RU2267064C1 - Drying stand for heat-exchanging units of heat-exchanger - Google Patents

Abstract

FIELD: power engineering industry, particularly to dry heat-exchanging unit of heat exchanger, for instance of regenerative air heater type.

SUBSTANCE: drying stand comprises rack adapted to receive upper or intermediate or lower unit provided with standard supports. The lower unit has case extending along the full post height, heat-exchanging pipe bundle, air inlet and outlet heads. Drying stand also has a set of technological caps for temporary sealing ends of air inlet and outlet heads, device to supply drying agent in the heads and pipes of the bundle. The device comprises at least one fan and air duct communicated with the fan by the first end thereof. Another air duct end is mainly connected with upper end of air inlet and outlet heads so that the heads may be brought into communication with air duct though one technological cap having corresponding orifice. At least one more technological cap of the set has orifice and/or valve to open drying agent flow from air outlet head. The rack is made as three-dimensional supporting system consisted of at least one pair of longitudinal flat rod structures spaced a distance equal to unit width and at least two transversal ones. Each transversal structure is made as flat truss with upper horizontal support belt. The horizontal structures are spaced inside the rack and support the unit in points between intermediate posts of case thereof. The drying stand may also has technological caps to temporary seal ends of heads connected to upper or intermediate or lower unit provided with standard supports, device to supply drying agent, particularly air, in air inlet and outlet heads and pipes of heat-exchanging unit installed on laying-off floor and provided with case having intermediate posts, including lower unit of heat-exchanger additionally having standard supports. The unit rests upon the laying-off floor so that lower ends of air inlet and outlet heads are located above the laying-off floor to provide technological cap installation. Height of head location is not less than that of standard support connected to lower unit of heat-exchanger.

EFFECT: increased economy and reduced labor inputs and material consumption.

20 cl, 9 dwg

Description

The invention relates to power engineering and can be used for drying heat exchange blocks of a heat exchanger.

A known installation for washing and drying small parts, which includes a series of sequentially installed and associated with the drive drums with conveying spiral devices on the inner surface, washing and drying units, devices for reloading workpieces located between the ends of the drums (RU 96109367 C1, C 23 G 3/00, 08.20.1998).

Also known is a device for drying pipes, including a blower chamber, in which there is a contour heat and gas collector with nozzles. The heating chamber has a coating of a minimum thickness sufficient to protect the metal wall from burnout. A spiral-shaped air intake is located on the chamber wall, from which heated air is supplied to the burners via a pressure air duct. The chambers are interconnected by a pressurized heat and gas pipeline, and structurally by traverses on which the rollers supporting the pipe are mounted (RU 2050524 A, F 27 B 9/10, 12/28/1995).

The objective of the present invention is to increase efficiency and reduce labor and material costs for drying blocks of heat exchangers after hydraulic testing.

The task in part of the first embodiment is solved due to the fact that the stand for drying heat-exchange blocks of a heat exchanger of the type of regenerative air heater according to the invention includes a slipway to accommodate the upper or intermediate, or having regular bearings of the lower block with an intermediate frame along the length of the rack block heat-exchange pipes and air supply and exhaust manifolds, a set of technological plugs for temporary sealing of the ends of the air supply and exhaust manifolds block, a device for supplying to the collector of the supply and exhaust air and the pipe of the drying agent, containing at least a fan and an air duct connected with one end thereof, led by the other end mainly to the upper end of the air supply manifold of the unit with the possibility of communication with it through one of technological plugs, which is made with an appropriate opening, while at least one more technological plug included in the kit is made with an opening and / or valve for discharging a drying agent from the collet of the air outlet of the unit, and the slipway is made in the form of a spatial support system formed of at least a pair of longitudinal flat spaced rod structures and at least two transverse, each made in the form of a flat truss with a horizontal upper support belt and spaced slipway with the possibility of supporting the block on them in areas between the intermediate racks of its frame.

The technological plug for communication with the upper end of the air supply manifold can be made with the possibility of tight connection along the circuit with the air supply manifold and the air duct.

At least two of the four technological plugs included in the kit can be blind and interchangeable.

