CN214497516U - Cooling water pipe mounting structure for partition pouring - Google Patents

Abstract

The utility model discloses a cooling water pipe mounting structure for partition pouring, which comprises a first bearing platform frame vertical rib and a second bearing platform frame vertical rib, wherein a plurality of the first bearing platform frame vertical ribs and a plurality of the second bearing platform frame vertical ribs form criss-cross bearing platform frame vertical rib net units, when a thin-wall cooling water pipe is fixed on the bearing platform frame vertical rib net units through a plurality of groups of water pipe mounting components, the water pipe embracing installation plate is embracing-jointed on the pipe body of the thin-wall cooling water pipe, the vertical rib pole embracing installation plate is embracing-jointed on the rib pole of the vertical rib of the first bearing platform frame, the screw cap is screwed tightly, through the jacking fastening between the water pipe embracing mounting plate and the stud pole embracing mounting plate, the thin-wall cooling water pipe is tightly fixed on a criss-cross bearing platform frame stud net unit formed between the first bearing platform frame stud and the second bearing platform frame stud, and one side of a plate body at the end part of the stud pole embracing mounting plate is rotatably and adjustably penetrated on a rod body of a jacking screw rod through a through slotted hole.

Description

Cooling water pipe mounting structure for partition pouring

Technical Field

The utility model belongs to the technical field of the cooling is pour to the subregion, concretely relates to subregion is pour and is used condenser tube mounting structure.

Background

During the construction of the large-scale special-shaped integral bearing platform, a cabin jumping method and a layered and regional construction method are applied, a disassembly-free template is used, a cooling water pipe is arranged, the conversion of a steel cofferdam system is completed in the construction process, the whole process of concrete stirring, transportation, mold entering, pouring and the like in the construction is controlled, the mix proportion of concrete is optimized, the maintenance is enhanced, and the foundation quality of the large-scale special-shaped integral bearing platform is ensured to meet the requirements.

The prior art has the following problems: in the process of casting the bearing platform in a partition mode, the cooling water pipes are arranged on the bearing platform frame stud net in the bearing platform, so that the heat inside the bearing platform frame is guaranteed to be dissipated, the hydration heat temperature inside the concrete is reduced, and the temperature difference inside the concrete of the bearing platform is adjusted.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a subregion is pour and is used condenser tube mounting structure has the characteristics of making things convenient for the dismouting.

In order to achieve the above object, the utility model provides a following technical scheme: a cooling water pipe mounting structure for partition pouring comprises first bearing platform frame vertical ribs and second bearing platform frame vertical ribs, wherein a plurality of first bearing platform frame vertical ribs and a plurality of second bearing platform frame vertical ribs form criss-cross bearing platform frame vertical rib net units, and thin-wall cooling water pipes are tightly held, supported and fixedly arranged on the bearing platform frame vertical rib net units through a plurality of groups of water pipe mounting assemblies;

the water pipe installation component comprises a water pipe holding installation plate, one side of the end plate body of the water pipe holding installation plate is fixedly provided with a tightly-pushing screw, a tightly-pushing nut is arranged on the tightly-pushing screw in a threaded manner, a stud holding installation plate is sleeved on the tightly-pushing screw, and a through slot hole is formed in one side of the end plate body of the stud holding installation plate.

Preferably, one side of the end plate body of the upright rib rod embracing mounting plate is rotatably and adjustably penetrated on the rod body of the jacking screw rod through the through slotted hole.

Preferably, when thin wall condenser tube passes through multiunit water pipe installation component and fixes on bearing platform frame upright rib net unit, the water pipe cohesion mounting panel cohesion is on thin wall condenser tube's body, the upright rib pole cohesion mounting panel cohesion is on the rib pole of first bearing platform frame upright rib, and the screw is screwed up the top nut, through roof pressure fastening between water pipe cohesion mounting panel and the upright rib pole cohesion mounting panel makes thin wall condenser tube tightly fixes on the crisscross bearing platform frame upright rib net unit of constituteing between first bearing platform frame upright rib and the second bearing platform frame upright rib.

Preferably, the joint of the thin-wall cooling water pipe is a threaded joint, and the corner of the thin-wall cooling water pipe is an elbow.

Preferably, according to the principle that cooling water flows from the hot central region to the edge region, the water inlet pipe of the thin-wall cooling water pipe is arranged close to the center of the concrete structure, the water outlet pipe of the thin-wall cooling water pipe is arranged in the peripheral region of the concrete, and the water inlet pipe and the water outlet pipe of the thin-wall cooling water pipe are both required to be led out of the concrete surface.

