CN107504270B - The hold-down support of heat distribution pipeline - Google Patents

Abstract

The invention discloses a kind of hold-down supports of heat distribution pipeline, it is related to heat distribution pipeline support, a kind of hold-down support of heat distribution pipeline, have the advantages that reduce heat distribution pipeline moves on the support, its key points of the technical solution are that: including the lower snap-gauge and upper snap-gauge being arranged in outside heat distribution pipeline, the lower snap-gauge lower end is equipped with support base, the upper snap-gauge is connected with lower snap-gauge by clamping structure, the upper snap-gauge and lower snap-gauge are equipped with insulating layer and thermal insulation layer from inside to outside, the side that the insulating layer is contacted with thermal insulation layer is equipped with semiorbicular elastic cushion, the elastic cushion is equipped with several T-type elastics protruded into insulating layer, the elastic cushion is equipped with several elastic spheres protruded into thermal insulation layer.

Description

The hold-down support of heat distribution pipeline

Technical field

The present invention relates to heat distribution pipeline support, in particular to a kind of hold-down support of heat distribution pipeline.

Background technique

Heat distribution pipeline generallys use aerial laying or trench laying, convenient for draining and deflates.With China's energy-saving and environmental protection political affairs The propulsion of plan, cogeneration of heat and power and concentration heat supply undertaking are fast-developing, and the scale of city thermal net is growing, therefore it is required that pipeline Caliber increase, the temperature and pressure of heating medium improves.For high temperature, high pressure, big-diameter pipeline, meeting when heat distribution pipeline is run Because the temperature change of heating medium causes to expand with heat and contract with cold.General heat distribution pipeline can be transferred the force to by hold-down support to be held Power structure reduces the relative displacement between heat distribution pipeline and load-carrying construction, if but fixing the support of heat distribution pipeline in thermal pipe Road cannot closely contradict after expanding with heat and contract with cold with heat distribution pipeline outer wall, it will so that heat distribution pipeline moves in support, influence heating power The fixation of pipeline.

Summary of the invention

The object of the present invention is to provide a kind of hold-down supports of heat distribution pipeline, and there is reduction heat distribution pipeline to move on the support The advantages of.

Above-mentioned technical purpose of the invention has the technical scheme that a kind of fixed branch of heat distribution pipeline Seat, including the lower snap-gauge and upper snap-gauge being arranged in outside heat distribution pipeline, the lower snap-gauge lower end be equipped with support base, the upper snap-gauge and Lower snap-gauge is connected by clamping structure, and the upper snap-gauge and lower snap-gauge are equipped with insulating layer and thermal insulation layer, the guarantor from inside to outside Semiorbicular elastic cushion is equipped between warm layer and thermal insulation layer, the elastic cushion is equipped with several T-type elasticity protruded into insulating layer Column, the elastic cushion are equipped with several elastic spheres protruded into thermal insulation layer.

By using above-mentioned technical proposal, when upper snap-gauge and lower snap-gauge are mounted on outside heat distribution pipeline, elastic cushion is in pressure Contracting state and there is elastic-restoring force so that insulating layer is closely pressed in outside heat distribution pipeline, snap-gauge and lower snap-gauge are distinguished in reductions When being contacted with heat distribution pipeline, radiation loss of the heat distribution pipeline in contact position, energy saving, raising heat distribution pipeline working efficiency, When heat distribution pipeline expands with heat and contract with cold, elastic cushion can change elastic cushion according to the change in size of heat distribution pipeline, and be arranged in bullet Property pad on T-type elastic and elastic sphere, heat distribution pipeline outer diameter variation when, can produce elastic-restoring force so that protect Warm layer is contradicted with heat distribution pipeline outer wall always, and then reduces the movement of heat distribution pipeline on the support, furthermore T-type elastic and bullet Property sphere strengthens connection of the elastic cushion respectively with insulating layer and thermal insulation layer.

