CN201496660U - Energy-saving heat-insulation prefabricated fixed pipe holder - Google Patents

Abstract

The utility model relates to an energy-saving heat-insulation prefabricated fixed pipe holder, which comprises a working core pipe, an inner fixed baffle plate, an outer protection pipe, a first pressure-proof heat-insulation layer and an outer fixed baffle plate, which are prefabricated into an integrity, wherein the inner fixed baffle plate is fixed on the working core pipe, the first pressure-proof heat-insulation layer is installed on the working core pipe, the inner side of the first pressure-proof heat-insulation layer, which is close to the working core pipe, is provided with a groove, the inner fixed baffle plate is installed inside the groove, the outer protection pipe is installed on the first pressure-proof heat-insulation layer, two outer fixed baffle plates which can tightly push against the first pressure-proof heat-insulation layer can be respectively arranged between the outer protection pipes on two ends of the first pressure-proof heat-insulation layer and the working core pipe, the outer side of the outer fixed baffle plates is fixedly connected with the inner wall of the outer protection pipe, and a distance is arranged between the outer fixed baffle plate and the working core pipe. The energy-saving heat-insulation prefabricated fixed pipe holder has reasonable and compact structure and convenient installation, can ensure the minimum heat loss at the fixed pipe holder by prefabricating the fixed pipe holder and adding a heat-preservation material, and also can greatly reduce the potential safety danger.

Description

The prefabricated fixedly conduit saddle of energy-saving heat-insulating

One, technical field

The utility model relates to fixedly conduit saddle of high temperature pipe, is the prefabricated fixedly conduit saddle of a kind of energy-saving heat-insulating.

Two, background technique

High temperature pipe carries the general ground of adopting to lay, build piping lane or buried laying, for solving the phenomenon of high temperature pipe expanded by heating, compensation device (pipeline of only a few adopts uncompensated design) must be set,, fixed buttress need be set at compensator two ends for limiting the steel pipe expansion direction.This fixed buttress also will bear the huge thrust that produces from the steel pipe thermal expansion when supporting the pipeline deadweight.Because pipeline is had relatively high expectations at the fixed buttress place, the pipeline fixed buttress generally taked Steel Bracket to support in the past, promptly adopt the direct and high temperature pipe welding of Steel Work, being exposed to air causes fixed support place temperature generally higher, there are hidden danger in protection and Security aspect outside, lost simultaneously a large amount of heat energy are unfavorable for environmental protection and energy saving, and fixedly the conduit saddle portion of hot is decreased and accounted for nearly 12% of whole pipeline heat waste according to statistics.The existing fixed conduit saddle can't be realized the prefabricated production of standardization, needs on-the-spot processing and fabricating, because execute-in-place condition and operant level are limit, it is very big to promote difficulty.

Three, summary of the invention

The utility model provides a kind of energy-saving heat-insulating prefabricated fixedly conduit saddle, has overcome the deficiency of above-mentioned prior art, and it is serious and have a problem of potential safety hazard that it can effectively solve fixedly conduit saddle place heat loss.

The technical solution of the utility model realizes by following measure: the prefabricated fixedly conduit saddle of a kind of energy-saving heat-insulating, comprise work core pipe, the internal fixation baffle plate, outer pillar, the first withstand voltage heat insulation layer and outer fixing baffle plate also are prefabricated into an integral body, on work core pipe, be installed with the internal fixation baffle plate, on work core pipe, the first withstand voltage heat insulation layer is installed, close the inboard fluted of core pipe of working of the first withstand voltage heat insulation layer, the internal fixation baffle plate is installed in the groove, pillar outside on the first withstand voltage heat insulation layer, being equipped with, between the outer pillar at the first withstand voltage heat insulation layer two ends and work core pipe, be separately installed with two outer fixing baffle plates that can hold out against the first withstand voltage heat insulation layer, the outside of outer fixing baffle plate is fixedly installed togather with the inwall of outer pillar, between outer fixing baffle plate and the work core pipe spacing is arranged, the bottom of pillar is installed with the conduit saddle base outside.

