CN204141054U - Insulation support device - Google Patents

Abstract

The utility model proposes a kind of insulation support device, comprising: mounting rail, dunnage, two pieces of warming plates and fixing hoop; Mounting rail one end is fixed on bulkhead; Dunnage is located on mounting rail, dunnage offers the first hole; Two pieces of warming plates are located at the bi-side of dunnage respectively, and every block warming plate is corresponding with the shape of dunnage and offer the second hole, and the second hole is corresponding with the first hole site, passes for pipeline; Fixing hoop is sheathed on outside dunnage and two pieces of warming plates, in order to dunnage and two pieces of warming plates to be fixed on support beam.The utility model solves the problem that hot/cold amount when pipeline is installed on existing support device is scattered and disappeared; During supporting structure as various pipeline, all can ensure the intensity of pipe-support; Structure is simple, easy for installation.

Description

Insulation support device

Technical field

The utility model relates to shipbuilding technical field, particularly relates to a kind of insulation support device for fixing ship pipeline.

Background technique

In offshore engineering equipment or other land-based installations, there is the pipeline of numerous needs insulations.Because pipeline is longer, need to carry out support by support device and the fixing such as pipeline such as thermal insulation pipe, cooling tube in specific position.Support device due to pipeline becomes the bridge of connecting pipeline and extraneous structure, the problem that the hot/cold amount therefore needing to solve above-mentioned pipeline is scattered and disappeared, and namely needing is isolated from the outside pipeline could realize the object of insulation.

But, in the support device of existing pipeline, thermal insulating material is not installed.Existing support device is generally the supporting structure of the such as steel arranged separately, this structure causes pipeline directly to contact with the support device of such as steel, due to the good conductor that iron and steel is heat, heat can be lost in external environment by point of contact, thus reduces the hot/cold amount of fluid in pipeline.Even can affect the use of pipe line downstream, such as, in order to make the equipment being positioned at pipe line downstream obtain enough hot/cold amounts, then need the heat load increasing whole system, increase cost, be unfavorable for saving energy and reduce the cost.For pipeline cold-proof merely, after heat is scattered and disappeared by support device, in pipeline, the temperature of fluid reduces, and easily freezes, even can cause security incident.

In some equipment, in order to ensure the normal work of pipeline, reduce hot/cold amount scattering and disappearing in transmitting procedure, technician wraps up thermal insulating material outside pipeline, the external world and pipeline are completely cut off, but in the joint of support device and pipeline, because thermal insulating material cannot wrap up, still there is comparatively serious hot/cold amount and scatter and disappear.

Therefore, provide a kind of support device with heat insulation function, avoid the hot/cold amount of the joint of pipeline and support device to scatter and disappear, become a large technical problem urgently to be resolved hurrily in related domain.

Model utility content

The purpose of this utility model is to provide a kind of insulation support device, does not possess heat insulation function, and then cause the technical problem of pipeline heat loss in order to solve in prior art the structure supporting pipeline.

For solving the problems of the technologies described above, the utility model adopts following technological scheme:

The one insulation support device that the utility model proposes, for pipe laying on bulkhead, wherein, described insulation support device comprises: mounting rail, dunnage, two pieces of warming plates and fixing hoop; Described mounting rail one end is fixed on described bulkhead; Described dunnage is located on described mounting rail, described dunnage offers the first hole; Described two pieces of warming plates are located at the bi-side of described dunnage respectively, and warming plate described in every block is corresponding with the shape of described dunnage and offer the second hole, and described second hole is corresponding with described first hole site, passes for described pipeline; Described fixing hoop is sheathed on outside described dunnage and described two pieces of warming plates, in order to described dunnage and described two pieces of warming plates to be fixed on described support beam.

According to a mode of execution of the present utility model, described dunnage comprises the upper backup pad and lower supporting plate that are oppositely arranged up and down, the inner side relative position of described upper backup pad and described lower supporting plate offers a containing groove respectively, and two containing grooves define described first hole jointly.

According to another mode of execution, described dunnage is that thermoinsulation material is made, and the thermal conductivity of described thermoinsulation material be 0.2W/ (m.k) below, the shore hardness of described thermoinsulation material is more than 50.

According to another mode of execution, described thermoinsulation material is strengthen cushion block without asbestos type graphite.

