CN117212595A - Stainless steel pipe heat insulation supporting hanger - Google Patents

Stainless steel pipe heat insulation supporting hanger Download PDF

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Publication number
CN117212595A
CN117212595A CN202311480529.3A CN202311480529A CN117212595A CN 117212595 A CN117212595 A CN 117212595A CN 202311480529 A CN202311480529 A CN 202311480529A CN 117212595 A CN117212595 A CN 117212595A
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CN
China
Prior art keywords
plate
rod
semicircular
fixed
sliding
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CN202311480529.3A
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CN117212595B (en
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项益朋
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Jiangsu Longyue Stainless Steel Pipe Industry Co ltd
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Jiangsu Longyue Stainless Steel Pipe Industry Co ltd
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Publication of CN117212595B publication Critical patent/CN117212595B/en
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Abstract

A stainless steel pipe insulating hanger comprising: the connecting frame, the fixing plate I and the spring damping structure; the upper circular plate of the connecting frame is fixedly arranged on a house beam or other places needing to be installed, the controller is fixedly arranged on the connecting frame, and the lower end face of the connecting frame is fixedly connected with the upper end face of the fixing plate I; the two groups of spring damping structures are distributed in a linear array, and the extrusion heat insulation structures are fixedly arranged at the lower ends of the two groups of spring damping structures; the pipe and the equipment are fixed together through the extrusion heat insulation structure, the connecting frame is manually fixed on a house beam or other places needing to be installed through screws and nuts, and meanwhile, the contact area between the outer wall of the pipe and the air is reduced through the contact area reduction between the outer wall of the pipe, so that the heat insulation effect is improved, the overheat temperature is prevented from being conducted to the equipment, the equipment is enabled to be faulty, and the heat dissipation effect of the pipe is also improved.

Description

Stainless steel pipe heat insulation supporting hanger
Technical Field
The invention relates to the technical field of lifting tool equipment, in particular to a stainless steel pipe heat insulation support and hanger.
Background
The support and the hanging frame are combined, play roles in bearing the weight of each accessory and medium thereof, restraining and limiting unreasonable displacement of building parts, controlling vibration of the parts and the like in each construction link, have extremely important roles in safe operation of building facilities, and are mainly used for building water supply and drainage, fire protection, heating, ventilation, air conditioning, fuel gas, heat, electric power, communication and other electromechanical engineering facilities, and generate thermal displacement and equipment devices thereof in operation;
the publication number is: the Chinese patent of CN 107631098A discloses a spring support and hanger, which comprises a shell, wherein a hanging plate is arranged at the top of the shell, a spring pressing plate is arranged in the shell, the upper end of the spring pressing plate is connected with a vertical spring, the top end of the vertical spring is fixed on the inner wall of the top of the shell, a connecting rod is arranged below the spring pressing plate, at least four uniformly distributed horizontal springs are arranged around the connecting rod, the other end of the horizontal spring is fixed on the inner wall of the side surface of the shell, a hanging rod is arranged at the bottom end of the connecting rod, a disc is arranged at the bottom end of the hanging rod, a rotating shaft is arranged in the middle of the disc, a rotating disc capable of rotating around the rotating shaft is arranged on the rotating shaft, the disc and the rotating disc are locked and fixed through a fastener, and a pipeline clamp is arranged on the rotating disc; however, the heat insulation and heat dissipation of the pipe cannot be realized, so that the spring or other equipment is easily influenced, and the damping effect of the spring is greatly reduced;
therefore, the stainless steel pipe heat insulation support and hanger not only can absorb shock, reduce stress of pipes and protect pipelines from being damaged, but also can improve heat insulation effect, avoid the influence of overheat temperature on equipment and reduce the service life of the equipment.
Disclosure of Invention
According to the stainless steel pipe heat insulation support and hanger, the contact area with a pipeline is reduced, heat insulation is further carried out, meanwhile, the contact area between the pipeline and air is increased, the heat dissipation effect of the pipeline is improved, and the fact that overheated temperature is conducted to equipment to cause the equipment to fail is avoided.
The technical scheme adopted by the invention is as follows: a stainless steel pipe insulating hanger comprising: the connecting frame, the fixing plate I, the spring damping structure and the extrusion heat insulation structure;
the upper end circular plate of link fixed mounting in roof beam or other places that need install, fixed mounting has the controller on the link, the lower terminal surface of link and the up end fixed connection of fixed plate I, the lower terminal surface fixed mounting of fixed plate I has two sets of spring shock-absorbing structure, two sets of spring shock-absorbing structure are linear array and distribute, the lower extreme fixed mounting of two sets of spring shock-absorbing structure has extrusion insulation structure.
Preferably, the spring shock absorbing structure includes: a cylinder, a small spring I and a sliding rod;
the cylinder barrel fixed mounting in the lower terminal surface of fixed plate I, the inside slidable mounting of cylinder barrel has the slide bar, the upper end of slide bar and the upper end fixed connection of little spring I, the lower extreme and the inside fixed connection of cylinder barrel of little spring I, little spring I cover is in the outside of slide bar.