Be further optimization and/or improvements below to above-mentioned model utility technological scheme:

Withstand voltage heat insulation layer of annulus and the withstand voltage heat insulation layer of outer toroid in the above-mentioned first withstand voltage heat insulation layer comprises, the internal diameter of the withstand voltage heat insulation layer of interior annulus is identical with internal fixation baffle plate external diameter, the withstand voltage heat insulation layer of interior annulus is enclosed within on the fixed dam, the internal diameter of the withstand voltage heat insulation layer of outer toroid is with identical with work core external diameter of pipe, on the work core pipe of fixed dam both sides, be with the withstand voltage heat insulation layer of outer toroid respectively and lean against on the withstand voltage heat insulation layer of annulus and the fixed dam.

Be installed with the reinforcement gusset on above-mentioned outer fixing baffle plate and the outer pillar.

Above-mentioned reinforcement gusset is fixedly mounted on outer fixing baffle plate and the outer pillar by welding.

Be separately installed with two hard insulation material layers between the outer pillar at the above-mentioned first withstand voltage heat insulation layer two ends and the work core pipe, the outside of each hard insulation material layer is equipped with the second withstand voltage heat insulation layer, is separately installed with two energy between the outer pillar of the outer end of each the hard insulation material layer and the second withstand voltage heat insulation layer and work core pipe hard insulation material layer and the second withstand voltage heat insulation layer and the first withstand voltage heat insulation layer are held out against together outer fixing baffle plate.

The above-mentioned first withstand voltage heat insulation layer is or/and the second withstand voltage heat insulation layer all adopts nanoporous silica aerogel or alumina silicate or silicate or calcium silicate or glass wool.

The utility model reasonable and compact in structure, easy for installation, by to the prefabricated of fixing conduit saddle with installed thermal insulating material additional, it is minimum that the thermal loss at conduit saddle place is reduced to, and also greatly reduced potential safety hazard.

Four, description of drawings

Accompanying drawing 1 is looked the sectional structure schematic representation for the utility model embodiment 1 master.

Accompanying drawing 2 is looked the sectional structure schematic representation for the utility model embodiment 2 master.

Coding in the accompanying drawing is respectively: 1 is work core pipe, 2 is the internal fixation baffle plate, 3 is outer pillar, and 4 is the first withstand voltage heat insulation layer, and 5 is the outer fixing baffle plate, 6 is the conduit saddle base, 7 is the hard insulation material layer, and 8 for strengthening gusset, and 9 is the second withstand voltage heat insulation layer, 10 is the withstand voltage heat insulation layer of interior annulus, and 11 is the withstand voltage heat insulation layer of outer toroid.

Five, embodiment

The utility model is not subjected to following embodiment's restriction, can determine concrete mode of execution according to the technical solution of the utility model and actual conditions.

Below in conjunction with embodiment and accompanying drawing the utility model is further described:

Embodiment 1, as shown in Figure 1, the prefabricated fixedly conduit saddle of this energy-saving heat-insulating comprises work core pipe 1, internal fixation baffle plate 2, outer pillar 3, the first withstand voltage heat insulation layer 4 and outer fixing baffle plate 5 also are prefabricated into an integral body, on work core pipe 1, be installed with internal fixation baffle plate 2, on work core pipe 1, the first withstand voltage heat insulation layer 4 is installed, first withstand voltage heat insulation layer 4 close the inboard fluted of core pipes 1 of working, internal fixation baffle plate 2 is installed in the groove, pillar 3 outside on the first withstand voltage heat insulation layer 4, being equipped with, between the outer pillar 3 at the first withstand voltage heat insulation layer, 4 two ends and work core pipe 1, be separately installed with two outer fixing baffle plates 5 that can hold out against the first withstand voltage heat insulation layer 4, the outside of outer fixing baffle plate 5 is fixedly installed togather with the inwall of outer pillar 3, between outer fixing baffle plate 5 and the work core pipe 1 spacing is arranged, the bottom of pillar 3 is installed with conduit saddle base 6 outside.

