesh 1, ceiling radial canal 2, floor 3 and concrete layer 4 in " S " type.

Described ceiling radial canal 2 is by least one grid described of described reinforced mesh 1 and reinforced mesh 1 Connect.Described reinforced mesh 1 after connection and described ceiling radial canal 2 are arranged on the bottom surface 301 of described floor Top, and, the bottom surface 301 of described reinforced mesh 1 after connection and described ceiling radial canal 2 and described floor Spacing is 5mm.Described concrete layer 4 is filled in described reinforced mesh 1, described ceiling radial canal 2 and described The gap of the bottom surface 30 of floor.

With reference to Fig. 2, it is shown that the structural representation of a kind of reinforced mesh in this utility model embodiment one.? In the present embodiment, described reinforced mesh 1 includes at least one grid.Such as, the long X width of each grid can To be 400mmX200mm.

Further, with reference to Fig. 3, it is shown that a kind of reinforced mesh and ceiling in this utility model embodiment one The attachment structure schematic diagram of radial canal.In the present embodiment, described ceiling radial canal 2 can pass through described steel At least one grid described of muscle mesh sheet 1 is connected with reinforced mesh 1.

Those skilled in the art are it should be apparent that can be by described reinforcing bar in the way of using any one suitable Mesh sheet 1 is attached with described ceiling radial canal 2.As, described connection can but be not limited only to: pass through steel What silk was attached ties up connected mode, or, welding connecting mode.

In sum, described in the present embodiment based on reinforcing bar under bury ceiling radial canal structure may include that Reinforced mesh, ceiling radial canal, floor and concrete layer in " S " type；Wherein, described reinforced mesh bag Include at least one grid；Described ceiling radial canal passes through at least one grid described and the steel of described reinforced mesh Muscle mesh sheet connects；Described reinforced mesh after connection and described ceiling radial canal are arranged on the bottom surface of described floor Top, and, described reinforced mesh after connection and described ceiling radial canal with the basal spacing of described floor are 5mm；Described concrete layer is filled in the bottom surface of described reinforced mesh, described ceiling radial canal and described floor Gap.Visible, in the present embodiment, ceiling radial canal is embedded in the lower surface of floor lower floor reinforcing bar, makes Must within relative time and space, can be more rapid, more efficient heat is transported to indoor, and prolong The thermal-radiating speed to opposite side floor and time are delayed.Overcome after uniformly must adding hot concrete simultaneously The shortcoming that armored concrete transfers out heat could be utilized.Secondly, ceiling radial canal is directly embedded in underfloor The lower surface of layer reinforcing bar, when decreasing constructed, the total amount of required concrete, decreases needed for adding hot concrete Gross calorific value, shorten the heat time to indoor conduct radiation.Finally, due to ceiling radial canal is from floor Surface can the temperature in heating chamber simultaneously improve thermal response degree rapidly closer to so that its heat. Simultaneously as pipeline avoids reinforcing bar, shallow embedding is on the surface of concrete layer so that it is the most convenient to keep in repair.

Embodiment two

On the basis of above-described embodiment one, the present embodiment also discloses a kind of being preferably based on and buries under reinforcing bar Ceiling radial canal constructs.It is preferably based on the ceiling radiation buried under reinforcing bar below to a kind of disclosed in the present embodiment The concrete structure of pipe structure is described in detail.

With reference to Fig. 4, it is shown that a kind of based on the ceiling radial canal buried under reinforcing bar in this utility model embodiment two The structural representation of structure.In the present embodiment, described permissible based on the ceiling radial canal structure buried under reinforcing bar Including: reinforced mesh 1, ceiling radial canal 2, floor 3 and concrete layer 4 in " S " type.

Described ceiling radial canal 2 is by least one grid described of described reinforced mesh 1 and reinforced mesh 1 Connect.Described reinforced mesh 1 after connection and described ceiling radial canal 2 are arranged on the bottom surface 301 of described floor Top, and, the bottom surface 301 of described reinforced mesh 1 after connection and described ceiling radial canal 2 and described floor Spacing is 5mm.Described concrete layer 4 is filled in described reinforced mesh 1, described ceiling radial canal 2 and described The gap of the bottom surface 301 of floor.