According to another mode of execution, warming plate described in every block comprises the upper warming plate and lower warming plate that are oppositely arranged up and down, and the inner side relative position of described upper warming plate and described lower warming plate offers a containing groove respectively, and two containing grooves define described second hole jointly.

According to another mode of execution, the thermal conductivity of described thermal insulating material be 0.1W/ (m.k) below.

According to another mode of execution, described thermal insulating material is alumina silicate or rock wool.

According to another mode of execution, described in every block, between warming plate with described dunnage, be coated with both sealant layer bonding.

According to another mode of execution, described fixing hoop is Ω type, and has a surrounding portion and bent two otic placodes extended by described surrounding portion two ends, and described surrounding portion is corresponding with described dunnage peripheral shape, and described otic placode is fixed by bolt and described mounting rail.

According to another mode of execution, described fixing hoop is that the band steel of more than 5mm is compressing by thickness.

In order to solve the problems of the technologies described above, the technological scheme that the utility model proposes also comprises: propose a kind of insulation support device, for pipe laying on bulkhead, wherein, described insulation support device comprises: mounting rail, dunnage and fixing hoop; Described mounting rail one end is fixed on described bulkhead; Described dunnage is located on described mounting rail, described dunnage offers the first hole, and described dunnage is that thermoinsulation material is made; Described fixing hoop is sheathed on outside described dunnage, in order to described dunnage to be fixed on described support beam.

As shown from the above technical solution, the beneficial effects of the utility model are: the insulation support device that the utility model proposes, make its section components by adopting thermoinsulation material and install the structural design of warming plate additional, solve the problem that hot/cold amount when pipeline is installed on existing support device is scattered and disappeared, achieve the continuity of pipeline heat insulation material, energy-saving and cost-reducing; Secondly, during the supporting structure of the insulation support device that the utility model proposes as various pipeline, the intensity of pipe-support can all be ensured; In addition, the insulation support device structure that the utility model proposes is simple, easy for installation.

Accompanying drawing explanation

Fig. 1 is the mounting structure schematic diagram of the utility model insulation support device;

Fig. 2 is the structural representation of the utility model insulation support device first mode of execution;

Fig. 3 a is the decomposition texture schematic diagram of the dunnage in Fig. 2;

Fig. 3 b is the side view of Fig. 3 a;

Fig. 4 a is the decomposition texture schematic diagram of the warming plate in Fig. 2;

Fig. 4 b is the side view of Fig. 4 a;

Fig. 5 a is the structural representation of the fixing hoop in Fig. 2;

Fig. 5 b is the side view of Fig. 5 a;

Fig. 6 is that A-A in Fig. 2 is to sectional view;

Fig. 7 is the structural representation of the utility model insulation support device second mode of execution;

Fig. 8 is the structural representation of the utility model insulation support device the 3rd mode of execution.

Wherein, description of reference numerals is as follows:

11. mounting rails; 111. pad; 12. dunnages; 121. first holes; 122. upper backup pad; 123. lower supporting plate; 13. warming plates; 131. second holes; Warming plate on 132.; 133. times warming plates; 14. fixing hoops; 141. surrounding portion; 142. otic placode; 2. bulkhead; 3. pipeline; 31. thermal insulation layers.

Embodiment

The exemplary embodiments embodying the utility model feature & benefits will describe in detail in the following description.Be understood that the utility model can have various changes in different embodiments, it neither departs from scope of the present utility model, and explanation wherein and to be shown in be the use explained in essence, and be not used to limit the utility model.

Mode of execution one

As depicted in figs. 1 and 2, a mode of execution of the utility model insulation support device.This insulation support device is mainly used in pipeline 3 to support to be fixed on the bulkhead 2 of such as boats and ships.In present embodiment 1, insulation support device mainly comprises: mounting rail 11, dunnage 12, two pieces of warming plates 13 and fixing hoop 14.

As depicted in figs. 1 and 2, one end of mounting rail 11 to be fixed on bulkhead 2 and the outside horizontal-extending of the other end.In present embodiment 1, mounting rail 11 selects angle steel, but not as limit, other also can be selected can to ensure the structure of the support strength to pipeline 3.In addition, in present embodiment 1, for the ease of the fitting operation such as such as welding, one piece of pad 111 can be welded and fixed on the predetermined mounting point of bulkhead 2, then one end of mounting rail 11 and this pad 111 are welded and fixed.

