A kind of high temperature conduit saddle
Technical field
The utility model relates to the technical field that high-temperature pipe sets up, and particularly relates to a kind of high temperature conduit saddle.
Background technique
In petrochemical industry etc. field, often the high-temp liquid material need to be carried by high-temperature pipe; In order to prevent or reduce the loss of heat energy, setting up of high-temperature pipe needs to use the high temperature conduit saddle.
Conventional technical requirements is: pipeline is in operation, and the thermal insulation layer outer surface is no more than 60 degree; Simultaneously, Thermal insulative pipe carrier is wanted pressure and the vibratory impulse power can bear pipeline.
Fig. 1 is the schematic diagram of prior art high temperature conduit saddle; Fig. 2 is the left view of Fig. 1, and this figure has done technical finesse, and the bottom that makes Fig. 2 is the left view character of Fig. 1, and the top that makes Fig. 2 is that the A of Fig. 1 is to view character.
As depicted in figs. 1 and 2, the high temperature conduit saddle of prior art comprises: pedestal, two first pipe clamps, two second pipe clamps, and fastening piece; From high-temperature pipe 1, structure from inside to outside sequentially comprises: coating 2, thermal-protective coating 3, hexsteel 4, steel band 5.
During concrete production, need to make four and half pipe clamps, two first pipe clamps wherein, two second pipe clamps.When every half pipe clamp is made, first at the inboard welding hexsteels 4 of semicircular steel band 5, then use mould to build thermal-protective coating 3, its situation is with to build the yellow sand cement material similar, waits for the thermal-protective coating 3 of the building rear mold removal that parches, hardens; Hexsteel 4 is to seek connections with structure to use, and relies on hexsteel 4, and thermal-protective coating 3 and steel band 5 can be fixed together.Thermal-protective coating 3 is with after steel band 5 is fixedly connected with, and the intensity of thermal-protective coating 3 is improved.
Then, two second pipe clamps are fixedly connected with pedestal respectively; Be wrapped in high-temperature pipe 1 outer field two frame holder positions with rock wool fibers material blanket again, form the coating 2 of rock wool fibers material; High-temperature pipe 1 is put into two second pipe clamps together with rock wool fibers coating 2, then with in the upper tube half clamping, and first pipe clamp is connected with lower tube half fixed the connection by bolt, nut etc., so far installment work is complete.
The high temperature conduit saddle of above-mentioned prior art, the deficiency of its existence is: the area of contact of tortoise shape net and thermal-protective coating is inadequate, join strength is low, so the intensity of thermal-protective coating is high not enough, has broken situation to occur in transportation, installation and routine use.Also have, the thermal insulation of rock wool fibers blanket, heat resistance and water proofing property are all not good, moreover, contain harmful matter in the rock wool fibers blanket, human body is produced infringement, long-term use also can corrosion pipeline.
It is more than the first high temperature conduit saddle of prior art.
In the prior art, also have the second high temperature conduit saddle, it is not except using hexsteel 4, and other situations and the first high-temperature pipe Toure are same.Thermal-protective coating 3 in the second high temperature conduit saddle directly uses mould to build, and is coated, is clamped in the periphery of thermal-protective coating 3 in assembling by steel band 5.The first high-temperature pipe deposit all deficiencies, all exist in the second high temperature conduit saddle; And the thermal-protective coating 3 in the second high temperature conduit saddle also is very easy to broken in transportation, installation and routine use.
The model utility content
The thermal-protective coating of prior art high temperature conduit saddle, its intensity is high not enough, for head it off, the utility model proposes following technological scheme.
1. high temperature conduit saddle, its holder to as if high-temperature pipe, it comprises: pedestal, two first pipe clamps, two second pipe clamps, and fastening piece; From high-temperature pipe, structure from inside to outside sequentially comprises: coating, and thermal-protective coating is sought connections with structure and steel band;
The described anchor nails of structure for arranging in groups of seeking connections with, each anchor nails all is positioned at the inboard of steel band and welds with steel band; Described thermal-protective coating is fixedly connected with anchor nails.
2. described anchor nails is Y-shaped; Described anchor nails in groups is set to different angles between its anchor nails is mutual.
3. from high-temperature pipe, structure from inside to outside sequentially comprises: the coating that nanometer heat insulation material is made, the thermal-protective coating that the insulating and wearing-resistant lining material is made, the anchor nails that arranges in groups, and steel band; Aforementioned anchor nails in groups is set to different angles between it is mutual;
Anchor nails both was welded to connect with steel band, was fixedly connected with the thermal-protective coating that the insulating and wearing-resistant lining material is made again.
The beneficial effects of the utility model are:
1. employing anchor nails makes the intensity of thermal-protective coating be greatly improved.
