CN100383352C - Structured body of indoor corner of guilding - Google Patents

Abstract

To provide a structure at an indoor corner part of a building, simply constructing the floor surface by eliminating mortar construction for leveling the floor surface. In constructing a pipe for heating, the use of light-weight concrete is eliminated and dry type construction is performed, whereby the construction period is reduced, and the transmission of inter-layer noise can be intercepted. Before constructing a finishing mortar layer, a plurality of brackets are fixed to the wall surface at predetermined spaces, and after that, an auxiliary bracket is provided on the front of a bracket 10, a finishing frame is provided on the front of the auxiliary bracket, plaster board is provided on the upper part, a frame is provided in a finishing frame 26, the upper surface of the frame is provided with connectors on both side surfaces, the central part thereof is provided with a bracket having a plate connecting part mentioned later on the projecting part, a pipe 68 for heating and floor material are provided on the upper surface of the bracket, and a water pulse wave preventing plate 40 and a floor material are provided on the upper surface of the floor material 60.

Description

The structure of the indoor corner portions located of building

[technical field]

The present invention relates to the structure and the job practices thereof of the indoor corner portions located of building, purpose is to improve greenhouse efficient, and the noise between isolation layer and the layer prevents the floor humidity, prevents peculiar smell and entomophagous parasite, beautifies outward appearance simultaneously.

[background technology]

The job practices in the indoor corner portions located parging of building in the past is, on the floor, lay base concrete material, thermal insulation material, greenhouse pipeline etc. earlier, lay plaster and maintenance level with certain thickness in the above then, because the thickness of plaster can't observe intuitively in the work progress, so the construction of the marginal portion of floor ash mud layer becomes extremely difficult, and be difficult for guaranteeing uniform floor plaster thickness.

In addition, the construction in later period difficulty of the corner portions located that metope and floor join is very big, and the crack takes place easily in the plaster hardening process, and these cracks become the source of distributing of peculiar smell probably or become the habitat of insect.

When the flooring of grey mud layer sclerosis back, because the construction of corner portions located is coarse, make the floor edge perk easily, or vary with temperature the curling phenomenon of generation, influence the attractive in appearance of corner portions located.Under the situation of burying the greenhouse pipeline underground, pipe section is heated, and pipeline temperature is on every side risen earlier, makes the grey mud layer at this position the crack take place or come off the floor above also may destroying easily.

In addition, because the phenomenon that the globule condenses might take place temperature contrast, cause the floor humidity between ground and floor or a heatable brick bed plate, serious possible mouldy or propagate microorganisms etc. are detrimental to health.

The applicant is that the structure Korea S that overcomes the above problems the indoor corner portions located of building of motion formerly applies for and obtains the authorization in February, 2004, and the patent No. is 2002-12914 number.

Corner structure structure and job practices thereof are disclosed in the motion of first to file.Specify for; in the end lay before the plaster; at certain intervals a plurality of supports are fixed on the metope; the frame horizontal that will have datum is arranged on the support; guarantee the plaster laying depth; at support the place ahead stationary main frame; ground construction finishes the back terrestrial radiation protected apron is set on ground; be formed with connecting portion around the terrestrial radiation protected apron; be convenient to the terrestrial radiation protected apron of many equal sizes longitudinally or is laterally connected use, ground becomes the fluctuating shape, forms air flue; then formed a plurality of pores at frame, the moisture that ground is produced discharges.

Above method can guarantee that plaster evenly lays along level or vertical direction, and can hide the end on floor, prevents the terminal perk in floor, makes the indoor corner portions located of building become attractive in appearance, but can not be with timber as flooring material.

In addition, owing to use lightweight concrete to lay the greenhouse pipeline on thick dull and stereotyped ground, construction period is long, owing to directly link to each other between layer and the layer, so can not completely cut off noise.

[summary of the invention]

The present invention is for overcoming the above problems motion, and purpose is to remove from for keeping the laying plaster process that level is carried out, and makes engineering become simple.

Do not use lightweight concrete when another object of the present invention is to lay the greenhouse pipeline and carry out dry construction, noise insulation is transmitted in the time of the reduction of erection time.