The present invention is further set as: the upper snap-gauge and lower snap-gauge inner wall are equipped with the thermal insulation board protruded into thermal insulation layer, institute It states thermal insulation board to protrude between adjacent spring sphere, and the side that contacts with elastic sphere of the thermal insulation board is equipped with and elastic sphere The cambered surface of cooperation.

By using above-mentioned technical proposal, when thermal insulation board is protruded between adjacent spring sphere, cambered surface increase thermal insulation board with Contact area between elastic sphere, thermal insulation board limits movement of the elastic sphere in thermal insulation layer, and then limits elastic cushion Relative movement between thermal insulation layer and insulating layer.

The present invention is further set as: the clamping structure includes the connecting plate being arranged on lower snap-gauge, is provided with snap-gauge On the shifting chute of upper snap-gauge is stretched out for connecting plate, one end that the connecting plate stretches out shifting chute is set as inverted trapezoidal, the upper snap-gauge Several vertical telescopic rods are equipped on shifting chute periphery, the one end of the telescopic rod far from upper snap-gauge is connected by fixture block, described The card slot for the sliding of inverted trapezoidal connecting plate is offered on fixture block, the cell wall and inverted trapezoidal connecting plate outer wall of the card slot cooperate.

The length of telescopic rod is adjusted when needing to lock upper snap-gauge and lower snap-gauge by using above-mentioned technical proposal, so that Fixture block is by the connecting plate clamping of inverted trapezoidal, and telescopic rod is reversely applied to the power of snap-gauge at this time so that upper snap-gauge and lower snap-gauge by Gradually close to and compressed by telescopic rod, upper snap-gauge and lower snap-gauge are fixed on heat distribution pipeline at this time.

The present invention is further set as: the telescopic rod includes the opposite threaded rod one and threaded rod two of hand of spiral, described Threaded rod one and threaded rod two are threadedly coupled by screw shell, and the threaded rod one is fixedly connected far from one end of screw shell On upper snap-gauge, the one end of the threaded rod two far from screw shell and fixture block are rotatablely connected.

It by using above-mentioned technical proposal, rotates screw shell and threaded rod two is moved in screw shell, and then adjust Saved the height of fixture block, it is easy to operate, when stop operating screw shell when, due to threaded rod one and threaded rod two respectively with screw thread Bush whorl connection, therefore the position of threaded rod one and threaded rod two is also fixed.

The present invention is further set as: the insulating layer is equipped with the heat keeper for protruding into snap-gauge and lower snap-gauge link position, The through-hole stretched out for connecting plate is offered on the heat keeper.

By using above-mentioned technical proposal, the heat that heat keeper reduces heat distribution pipeline passes through between upper snap-gauge and lower snap-gauge Gap distribute and lose.

The present invention is further set as: the edge of the upper snap-gauge and lower snap-gauge is equipped with several to thermal insulation layer and insulating layer side To the baffle of extension.

By using above-mentioned technical proposal, baffle limits the shifting of insulating layer and thermal insulation layer in upper snap-gauge and lower snap-gauge It is dynamic, so that insulating layer and thermal insulation layer and heat distribution pipeline stable connection.

The present invention is further set as: the insulating layer has 4 layers, is outward respectively first layer insulating layer, the from heat distribution pipeline Two layers of insulating layer, third layer insulating layer, the 4th layer of insulating layer, the first layer insulating layer be alumina silicate insulating layer, described second Layer insulating layer, third layer insulating layer, the 4th layer of insulating layer are high temperature glass wool insulating layer, the elastic cushion and the 4th layer of heat preservation Layer contradicts.

By using above-mentioned technical proposal, the resistance to pressure of alumina silicate insulating layer is high, and corrosion-resistant, long service life is easy to construct Installation, easy for construction, the setting of three layers of high temperature glass wool insulating layer improves the thermal insulation property of heat distribution pipeline, and high temperature glass wool The lightweight of insulating layer, durable, thermal insulation property is superior.

The present invention is further set as: high-temperature counter radiation resistant is equipped between the first layer insulating layer and second layer insulating layer Layer is equipped with the first resistance to medium temperature antiradiation layer, the third layer insulating layer between the second layer insulating layer and third layer insulating layer The second resistance to medium temperature antiradiation layer is equipped between the 4th layer of insulating layer.