In the present embodiment, those skilled in the art can be by described connection in the way of using any one suitable After reinforced mesh 1 and described ceiling radial canal 2 be fixed on 5mm position above the bottom surface 301 of floor. Such as:

Wherein, a kind of feasible mode can be such that

In the present embodiment, described floor 3 includes multiple laterally and/or longitudinally arranging reinforcing bar.Preferably, Can determine from multiple reinforcing bars that one meets specific criteria reinforcing bar as inner side reinforcing bar (as described in Figure 2 interior Side reinforcing bar 302), wherein it is desired to explanation, described inner side reinforcing bar 302 is apart from the bottom surface 301 of described floor Spacing be 5mm.It is further preferred that the reinforced mesh 1 after described connection and described ceiling radial canal 2 It is connected with the inner side reinforcing bar 302 of described floor 3.Wherein, described inner side reinforcing bar 302 is near described floor The reinforcing bar of bottom surface.

It should be noted that the most described inner side reinforcing bar 302 both can be the reinforcing bar of horizontally set, Can also be longitudinally disposed reinforcing bar, described reinforced mesh 1 can connect with transverse steel and/or longitudinal reinforcement Connecing, this is not restricted by the present embodiment.

Wherein, another kind of feasible mode can be such that

If screening is met the standard (bottom surface 301 away from floor in the multiple reinforcing bars failed from described floor 3 Spacing be 5mm) reinforcing bar time, can directly will connect after reinforced mesh 1 and described ceiling radial canal 2 It is embedded in described floor 3 based on described concrete layer 4.When implementing, can be such that away from institute State 5mm position above the bottom surface 301 of floor and one location masterplate is set, according to the location mould of described setting Version arranges the described reinforced mesh 1 after connection and the position of described ceiling radial canal 2.After described connection The position of described reinforced mesh 1 and described ceiling radial canal 2 carries out pouring of concrete, at coagulation after determining After soil has poured, described reinforced mesh 1 and described ceiling radial canal 2 after described connection are embedded in institute State in floor 3, and, the distance of the bottom surface 301 away from described floor is 5mm.

Preferably, in the present embodiment, as shown in Figure 4, described ceiling structure can also include: bed course 5 With surface layer 6.Described bed course 5 is laid on the upper surface (side away from indoor) of described floor 3 with described Between surface layer 6, serve the effect of heat-insulation and heat-preservation.

As in figure 2 it is shown, in the present embodiment, described reinforced mesh 1 includes at least one grid.Preferably, Described reinforced mesh 1 includes many cold drawn wires, and described many cold drawn wire transverse and longitudinals are arranged in a crossed manner and interconnect mutually Connect.Wherein, included by the many cold drawn wire transverse and longitudinal grids determined arranged in a crossed manner namely described reinforced mesh 1 Grid.It should be noted that the diameter of described cold drawn wire can select also according to actual request, e.g., can With but be not limited only to be φ 4mm.

As it is shown on figure 3, in the present embodiment, described ceiling radial canal 2 can pass through described reinforced mesh 1 At least one grid described be connected with reinforced mesh 1.Described ceiling radial canal 2 is arranged on institute in " S " type State on reinforced mesh 1.Preferably, as it is shown on figure 3, described ceiling radial canal may include that entrance 201, pipe outlet 202 and the many height level pipeline in parallel setting.As, the first sub-level shown in Fig. 3 Pipeline 203 and second level sub-level pipeline 204 be arranged in parallel.

Preferably, described entrance 201 and pipe outlet 202 can be arranged in the same direction；Two adjacent sons Spacing between level pipeline can be equal to the width of described grid.As it is shown on figure 3, described first son grade pipeline Spacing between 203 and second level sub-level pipeline 204 is equal to the width of the first grid 101.

Certainly, those skilled in the art are it should be apparent that described entrance 201 and pipe outlet 202 Position relationship, and the spacing between two adjacent sub-level pipelines can arrange according to practical situation, This is not restricted by the present embodiment.