When the object of the invention also is ground constructed, final parging process is become easily, and avoid because the moist phenomenon in floor that the globule condenses and causes prevents mouldy or other microbial growth, protection user's health.

The object of the invention also is to form the space by floor, reduces the noise between layer and the layer, and the heat that thermal source is sent plays even warming effect with the convection type transmission.

The object of the invention also is the terrestrial radiation protected apron can easily be set, the moist phenomenon that the globule below avoiding condenses and causes.

For realizing above purpose, the present invention utilizes the dry construction method that floor is constructed, characteristics are: before the final parging, on metope, fix a plurality of first supports at certain intervals, and auxiliary stand is set in first support the place ahead, auxiliary stand the place ahead is provided with frame, described frame the place ahead is provided with main frame, and the top is provided with gypsum plank, framework is set on the frame, the framework top is provided with both sides connecting portion, the center has second support of protuberance and board-like connecting portion, and the greenhouse pipeline and first flooring material are set above above-mentioned second support, is provided with the terrestrial radiation protected apron and second flooring material above first flooring material.

[description of drawings]

Fig. 1 is the embodiment of the present invention schematic diagram.

Fig. 2 a is the embodiment of the present invention sectional drawing.

Fig. 2 b is the intersecting angle sectional drawing of embodiment of the present invention.

Fig. 3 a to 3k is the invention process engineering drawing.

Fig. 4 is the stereogram of the framework that uses of the present invention.

Fig. 5 is the stereogram of second support that uses of the present invention.

Fig. 6 a and 6b are the scheme of installations of second support that uses of the present invention.

Fig. 7 is the terrestrial radiation protected apron schematic diagram that the present invention uses.

Fig. 8 is the major part enlarged diagram of the terrestrial radiation protected apron that uses of the present invention.

Fig. 9 a and 9b are the terrestrial radiation protected apron installment state schematic diagrames that the present invention uses.

[specific embodiment]

With reference to accompanying drawing, embodiment of the present invention is described as follows.

With reference to Fig. 1 and Fig. 2, the present invention's composition is described as follows.Before the final parging, on metope B, fix a plurality of first supports 10 at certain intervals, and auxiliary stand 15 is set in first support, 10 the place aheads, auxiliary stand 15 the place aheads are provided with frame 20, frame 20 tops are provided with gypsum plank E, framework 35 is set on the frame 20, framework 35 tops are provided with both sides connecting portion, the center has second support 50 of protuberance and board-like connecting portion, the greenhouse pipeline 68 and first flooring material 60 are set above above-mentioned second support 50, be provided with mat 67 above first flooring material 60, the terrestrial radiation protected apron 40 and second flooring material 70 finish the back at frame 20 front stationary main frames 26 in the floor construction.

Described first support 10 back are planes, B closely is connected with metope, utilize set bolt 13 to be fixed on the metope B, the place ahead position up and down has the screw 11 of center configuration nut to protrude, be provided with the external surface vertical adjusting mouth 12 that processing is handled through annular knurl on the screw 11, the auxiliary stand 15 with the brace table 17 that is used for fixing frame 20 has been fixed with bolt 16 in the front of vertical adjusting mouth 12, and the below of auxiliary stand 15 has formed fixed station 21, is used for supporting frame 20.

Described frame 20 is made by metal or synthetic resin, can on a shelf, produce continuously with the chassis, in order to insert gypsum plank E, the plate of Ge Liing connects by reinforcing material at certain intervals, forms bend above the header board forward, back plate is made up of the plane, attractive, decorative has been carried out on main frame 26 surfaces, and the place ahead has formed protuberance 27, can hang over above the frame 20, the centre has formed holddown groove 28, can insert the protrusion platform 24 of frame 20.

The present invention is made up of above structure, and concrete job practices is as follows.

The work progress of processing metope is identical with previous methods on the indoor floor base concrete material of building.