Preferably, the spring shock absorbing structure further comprises: the telescopic rod I, the fixed bracket, the connecting rod I, the telescopic rod II, the connecting rod II and the fixed plate II;
the lower end of the sliding rod is rotationally connected with one end of a telescopic rod I, the other end of the telescopic rod I is rotationally connected with a fixed support, the fixed support is fixedly connected with a cylindrical barrel, one end of a telescopic rod II is fixedly installed on the inner side of the fixed support, a spring is sleeved on the outer side of the telescopic rod II, one end of the spring is fixedly connected with the inner side of the fixed support, the other end of the spring is fixedly connected with the telescopic rod end of the telescopic rod II, one end of a connecting rod I is rotationally installed in a groove of the telescopic rod end of the telescopic rod II, and the other end of the connecting rod I is rotationally connected with the lower end of the sliding rod; one end of a connecting rod II is rotatably arranged in a groove at the telescopic rod end of the telescopic rod II, the other end of the connecting rod II is rotatably connected with a groove at the upper end of a fixed plate II, and the fixed plate II is fixedly arranged on the upper end face of the supporting frame; the telescopic link I, the fixed bolster, connecting rod I, telescopic link II and connecting rod II all have two, and two telescopic link I, fixed bolster, connecting rod I, telescopic link II and connecting rod II are symmetric distribution, and two connecting rod I and two connecting rods II enclose into a diamond shape.
Preferably, the extrusion heat insulation structure comprises: the device comprises a manual rotating wheel, a screw rod moving mechanism, an irregular bracket, a supporting frame, a large circular plate heat insulation mechanism, a small semicircular plate, a connecting plate, a pushing and extruding structure and a fixed long plate;
the manual runner and one end axle fixed connection of lead screw moving mechanism lead screw, lead screw moving mechanism includes: the device comprises a screw rod, a limiting rod, a bracket and a sliding block; the screw rod is rotatably arranged on the bracket, the bracket is fixedly connected with the side surface of the support frame, the limiting rod is fixedly arranged on the bracket and is in sliding connection with the sliding block, the sliding block is provided with a threaded hole, the threaded hole is in threaded fit with the screw rod, and the sliding block is fixedly connected with the side surface of the irregular bracket; the outer side of the upper position of the large circular plate heat insulation mechanism is fixedly connected with two connecting plates, and the outer side of the lower position of the large circular plate heat insulation mechanism is fixedly connected with three fixed long plates; the small semicircular plate is positioned in the large annular plate heat insulation mechanism, the outer side of the small semicircular plate, which is close to the lower position, is fixedly connected with the three fixed long plates, the fixed long plates are fixedly connected with the irregular bracket, the fixed long plates fixedly connect the irregular bracket, the lower semicircular plate and the lower annular plate, the outer side of the small semicircular plate, which is close to the upper position, is fixedly connected with the two connecting plates, the connecting plates are fixedly connected with the supporting frame, and the connecting plates fixedly connect the irregular bracket, the upper semicircular plate and the upper annular plate; the pushing and extruding structures are five groups, wherein three groups of pushing and extruding structures are arranged in the round holes of the upper semicircular ring plate and the upper ring plate, and the other two groups of pushing and extruding structures are arranged in the round holes of the lower semicircular ring plate and the lower ring plate.
Preferably, the large annular plate heat insulation mechanism comprises: an upper semicircular ring plate and a lower semicircular ring plate;
the outer sides of the upper semicircular ring plates are fixedly connected with the two connecting plates respectively, three round holes are formed in the upper semicircular ring plates, and a long rod is slidably arranged in each of the three round holes; the outer side of the lower semicircular ring plate is fixedly connected with three fixed long plates respectively, two round holes are formed in the lower semicircular ring plate, a long rod is slidably arranged in each of the two round holes, and the lower semicircular ring plate and the upper semicircular ring plate form a complete ring.
Preferably, the small semicircular plate includes: an upper annular plate and a lower annular plate;
the outer side of the upper circular plate is fixedly connected with the two connecting plates, the upper circular plate is provided with three round holes, the three round holes and the round holes on the upper semicircular circular plate are positioned at the same position, and a long rod is respectively and slidably arranged in the three round holes on the upper circular plate; the outer side of the lower circular plate is fixedly connected with three fixed long plates, two round holes are formed in the lower circular plate and are positioned at the same position with the round holes in the lower semicircular circular plate, a long rod is slidably arranged in the two round holes of the lower circular plate respectively, and the upper circular plate and the lower circular plate form a complete circular ring.