In present embodiment 1, dunnage 12 is located at above mounting rail 11.Further, as shown in Figure 3 a and Figure 3 b shows, in present embodiment 1, the segmentation structure of dunnage 12 in horizontal segmentation, namely dunnage 12 comprises the upper backup pad 122 and lower supporting plate 123 that are oppositely arranged up and down.Wherein, the inner side relative position of upper backup pad 122 and lower supporting plate 123 offers a semicircle containing groove respectively, two containing grooves define a first circular hole 121 jointly, and this first hole 121 is for passing for circular pipe 3, but not as limit, the shape in the first hole 121 can convert according to the flexible shapes of pipeline 3.It should be noted that, no matter mounting rail 11 is so that where formula is fixed, or dunnage 12 is located at the where of mounting rail 11, the structure that upper backup pad 122 and lower supporting plate 123 are all preferably oppositely arranged up and down, and namely dunnage 12 is the structure of horizontal segmentation.The pressure that pipeline 3 weight is brought can be avoided the point of division between upper backup pad 122 and lower supporting plate 123 by said structure, is conducive to the intensity ensureing that pipeline 3 supports.Meanwhile, the structural design of segmentation, also makes it in installation process, can be set with on pipeline 3 by upper backup pad 122 and lower supporting plate 123 easily, convenient operation.

As shown in Figure 6, two pieces of warming plates 13 are located at the bi-side of dunnage 12 respectively, and every block warming plate 13 is corresponding with the shape of dunnage 12 and offer that the second hole 121, hole 131, first is corresponding with two second positions, hole 131 to be passed for pipeline 3.As shown in Fig. 2, Fig. 4 a and Fig. 4 b, in present embodiment 1, every block warming plate 13 comprises the upper warming plate 132 and lower warming plate 133 that are oppositely arranged up and down, the inner side relative position of upper warming plate 132 and lower warming plate 133 offers a semicircle containing groove respectively, and two containing grooves define a second circular hole 131 jointly.Wherein, the containing groove that upper warming plate 132 and lower warming plate 133 are offered is identical with the containing groove shape that upper backup pad 122 and lower supporting plate 123 are offered and position is corresponding, namely the first hole 121 is identical with the aperture in the second hole 131 and position is corresponding, passes for pipeline 3.Further, upper warming plate 132 and lower warming plate 133 form for warming plate 13 horizontal segmentation, the pressure that pipeline 3 weight is brought can be avoided the point of division between upper warming plate 132 and lower warming plate 133, are conducive to the intensity ensureing that pipeline 3 supports.Meanwhile, the structural design of segmentation, also makes it in installation process, can be set with on pipeline 3 by upper warming plate 132 and lower warming plate 133 easily, convenient operation.

In addition, in present embodiment 1, the thermal insulating material making warming plate 13 is preferably alumina silicate, but not as limit, this thermal insulating material also can select rock wool or other materials, is that below 0.1W/ (m.k) is advisable, in present embodiment 1 with thermal conductivity, then select thermal conductivity lower than the thermal insulating material of 0.076W/ (m.k), to reach best heat insulation effect.

In addition, as shown in Figure 6, in present embodiment 1, every block warming plate 13 be coated with both sealant layer (not shown) bonding between dunnage 12, and the Applicable temperature of sealant layer is-20 DEG C ~ 210 DEG C, to adapt to the pipeline 3 under most operating temperature.

As shown in Fig. 2, Fig. 5 a and Fig. 5 b, in present embodiment 1, fixing hoop 14 is in Ω type, and there is a surrounding portion 141 and bent two otic placodes 142 extended by surrounding portion 141 two ends, surrounding portion 141 is corresponding with the shape of dunnage 12 periphery, and otic placode 142 is fixed by bolt and mounting rail 11.In other embodiments, fixing hoop 14 also can be other shapes, not as limit, only need partly be sheathed on outside dunnage 12 and two pieces of warming plates 13, to realize function dunnage 12 and two pieces of warming plates 13 being fixed on support beam.