After the construction of finishing inside plant, shown in Fig. 3 a and Fig. 3 b, with bolt 13 first support 10 is fixed on below of metope, keep certain altitude all around, and auxiliary stand 15 is set forwardly, this moment is assembling vertical adjusting mouth 12 on the screw that first support 10 protrudes, and makes bolt 16 run through the screw of auxiliary stand 15, form nut with screw and combine, auxiliary stand 15 is fixed on first support 10.

At this moment, should make auxiliary stand 15 parallel with metope, and utilize the vertical adjusting mouth 12 that is arranged on upper and lower to regulate, make auxiliary stand 15 vertical with the floor, whether utilize auxiliary implement such as level gauge to measure auxiliary stand this moment vertical with floor, if out of plumb then utilizes vertical adjusting mouth 12 to carry out vertical calibration.Because the external diameter of vertical adjusting mouth 12 is bigger, and external surface carried out annular knurl processing, can unscrew like a cork or tighten.Unscrew or tighten the screw of vertical adjusting mouth 12, then vertical adjusting mouth 12 can move forward and backward, the plumbness of calibration auxiliary stand 15.

After utilizing said method to calibrate the plumbness of a side auxiliary stand 15, frame 20 is aimed at the brace table 17 that protrudes forward to be assembled, this moment is shown in Fig. 3 c, the back plate below of frame 20 is placed on the brace table of accessory plate, push the upside of frame 20 to metope then, it is closely contacted with metope, last erection bolt, then main frame will be assembled on the auxiliary stand shown in Fig. 3 c.

At this moment, measuring frame 20 is level, if not level, then calibrates and makes its maintenance level.Because the screw 18 of auxiliary stand is a slotted hole, can utilize slotted hole 18 to move up and down auxiliary stand 15, make frame keep level.

As mentioned above, regulate frame 20 and make its maintenance level, framework 35 is set shown in Fig. 3 e then, framework 35 as shown in Figure 4, be to block use with certain-length along its length, in lower crossbeam 36, be formed centrally adiabatic brace table 37 than long framework, and parallel with crossbeam 36, formed screw 38 at certain intervals on the lower crossbeam simultaneously, stone bolt can be set.

When framework 35 is set, the both ends of framework 35 are placed on the fixed station 21 of main frame,, then shown in Fig. 3 f, utilize stone bolt 30 to calibrate in the centre, make its maintenance level if bend in the middle of the framework.

At this moment, from with the screw 38 insertion stone bolt 30 that form by framework 35 lower crossbeam 36 above the nut 31 of stone bolt 30 assembling, assembling nut 31 then, and shell tool 32a up, also filling up rubber sheet gasket 32b above the crossbeam 36, assembling nut 34 then, so just framework can be securely fixed on the stone bolt 30, swivel nut 31 was regulated and was made framework maintenance level this moment, and rubber sheet gasket 32b plays cushioning effect here.

After this shown in Fig. 3 g, after finishing the installation of thermal insulation material on the adiabatic brace table of framework 35, second support 50 is installed, as shown in Figure 5, second support 50 is to block use with certain-length along its length, and the crossbeam two sides of protruding at the center, floor is protruded and formed flooring material connecting portion, first protuberance, 55 bendings of connecting portion one side, formed a groove between two protuberances 57,59 of opposite side, first flooring material has been clipped in the middle.

Shown in Fig. 6 a, when second support 50 is installed, second support of one side is set earlier, then other second support 50 is connected successively, this moment is shown in Fig. 6 a, after one side, second support is set earlier, the protuberance of another second support is inserted in the groove of second support, 50 formation, shown in Fig. 6 b, reduces opposite side then, such second protuberance 52 will be inserted in the groove 54 of second support below and finish combination, can't rock.Connecting bolt has up just been finished the installation of second support at last.

After this shown in Fig. 3 h, lay greenhouse pipeline 68, shown in Fig. 3 i, assemble first flooring material 60 for another example, this moment, the protuberance of first flooring material was inserted in the groove between the protuberance 57,59 that protuberances top, second support, 50 center forms, finished assembling.