A device for supplying a drying agent, mainly air, may be provided with a heating system for the drying agent.

The heating system can be made in the form of a heater, preferably electric.

A device for supplying a drying agent can be installed on one side of the block near the air supply manifold of the unit, and the longitudinal axis of the duct is located mainly in a plane aligned with the plane of the middle vertical axes of the air supply and exhaust manifolds of the unit or spaced from it in the interval ± R, where R is the radius of the collector inlet or outlet in the plan.

Each of the longitudinal flat rod structures of the support system of the slipway can be made with a central frame H-shaped element with two posts and a crossbar, displaced in height from the upper ends of the posts by a distance exceeding the height of the standard support elements of the lower block of the heat exchanger.

The N-shaped element can be supported on a lower beam element, the length of which exceeds the distance between its racks and is made not less than the length of the zone of placement of the tube bundle in the block, while the racks of the H-shaped element can be supported from the outside by struts supported on the lower beam element.

The racks of the H-shaped elements of each of the longitudinal flat rod structures of the support system of the slipway in the transverse direction can be pairwise joined by upper and lower belts and braces to form transverse trusses with parallel belts, while the upper belts form elements for supporting the block mainly along the extreme nodes of the trusses.

The upper belts of the transverse trusses can be made box-shaped, or each in the form of a channel facing upwards, preferably with a support insert or inserts of damping material, mainly of wood.

The lower belts of the transverse trusses can be spaced in height with the lower beam elements of the longitudinal flat bar structures of the support system of the slipway and can be located preferably above the lower beam elements of the longitudinal flat bar structures of the support slideway system.

According to the second embodiment, the problem is solved due to the fact that the stand for drying heat exchanging units of a heat exchanger of the regenerative air heater type according to the invention includes a set of process plugs for temporarily sealing the ends of the inlet and outlet air collectors of the upper or intermediate, or with the lower block standard bearings, device for supplying a drying agent, mainly air to the air supply manifold and pipes of the heat exchanger unit installed on the plaza a frame supporting intermediate racks, and the device for supplying to the manifold of the air supply and the drying agent pipe contains at least a fan and an air duct connected with one end thereof, connected by the other end mainly to the upper end of the air supply manifold of the unit with the possibility of communication with it through one from technological plugs, which is made with an appropriate opening, while at least one more technological plug included in the kit is made with an opening and / or a valve for discharging wasps ayuschego agent from the air outlet manifold block, wherein the block simply supported on the plasma with excess over it the lower ends of the air supply and evacuation collectors unit providing accommodation to them stub process and not less than the height of standard supports the lower heat exchanger unit.

The lower block of the heat exchanger can be supported on the plasma with its standard bearings.

To install the upper and intermediate blocks of the heat exchanger on the plaza, additional supports can be located, oriented across the block and located within the zone of the pipe bundle at a distance from each other of (0.65-1.74) · a, where a is the step in the axes of the intermediate racks of the block frame.

Additional supports can be located with the location of the center of gravity of the unit supported by them mainly in the range of ± 0.3 · and from the middle of the distance between them.

The technological plug for communication with the upper end of the air supply manifold can be made with the possibility of tight connection along the circuit with the air supply manifold and the air duct.

At least two of the four technological plugs included in the kit can be blind and interchangeable.

A device for supplying a drying agent, mainly air, may be provided with a heating system for the drying agent.

The heating system can be made in the form of a heater, preferably electric.

A device for supplying a drying agent can be installed on one of the sides of the block at the air supply manifold of the unit, and the longitudinal axis of the duct can be located mainly in a plane aligned with the plane of the middle vertical axes of the manifolds for supplying and exhausting air of the unit or at a distance of ± R, where R is the radius of the collector inlet or outlet in the plan.

The technical result provided by the invention, both in the first embodiment and in the second, consists in increasing efficiency and reducing labor and material costs by allowing drying of the upper and intermediate and lower blocks of the heat exchanger on one stand and thereby saving production areas.