Embodiment 2, shown in attached Fig. 1 and 2, be with embodiment 1 difference: as shown in Figure 2, withstand voltage heat insulation layer 10 of annulus and the withstand voltage heat insulation layer 11 of outer toroid in embodiment 2 the first withstand voltage heat insulation layer 4 comprises, the internal diameter of heat insulation layer 10 that interior annulus is withstand voltage is identical with internal fixation baffle plate 2 external diameters, heat insulation layer 10 that interior annulus is withstand voltage is enclosed within on the fixed dam 2, the internal diameter of heat insulation layer 11 that outer toroid is withstand voltage is with identical with work core pipe 1 external diameter, on the work core pipe 1 of fixed dam 2 both sides, be with the withstand voltage heat insulation layer 11 of outer toroid respectively and lean against on the withstand voltage heat insulation layer 10 of annulus and the fixed dam 2, help carrying out prefabricated like this.

Can according to actual needs the prefabricated fixedly conduit saddle of above-mentioned energy-saving heat-insulating be made further optimization and/or improvements:

As shown in Figure 1, be separately installed with two hard insulation material layers 7 between the outer pillar 3 at the first withstand voltage heat insulation layer, 4 two ends and the work core pipe 1, the outside of each hard insulation material layer 7 is equipped with the second withstand voltage heat insulation layer 9, is separately installed with two energy between the outer pillar of the outer end of each the hard insulation material layer 7 and the second withstand voltage heat insulation layer 9 and work core pipe hard insulation material layer 7 and the second withstand voltage heat insulation layer 9 and the first withstand voltage heat insulation layer 4 are held out against together outer fixing baffle plate 5.Like this,, can better bear pressure, and, therefore just play good energy-saving heat-insulating effect because first withstand voltage heat insulation layer 4, second withstand voltage heat insulation layer 9 and the hard insulation material layer 7 arranged because the compressive strength of hard insulation material layer 7 is bigger.

As shown in Figure 1, in order to gain in strength and stability, to be installed with on outer fixing baffle plate 5 and the outer pillar 3 and to strengthen gusset 8.

As shown in Figure 1, in order to gain in strength and stability, to strengthen gusset 8 and be fixedly mounted on outer fixing baffle plate 5 and the outer pillar 3 by welding.

As shown in Figure 1, according to actual needs, the first withstand voltage heat insulation layer 4 and the second withstand voltage heat insulation layer 9 all can adopt nanoporous silica aerogel or alumina silicate or silicate or calcium silicate or glass wool.

Above technical characteristics has constituted most preferred embodiment of the present utility model, and it has stronger adaptability and best implementation result, can increase and decrease non-essential technical characteristics according to actual needs, satisfies the demand of different situations.

The prefabricated process of the utility model most preferred embodiment: 1 one sections of work core pipes of equal material and specification in intercepting and the concrete engineering at first, with the center of internal fixation baffle plate 2 full welds in this section work core pipe 1, with the first withstand voltage heat insulation layer 4 internal fixation baffle plate 2 is wrapped up fully then, the hard insulation material layer 7 that again two top layers has been wrapped up the second withstand voltage heat insulation layer 9 is inserted in and combines closely with internal fixation baffle plate 2 in edge work core pipe 1 two ends respectively; Be inserted in outer pillar 3 again, make it be centered close to the position of internal fixation baffle plate 2; Be inserted in outer fixing baffle plate 5 along work core pipe 1 two ends respectively again and push closely knitly, gusset 8 is strengthened in welding then, at last conduit saddle base 6 is weldingly fixed on the bottom of outer pillar 3, has so just obtained the prefabricated fixedly conduit saddle of energy-saving heat-insulating of the present utility model.

The using process of the utility model most preferred embodiment: in the high temperature pipe installation process, needing the fixedly position of conduit saddle, place the prefabricated fixedly conduit saddle of the utility model energy-saving heat-insulating, then the two ends of work core pipe 1 of the present utility model and the work core pipe of high temperature pipe are fixed together, have so just finished the fixedly construction of conduit saddle.