In sum, described in the present embodiment based on reinforcing bar under bury ceiling radial canal structure may include that Reinforced mesh, ceiling radial canal, floor and concrete layer in " S " type；Wherein, described reinforced mesh bag Include at least one grid；Described ceiling radial canal passes through at least one grid described and the steel of described reinforced mesh Muscle mesh sheet connects；Described reinforced mesh after connection and described ceiling radial canal are arranged on the bottom surface of described floor Top, and, described reinforced mesh after connection and described ceiling radial canal with the basal spacing of described floor are 5mm；Described concrete layer is filled in the bottom surface of described reinforced mesh, described ceiling radial canal and described floor Gap.Visible, in the present embodiment, ceiling radial canal is embedded in the lower surface of floor lower floor reinforcing bar, makes Must within relative time and space, can be more rapid, more efficient heat is transported to indoor, and prolong The thermal-radiating speed to opposite side floor and time are delayed.Overcome after uniformly must adding hot concrete simultaneously The shortcoming that armored concrete transfers out heat could be utilized.Secondly, ceiling radial canal is directly embedded in underfloor The lower surface of layer reinforcing bar, when decreasing constructed, the total amount of required concrete, decreases needed for adding hot concrete Gross calorific value, shorten the heat time to indoor conduct radiation.Finally, due to ceiling radial canal is from floor Surface can the temperature in heating chamber simultaneously improve thermal response degree rapidly closer to so that its heat. Simultaneously as pipeline avoids reinforcing bar, shallow embedding is on the surface of concrete layer so that it is the most convenient to keep in repair.

Additionally, those skilled in the art are it should be apparent that in traditional arrangement and method for construction, former concrete Bury thickness underground and be at least the two-layer reinforced mesh thickness plus concrete cover, so under ceiling radial canal Surface will reach 45mm from the lower surface of concrete, and can be by above-mentioned 45mm by the scheme of the present embodiment Distance Shortened to 5mm, substantially increase thermal emissivity rate, it is to avoid the loss of heat.Further, exist In the present embodiment, ceiling radial canal is close to the surface of floor, and the lower surface at concrete layer finds pipe seepage During phenomenon, can quickly pinpoint the problems and keep in repair, simultaneously as distance slab surfaces is relatively near, non-during maintenance The most convenient.Further, ceiling radial canal is in the lower section of reinforcing bar, is equivalent in work progress first Construction is ceiling radial canal, then the Ze Shi lower floor reinforcing bar constructed, so it is intended that ceiling radiates The surface of pipe, with regard to the reinforcing bar protection of many a layer, extends the service life of ceiling radial canal.

Embodiment three

In conjunction with said apparatus embodiment, the present embodiment is with construction based on the ceiling radial canal structure buried under reinforcing bar As a example by flow process, described structure based on the ceiling radial canal structure buried under reinforcing bar is explained in detail explanation.Knot Close and state Fig. 1-Fig. 4, in the present embodiment, described based on the ceiling radial canal structure buried under reinforcing bar executing Work flow process may include that

Step S502, arranges the reinforced mesh 1 including at least one grid.

Step S504, by least one grid described in described reinforced mesh 1, will be in the sky of " S " type Canopy radial canal 2 is connected with described reinforced mesh 1.

Step S506, has the reinforced mesh 1 of described ceiling radial canal 2 to be arranged on the end of described floor by connection Above face 301, and, connect the bottom surface 301 of the reinforced mesh 1 and described floor having described ceiling radial canal 2 Spacing be 5mm.

Step S508, by concreting in described reinforced mesh 1, described ceiling radial canal 2 and described building The gap of the bottom surface 301 of plate.

In the present embodiment, those skilled in the art will can connect in the way of using any one suitable The reinforced mesh 1 stating ceiling radial canal 2 is arranged on above the bottom surface 301 of described floor near outdoor side. Such as:

Wherein, a kind of feasible mode can be such that the described reinforced mesh 1 after connecting and described ceiling Radial canal 2 is connected with the inner side reinforcing bar 302 of described floor 3, so that described reinforced mesh 1 He after Lian Jieing Described ceiling radial canal 2 is 5mm with the spacing of the bottom surface 301 of described floor.Wherein, described inner side reinforcing bar 302 is the reinforcing bar of the bottom surface near described floor, and, the distance of the bottom surface 301 away from described floor is 5mm.