By using above-mentioned technical proposal, high-temperature counter radiation resistant layer, the first resistance to medium temperature antiradiation layer and the second resistance to medium temperature Antiradiation layer, light reflectivity is high, and tensile strength is big, and airtight waterproof, good seal performance improves the heat insulating ability of heat distribution pipeline Energy.

The present invention is further set as: the thermal insulation layer away from the 4th layer of insulating layer side successively to be externally provided with layer 5 protect Warm layer and reflecting layer, the layer 5 insulating layer are high temperature glass wool insulating layer, and the reflecting layer is single layer nanometer antiradiation layer.

By using above-mentioned technical proposal, layer 5 insulating layer and reflecting layer further improve the heat insulating ability of heat distribution pipeline Energy.

In conclusion the invention has the following advantages: being fixed on heat by clamping structure in upper snap-gauge and lower snap-gauge When on hydraulic piping, elastic cushion is in confined state, and then insulating layer and thermal insulation layer are pressed on heat distribution pipeline and upper card respectively On plate, lower snap-gauge, when heat distribution pipeline expands with heat and contract with cold, T-type elastic and elastic sphere on elastic cushion and elastic cushion, root Change according to the outer diameter variation of heat distribution pipeline, so that insulating layer is closely pressed on heat distribution pipeline, reduces heat distribution pipeline and propping up Movement on seat.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the present embodiment；

Fig. 2 is the present embodiment for embodying the structural schematic diagram of clamping structure；

Fig. 3 is the present embodiment for embodying the structural schematic diagram of insulating layer.

In figure, 1, lower snap-gauge；11, support base；12, thermal insulation layer；13, elastic cushion；131, T-type elastic；132, elastic ball Body；14, connecting plate；15, heat keeper；151, through-hole；16, first layer insulating layer；161, second layer insulating layer；162, third layer is protected Warm layer；163, the 4th layer of insulating layer；164, high-temperature counter radiation resistant layer；165, the first resistance to medium temperature antiradiation layer；166, second it is resistance in Warm antiradiation layer；167, layer 5 insulating layer；168, reflecting layer；2, upper snap-gauge；21, thermal insulation board；22, cambered surface；23, shifting chute； 24, fixture block；241, card slot；25, threaded rod one；26, threaded rod two；27, screw shell；28, baffle；3, heat distribution pipeline.

Specific embodiment

Below in conjunction with attached drawing, invention is further described in detail.

A kind of hold-down support of heat distribution pipeline, such as Fig. 1, including the lower snap-gauge 1 and upper snap-gauge 2 being arranged in outside heat distribution pipeline 3, Lower 1 lower end of snap-gauge is equipped with support base 11, and the section of upper snap-gauge 2 and lower snap-gauge 1 is the semicircle cooperated with 3 outer wall of heat distribution pipeline, Upper snap-gauge 2 is connected with lower snap-gauge 1 by clamping structure, at this time support base 11 by heat distribution pipeline 3 from the ground.Such as Fig. 2, work as heating power When 3 conveying high-temperature gas of pipeline or liquid, upper snap-gauge 2 and lower snap-gauge 1 are equipped with insulating layer and thermal insulation layer 12 from inside to outside, protect When warm layer and the upper snap-gauge 2 of the reduction of thermal insulation layer 12 and lower snap-gauge 1 are contacted with heat distribution pipeline 3 respectively, heat distribution pipeline 3 is in contact position Radiation loss, it is energy saving, 3 working efficiency of heat distribution pipeline is improved, and prevent staff from scalding.

Such as Fig. 2 and Fig. 3, with the transmission of high-temperature gas in heat distribution pipeline 3, the caliber of heat distribution pipeline 3 can be with temperature Change and expands with heat and contract with cold, movement when in order to reduce 3 change in size of heat distribution pipeline on the support, therefore in insulating layer and thermal insulation layer Semiorbicular elastic cushion 13 is equipped between 12, side is equipped with several T-type elastics 131 protruded into insulating layer on elastic cushion 13, The other side is equipped with several elastic spheres 132 protruded into thermal insulation layer 12.