Preferably, the pushing and extruding structure comprises: a long rod and a small spring II;
the upper end outsides of the three long rods are fixedly connected with one ends of three small springs II respectively, the other ends of the three small springs II are fixedly connected with the outer sides of the upper semicircular annular plates respectively, the outer sides of the upper ends of the other two long rods are fixedly connected with one ends of the other two small springs II respectively, the other ends of the other two small springs II are fixedly connected with the outer sides of the lower semicircular annular plates respectively, plates are arranged at the lower ends of the long rods respectively, friction blocks are arranged on the plates, trapezoid grooves are formed in the long rods respectively, an irregular sliding rod is slidably mounted in each trapezoid groove, and the inclined surfaces of the trapezoid grooves are slidably connected with the inclined surfaces of the irregular sliding rods.
Preferably, the pushing and extruding structure further comprises: irregular slide bars, a sliding semicircular plate I, a small lead screw and a sliding semicircular plate II;
the rear ends of the three irregular slide bars are fixedly connected with the sliding semicircular plate II respectively, and the rear ends of the other two irregular slide bars are fixedly connected with the sliding semicircular plate I respectively; the small screw rod is rotatably arranged on one of the fixed long plates, the round block is fixedly arranged at the rear end of the small screw rod, the small screw rod is in threaded fit with a threaded hole in the sliding semicircular plate I, the sliding semicircular plate I is slidably arranged on the fixed long plate, the end face of the sliding semicircular plate I is provided with a protruding rod, the protruding rod is intermittently matched with a round hole in the end face of the sliding semicircular plate II, the sliding semicircular plate I and the sliding semicircular plate II form a complete circle, and the sliding semicircular plate II is slidably arranged on the connecting plate.
Compared with the prior art, the invention has the beneficial effects that:
1. according to the invention, the round block at the rear end of the small screw rod is manually twisted to drive the sliding semicircular plate I to move, so that the sliding semicircular plate II is driven to move, and a plurality of irregular slide bars are driven to move, so that the long bars are pushed to move inwards, and the long bars squeeze the outer wall of the pipe, so that the equipment and the pipe can be fixed together, the contact area between the pipe and the equipment can be reduced, the contact area between the pipe and the outside air can be increased, and the heat insulation effect is improved.
2. According to the invention, the fixing plate II descends, so that one end of the connecting rod II is driven to rotate, the other end of the connecting rod II is driven to rotate, the telescopic rod II is driven to stretch out and draw back, one end of the connecting rod I is driven to rotate, the other end of the connecting rod I is driven to rotate, the telescopic rod I is driven to rotate and stretch out and draw back in a small amplitude by taking the shaft close to the outer side as the center of a circle, the pipe is damped, the effects of reducing stress and vibration of the pipe are achieved, and meanwhile the pipe is protected from being damaged.
3. According to the invention, the support frame is in a motionless state by manually pressing the support frame, and then the screw rod of the screw rod moving mechanism is driven to rotate by twisting the manual rotating wheel by a person, so that the irregular support frame is driven to move, the large circular plate heat insulation mechanism and the small semicircular plate are driven to move, and two pushing extrusion structures are further driven to move, so that equipment can be conveniently clamped on the outer side of a pipe, the applicability of the equipment to pipes with different sizes is improved, and the cost for producing support and hanging frames with various types is avoided.
Drawings
Fig. 1 is a schematic view of a first angle of the overall structure of the present invention.
FIG. 2 is a schematic view of a first angle of the spring shock absorbing structure of the present invention.
FIG. 3 is a schematic view of a second angle of the spring shock absorbing structure of the present invention.
Fig. 4 is a schematic diagram of a cross-sectional structure at a in fig. 3 according to the present invention.
Fig. 5 is a schematic view of a first angle structure of the extruded insulation structure of the present invention.
Fig. 6 is a schematic view of a second angle of the extruded insulation structure of the present invention.
Fig. 7 is a schematic view of a third angle of the extrusion heat insulation structure of the present invention.
Fig. 8 is a schematic view of a first angle of a part of the extruded insulation structure of the present invention.
Fig. 9 is a schematic view of the cross-sectional structure at B of fig. 8 according to the present invention.
Fig. 10 is a schematic view of the structure of the present invention at a first angle to the parts of the extruded insulation structure.
Fig. 11 is a schematic view of the structure of the present invention at a first angle to the parts of the extruded insulation structure.
Fig. 12 is a schematic view of the structure of the present invention at a first angle to part of the extruded insulation structure.
Fig. 13 is an enlarged schematic view of the structure a of fig. 12 according to the present invention.
Reference numerals: 1. a connecting frame; 2. a fixing plate I; 3. a cylinder barrel; 4. a small spring I; 5. a slide bar; 6. a telescopic rod I; 7. a fixed bracket; 8. a connecting rod I; 9. a telescopic rod II; 10. a connecting rod II; 11. a fixing plate II; 12. a manual wheel; 13. a screw rod moving mechanism; 14. an irregular bracket; 15. a support frame; 16. a large annular plate heat insulation mechanism; 1601. an upper semicircular ring plate; 1602. a lower semicircular ring plate; 17. a small semicircular plate; 1701. an upper annular plate; 1702. a lower annular plate; 18. a connecting plate; 19. a long rod; 20. a small spring II; 21. an irregular slide bar; 22. sliding semicircular plate I; 23. a small lead screw; 24. sliding semi-circular plate II; 25. fixing the long plate.