In addition, in the present embodiment, fixing hoop 14 is that the band steel of more than 5mm is compressing by thickness, to ensure its structural strength, but not as limit, in other embodiments, the size of fixing hoop 14 can be selected flexibly according to the size of required fixing pipeline 3 and weight, but the width that need meet fixing hoop 14 approximates dunnage 12 and two pieces of warming plate 13 thickness summations, to ensure the fixed function of fixing hoop 14.

It should be noted that, as shown in Figure 2, in present embodiment 1, for the upper backup pad 122 in horizontal segmentation and lower supporting plate 123, for the ease of fixing, lower supporting plate 123 has the approximate rectangular of semicircle containing groove in one, and this semicircle containing groove upward opening, and namely the surface of contact of itself and mounting rail 11 upper surface is a plane.Further, in order to uniform force, upper backup pad 122 has the semicircle of semicircle containing groove in one, and this semicircle containing groove is under shed.In addition, structure and the said structure of upper warming plate 132 and lower warming plate 133 are similar, and it will not go into details.The kink of fixing hoop 14 is in the semi-circle structure corresponding with upper backup pad 122, and the two ends of this semi-circle structure vertically extend to mounting rail 11 downwards and are bent to form two otic placodes 142 respectively.

Mode of execution two

As shown in Figure 7, another mode of execution of the utility model insulation support device, this mode of execution 2 is roughly the same with mode of execution 1.Difference is, in present embodiment 2, dunnage 12, warming plate 13 and fixing hoop 14 are installed on below mounting rail 11.

Specifically, upper backup pad 122 has the approximate rectangular of semicircle containing groove in one, and this semicircle containing groove is under shed, and namely upper backup pad 122 is a plane with the surface of contact of mounting rail 11 upper surface.Further, lower supporting plate 123 has the semicircle of semicircle containing groove in one, and this semicircle containing groove upward opening.In addition, structure and the said structure of upper warming plate 132 and lower warming plate 133 are similar, and it will not go into details.Fixing hoop 14 is in the type of falling Ω, and its kink is in the semi-circle structure corresponding with lower supporting plate 123, and the two ends of this semi-circle structure upwards vertically extend to mounting rail 11 and are bent to form two otic placodes 142 respectively.

Mode of execution three

As shown in Figure 8, another mode of execution of the utility model insulation support device, this mode of execution 3 is roughly the same with the respective embodiments described above.Difference is, in present embodiment 3, mounting rail 11 is vertically arrange, and namely dunnage 12, warming plate 13 and fixing hoop 14 are installed on the side of mounting rail 11.

Specifically, dunnage 12 is horizontally divided into upper backup pad 122 and the lower supporting plate 123 of specular, dunnage 12 is approximate rectangular near the part of mounting rail 11, namely the surface of contact of itself and mounting rail 11 side is a plane, dunnage 12 away from the part semicircular in shape of mounting rail 11, and offers the first hole 121 in dunnage 12.That is, upper backup pad 122 is approximate rectangular near the part of mounting rail 11, and its part away from mounting rail 11 is a quadrant shape, and upper backup pad 122 offers a semicircle containing groove that Open Side Down.Lower supporting plate 123 is approximate rectangular near the part of mounting rail 11, and its part away from mounting rail 11 is a quadrant shape, and lower supporting plate 123 offers the semicircle containing groove of an opening upwards.In addition, structure and the said structure of upper warming plate 132 and lower warming plate 133 are similar, and it will not go into details.The Ω type of fixing hoop 14 in half-twist, its kink is in the semi-circle structure corresponding with two quadrant shapes of upper backup pad 122 and lower supporting plate 123, and the both ends horizontal of this semi-circle structure extends to mounting rail 11 and is bent to form two otic placodes 142 respectively.

Mode of execution four

Another mode of execution of the utility model insulation support device, this mode of execution 4 is roughly the same with the respective embodiments described above.Difference is, in present embodiment 4, insulation support device mainly comprises: mounting rail 11, dunnage 12 and fixing hoop 14.

Specifically, in present embodiment 4, contrast and the respective embodiments described above, eliminate the structure of warming plate 13, to be applicable in the lower equipment of heat loss control overflow.In addition, in order to provide certain heat insulation function, in present embodiment 4, dunnage 12 is made up of thermoinsulation material, wherein the thermal conductivity of thermoinsulation material is preferably 0.2W/ (m.k) below, and meets API607 fire protection requirement, and the shore hardness of thermoinsulation material is preferably more than 50, wherein thermoinsulation material can be preferably teflon, but not as limit.Further, have in other mode of executions of warming plate 13 above-mentioned, dunnage 12 also can select thermoinsulation material to make, to improve the insulation capacity of insulation support device further.

