CN202132656U - Following type heat insulation pipe support intensified heat-insulating structure - Google Patents
Following type heat insulation pipe support intensified heat-insulating structure Download PDFInfo
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- CN202132656U CN202132656U CN201120204738U CN201120204738U CN202132656U CN 202132656 U CN202132656 U CN 202132656U CN 201120204738 U CN201120204738 U CN 201120204738U CN 201120204738 U CN201120204738 U CN 201120204738U CN 202132656 U CN202132656 U CN 202132656U
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- circle
- holding ring
- insulating layer
- thermal insulation
- radius
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Abstract
The utility model discloses a following type heat insulation pipe support intensified heat-insulating structure, which comprises an upper holding ring, inner and outer insulating layers, fastening pieces, a bracket, a flat plate, and a baseplate. The upper holding ring is an Omega-shaped component with the outer insulating layer embedded along the inner wall of the arc section; the inner hole radius of the outer insulating layer taking a semi-circle ring shape is equal to the radius of the outer wall of the compacted inner insulating layer; the bracket adopts two bodies linked with each other; and a lower holding ring arranged on two sides coaxially and taking the shape of an inverted omega is connected with the baseplate through a rib plate. The curvature radii of the arc sections of both the upper holding ring and the lower holding ring are the same, and through-holes are formed on the outwardly expanded edges on two sides of the upper and lower holding ring. A lateral plate is fixedly connected to the outer side edge at the bottom of the inner wall of the lower holding ring, the outer insulating layer is embedded on the inner wall of the lower holding ring with the help of the lateral plates, and the radially vertical circular arc-shaped lateral plate protects the outer insulating layer. In the intensified heat-insulating structure, the heat-insulating structures in the middle, the upper part, and the lower part are all symmetric, so that the heat-insulating effect is almost the same; and external connection is adopted, so that the installation is convenient.
Description
Technical field
The utility model relates to a kind of piping attachment, and specifically, the utility model relates to a kind of Thermal insulative pipe carrier that is used for industrial heat supply network and strengthens insulating structure.
Background technique
Industry heat supply network forms by crisscross pipeline, pipeline produces corresponding axial displacement because of the transmission medium temperature variation, the pipeline axial displacement has very strong destructiveness, so pipeline have be provided with on the artis compensator with the absorption or the compensating axial displacement.In order to guarantee the compensator smooth running, common configuration follow-up-type Thermal insulative pipe carrier supporting flue in the engineering.Although existing technology has good servo-actuated property, can accomplish that the pipeline axial displacement is accessible.But there are some shortcomings in the follow-up-type Thermal insulative pipe carrier of existing technology on the heat-insulation and heat-preservation structural design, be mainly reflected in following two aspects.The upper and lower armful of circle radius of curvature that on the one hand is the setting-in insulating is inconsistent, constitutes that upper and lower insulating variable thickness causes and the heat insulation effect that brings is different.Be that to be inlaid in down hard heat-insulated layer pressurized under high temperature condition of embracing in the circle frangible on the other hand, lose due insulation effect.
The model utility content
The utility model is primarily aimed at the deficiency of existing technology, proposes a kind of symmetrical configuration, supports the follow-up-type Thermal insulative pipe carrier reinforcement insulating structure reliable, that heat insulation effect is consistent.
The utility model is realized technical goal through following technical proposals.
The follow-up-type Thermal insulative pipe carrier is strengthened insulating structure, and it comprises embraces circle, external thermal insulation, inner thermal insulating layer, fastening piece, carriage, flat board and substrate.The said armful circle of going up is
shape member; Along arc section inwall setting-in external thermal insulation, the interior pore radius of the external thermal insulation of semi-annular shape equals the exterior radius value after the inner thermal insulating layer compacting.Said carriage is the double linked structure, is positioned at the coaxial following armful of circle of
shape in both sides and is linked into an integrated entity by floor and base plate.Said substrate is the long trough plate, and built-in rectangular flat in the groove, carriage prop up with the bottom surface of base plate and on flat board, constitute follower structure.Its improvements are: the arc section radius of curvature of said Bao Quan of going up and following armful of circle equates; The side is provided with through hole outside the both sides; Following armful of circle inwall bottom outside limit is fixedly connected side plate; In following armful of circle inwall, rely on side plate setting-in external thermal insulation, radially the circular arc side plate of vertically-arranged constitutes the protection structure to external thermal insulation.
Side plate in the said structure is the circular arc plate, and its external arc limit matches the little 10mm~15mm of radius ratio external thermal insulation inwall radius on interior circular arc limit with following armful of circle inwall.Inner thermal insulating layer is the high alumina ceramic tapetum fibrosum.
The utility model compared with prior art has following good effect:
1, the upper and lower armful of circle that matches is symplex structure, and the insulation layer thickness of institute's setting-in equates that heat insulation effect is basic identical;
2, upper and lower armful of circle is provided with the outer side of identical shaped and size, connect outward or disassembling section convenient;
3, following armful of circle bottom is fixedly connected the reinforced structure that side plate constitutes embedded thermal insulation layer, avoids external thermal insulation load-bearing pressurized, and external thermal insulation is remained intact.
Description of drawings
Fig. 1 is the utility model structural profile schematic representation.
Fig. 2 is the side view of Fig. 1.
Embodiment
According to accompanying drawing and structure embodiment, the utility model is described further below.