Such as Fig. 2 and Fig. 3, when upper snap-gauge 2 and lower snap-gauge 1 be separately mounted to heat distribution pipeline 3 it is outer when, T-type elastic 131, bullet Property sphere 132 and elastic cushion 13 be in confined state and there is elastic-restoring force, by T-type elastic 131 and elastic sphere 132 are evenly spaced on along 13 inside and outside wall of elastic cushion respectively, and the elastic-restoring force of T-type elastic 131 makes insulating layer close It is pressed in outside heat distribution pipeline 3, the elastic-restoring force of elastic sphere 132 is squeezed by the upward snap-gauge 2 of thermal insulation layer 12 or 1 direction of lower snap-gauge When, the thrust mobile to insulating layer is also generated to elastic cushion 13, it is at this time that each T-type elastic 131 and elastic sphere 132 is opposite Setting, the thrust being applied on insulating layer is larger, and in the variation of 3 outer diameter of heat distribution pipeline, T-type elastic 131 and elastic cushion 13 are produced Raw elastic-restoring force contradicts insulating layer with 3 outer wall of heat distribution pipeline always, and then reduces the shifting of heat distribution pipeline 3 on the support It is dynamic.

Such as Fig. 2 and Fig. 3, in order to further fix position of the elastic cushion 13 in support, therefore in upper snap-gauge 2 and lower snap-gauge 1 inner wall is equipped with the thermal insulation board 21 protruded into thermal insulation layer 12, and thermal insulation board 21 is protruded between adjacent spring sphere 132, and every The side that hot plate 21 is contacted with elastic sphere 132 is equipped with the cambered surface 22 cooperated with elastic sphere 132, and thermal insulation board 21 limits at this time Movement of the elastic sphere 132 in thermal insulation layer 12, and then it is opposite between thermal insulation layer 12 and insulating layer to limit elastic cushion 13 It is mobile.The edge of upper snap-gauge 2 and lower snap-gauge 1 is equipped with several baffles 28 extended to thermal insulation layer 12 and insulating layer direction, limitation The movement of insulating layer and thermal insulation layer 12 in upper snap-gauge 2 and lower snap-gauge 1.

Such as Fig. 2 and Fig. 3, insulating layer is set as 4 layers, is outward respectively first layer insulating layer 16, the second layer from heat distribution pipeline 3 Insulating layer 161, third layer insulating layer 162, the 4th layer of insulating layer 163, first layer insulating layer 16 are alumina silicate insulating layer, alumina silicate The resistance to pressure of insulating layer is high, and corrosion-resistant, long service life is easy to construction and installation, easy for construction, second layer insulating layer 161, third layer Insulating layer 162, the 4th layer of insulating layer 163 are high temperature glass wool insulating layer, and elastic cushion 13 and the 4th layer of insulating layer 163 contradict, and 4 The setting of layer insulating layer improves the thermal insulation property of heat distribution pipeline 3, improves the working efficiency of heat distribution pipeline 3.

Such as Fig. 2 and Fig. 3, high-temperature counter radiation resistant layer is equipped between first layer insulating layer 16 and second layer insulating layer 161 164, the first resistance to medium temperature antiradiation layer 165, third layer heat preservation are equipped between second layer insulating layer 161 and third layer insulating layer 162 The second resistance to medium temperature antiradiation layer 166 is equipped between layer 162 and the 4th layer of insulating layer 163, high-temperature counter radiation resistant layer 164, first is resistance to Medium temperature antiradiation layer 165 and the second resistance to medium temperature antiradiation layer 166, light reflectivity is high, and tensile strength is big, airtight waterproof, Good seal performance, high-temperature counter radiation resistant layer 164, the first resistance to medium temperature antiradiation layer 165 and the second resistance to medium temperature antiradiation layer 166 with Each insulating layer is separated by the thermal insulation property for being laid with and improving heat distribution pipeline 3.