In addition, when the insulation support device that the utility model proposes is installed in equipment as the support device of pipeline 3, as shown in Figure 1, because pipeline 3 outside is enclosed with thermal insulation layer 31 usually, this thermal insulation layer 31 can be connected as a single entity with the warming plate 13 of insulation support device, to promote the continuity of thermal insulating material, the overall insulation capacity of further riser tubing 3.

Though exemplary embodiment describe insulation support device of the present utility model with reference to several, should be understood that term used be illustrate and illustrative, and not restrictive.Specifically can implement in a variety of forms due to the utility model and not depart from its design or essence, therefore, above-described embodiment is not limited to any aforesaid details, and explain widely in the design that should limit in claim of enclosing and scope, therefore the whole change fallen in claim or its equivalent scope and remodeling all should be claim of enclosing and contained.

Claims (11)

1. an insulation support device, for pipe laying (3) on bulkhead (2), it is characterized in that, described insulation support device comprises:

Mounting rail (11), one end is fixed on described bulkhead (2);

Dunnage (12), is located on described mounting rail (11), described dunnage (12) offers the first hole (121);

Two pieces of warming plates (13), be located at the bi-side of described dunnage (12) respectively, warming plate (13) described in every block is corresponding with the shape of described dunnage (12) and offer the second hole (131), described second hole (131) is corresponding with described first hole (121) position, passes for described pipeline (3); And

Fixing hoop (14), be sheathed on described dunnage (12) and described two pieces of warming plates (13) outward, in order to described dunnage (12) and described two pieces of warming plates (13) to be fixed on described support beam.

2. insulation support device according to claim 1, it is characterized in that, described dunnage (12) comprises the upper backup pad (122) and lower supporting plate (123) that are oppositely arranged up and down, the inner side relative position of described upper backup pad (122) and described lower supporting plate (123) offers a containing groove respectively, and two containing grooves define described first hole (121) jointly.

3. insulation support device according to claim 1, it is characterized in that, described dunnage (12) is made for thermoinsulation material, and the thermal conductivity of described thermoinsulation material be 0.2W/ (m.k) below, the shore hardness of described thermoinsulation material is more than 50.

4. insulation support device according to claim 3, is characterized in that, described thermoinsulation material is strengthen cushion block without asbestos type graphite.

5. insulation support device according to claim 1, it is characterized in that, warming plate (13) described in every block comprises the upper warming plate (132) and lower warming plate (133) that are oppositely arranged up and down, the inner side relative position of described upper warming plate (132) and described lower warming plate (133) offers a containing groove respectively, and two containing grooves define described second hole (131) jointly.

6. insulation support device according to claim 1, is characterized in that, the thermal conductivity of described thermal insulating material be 0.1W/ (m.k) below.

7. insulation support device according to claim 6, is characterized in that, described thermal insulating material is alumina silicate or rock wool.

8. insulation support device according to claim 1, is characterized in that, is coated with both sealant layer bonding described in every block between warming plate (13) with described dunnage (12).

9. insulation support device according to claim 1, it is characterized in that, described fixing hoop (14) is in Ω type, and there is a surrounding portion (141) and bent two otic placodes (142) extended by described surrounding portion (141) two ends, described surrounding portion (141) is corresponding with described dunnage (12) peripheral shape part, and described otic placode (142) is fixed by bolt and described mounting rail (11).

10. insulation support device according to claim 9, is characterized in that, described fixing hoop (14) is that the band steel of more than 5mm is compressing by thickness.

11. 1 kinds of insulation support devices, for pipe laying (3) on bulkhead (2), it is characterized in that, described insulation support device comprises:

Mounting rail (11), one end is fixed on described bulkhead (2);

Dunnage (12), is located on described mounting rail (11), described dunnage (12) offers the first hole (121), and described dunnage (12) is made for thermoinsulation material; And

Fixing hoop (14), is sheathed on described dunnage (12) outward, in order to described dunnage (12) to be fixed on described support beam.