Detailed Description
1-13, a stainless steel pipe insulation hanger comprising: the connecting frame 1, the fixing plate I2, the spring damping structure and the extrusion heat insulation structure;
the upper circular plate of the connecting frame 1 is fixedly arranged on a house beam or other places needing to be installed, a controller is fixedly arranged on the connecting frame 1, the lower end face of the connecting frame 1 is fixedly connected with the upper end face of the fixing plate I2, two groups of spring damping structures are fixedly arranged on the lower end face of the fixing plate I2, the two groups of spring damping structures are distributed in a linear array, and an extrusion heat insulation structure is fixedly arranged at the lower ends of the two groups of spring damping structures; the signal processor in the controller receives the signals, and the central processing unit in the controller controls the power utilization elements of the equipment to orderly operate; the pipe and the equipment are fixed together through the extrusion heat insulation structure, the connecting frame 1 is manually fixed on a house beam or other places needing to be installed through screws and nuts, and meanwhile, the heat insulation effect is guaranteed through the reduction of the contact area between the connecting frame and the outer wall of the pipe, and the shock absorption is performed through the spring shock absorption structure.
As shown in fig. 2 to 3, the spring damper structure includes: a cylinder 3, a small spring I4 and a sliding rod 5;
the cylinder section of thick bamboo 3 fixed mounting is at the lower terminal surface of fixed plate I2, and the inside slidable mounting of cylinder section of thick bamboo 3 has slide bar 5, and slide bar 5's upper end and little spring I4's upper end fixed connection, little spring I4's lower extreme and the inside fixed connection of cylinder section of thick bamboo 3, little spring I4 cover in slide bar 5's outside.
As shown in fig. 2, the spring shock absorbing structure further includes: the telescopic rod I6, the fixed bracket 7, the connecting rod I8, the telescopic rod II 9, the connecting rod II 10 and the fixed plate II 11;
the lower end of the sliding rod 5 is rotationally connected with one end of a telescopic rod I6, the other end of the telescopic rod I6 is rotationally connected with a fixed support 7, the fixed support 7 is fixedly connected with a cylindrical barrel 3, one end of a telescopic rod II 9 is fixedly installed on the inner side of the fixed support 7, a spring is sleeved on the outer side of the telescopic rod II 9, one end of the spring is fixedly connected with the inner side of the fixed support 7, the other end of the spring is fixedly connected with the telescopic rod end of the telescopic rod II 9, one end of a connecting rod I8 is rotationally installed in a groove of the telescopic rod end of the telescopic rod II 9, and the other end of the connecting rod I8 is rotationally connected with the lower end of the sliding rod 5; one end of a connecting rod II 10 is rotatably arranged in a groove at the telescopic rod end of a telescopic rod II 9, the other end of the connecting rod II 10 is rotatably connected with a groove at the upper end of a fixed plate II 11, and the fixed plate II 11 is fixedly arranged on the upper end face of a supporting frame 15; the telescopic link I6, the fixed bolster 7, connecting rod I8, telescopic link II 9 and connecting rod II 10 all have two, two telescopic link I6, the fixed bolster 7, connecting rod I8, telescopic link II 9 and connecting rod II 10 are symmetrical distribution, two connecting rod I8 and two connecting rods II 10 enclose into a diamond shape, specifically, because the pipe itself has weight, so can drive fixed plate II 11 decline, thereby drive the one end rotation of connecting rod II 10, and then drive the other end rotation of connecting rod II 10, drive telescopic link II 9 and stretch out and draw back simultaneously, and drive the one end rotation of connecting rod I8, and then drive the other end rotation of connecting rod I8, thereby the diamond that makes two connecting rods II 10 and two connecting rods I8 enclose changes the shape, can drive slide bar 5 simultaneously and then drive telescopic link I6 and use the axle of leaning on the outside to rotate by a small margin and flexible as the centre of a circle, and then shock attenuation to the pipe, reach the effect that reduces pipeline atress and vibrations, protect the pipeline from the injury simultaneously.