Wherein, another kind of feasible mode can be such that in 5mm position above the bottom surface 301 of described floor The place of putting arranges location masterplate, arranges described reinforced mesh 1 He after connection according to the location masterplate of described setting The position of described ceiling radial canal 2.

In a preferred version of the present embodiment, a kind of feasible setting includes the bar-mat reinforcement of at least one grid The method of sheet 1 may is that many cold drawn wire transverse and longitudinal cross arrangement, and connects.Preferably, described cold Pull out gauge of wire can but not only limit be 4mm.

Preferably, described ceiling radial canal 2 may include that entrance 201, pipe outlet 202 and in Many height level pipeline of parallel setting.

It is further preferred that described entrance 201 and pipe outlet 202 can be arranged in the same direction；Adjacent Spacing between two sub-level pipelines can be equal to the width of described grid.

Visible, in the present embodiment, ceiling radial canal is embedded in the lower surface of floor lower floor reinforcing bar so that In relative time and space, can be more rapid, more efficient heat is transported to indoor, and delay To thermal-radiating speed and the time of opposite side floor.Overcome must uniformly add ability after hot concrete simultaneously Utilize the shortcoming that armored concrete transfers out heat.Secondly, ceiling radial canal is directly embedded in floor lower floor steel The lower surface of muscle, the total amount of required concrete when decreasing constructed, decrease add needed for hot concrete total Calorific value, shortens the heat time to indoor conduct radiation.Finally, due to ceiling radial canal is from the table of floor Face can the temperature in heating chamber simultaneously improve thermal response degree rapidly closer to so that its heat.Meanwhile, Owing to pipeline avoids reinforcing bar, shallow embedding is on the surface of concrete layer so that it is the most convenient to keep in repair.

Last it is noted that above example is only in order to illustrate the technical solution of the utility model, rather than right It limits；Although this utility model being described in detail with reference to previous embodiment, this area common Skilled artisans appreciate that the technical scheme described in foregoing embodiments still can be modified by it, Or wherein portion of techniques feature is carried out equivalent；And these amendments or replacement, do not make corresponding skill The essence of art scheme departs from the spirit and scope of this utility model each embodiment technical scheme.

Claims (6)

1. one kind based on the ceiling radial canal structure buried under reinforcing bar, it is characterised in that including: reinforced mesh, ceiling radial canal, floor and concrete layer in " S " type；

Wherein, described reinforced mesh includes at least one grid；

Described ceiling radial canal is connected with reinforced mesh by least one grid described of described reinforced mesh；

Described reinforced mesh and described ceiling radial canal after connection are arranged on above the bottom surface of described floor, and, described reinforced mesh and the basal spacing of described ceiling radial canal and described floor after connection are 5mm；

Described concrete layer is filled in the gap of the bottom surface of described reinforced mesh, described ceiling radial canal and described floor.

Ceiling radial canal the most according to claim 1 constructs, it is characterised in that the inner side bar connecting of described reinforced mesh after connection and described ceiling radial canal and described floor；Wherein, described inner side reinforcing bar is the reinforcing bar of the bottom surface near described floor.

Ceiling radial canal the most according to claim 1 constructs, it is characterised in that described reinforced mesh and described ceiling radial canal after connection are embedded in described floor based on described concrete layer.

Ceiling radial canal the most according to claim 1 constructs, it is characterised in that described reinforced mesh includes: many cold drawn wires；

Described many cold drawn wire transverse and longitudinals are arranged in a crossed manner and are connected with each other.

Ceiling radial canal the most according to claim 4 constructs, it is characterised in that a diameter of 4mm of described cold drawn wire.

Ceiling radial canal the most according to claim 1 constructs, it is characterised in that described ceiling radial canal includes: entrance, pipe outlet and the many height level pipeline in parallel setting；Wherein, described entrance and pipe outlet are arranged in the same direction；

The adjacent spacing between two sub-level pipelines is equal to the width of described grid.