Flat pair of heat-insulating energy-saving pipe bracket
Technical field
The present invention relates to a kind of pipeline power-saving technology, especially a kind of conduit saddle technology preventing pipeline heat from outwards being transmitted by supporting base, specifically a kind of flat pair of heat-insulating energy-saving pipe bracket.
Background technique
tradition Thermal insulative pipe carrier is all hooping structure, is all generally make an issue of in the selection of thermal-protective material, thus have ignored basic principle and the feature of insulation pipe heat radiation, only accomplishes to have isolated pipe surface, does not play real effect of heat insulation.
Traditional concept it is generally acknowledged that the heat radiation heat of high-temperature pipe is conducted directly to the external world by steel pipe, the direct of heat just can be prevented to be delivered to conduit saddle by steel pipe, then be delivered in ambient air by conduit saddle as long as adopt thermal-protective material to cut off conduit saddle and steel pipe.
This theory has narrow limitation, if pipeline does not have thermal insulating material, so this theory should be correct.But in actual use, the restriction of the problems such as intensity and thermal conductivity generally owing to being subject to heat-insulating block are large, it is too thick that heat-insulating block can not do, so generally all wrap in the middle of thermal insulation layer, such as steam line has had the effect of thermal insulating material, although make pipe collar not have directly and tube contacts (having departed from the high-temperature zone in Fig. 1), but still in higher temperature environment (in as Fig. 1 warm area), pipe collar now still temperature is very high, and in thermal insulation layer heat from gusset gradually toward lower shoe transmission, because heat loss is little in thermal insulation layer, so temperature is still very high when passing to upper plate, if now directly placed on upper foundation leg, or expose in atmosphere, scattering losses or suitable large, so general collar-shaped Thermal insulative pipe carrier effect of heat insulation is very poor, idealized like that not in publicity.
Summary of the invention
It is poor to the object of the invention is for existing locking hood type Thermal insulative pipe carrier effect of heat insulation, can not realize heat insulation problem truly, designs a kind of flat pair of heat-insulating energy-saving pipe bracket stopping conduit saddle thermal losses completely.
Technological scheme of the present invention is:
A kind of flat pair of heat-insulating energy-saving pipe bracket, it comprise for supporting flue 1 base 2 and be wrapped in the thermal insulation layer 3 of pipe surface, pipeline 1 is bearing on basis by base 2, it is characterized in that described base 2 is primarily of upper plate 201, boxlike lower shoe 202, integrated heat-insulation block 203, gusset 204, pressure strip 205 and stiffening plate 209 form, described upper plate 201 casts in integrated heat-insulation block 203, integrated heat-insulation block 203 is arranged on boxlike lower shoe 202, upper plate 201 and boxlike lower shoe 202 realize fixed thermal-insulating by the pressure strip 205 at two ends and hold-down bolt 206 and are connected, the lower end of described gusset 204 is welded on upper plate 201 through integrated heat-insulation block 203, and the upper end of gusset 204 is weldingly connected through thermal insulation layer 3 and metal anchor ear 5, and metal anchor ear 5 is fixed on pipeline 1 by hot spacer ring 4.
Described pressure strip 205 is steel angle structure, its one side is directly pressed on integrated heat-insulation block 203 to increase the area of contact of pressure strip 205 and integrated heat-insulation block 203, prevent integrated heat-insulation block 203 pressurized broken, another right angle side contacts with the side of integrated heat-insulation block 203 to increase integrated heat-insulation block 203 lateral stiffness.
In the hole described upper plate 201 supplying hold-down bolt 206 pass, heat insulation ring 207 is installed to be conducted by hold-down bolt 206 to prevent heat.
Described base 2 is provided with two each link of boards of gusset 204 and has a shroud ring, a heat insulation loop 4 is all installed between each shroud ring and pipeline.
Beneficial effect of the present invention:
The present invention adopts one casting type heat-insulating block; upper, boxlike lower shoe are combined; for preventing heat-insulating block local pressure excessive; pressure strip is adopted to upper surface; be similar to backing plate, play the possibility that protection local heat-insulating block is damaged by pressure by nut while compressing heat-insulating block, substantially increase the working life of conduit saddle; extend and change and maintenance period, cut operating costs.
The present invention has fundamentally stopped the approach that heat is outwardly transmitted by shroud ring, is all wrapped in thermal-protective material by the metallic member of all energy transmission, heat conduction, on year-on-year basis, can reduces heat waste more than 90%.
Structure of the present invention is simple, and making and installation is convenient and reliable.
Accompanying drawing explanation
Fig. 1 is and structural representation of the present invention.
Fig. 2 is the side view of Fig. 1.
Fig. 3 is the close-up schematic view of Fig. 1.
Fig. 4 is the A-A sectional view of Fig. 2.
Embodiment
Below in conjunction with drawings and Examples, the present invention is further illustrated.
As Figure 1-4.
A kind of flat pair of heat-insulating energy-saving pipe bracket, it comprise for supporting flue 1 base 2 and be wrapped in the thermal insulation layer 3 of pipe surface, pipeline 1 is bearing on basis by base 2, as shown in Figure 1, described base 2 is primarily of upper plate 201, boxlike lower shoe 202, integrated heat-insulation block 203, gusset 204 and pressure strip 205 form, described upper plate 201 to cast in integrated heat-insulation block 203 (as shown in Figure 4, 201 water cast from 203), integrated heat-insulation block 203 is arranged on boxlike lower shoe 202, upper plate 201 and boxlike lower shoe 202 realize fixed thermal-insulating by the pressure strip 205 at two ends and hold-down bolt 206 and are connected, the lower end of described gusset 204 is welded on upper plate 201 through integrated heat-insulation block 203, and the upper end of gusset 204 is weldingly connected through thermal insulation layer 3 and metal anchor ear 4, and metal anchor ear 5 is fixed on pipeline 1 by hot spacer ring 4, as shown in Figure 2.During concrete enforcement, pressure strip 205 can adopt steel angle structure or L shape folded system, it only can install (Fig. 2) in the both sides of integrated heat-insulation block 203, also all pressure strip can be installed additional in four limits, its one side of pressure strip 205 in Fig. 2 is directly pressed on integrated heat-insulation block 203 to increase the area of contact of pressure strip 205 and integrated heat-insulation block 203, prevent integrated heat-insulation block 203 pressurized broken, another right angle side contacts with the side of integrated heat-insulation block 203 to increase integrated heat-insulation block 203 lateral stiffness, in addition in order to prevent hold-down bolt from dispelling the heat, in the hole that also should hold-down bolt 206 be supplied on upper plate 201 to pass during concrete enforcement, heat insulation ring 207 is installed to be conducted by hold-down bolt 206 to prevent heat, as shown in Figure 3.
During concrete enforcement, according to caliber and weight, each base 2 can install two, multiple gusset 204 also can be installed, each link of boards has a shroud ring, a heat insulation loop 4 is all installed between each shroud ring and pipeline, under the prerequisite that cost allows, also can shares the larger heat insulation loop of a length by two shroud rings.
As can be seen from Fig. 1,2,3, the gusset of connection base of the present invention and pipeline is completely wrapped in thermal-protective material, and therefore heat waste is very little, can reduce heat waste more than 90% on year-on-year basis.
The part that the present invention does not relate to prior art that maybe can adopt all same as the prior art is realized.