As shown in fig. 5 to 7, the extrusion heat insulation structure includes: the manual rotating wheel 12, the screw rod moving mechanism 13, the irregular bracket 14, the supporting frame 15, the large circular ring plate heat insulation mechanism 16, the small semicircular plate 17, the connecting plate 18, the pushing and extruding structure and the fixed long plate 25;
the manual runner 12 is fixedly connected with one end shaft of a screw of the screw moving mechanism 13, and the screw moving mechanism 13 comprises: the device comprises a screw rod, a limiting rod, a bracket and a sliding block; the screw rod is rotatably arranged on the bracket, the bracket is fixedly connected with the side surface of the support frame 15, the bracket is fixedly provided with a limiting rod which is in sliding connection with the sliding block, the sliding block is provided with a threaded hole which is in threaded fit with the screw rod, and the sliding block is fixedly connected with the side surface of the irregular bracket 14; specifically, the manual rotary wheel 12 is twisted reversely by manpower to drive the screw rod of the screw rod moving mechanism 13 to rotate, so as to drive the irregular bracket 14 to move, thereby driving the large annular plate heat insulation mechanism 16 and the small semicircular plate 17 to move, further driving two pushing extrusion structures to approach the supporting frame 15, and when the end surfaces of the irregular bracket 14 and the supporting frame 15 are completely contacted, the equipment is sleeved outside the pipe at the moment; the outer side of the upper position of the large annular plate heat insulation mechanism 16 is fixedly connected with two connecting plates 18, and the outer side of the lower position of the large annular plate heat insulation mechanism 16 is fixedly connected with three fixed long plates 25; the small semicircular plate 17 is positioned in the large circular plate heat insulation mechanism 16, the outer side of the lower position of the small semicircular plate 17 is fixedly connected with three fixed long plates 25, the fixed long plates 25 are fixedly connected with the irregular bracket 14, the fixed long plates 25 fixedly connect the irregular bracket 14, the lower semicircular plate 1602 and the lower circular plate 1702, the outer side of the upper position of the small semicircular plate 17 is fixedly connected with two connecting plates 18, the connecting plates 18 are fixedly connected with the supporting frame 15, and the connecting plates 18 fixedly connect the irregular bracket 14, the upper semicircular plate 1601 and the upper circular plate 1701; the pushing and extruding structures have five groups, wherein three groups of pushing and extruding structures are arranged in the round holes of the upper semicircular round plate 1601 and the upper round plate 1701, and the other two groups of pushing and extruding structures are arranged in the round holes of the lower semicircular round plate 1602 and the lower round plate 1702.
As shown in fig. 5 to 7, the large annular plate heat insulating mechanism 16 includes: an upper semicircular ring plate 1601, a lower semicircular ring plate 1602;
the outer sides of the upper semicircular ring plates 1601 are fixedly connected with two connecting plates 18 respectively, three round holes are formed in the upper semicircular ring plates 1601, and a long rod 19 is slidably arranged in each of the three round holes; the outer sides of the lower semicircular ring plates 1602 are fixedly connected with three fixed long plates 25 respectively, two round holes are formed in the lower semicircular ring plates 1602, a long rod 19 is slidably arranged in each of the two round holes, and the lower semicircular ring plates 1602 and the upper semicircular ring plates 1601 form a complete ring.
As shown in fig. 5 to 7, the small semicircular plate 17 includes: an upper circular plate 1701, a lower circular plate 1702;
the outer side of the upper circular plate 1701 is fixedly connected with two connecting plates 18, the upper circular plate 1701 is provided with three round holes which are positioned at the same position with the round holes on the upper semicircular circular plate 1601, and a long rod 19 is respectively and slidably arranged in the three round holes on the upper circular plate 1701; the outer side of the lower circular plate 1702 is fixedly connected with the three fixed long plates 25, two round holes are formed in the lower circular plate 1702 and are positioned at the same position with the round holes in the lower semicircular circular plate 1602, a long rod 19 is respectively and slidably arranged in the two round holes of the lower circular plate 1702, and the upper circular plate 1701 and the lower circular plate 1702 form a complete circular ring.
As shown in fig. 5 to 9, the pushing and pressing structure includes: a long rod 19 and a small spring II 20;
the upper end outsides of the three long rods 19 are fixedly connected with one ends of three small springs II 20 respectively, the other ends of the three small springs II 20 are fixedly connected with the outer sides of the upper semicircular annular plates 1601 respectively, the outer sides of the upper ends of the other two long rods 19 are fixedly connected with one ends of the other two small springs II 20 respectively, the other ends of the other two small springs II 20 are fixedly connected with the outer sides of the lower semicircular annular plates 1602 respectively, plates are arranged at the lower ends of the long rods 19 respectively, friction blocks are arranged on the plates, friction force can be increased, trapezoid grooves are formed in the long rods 19 respectively, an irregular sliding rod 21 is slidably mounted in each trapezoid groove, and the inclined surfaces of the trapezoid grooves are slidably connected with the inclined surfaces of the irregular sliding rods 21.