Preferably, the water inlet and the water outlet of each layer of the thin-wall cooling water pipe are staggered, and the water outlet is provided with a water valve for adjusting flow and flow measuring equipment.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses a criss-cross bearing platform frame vertical rib net unit is formed between many first bearing platform frame vertical ribs and many second bearing platform frame vertical ribs, thin wall condenser tube is held tightly and fixed on the bearing platform frame vertical rib net unit through multiunit water tube installation component, when thin wall condenser tube is fixed on the bearing platform frame vertical rib net unit through multiunit water tube installation component, water tube holding mounting plate is held on the tube body of thin wall condenser tube, the vertical rib pole holding mounting plate is held on the rib bar of first bearing platform frame vertical rib, screw tightening holding nut, through the top pressure fastening between water tube holding mounting plate and vertical rib bar holding mounting plate, make thin wall condenser tube tightly fix on the criss-cross bearing platform frame vertical rib net unit formed between first bearing platform frame vertical rib and second bearing platform frame vertical rib, one side of the end part of vertical rib bar holding mounting plate body runs through the adjustable rotation slotted hole on the body of top screw rod through lining, through this kind of mode for the position that the relative water pipe of stud cohesion mounting panel top was tightly embraced is adjustable, when satisfying different angle staggered position, the cohesion installation between cushion cap frame stud and the condenser tube is fixed, and thin wall condenser tube sets up inside cushion cap concrete, for reducing the inside hydration heat temperature of concrete, adjusts cushion cap concrete internal surface difference in temperature, takes to establish condenser tube logical water cooling measure in main mound cushion cap concrete body, subducts the temperature peak value of concrete, reduces temperature gradient, reduces the temperature stress that the hydration difference in temperature arouses, reduces the temperature crack.

Drawings

Fig. 1 is a perspective view of the present invention;

FIG. 2 is an exploded view of the present invention;

FIG. 3 is a perspective view of the thin-walled cooling water tube and the water tube mounting assembly of the present invention;

fig. 4 is a perspective view of the water pipe mounting assembly of the present invention;

fig. 5 is an exploded view of the water pipe mounting assembly of the present invention;

FIG. 6 is a perspective view of the vertical rib net unit of the bearing stand of the present invention;

in the figure: 1. a first bearing platform frame stud; 2. second bearing platform frame vertical ribs; 3. a water pipe mounting assembly; 31. the water pipe is surrounded with the mounting plate; 32. tightly pushing the screw; 33. tightly pushing the screw cap; 34. the vertical bar pole embraces the mounting plate; 35. a through slot hole; 4. thin wall cooling water pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides the following technical solutions: a cooling water pipe mounting structure for partition pouring comprises first bearing platform frame vertical ribs 1 and second bearing platform frame vertical ribs 2, wherein criss-cross bearing platform frame vertical rib net units are formed among the first bearing platform frame vertical ribs 1 and the second bearing platform frame vertical ribs 2, and thin-wall cooling water pipes 4 are tightly held, supported and fixedly arranged on the bearing platform frame vertical rib net units through a plurality of groups of water pipe mounting assemblies 3;

the water pipe installation component 3 comprises a water pipe embracing installation plate 31, one side of the end plate body of the water pipe embracing installation plate 31 is fixedly provided with a tightly-pushing screw rod 32, a tightly-pushing screw cap 33 is arranged on the tightly-pushing screw rod 32 in a threaded manner, a stud embracing installation plate 34 is sleeved on the tightly-pushing screw rod 32, and one side of the end plate body of the stud embracing installation plate 34 is provided with a through slot hole 35.

In this embodiment, preferably, one side of the stud embracing the end plate of the mounting plate 34 is rotatably and adjustably penetrated through the rod body of the tightening screw 32 through the through slot 35.

In this embodiment, preferably, when the thin-wall cooling water pipe 4 is fixed to the support stand vertical rib net unit through the plurality of sets of water pipe mounting assemblies 3, the water pipe clasping mounting plate 31 clasps to the pipe body of the thin-wall cooling water pipe 4, the vertical rib pole clasping mounting plate 34 clasps to the rib pole of the first support stand vertical rib 1, the jacking nut 33 is screwed tightly, and the thin-wall cooling water pipe 4 is tightly fixed to the vertically and horizontally staggered support stand vertical rib net unit formed between the first support stand vertical rib 1 and the second support stand vertical rib 2 through jacking fastening between the water pipe clasping mounting plate 31 and the vertical rib pole clasping mounting plate 34.

In this embodiment, it is preferable that the thin-walled cooling water pipe 4 is screwed and the corner is bent.

In this embodiment, preferably, according to the principle that the cooling water flows from the hot central region to the edge region, the water inlet pipe of the thin-wall cooling water pipe 4 is arranged near the center of the concrete structure, the water outlet pipe of the thin-wall cooling water pipe 4 is arranged in the peripheral region of the concrete, and both the water inlet pipe and the water outlet pipe of the thin-wall cooling water pipe 4 need to be led out of the concrete surface.

In this embodiment, preferably, the water inlets and the water outlets of each layer of thin-wall cooling water pipes 4 are staggered, and the water outlets are provided with a water valve for regulating flow and a flow measuring device.