The invention is illustrated by drawings, which depict:

figure 1 shows a stand for drying heat-exchange blocks of a heat exchanger, side view;

figure 2 is the same front view;

figure 3 is the same, a top view;

figure 4 - technological plug between the manifolds of the supply and exhaust air and the duct, top view;

figure 5 - node a in figure 2;

figure 6 is a deaf technological plug, top view;

Fig.7 is a Central frame H-shaped element of the support system of the slipway, side view;

on Fig is a transverse flat farm, front view;

figure 9 is a support system, a top view.

According to the first embodiment, the stand for drying heat-exchange blocks of a heat exchanger of the regenerative air heater type includes a slipway 2 for placing an upper (not shown), or intermediate (not shown), or having standard bearings of the lower block 1 with an intermediate frame 3 with a rack 4 , a bundle of heat-exchange pipes (not shown) and collectors for supply 5 and exhaust 6, a set of technological plugs 7, 8, 9 for temporary sealing of the ends of the collectors for supply 5 and exhaust 6 of air of unit 1, devices o 10 for supplying to the manifold a supply 5 and an outlet 6 of air and a pipe (not shown) of a drying agent, comprising at least a fan 11 and an air duct 12 connected with one end thereof, brought by the other end mainly to the upper end of the manifold 5 of the air supply unit 1 with the possibility of communication with him through one of the technological plugs 7, which is made with the corresponding opening 13, while at least one more technological plug 8 included in the kit is made with the opening 14 and / or a valve (not shown) for exhausting the drain agent from the collector 6 of block 1. The slipway 2 is made in the form of a spatial support system formed of at least a pair of flat rod structures 15 spaced apart by the width of block 1 and at least two transverse 16 made each in the form of a flat truss 17 s horizontal upper support belt 18 and spaced in the slipway 2 with the possibility of supporting block 1 on them in areas between the intermediate racks 3 of its frame 4.

Technological plug 7 for communication with the upper end of the manifold 5 of the air supply is made with the possibility of tight connection along the circuit with the collector 5 of the air supply and the duct 12.

Two of the four technological plugs included in the kit 9 are made deaf and interchangeable.

The device 10 for supplying a drying agent, mainly air, is equipped with a heating system (not shown) of a drying agent.

The heating system is made in the form of a heater, preferably electric.

A device 10 for supplying a drying agent is installed on one of the sides of the block 1 at the collector 5 of the air supply of block 1, and the longitudinal axis of the duct 12 is located mainly in the plane aligned with the plane of the middle vertical axes of the collectors of the supply 5 and air outlet 6 of the block 1 or located at a distance it in the range ± R, where R is the radius of the collector supply 5 or exhaust 6 air in the plan.

Each of the longitudinal flat rod structures 15 of the support system of the slipway 2 is made with a central frame H-shaped element 19 with two struts 20 and the crossbar 21, displaced in height from the upper ends of the struts 20 by a distance exceeding the height of the standard support elements 22 of the lower block 1 of the heat exchanger .

The H-shaped element 19 is supported on the lower beam element 23, the length of which exceeds the distance between its struts 20 and is made not less than the length of the zone of placement of the tube bundle in block 1, while the rack 20 of the H-shaped element 19 is supported from the outside by braces 24, supported on the lower beam element 23.

Racks 20 of H-shaped elements 19 of each of the longitudinal flat rod structures 15 of the support system of the slipway 2 in the transverse direction are pairwise joined by the upper 25 and lower 26 belts and braces 27 to form transverse trusses 17 with parallel belts, while the upper belts 25 form elements for support block 1 mainly along the extreme nodes of the farms 17.

The upper belts 25 of the transverse trusses 17 are box-shaped, or each in the form of a channel facing upwards, preferably with a support insert or inserts of damping material, mainly of wood.

The lower belts 26 of the transverse trusses 17 are spaced in height with the lower beam elements 23 of the longitudinal flat bar structures 15 of the support system of the berth 2 and are preferably located above the lower beam elements 23 of the longitudinal flat bar structures 15 of the berth support structures of the berth 2.