As shown in fig. 5 to 10, the pushing and pressing structure further includes: the sliding device comprises an irregular sliding rod 21, a sliding semicircular plate I22, a small lead screw 23 and a sliding semicircular plate II 24;
the number of the irregular slide bars 21 is five, wherein the rear ends of three irregular slide bars 21 are respectively and fixedly connected with a sliding semicircular plate II 24, and the rear ends of the other two irregular slide bars 21 are respectively and fixedly connected with a sliding semicircular plate I22; the small screw rod 23 is rotatably arranged on one of the fixed long plates 25, a round block is fixedly arranged at the rear end of the small screw rod 23, the small screw rod 23 is in threaded fit with a threaded hole on the sliding semicircular plate I22, the sliding semicircular plate I22 is slidably arranged on the fixed long plate 25, a protruding rod is arranged on the end face of the sliding semicircular plate I22 and is intermittently matched with a round hole on the end face of the sliding semicircular plate II 24, specifically, the sliding semicircular plate I22 and the sliding semicircular plate II 24 are driven to be relatively close in the moving process of the large circular plate heat insulation mechanism 16 and the small semicircular plate 17, the protruding rod of the sliding semicircular plate I22 is inserted into the round hole of the sliding semicircular plate II 24, and after the end faces of the sliding semicircular plate I22 and the sliding semicircular plate II 24 are completely contacted, the sliding semicircular plate I22 and the sliding semicircular plate II 24 are combined into a complete round plate; the sliding semicircular plate I22 and the sliding semicircular plate II 24 are combined into a complete circle, and the sliding semicircular plate II 24 is slidably mounted on the connecting plate 18.
Working principle:
firstly, the support 15 is kept in a motionless state by manually pressing the support 15, then the screw rod of the screw rod moving mechanism 13 is driven to rotate by twisting the manual rotating wheel 12 by a person, and then the irregular bracket 14 is driven to move, so that the large annular plate heat insulation mechanism 16 and the small semicircular plate 17 are driven to move, and two pushing and extruding structures are further driven to move, and further the equipment can be conveniently clamped on the outer side of a pipe;
the equipment is clamped on the outer side of a pipe by manpower, then the manual rotary wheel 12 is reversely twisted by manpower to drive the screw rod of the screw rod moving mechanism 13 to rotate, and then the irregular bracket 14 is driven to move, so that the large annular plate heat insulation mechanism 16 and the small semicircular plate 17 are driven to move, two pushing extrusion structures are further driven to approach the supporting frame 15, and after the end surfaces of the irregular bracket 14 and the supporting frame 15 are completely contacted, the equipment is sleeved on the outer side of the pipe at the moment;
in the moving process of the large circular plate heat insulation mechanism 16 and the small semicircular plate 17, the sliding semicircular plate I22 and the sliding semicircular plate II 24 are driven to be relatively close, so that a protruding rod of the sliding semicircular plate I22 is inserted into a round hole of the sliding semicircular plate II 24, and after the end surfaces of the sliding semicircular plate I22 and the sliding semicircular plate II 24 are completely contacted, the sliding semicircular plate I22 and the sliding semicircular plate II 24 are combined into a complete round plate;
then the round block at the rear end of the small screw rod 23 is manually twisted to drive the sliding semicircular plate I22 to move, so as to drive the sliding semicircular plate II 24 to move, and further drive the irregular slide bars 21 to move, so as to push the long rods 19 to move inwards, and the long rods 19 squeeze the outer wall of the pipe;
thus, the device and the pipe can be fixed together, the contact area between the pipe and the device can be reduced, the contact area between the pipe and the outside air can be increased, and the heat insulation effect is improved;
then the connecting frame 1 is fixed at a place needing to be installed by using a screw and a nut manually, so that the equipment drives the pipe to be fixed at a place needing to be installed;
because the pipe itself has weight, so can drive fixed plate II 11 decline to drive the one end of connecting rod II 10 and rotate, and then drive the other end of connecting rod II 10 and rotate, drive telescopic link II 9 simultaneously and stretch out and draw back, and drive the one end of connecting rod I8 and rotate, and then drive the other end of connecting rod I8 and rotate, thereby the diamond that makes two connecting rods II 10 and two connecting rods I8 enclose changes the shape, can drive slide bar 5 simultaneously and descend, and then drive telescopic link I6 and use the axle of leaning on the outside to carry out the rotation by a small margin and stretch out and draw back as the centre of a circle, and then shock attenuation to the pipe, reach the effect that reduces pipeline atress and vibrations, the protection pipeline is not hurt simultaneously.

Claims (8)

1. A stainless steel pipe insulating hanger, comprising: the connecting frame (1), the fixing plate I (2), the spring damping structure and the extrusion heat insulation structure;
the upper end plectane fixed mounting of link (1) in roof beam or other places that need install, fixed mounting has the controller on link (1), the lower terminal surface of link (1) and the up end fixed connection of fixed plate I (2), the lower terminal surface fixed mounting of fixed plate I (2) has two sets of spring shock-absorbing structure, two sets of spring shock-absorbing structure are linear array and distribute, two sets of spring shock-absorbing structure's lower extreme fixed mounting has extrusion insulation structure.