The utility model discloses a theory of operation and use flow: the utility model discloses constitute vertically and horizontally staggered's bearing platform frame upright rib net unit between many first bearing platform frame upright rib 1 and many second bearing platform frame upright rib 2, thin wall condenser tube 4 is tightly fixed on bearing platform frame upright rib net unit through 3 cohesion tops of multiunit water pipe installation component, when thin wall condenser tube 4 passes through 3 fixes on bearing platform frame upright rib net unit of multiunit water pipe installation component, water pipe cohesion mounting panel 31 embraces on thin wall condenser tube 4's body, upright rib pole cohesion mounting panel 34 embraces on first bearing platform frame upright rib 1's rib pole, screw tightening top tight nut 33, through the roof pressure fastening between water pipe cohesion mounting panel 31 and the upright rib pole cohesion mounting panel 34, make thin wall condenser tube 4 tightly fix on the vertically and horizontally staggered's bearing platform frame upright rib net unit of constituteing between first bearing platform frame upright rib 1 and the second bearing platform frame upright rib 2, one side of the installation panel 34 tip plate body of upright rib pole cohesion runs through adjustable the slotted hole 32 and link up tightly through the slotted hole 35 rotation on the straight-up screw rod 32 that link up with adjustable On the body of rod, through this kind of mode, make the relative water pipe of stud pole cohesion mounting panel 34 cohesion mounting panel 31 top tightly the position of cohesion adjustable, when satisfying different angle staggered position, the cohesion installation between cushion cap frame stud and the condenser tube is fixed, thin wall condenser tube 4 sets up inside cushion cap concrete, for reducing the inside hydration heat temperature of concrete, adjust cushion cap concrete internal surface difference in temperature, take the condenser tube cooling measure that leads to in main mound cushion cap concrete body, subduct the temperature peak value of concrete, reduce temperature gradient, reduce the temperature stress that the hydration difference in temperature arouses, reduce the temperature crack.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a subregion is pour and is used condenser tube mounting structure, includes first cushion cap frame stud (1) and second cushion cap frame stud (2), its characterized in that: a plurality of first bearing platform frame vertical ribs (1) and a plurality of second bearing platform frame vertical ribs (2) form criss-cross bearing platform frame vertical rib net units, and thin-wall cooling water pipes (4) are fixedly arranged on the bearing platform frame vertical rib net units in an embracing and propping manner through a plurality of groups of water pipe mounting assemblies (3);

water pipe installation component (3) include water pipe cohesion mounting panel (31), one side of water pipe cohesion mounting panel (31) tip plate body is fixed and is provided with the tight screw rod in top (32), the screw thread is provided with tight nut in top (33) on the tight screw rod in top (32), and pushes up and tightly goes up the cover and be equipped with upright muscle pole cohesion mounting panel (34), link up slotted hole (35) have been seted up to one side of upright muscle pole cohesion mounting panel (34) tip plate body.

2. The partition casting cooling water pipe installation structure according to claim 1, wherein: one side of the end plate body of the vertical bar embracing mounting plate (34) is rotatably and adjustably penetrated on the bar body of the jacking screw rod (32) through a through groove hole (35).

3. The partition casting cooling water pipe installation structure according to claim 1, wherein: thin wall cooling water pipe (4) are fixed when the bearing platform frame founds muscle net unit through multiunit water pipe installation component (3), water pipe cohesion mounting panel (31) cohesion is on the body of thin wall cooling water pipe (4), found muscle pole cohesion mounting panel (34) cohesion on the muscle pole of first bearing platform frame founds muscle (1), the screw is screwed up tight top nut (33), through roof pressure fastening between water pipe cohesion mounting panel (31) and found muscle pole cohesion mounting panel (34), make thin wall cooling water pipe (4) tightly fix on the crisscross bearing platform frame founds muscle net unit of constituteing between first bearing platform frame founding muscle (1) and second bearing platform frame founding muscle (2).

4. The partition casting cooling water pipe installation structure according to claim 1, wherein: the joint of the thin-wall cooling water pipe (4) adopts a screw thread joint, and the corner adopts an elbow.

5. The partition casting cooling water pipe installation structure according to claim 1, wherein: according to the principle that cooling water flows from a hot center area to an edge area, a water inlet pipe of the thin-wall cooling water pipe (4) is arranged close to the center of the concrete structure, a water outlet pipe of the thin-wall cooling water pipe (4) is arranged in the periphery area of concrete, and a water inlet pipe and a water outlet pipe of the thin-wall cooling water pipe (4) are required to be led out of the concrete surface.

6. The partition casting cooling water pipe installation structure according to claim 1, wherein: the water inlets and the water outlets of the thin-wall cooling water pipes (4) on each layer are staggered, and the water outlets are provided with water valves for adjusting flow and flow measuring equipment.

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