Such as Fig. 2, after above scheme, thermal insulation layer 12 is away from the side of the 4th layer of insulating layer 163 successively to being externally provided with layer 5 Insulating layer 167 and reflecting layer 168, five layers of insulating layer are high temperature glass wool insulating layer, and reflecting layer 168 is the antiradiation of single layer nanometer Layer, layer 5 insulating layer 167 and reflecting layer 168 are light, moisture-proof, anti-corrosion, keep the temperature insulation, further improve heat distribution pipeline 3 Thermal insulation property.

As Fig. 2 needs upper snap-gauge 2 and lower snap-gauge 1 being fixed on heating power outside the thermal insulation property for improving heat distribution pipeline 3 On pipeline 3, clamping structure includes the connecting plate 14 being arranged on lower snap-gauge 1, is provided on snap-gauge 2 and stretches for connecting plate 14 at this time The shifting chute 23 of upper snap-gauge 2 out, the width direction by connecting plate 14 along lower snap-gauge 1 are distributed, and connecting plate 14 stretches out shifting chute 23 One end is set as inverted trapezoidal, and upper snap-gauge 2 is equipped with four vertical telescopic rods on 23 periphery of shifting chute, and telescopic rod is far from upper snap-gauge 2 One end is connected by fixture block 24, and the card slot 241 slided for inverted trapezoidal connecting plate 14, the cell wall of card slot 241 are offered on fixture block 24 Cooperate with 14 outer wall of inverted trapezoidal connecting plate, it is when telescopic rod extends at this time, fixture block 24 is mobile to the direction far from upper snap-gauge 2, and The connecting plate 14 of inverted trapezoidal is squeezed, telescopic rod is reversely applied to the power of snap-gauge 2 at this time, so that upper snap-gauge 2 and lower snap-gauge 1 are gradually Close to and compressed by telescopic rod, upper snap-gauge 2 and lower snap-gauge 1 are fixed on heat distribution pipeline 3 at this time.

Such as Fig. 2 and Fig. 3, distributed to reduce the heat of heat distribution pipeline 3 by the gap between upper snap-gauge 2 and lower snap-gauge 1 And it loses, therefore insulating layer is equipped with the heat keeper 15 for protruding into snap-gauge 2 and lower 1 link position of snap-gauge, one end of heat keeper 15 It is fixedly connected with first layer insulating layer 16, when so that heat keeper 15 being compressed by upper snap-gauge 2 and lower snap-gauge 1, first layer insulating layer 16 Position be also fixed, offered on heat keeper 15 for connecting plate 14 stretch out through-hole 151.

Such as Fig. 2, telescopic rod includes the opposite threaded rod 1 and threaded rod 2 26 of hand of spiral, threaded rod 1 and screw thread Bar 2 26 is threadedly coupled by screw shell 27, and threaded rod 1 is fixedly connected on upper snap-gauge 2 far from one end of screw shell 27 On, the one end of threaded rod 2 26 far from screw shell 27 and fixture block 24 are rotatablely connected.Rotation screw shell 27 makes threaded rod two 26 move in screw shell 27, and then have adjusted the height of fixture block 24, easy to operate, when stop operating screw shell 27 when, Since threaded rod 1 and threaded rod 2 26 are threadedly coupled with screw shell 27 respectively, threaded rod 1 and threaded rod 2 26 Position be also fixed.

This specific embodiment is only explanation of the invention, is not limitation of the present invention, those skilled in the art Member can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but as long as at this All by the protection of Patent Law in the scope of the claims of invention.