2. The stainless steel tube heat insulating hanger of claim 1, wherein said spring dampening structure comprises: a cylinder (3), a small spring I (4) and a sliding rod (5);
the cylinder barrel (3) fixed mounting in the lower terminal surface of fixed plate I (2), the inside slidable mounting of cylinder barrel (3) has slide bar (5), the upper end of slide bar (5) and the upper end fixed connection of little spring I (4), the lower extreme of little spring I (4) and the inside fixed connection of cylinder barrel (3), the outside at slide bar (5) is overlapped to little spring I (4).
3. The stainless steel tube insulation hanger of claim 2, wherein said spring dampening structure further comprises: the telescopic rod I (6), the fixed support (7), the connecting rod I (8), the telescopic rod II (9), the connecting rod II (10) and the fixed plate II (11);
the lower end of the sliding rod (5) is rotationally connected with one end of the telescopic rod I (6), the other end of the telescopic rod I (6) is rotationally connected with the fixed support (7), the fixed support (7) is fixedly connected with the cylindrical barrel (3), one end of the telescopic rod II (9) is fixedly arranged on the inner side of the fixed support (7), a spring is sleeved on the outer side of the telescopic rod II (9), one end of the spring is fixedly connected with the inner side of the fixed support (7), the other end of the spring is fixedly connected with the telescopic rod end of the telescopic rod II (9), one end of the connecting rod I (8) is rotationally arranged in a groove of the telescopic rod end of the telescopic rod II (9), and the other end of the connecting rod I (8) is rotationally connected with the lower end of the sliding rod (5); one end of a connecting rod II (10) is rotatably arranged in a groove at the telescopic rod end of a telescopic rod II (9), the other end of the connecting rod II (10) is rotatably connected with a groove at the upper end of a fixed plate II (11), and the fixed plate II (11) is fixedly arranged on the upper end face of a supporting frame (15); the telescopic rod I (6), the fixed bolster (7), connecting rod I (8), telescopic rod II (9) and connecting rod II (10) all have two, and two telescopic rod I (6), fixed bolster (7), connecting rod I (8), telescopic rod II (9) and connecting rod II (10) are the symmetric distribution, and two connecting rod I (8) and two connecting rod II (10) enclose into a diamond shape.
4. The stainless steel pipe insulation hanger of claim 1, wherein said extruded insulation structure comprises: the device comprises a manual rotating wheel (12), a screw rod moving mechanism (13), an irregular bracket (14), a supporting frame (15), a large circular plate heat insulation mechanism (16), a small semicircular plate (17), a connecting plate (18), a pushing and extruding structure and a fixed long plate (25);
the manual runner (12) is fixedly connected with one end shaft of a screw rod of the screw rod moving mechanism (13), and the screw rod moving mechanism (13) comprises: the device comprises a screw rod, a limiting rod, a bracket and a sliding block; the screw rod is rotatably arranged on the bracket, the bracket is fixedly connected with the side surface of the supporting frame (15), the limiting rod is fixedly arranged on the bracket and is in sliding connection with the sliding block, the sliding block is provided with a threaded hole, the threaded hole is in threaded fit with the screw rod, and the sliding block is fixedly connected with the side surface of the irregular bracket (14); the outer side of the upper position of the large circular plate heat insulation mechanism (16) is fixedly connected with two connecting plates (18), and the outer side of the lower position of the large circular plate heat insulation mechanism (16) is fixedly connected with three fixed long plates (25); the small semicircular plate (17) is positioned in the large circular plate heat insulation mechanism (16), the outer side of the lower position of the small semicircular plate (17) is fixedly connected with three fixed long plates (25), the fixed long plates (25) are fixedly connected with the irregular bracket (14), the fixed long plates (25) fixedly connect the irregular bracket (14), the lower semicircular plate (1602) and the lower circular plate (1702), the outer side of the upper position of the small semicircular plate (17) is fixedly connected with two connecting plates (18), the connecting plates (18) are fixedly connected with the supporting frame (15), and the connecting plates (18) fixedly connect the irregular bracket (14), the upper semicircular plate (1601) and the upper circular plate (1701); the pushing and extruding structures are provided with five groups, wherein three groups of pushing and extruding structures are arranged in round holes of the upper semicircular round plate (1601) and the upper round plate (1701), and the other two groups of pushing and extruding structures are arranged in round holes of the lower semicircular round plate (1602) and the lower round plate (1702).
5. A stainless steel pipe insulation hanger as claimed in claim 4, wherein said large circular plate insulation means (16) comprises: an upper semicircular ring plate (1601) and a lower semicircular ring plate (1602);
the outer side of the upper semicircular ring plate (1601) is fixedly connected with two connecting plates (18), three round holes are formed in the upper semicircular ring plate (1601), and a long rod (19) is slidably arranged in each of the three round holes; the outer side of the lower semicircular ring plate (1602) is fixedly connected with three fixed long plates (25) respectively, two round holes are formed in the lower semicircular ring plate (1602), a long rod (19) is slidably arranged in each of the two round holes, and the lower semicircular ring plate (1602) and the upper semicircular ring plate (1601) are combined into a complete ring.