According to the second embodiment, the stand for drying the heat exchanging units of a heat exchanger of the regenerative air heater type includes a set of process plugs 7, 8, 9 for temporarily sealing the ends of the supply manifolds 5 and exhaust 6 of the upper air (not shown), or intermediate (not shown), or having regular supports 22 of the lower block 1, a device 10 for supplying a drying agent, mainly air, to the supply manifold 5 and air exhaust 6 and pipes of the heat exchanger unit 1 installed on the plaza with and with intermediate frames 3 by frame 4. The device 10 for supplying air inlet 5 and exhaust 6 to the collector and the drying agent pipe 6 contains at least a fan 11 and an air duct 12 connected to it by one end, brought by the other end mainly to the upper end of the supply manifold 5 block 1 air with the possibility of communication with it through one of the technological plugs 7, which is made with the corresponding opening 13, while at least one more technological plug 8 included in the kit is made with the opening 14 and / or valve anom (not shown) for the release of a drying agent from the collector 6 of the air outlet of unit 1. Block 1 is supported on a plasma with the excess above it of the lower ends of the collectors of the supply 5 and exhaust 6 of the air of unit 1, ensuring the placement of technological plugs 7, 9 and not less the heights of the standard bearings 22 of the lower block 1 of the heat exchanger.

The lower block 1 of the heat exchanger is supported on the plasma with its standard bearings 22.

To install the upper and intermediate blocks (not shown) of the heat exchanger on the plaza, additional supports (not shown) are oriented, oriented across block 1 and located within the zone of the pipe bundle at a distance from each other of (0.65-1.74) · A, where a is the step in the axes of the intermediate struts 3 of the frame 4 blocks.

Additional supports are located with the location of the center of gravity of the unit 1 supported on them, mainly in the range of ± 0.3 · and from the middle of the distance between them.

Technological plug 7 for communication with the upper end of the manifold 5 of the air supply is made with the possibility of tight connection along the circuit with the collector 5 of the air supply and the duct 12.

At least two of the four technological plugs included in the kit 9 are made deaf and interchangeable.

The device 10 for supplying a drying agent, mainly air, is equipped with a heating system (not shown) of a drying agent.

The heating system is made in the form of a heater, preferably electric.

A device 10 for supplying a drying agent is installed on one of the sides of the block 1 at the collector 5 of the air supply of block 1, and the longitudinal axis of the duct 12 is located mainly in the plane aligned with the plane of the middle vertical axes of the collectors of the supply 5 and air outlet 6 of the block 1 or located at a distance it in the range ± R, where R is the radius of the collector supply 5 or exhaust 6 air in the plan.

Claims (20)