2. coating 7 adopts nanometer heat insulation material to make, and brings multiple benefit: a. to have high thermal insulation, reduces heat loss, energy saving; B. the high temperature resistant and hydrophoby of material itself; C. long service life; D. environmental protection, nontoxic.
Description of drawings
Fig. 1 is the schematic diagram of prior art high temperature conduit saddle;
Fig. 2 is the left view of Fig. 1, and this figure has done technical finesse, and the bottom that makes Fig. 2 is the left view character of Fig. 1, and the top that makes Fig. 2 is that the A of Fig. 1 is to view character;
Fig. 3 is the schematic diagram of the utility model high temperature conduit saddle;
Fig. 4 is the left view of Fig. 3, and this figure has done technical finesse, and the bottom that makes Fig. 4 is the left view character of Fig. 3, and the top that makes Fig. 4 is that the B of Fig. 3 is to view character;
Fig. 5 is the partial enlarged drawing at I place in Fig. 3, and magnification ratio is 3:1.
Label declaration in figure
1. pipeline; 2. coating; 3. thermal-protective coating; 4. hexsteel; 5. steel band; 6. anchor nails; 7. coating.
The utility model is described in further detail below in conjunction with the drawings and specific embodiments.
Embodiment
The overall technological scheme introduction of the utility model high temperature conduit saddle.
Its holder to as if high-temperature pipe 1, it comprises: pedestal, two first pipe clamps, two second pipe clamps, and fastening piece; From high-temperature pipe 1, structure from inside to outside sequentially comprises: coating, thermal-protective coating 3 is sought connections with structure and steel band 5.
Unlike the prior art be: seeking connections with structure in the utility model, is the anchor nails 6 that arranges in groups, each anchor nails 6 all be positioned at the inboard of steel band 5 and with steel band 5 welding; Thermal-protective coating 3 is fixedly connected with anchor nails 6.
For above-mentioned overall technological scheme of the present utility model, make following description and interpretation.
1. the structure of seeking connections with of prior art adopts hexsteel 4, and the structure of seeking connections with of the present utility model adopts anchor nails 6.Hexsteel 4 easily ruptures in transportation, assembling with in using, and shock resistance is not strong.Anchor nails 6 intensity are very high, can not rupture in transportation, assembling and use, and shock resistance is strong.So steel band 5 with after thermal-protective coating 3 is fixedly connected with, makes the intensity of thermal-protective coating 3 be greatly improved by anchor nails 6.
2. except welding anchor nails 6, the high temperature conduit saddle installation method of prior art can or be used for the reference when mounted of the utility model technology high temperature conduit saddle.
Embodiment one
Describe in conjunction with Fig. 3, Fig. 4 and Fig. 5.Fig. 3 is the schematic diagram of the utility model high temperature conduit saddle; Fig. 4 is the left view of Fig. 3, and this figure has done technical finesse, and the bottom that makes Fig. 4 is the left view character of Fig. 3, and the top that makes Fig. 4 is that the B of Fig. 3 is to view character; Fig. 5 is the partial enlarged drawing at I place in Fig. 4, and magnification ratio is 3:1.
Model utility high temperature conduit saddle comprises: pedestal, two first pipe clamps, two second pipe clamps, and fastening piece.
As shown in Figure 3 and Figure 5, from high-temperature pipe 1, structure from inside to outside sequentially comprises: the coating 7 that nanometer heat insulation material is made, the thermal-protective coating 3 that the insulating and wearing-resistant lining material is made, anchor nails 6, steel band 5.The anchor nails 6 that arranges in groups all is positioned at the inboard of steel band 5 and welds with steel band 5.The angle of each anchor nails 6 is different, so can make thermal-protective coating 3 and anchor nails 6 be fixedly connected with mechanical strength higher.
Technical Analysis is as follows.
1. the coating 7 of prior art adopts the rock wool fibers blanket, and the thermal insulation of this material, heat resistance and water proofing property are all not good, and working life is short; Moreover, contain harmful matter in the rock wool fibers blanket, human body is produced infringement, long-term use also can corrosion pipeline.
And the utility model coating 7 adopts nanometer heat insulation material to make, and its benefit is as follows:
A. nanometer heat insulation material has high thermal insulation, and its thermal conductivity is 1/5 of rock wool fibers blanket, has reduced heat loss, has saved the energy.
It is b. high temperature resistant that (can reach 700 spends; The rock wool fibers blanket can only arrive 400 the degree), hydrophoby (not water funk).
C. use for many years under can the operating mode of lowered in field environment wind and weather, greatly improve than the rock wool fibers blanket life-span.
D. have environment friendly, nontoxic, avoid or reduced to the pollution of environment and to the infringement of human body.