Claims (10)

1. prefabricated fixedly conduit saddle of energy-saving heat-insulating, it is characterized in that comprising work core pipe, the internal fixation baffle plate, outer pillar, the first withstand voltage heat insulation layer and outer fixing baffle plate also are prefabricated into an integral body, on work core pipe, be installed with the internal fixation baffle plate, on work core pipe, the first withstand voltage heat insulation layer is installed, close the inboard fluted of core pipe of working of the first withstand voltage heat insulation layer, the internal fixation baffle plate is installed in the groove, pillar outside on the first withstand voltage heat insulation layer, being equipped with, between the outer pillar at the first withstand voltage heat insulation layer two ends and work core pipe, be separately installed with two outer fixing baffle plates that can hold out against the first withstand voltage heat insulation layer, the outside of outer fixing baffle plate is fixedly installed togather with the inwall of outer pillar, between outer fixing baffle plate and the work core pipe spacing is arranged, the bottom of pillar is installed with the conduit saddle base outside.

2. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 1, it is characterized in that the first withstand voltage heat insulation layer comprises interior withstand voltage heat insulation layer of annulus and the withstand voltage heat insulation layer of outer toroid, the internal diameter of the withstand voltage heat insulation layer of interior annulus is identical with internal fixation baffle plate external diameter, the withstand voltage heat insulation layer of interior annulus is enclosed within on the fixed dam, the internal diameter of the withstand voltage heat insulation layer of outer toroid is with identical with work core external diameter of pipe, on the work core pipe of fixed dam both sides, be with the withstand voltage heat insulation layer of outer toroid respectively and lean against on the withstand voltage heat insulation layer of annulus and the fixed dam.

3. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 1 and 2 is characterized in that being installed with the reinforcement gusset on outer fixing baffle plate and the outer pillar.

4. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 3 is characterized in that strengthening gusset and is fixedly mounted on outer fixing baffle plate and the outer pillar by welding.

5. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 1 and 2, it is characterized in that the outer pillar at the first withstand voltage heat insulation layer two ends and work being separately installed with two hard insulation material layers between the core pipe, the outside of each hard insulation material layer is equipped with the second withstand voltage heat insulation layer, is separately installed with two energy between the outer pillar of the outer end of each the hard insulation material layer and the second withstand voltage heat insulation layer and work core pipe hard insulation material layer and the second withstand voltage heat insulation layer and the first withstand voltage heat insulation layer are held out against together outer fixing baffle plate.

6. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 3, it is characterized in that the outer pillar at the first withstand voltage heat insulation layer two ends and work being separately installed with two hard insulation material layers between the core pipe, the outside of each hard insulation material layer is equipped with the second withstand voltage heat insulation layer, is separately installed with two energy between the outer pillar of the outer end of each the hard insulation material layer and the second withstand voltage heat insulation layer and work core pipe hard insulation material layer and the second withstand voltage heat insulation layer and the first withstand voltage heat insulation layer are held out against together outer fixing baffle plate.

7. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 4, it is characterized in that the outer pillar at the first withstand voltage heat insulation layer two ends and work being separately installed with two hard insulation material layers between the core pipe, the outside of each hard insulation material layer is equipped with the second withstand voltage heat insulation layer, is separately installed with two energy between the outer pillar of the outer end of each the hard insulation material layer and the second withstand voltage heat insulation layer and work core pipe hard insulation material layer and the second withstand voltage heat insulation layer and the first withstand voltage heat insulation layer are held out against together outer fixing baffle plate.

8. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 1 and 2 is characterized in that the first withstand voltage heat insulation layer or/and the second withstand voltage heat insulation layer all adopts nanoporous silica aerogel or alumina silicate or silicate or calcium silicate or glass wool.

9. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 3 is characterized in that the first withstand voltage heat insulation layer or/and the second withstand voltage heat insulation layer all adopts nanoporous silica aerogel or alumina silicate or silicate or calcium silicate or glass wool.

10. the prefabricated fixedly conduit saddle of energy-saving heat-insulating according to claim 7 is characterized in that the first withstand voltage heat insulation layer or/and the second withstand voltage heat insulation layer all adopts nanoporous silica aerogel or alumina silicate or silicate or calcium silicate or glass wool.

Images