Then shown in Fig. 3 j, above first flooring material 60, lay charcoal layer and terrestrial radiation protected apron 40, the charcoal layer is layered on first flooring material top with the mat form merely, play and prevent foreign body, reach the sanatory effect of generation far infrared rays, the effect of terrestrial radiation protected apron 40 is to prevent terrestrial radiation.Their setting as shown in Figures 7 and 8, forming vertically with horizontal ratio is 2: 1 rectangle, and has carried out the embossing processing at certain intervals on the surface, has formed jog, has been bent to form under the side direction

The type flexure plane has extended to form extension from flexure plane, is bent upwards from the extension front end and has formed draw-in groove, keeps the difference in height that equates with terrestrial radiation protected apron thickness between the top of draw-in groove and the terrestrial radiation protected apron upper surface.

The opposite side corresponding with the draw-in groove of above-mentioned terrestrial radiation protected apron 40 1 sides formation formed The type grab, above-mentioned grab soffit and extension upper surface keep sustained height.

In addition, terrestrial radiation protected apron the place ahead is bent downwardly and has formed flexure plane, has extended to form extension from crooked aspect-oriented, is bent upwards from the extension front end to have formed "

" the type draw-in groove has formed the hole on flexure plane and the same line of extension upper surface, has formed in the wings

Type grab 58 and outward extending grab.

For the terrestrial radiation protected apron with said structure is installed on the building indoor floor as shown in Figure 8, at first need the terrestrial radiation protected apron is extended laying to the side, it is contacted with metope, insert the grab of the 2nd terrestrial radiation protected apron in the draw-in groove that this moment, the 1st terrestrial radiation protected apron side formed, this moment, guaranteeing can't shifted laterally because the grab inner surface is clipped in the draw-in groove.

As mentioned above, under the situation that the terrestrial radiation protected apron forms a line, lay the terrestrial radiation protected apron comprehensively.At this moment, shown in Fig. 9 a, 2 grabs that utilize terrestrial radiation protected apron rear to protrude connect 2 terrestrial radiation protected aprons, shown in Fig. 9 b, put down front end then, grab will be inserted in the draw-in groove, can't break away from forward, simultaneously since grab be inserted in the hole, also can't move left and right, finally finish installation.

After this, shown in Fig. 3 k, second flooring material 70 is installed above terrestrial radiation protected apron 40, the protuberance of the bend of second support top and second flooring material is inserted in the groove of second flooring material, one side formation simultaneously at this moment, finally finishes the floor and installs.

At main frame front assembling decorative panel 26, finish the construction at edge.

After finishing above-mentioned engineering, the heat of water pipe is delivered to whole copper coin by the terrestrial radiation protected apron, has improved the greenhouse effect, can prevent the harmful vibration wave of underground radiation simultaneously.Because the terrestrial radiation protected apron is made CO in air by copper or copper alloy ₂, SO ₂And can form basic copper carbonate [CUCO under the effect of moisture ₃CU (OH) ₂], basic copper sulfate [CUSO ₄CU (OH) ₂] waiting material, the acidic materials that produce in this process have certain antibiotic property, can suppress growth of microorganism, and after the moisture that the floor produces then evaporated, the space by between the relief of terrestrial radiation protected apron discharged.

As mentioned above,, highly consistent around can guaranteeing among the present invention by being arranged on the instruction unit of main frame below all around, floor, need not the level that other instrument can keep the floor, the end on floor is inserted in the groove of main frame bottom simultaneously, the floor is installed become very convenient.

In addition, metope plaster separates by fixed frame with floor plaster, formed the space between fixed frame and the metope, the moisture of ash mud layer below, floor or peculiar smell etc. can flow in this space, pore by frame is discharged, avoid indoor generation peculiar smell, and can prevent that the plastic floor below from making moist, and suppresses growth of microorganism.

[invention effect]

As mentioned above, the present invention can make floor and wall construction become simply, avoids because the globule condenses The floor that the produces phenomenon of making moist suppresses mouldy and other microbial growth, protects user's health. With The time greenhouse pipeline heat that produces with the convection type transmission, can realize whole evenly heating, metope and ground Also formed the space between the plate material, the noise that flooring material is produced can directly not pass to floor, every Absolutely noise transmission, thereby lacked noise between layers.