Claims (8)

1. a kind of hold-down support of heat distribution pipeline, including lower snap-gauge (1) and upper snap-gauge (2) in heat distribution pipeline (3) outside, institute is arranged Lower snap-gauge (1) lower end is stated equipped with support base (11), the upper snap-gauge (2) is connected with lower snap-gauge (1) by clamping structure, it is described on Snap-gauge (2) and lower snap-gauge (1) are equipped with insulating layer and thermal insulation layer (12) from inside to outside, it is characterised in that: the insulating layer with every Semiorbicular elastic cushion (13) are equipped between thermosphere (12), the elastic cushion (13) is equipped with several T-types protruded into insulating layer Elastic (131), the elastic cushion (13) are equipped with several elastic spheres (132) protruded into thermal insulation layer (12)；The upper card Plate (2) and lower snap-gauge (1) inner wall are equipped with the thermal insulation board (21) protruded into thermal insulation layer (12), and the thermal insulation board (21) is protruded into adjacent Between elastic sphere (132), and the side that contacts with elastic sphere (132) of the thermal insulation board (21) is equipped with and elastic sphere (132) cambered surface (22) cooperated.

2. the hold-down support of heat distribution pipeline according to claim 1, it is characterised in that: the clamping structure includes that setting exists Connecting plate (14) on lower snap-gauge (1) is provided on snap-gauge (2) for the shifting chute of snap-gauge (2) in connecting plate (14) stretching (23), one end that the connecting plate (14) stretches out shifting chute (23) is set as inverted trapezoidal, and the upper snap-gauge (2) is in shifting chute (23) week Side is equipped with several vertical telescopic rods, and the one end of the telescopic rod far from upper snap-gauge (2) is connected by fixture block (24), the fixture block (24) card slot (241) for inverted trapezoidal connecting plate (14) sliding is offered on, the cell wall of the card slot (241) is connect with inverted trapezoidal The cooperation of plate (14) outer wall.

3. the hold-down support of heat distribution pipeline according to claim 2, it is characterised in that: the telescopic rod includes hand of spiral Opposite threaded rod one (25) and threaded rod two (26), the threaded rod one (25) and threaded rod two (26) pass through screw shell (27) it is threadedly coupled, the threaded rod one (25) is fixedly connected on snap-gauge (2) far from the one end of screw shell (27), described Threaded rod two (26) one end and fixture block (24) far from screw shell (27) are rotatablely connected.

4. the hold-down support of heat distribution pipeline according to claim 2, it is characterised in that: the insulating layer is equipped with and protrudes into The heat keeper (15) of snap-gauge (2) and lower snap-gauge (1) link position is offered on the heat keeper (15) and is stretched out for connecting plate (14) Through-hole (151).

5. the hold-down support of heat distribution pipeline according to claim 1, it is characterised in that: the upper snap-gauge (2) and lower snap-gauge (1) edge is equipped with several baffles (28) extended to thermal insulation layer (12) and insulating layer direction.

6. the hold-down support of heat distribution pipeline according to claim 1, it is characterised in that: the insulating layer has 4 layers, from heating power Pipeline (3) is respectively first layer insulating layer (16), second layer insulating layer (161), third layer insulating layer (162), the 4th layer outward Insulating layer (163), the first layer insulating layer (16) are alumina silicate insulating layer, and the second layer insulating layer (161), third layer are protected Warm layer (162), the 4th layer of insulating layer (163) are high temperature glass wool insulating layer, the elastic cushion (13) and the 4th layer of insulating layer (163) it contradicts.

7. the hold-down support of heat distribution pipeline according to claim 6, it is characterised in that: the first layer insulating layer (16) and High-temperature counter radiation resistant layer (164) are equipped between second layer insulating layer (161), the second layer insulating layer (161) and third layer are protected The first resistance to medium temperature antiradiation layer (165), the third layer insulating layer (162) and the 4th layer of insulating layer are equipped between warm layer (162) (163) the second resistance to medium temperature antiradiation layer (166) is equipped between.

8. the hold-down support of heat distribution pipeline according to claim 7, it is characterised in that: the thermal insulation layer (12) deviates from the 4th Successively to layer 5 insulating layer (167) and reflecting layer (168) is externally provided with, the layer 5 is kept the temperature for the side of layer insulating layer (163) Layer (167) is high temperature glass wool insulating layer, and the reflecting layer (168) is single layer nanometer antiradiation layer.