1. A stand for drying heat-exchange blocks of a heat exchanger of the type of a regenerative air heater, characterized in that it includes a slip for placing an upper, or intermediate, or having regular bearings of the lower block with a frame, a bundle of heat-exchange pipes intermediate to the length of the rack block, and supply and exhaust manifolds air, a set of technological plugs for temporary sealing of the ends of the manifolds for supplying and removing air from the unit, a device for supplying a drying agent to the collectors and pipes, with holding at least a fan and an air duct communicated with it at one end, led by the other end mainly to the upper end of the air supply manifold of the unit with the possibility of communication with it through one of the technological plugs, which is made with a corresponding opening, at least one more the technological plug included in the kit is made with an aperture and / or valve for discharging air from the air exhaust manifold of the unit, and the slipway is made in the form of a spatial support system formed and At least a pair of longitudinal spaced apart by the width of the block flat rod structures and at least two transverse performed each in a flat farm with horizontal upper support belt and spaced in the stocks, with the block bearing on them at the intermediate portions between the uprights of its frame. 2. The stand according to claim 1, characterized in that the technological plug for communication with the upper end of the air supply manifold is made with the possibility of tight connection along the circuit with the air supply manifold and the air duct. 3. The stand according to claim 1, characterized in that at least two of the four technological plugs included in the kit are made deaf and interchangeable. 4. The stand according to claim 1, characterized in that the device for supplying a drying agent, mainly air, is equipped with a heating system for a drying agent. 5. The stand according to claim 4, characterized in that the heating system is made in the form of a heater, preferably electric. 6. The stand according to claim 1, characterized in that the device for supplying a drying agent is installed on one of the sides of the block at the air supply manifold of the block, and the longitudinal axis of the duct is located mainly in a plane aligned with the plane of the middle vertical axes of the air supply and exhaust manifolds block or spaced from it in the interval ± R, where R is the radius of the collector inlet or outlet in the plan. 7. The stand according to claim 1, characterized in that each of the longitudinal flat rod structures of the support system of the slipway is made with a central frame H-shaped element with two posts and a crossbar, displaced in height from the upper ends of the posts by a distance exceeding the height of the standard support elements lower block heat exchanger. 8. The stand according to claim 7, characterized in that the H-shaped element is supported on the lower beam element, the length of which exceeds the distance between its racks and is made not less than the length of the zone of placement of the tube bundle in the block, while the racks of the H-shaped element are supported with the outer sides of the struts supported on the lower beam element. 9. The stand according to claim 7, characterized in that the racks of the H-shaped elements of each of the longitudinal flat rod structures of the support system of the slipway in the transverse direction are pairwise joined by upper and lower belts and braces to form transverse trusses with parallel belts, while the upper belts form elements for supporting the block mainly along the extreme nodes of the trusses. 10. Stand 9, characterized in that the upper belts of the transverse trusses are box-shaped or each in the form of a channel facing upward by the shelves, preferably with a support insert or inserts of damping material, mainly of wood. 11. The stand according to claim 9, characterized in that the lower belts of the transverse trusses are spaced in height with the lower beam elements of the longitudinal flat rod structures of the support system of the slipway and are preferably located above the lower beam elements of the longitudinal flat rod structures of the support slideway system. 12. A stand for drying heat-exchange blocks of a heat exchanger of the type of a regenerative air heater, characterized in that it includes a set of technological plugs for temporarily sealing the ends of the collectors for supplying and discharging air of the upper or intermediate, or having standard bearings of the lower block, a device for supplying a drying agent, mainly air , into the manifold of the air supply and pipes of the heat exchanger unit mounted on the plaza with a frame with intermediate racks, and devices about for supplying to the collector of the air supply and the pipe of the drying agent contains at least a fan and an air duct connected with one end thereof, connected by the other end mainly to the upper end of the air supply manifold of the unit with the possibility of communication with it through one of the process plugs, which is made with an appropriate opening, while at least one other technological plug included in the kit is made with an opening and / or a valve for discharging a drying agent from the air exhaust manifold of the unit, than the block is supported on a plasma with the excess above it of the lower ends of the supply and exhaust manifolds of the block ensuring the placement of technological plugs on them, and not less than the height of the standard supports of the lower block of the heat exchanger. 13. The stand according to claim 12, characterized in that the lower block of the heat exchanger is supported on the plasma with its standard bearings. 14. The stand according to claim 12, characterized in that for the installation of the upper and intermediate blocks of the heat exchanger on the plaza, additional supports are located oriented across the block and located within the zone of the pipe bundle at a distance from each other of (0.65 ÷ 1 , 74) · a, where a is the step in the axes of the intermediate racks of the block frame. 15. The stand of claim 14, characterized in that the additional supports are arranged so that the center of gravity of the unit supported by them is located preferably in the range of ± 0.3 · a from the middle of the distance between them. 16. The stand according to claim 12, characterized in that the technological plug for communication with the upper end of the air supply manifold is made with the possibility of tight connection along the circuit with the air supply manifold and the air duct. 17. The stand according to item 12, characterized in that at least two of the four technological plugs included in the kit are made deaf and interchangeable. 18. The stand according to item 12, characterized in that the device for supplying a drying agent, mainly air, is equipped with a heating system for a drying agent. 19. The stand according to p. 18, characterized in that the heating system is made in the form of a heater, preferably electric. 20. The stand according to claim 12, characterized in that the device for supplying a drying agent is installed on one of the sides of the block at the manifold air supply manifold, and the longitudinal axis of the duct is located mainly in a plane aligned with the plane of the middle vertical axes of the air supply and exhaust manifolds block or spaced from it in the interval ± R, where R is the radius of the collector inlet or outlet in the plan.

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