In addition, the present invention makes the end of flooring material be inserted into the decorative panel below, can make Indoor environment Corner portions located more attractive in appearance.

Claims (9)

1. the structure of the indoor corner portions located of building, it is characterized in that, before the final parging, on metope, fix a plurality of first supports at certain intervals, and auxiliary stand is set in described first support the place ahead, described auxiliary stand the place ahead is provided with frame, described frame the place ahead is provided with main frame, and the top is provided with gypsum plank, on the described frame framework is set, described framework top is provided with both sides connecting portion, the center has second support of protuberance and board-like connecting portion, and the greenhouse pipeline and first flooring material are set above described second support, and the terrestrial radiation protected apron and second flooring material are set above described first flooring material.

2. the structure of the indoor corner portions located of building as claimed in claim 1, it is characterized in that, described first support (10) back is the plane, closely be connected with metope, and upper and lower position, the place ahead has the screw (11) of center configuration nut to protrude, the external surface vertical adjusting mouth (12) that processing is handled through annular knurl is set on the described screw (11), and auxiliary stand (15) has been fixed with bolt (16) in the front of described vertical adjusting mouth.

3. the structure of the indoor corner portions located of building as claimed in claim 1, it is characterized in that, the upper and lower of described auxiliary stand (15) has all formed the slotted hole (18) of regulating vertical height, and the below has formed the brace table (17) of supporting frame (20) and from the limit platform of described brace table the place ahead formation protruding upward.

4. the structure of the indoor corner portions located of building as claimed in claim 1 is characterized in that described frame is made by metal or synthetic resin.

5. the structure of the indoor corner portions located of building as claimed in claim 4 is characterized in that, are provided with stone bolt (30) in the middle of the described framework, are used to keep level.

6. as the structure of any indoor corner portions located of described building in the claim 1 to 5, it is characterized in that, described main frame (26) surface is decorated, the place ahead has formed protuberance (27), can hang over above the frame (20), and the centre has formed holddown groove (28), can be inserted in the protrusion platform (24) of frame (20).

7. as the structure of any indoor corner portions located of described building in the claim 1 to 5, it is characterized in that, described terrestrial radiation protected apron is made of copper, carry out the embossing processing on described terrestrial radiation protected apron surface at certain intervals and formed jog, crooked under terrestrial radiation protected apron one side direction

Type extends to form extension to the side then, is bent upwards the formation grab at the extension front end at last, and the opposite side corresponding with above-mentioned grab formed

The type draw-in groove, the place ahead is bent downwardly Type extends to form extension to the side then, be bent upwards the formation draw-in groove at the extension front end at last, has formed the hole of inserting draw-in groove at flexure plane, has then squarely become

Type grab and outward extending draw-in groove insert the draw-in groove of another terrestrial radiation protected apron in the grab of side during installation, install continuously, and 2 draw-in grooves of the place ahead flooring material then are inserted in 2 holes of rear flooring material and mutually combine.

8. plaster laying method that is used for the indoor corner portions located of building of building indoor floor and wall construction is characterized in that described method comprises following process successively: the work progress that first support (10) is kept certain height at metope; The process of auxiliary stand (15) is installed in the front; After the plumbness of calibration auxiliary stand (15), assemble the process of frame (20) forwardly in the brace table of Tu Chuing (17); At floor installation frame (35) and utilize the process of stone bolt (30) calibrated horizontal state; The process of thermal insulation material is installed on framework; The process of second support (50) is installed above framework; The process of greenhouse pipeline (68) is installed above second support; The process of first flooring material (60) is installed above second support; The process of terrestrial radiation protected apron (40) is installed above first flooring material; The process of second flooring material (70) is installed above the terrestrial radiation protected apron; In the link slot (23) of frame (20) top, insert gypsum plank (E), in the process of frame (20) front assembling main frame (26).

9. the plaster laying method of the indoor corner portions located of building as claimed in claim 8 is characterized in that, lays charcoal layer and terrestrial radiation protected apron (40) in first flooring material (60) top.

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