6. A stainless steel pipe insulating hanger as claimed in claim 4, wherein said small semicircular plate (17) comprises: an upper circular plate (1701) and a lower circular plate (1702);
the outer side of the upper circular plate (1701) is fixedly connected with two connecting plates (18), three round holes are formed in the upper circular plate (1701), the three round holes are positioned at the same position with the round holes in the upper semicircular circular plate (1601), and a long rod (19) is respectively and slidably arranged in the three round holes in the upper circular plate (1701); the outer side of the lower circular plate (1702) is fixedly connected with three fixed long plates (25), two round holes are formed in the lower circular plate (1702), the two round holes are located at the same position with the round holes in the lower semicircular circular plate (1602), a long rod (19) is slidably mounted in the two round holes of the lower circular plate (1702) respectively, and the upper circular plate (1701) and the lower circular plate (1702) form a complete circular ring.
7. The stainless steel pipe insulating hanger according to claim 4, wherein said push-squeeze structure comprises: a long rod (19) and a small spring II (20);
the long rod (19) have five, wherein the upper end outside of three long rod (19) respectively with the one end fixed connection of three little spring II (20), the other end of these three little spring II (20) respectively with the outside fixed connection of last semi-circular ring board (1601), the upper end outside of other two long rods (19) respectively with the one end fixed connection of other two little springs II (20), the other end of other two little springs II (20) respectively with the outside fixed connection of lower semi-circular ring board (1602), the lower extreme of every long rod (19) all is equipped with the board, be equipped with the clutch blocks on the board, the inside of every long rod (19) all is equipped with the dovetail groove, slidable mounting has an irregular slide bar (21) in the dovetail groove, the inclined plane in dovetail groove and the inclined plane sliding connection of irregular slide bar (21).
8. The stainless steel pipe insulating hanger of claim 7, wherein said push squeeze structure further comprises: the device comprises an irregular slide bar (21), a sliding semicircular plate I (22), a small lead screw (23) and a sliding semicircular plate II (24);
the three irregular slide bars (21) are fixedly connected with the sliding semicircular plate II (24) respectively, and the rear ends of the other two irregular slide bars (21) are fixedly connected with the sliding semicircular plate I (22) respectively; the small screw rod (23) is rotatably arranged on one of the fixed long plates (25), a round block is fixedly arranged at the rear end of the small screw rod (23), the small screw rod (23) is in threaded fit with a threaded hole on the sliding semicircular plate I (22), the sliding semicircular plate I (22) is slidably arranged on the fixed long plate (25), a protruding rod is arranged on the end face of the sliding semicircular plate I (22), the protruding rod is intermittently matched with a round hole on the end face of the sliding semicircular plate II (24), the sliding semicircular plate I (22) and the sliding semicircular plate II (24) form a complete circle, and the sliding semicircular plate II (24) is slidably arranged on the connecting plate (18).
CN202311480529.3A 2023-11-08 2023-11-08 Stainless steel pipe heat insulation supporting hanger Active CN117212595B (en)

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10302001A1 (en) * 2003-01-21 2004-07-29 Hilti Ag Insulating pipe strap for pipelines or similar has intermediate cavity between connecting element and connecting head filled with thermal insulation material.
CN109058589A (en) * 2018-08-15 2018-12-21 福州大学 A kind of the vibration damping hanger device and its moulding process of light flexible pipeline
CN209054172U (en) * 2018-09-28 2019-07-02 江苏国华电力器材有限公司 A kind of antidetonation suspension and support
CN212080346U (en) * 2019-12-31 2020-12-04 江苏辉鹏成套设备科技有限公司 Novel connecting piece of antidetonation gallows
CN115264182A (en) * 2022-06-23 2022-11-01 深圳瑞奇德科技开发有限公司 Novel high-stability anti-seismic support and hanger and assembling method thereof
CN217815394U (en) * 2022-08-04 2022-11-15 苏州市唯诺智能建筑科技有限公司 Building air pipe bearing damping device

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE10302001A1 (en) * 2003-01-21 2004-07-29 Hilti Ag Insulating pipe strap for pipelines or similar has intermediate cavity between connecting element and connecting head filled with thermal insulation material.
CN109058589A (en) * 2018-08-15 2018-12-21 福州大学 A kind of the vibration damping hanger device and its moulding process of light flexible pipeline
CN209054172U (en) * 2018-09-28 2019-07-02 江苏国华电力器材有限公司 A kind of antidetonation suspension and support
CN212080346U (en) * 2019-12-31 2020-12-04 江苏辉鹏成套设备科技有限公司 Novel connecting piece of antidetonation gallows
CN115264182A (en) * 2022-06-23 2022-11-01 深圳瑞奇德科技开发有限公司 Novel high-stability anti-seismic support and hanger and assembling method thereof
CN217815394U (en) * 2022-08-04 2022-11-15 苏州市唯诺智能建筑科技有限公司 Building air pipe bearing damping device

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