Follow-up-type Thermal insulative pipe carrier illustrated in figures 1 and 2 is strengthened insulating structure, and it comprises embraces circle 1, external thermal insulation 2, inner thermal insulating layer 3, fastening piece 4, carriage 5, flat board 6 and substrate 7.A said upward armful circle 1 is
shape member; Along arc section inwall setting-in external thermal insulation 2, the interior pore radius of the external thermal insulation 2 of semi-annular shape equals the exterior radius value after inner thermal insulating layer 3 compactings.Said carriage 5 is the double linked structure, and the following armful of circle 5.2 that is positioned at coaxial
shape in both sides linked into an integrated entity by floor 5.3 and base plate 5.4.Said substrate 7 is the long trough plate, and built-in rectangular flat 6 in the groove, carriage 5 prop up on dull and stereotyped 6 with the bottom surface of base plate 5.4 and constitute follower structure.The inwall bottom outside limit of following armful of circle 5.2 is fixedly connected side plate 5.1, in following armful of circle 5.2 inwalls, relies on side plate 5.1 setting-in external thermal insulations 2.Said side plate 5.1 is the uniform thickness flat plate, and its outside coincide with following armful of circle 5.2 inwalls, and the radius value on interior circular arc limit is than the little 10mm~15mm of external thermal insulation 2 inwall radiuses.The hosted road of present embodiment diameter 500mm, circular arc limit radius value is than the little 12mm of external thermal insulation 2 inwall radiuses in the side plate 5.1.Radially side plate 5.1 formations of vertically-arranged avoid pipeline to damage external thermal insulation 2 by pressure to the protection structure of external thermal insulation 2 at hot stage.Go up the arc section radius of curvature of embracing circle 1 and following armful of circle 5.2 in the utility model and equate that external thermal insulation 2 shape and size of institute's setting-in are all identical, so heat insulation effect is also basic identical.During as installed, will go up an armful circle 1 and place down on armful circle 5.2, fastening piece 4 will be installed on the side outside both sides, be provided with inner thermal insulating layer 3 between the pipeline outer wall of clip and external thermal insulation 2 inwalls.Inner thermal insulating layer 3 is the high alumina ceramic tapetum fibrosum in the present embodiment.The utility model is when the pipeline generation axial displacement of being held in the palm, and the follow-up-type Thermal insulative pipe carrier moves freely with the pipeline axial displacement on dull and stereotyped 6, and this moving structure has very big degrees of freedom, meets the compensation condition of pipeline compensator.
Claims (3)
1. a follow-up-type Thermal insulative pipe carrier is strengthened insulating structure, and it comprises embraces circle (1), external thermal insulation (2), inner thermal insulating layer (3), fastening piece (4), carriage (5), dull and stereotyped (6) and substrate (7); A said upward armful circle (1) is
shape member; Along arc section inwall setting-in external thermal insulation (2), the interior pore radius of the external thermal insulation of semi-annular shape (2) equals the exterior radius value after inner thermal insulating layer (3) compacting; Said carriage (5) is the double linked structure, is positioned at the coaxial following armful of circle (5.2) of
shape in both sides and is linked into an integrated entity by floor (5.3) and base plate (5.4); Said substrate (7) is the long trough plate, and built-in rectangular flat (6) in the groove, carriage (5) prop up in dull and stereotyped (6) with the bottom surface of base plate (5.4) and go up the formation follower structure; It is characterized in that: the said arc section radius of curvature of embracing circle (1) and following armful of circle (5.2) that goes up equates; The side is provided with through hole outside the both sides; Following armful of circle (5.2) inwall bottom outside limit is fixedly connected side plate (5.1); In following armful of circle (5.2) inwall, rely on side plate (5.1) setting-in external thermal insulation (2), radially the circular arc side plate (5.1) of vertically-arranged constitutes the protection structure to external thermal insulation (2).
2. follow-up-type Thermal insulative pipe carrier according to claim 1 is strengthened insulating structure; It is characterized in that: said side plate (5.1) is the uniform thickness flat plate; Its external arc limit matches with following armful of circle (5.2) inwall, and the radius value on interior circular arc limit is than the little 10mm~15mm of external thermal insulation (2) inwall radius.
3. follow-up-type Thermal insulative pipe carrier according to claim 1 is strengthened insulating structure, it is characterized in that: insulation (3) is the high alumina ceramic tapetum fibrosum in said.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201120204738U CN202132656U (en) | 2011-06-17 | 2011-06-17 | Following type heat insulation pipe support intensified heat-insulating structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201120204738U CN202132656U (en) | 2011-06-17 | 2011-06-17 | Following type heat insulation pipe support intensified heat-insulating structure |
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CN202132656U true CN202132656U (en) | 2012-02-01 |
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CN201120204738U Expired - Fee Related CN202132656U (en) | 2011-06-17 | 2011-06-17 | Following type heat insulation pipe support intensified heat-insulating structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109973762A (en) * | 2019-03-08 | 2019-07-05 | 浙江大学 | A kind of heat distribution pipeline heat preservation reinforced structure and heat preserving method |
-
2011
- 2011-06-17 CN CN201120204738U patent/CN202132656U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109973762A (en) * | 2019-03-08 | 2019-07-05 | 浙江大学 | A kind of heat distribution pipeline heat preservation reinforced structure and heat preserving method |
CN109973762B (en) * | 2019-03-08 | 2020-03-24 | 浙江大学 | Heat-insulating reinforced structure and heat-insulating method for heat distribution pipeline |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20120201 Termination date: 20150617 |
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EXPY | Termination of patent right or utility model |