CN201628513U - Autorotation rotor connecting structure in heat exchange tube - Google Patents

Abstract

The utility model relates to an autorotation rotor connecting structure in a heat exchange tube, which comprises a hollow shaft, a liquid drain hole, an external boss, a recess, an internal boss and helical grooves, wherein the external boss is disposed at the tail of the hollow shaft, the recess and the internal boss are disposed at the head of the hollow shaft, the helical grooves with reverse screwing directions are processed on the recess and the internal boss, and the inner diameter of the recess is larger than the outer diameter of the external boss. A fluid medium flows in a slot between the external boss and the recess, flows through the helical groove of the recess and flows into a slot between the hollow shaft and the rotating shaft after flowing out of a slot between the external boss and the axial end surface of the internal boss, thereby reducing radial and axial friction at the connection joint of the hollow shaft, enhancing autorotation capacity of single rotors, strengthening fluid turbulence degree and increasing enhanced heat transfer and scale preventing and removing capacities of rotors.

Description

Rotation type rotor syndeton in the heat exchanger tube

Technical field

The utility model relates to a kind of interior inserted component that is applied to augmentation of heat transfer and antifouling scrubbing in the heat exchanger tube in the equipment such as shell-and-tube heat exchanger, heat exchange reactor, in particularly a kind of heat exchanger tube in inserted component be the structure of rotor.

Background technology

The 21 century energy-saving and emission-reduction are the key technologies that the whole world is all paid much attention to, all to be applied to many heat exchangers in various fields such as oil, chemical industry, thermoelectricity, nuclear power, metallurgy, light industry, aviation device and boats and ships vehicles, what wherein be most widely used is shell-and-tube heat exchanger, but inwall ubiquity deposition dirt in these heat exchanger tubes, cause fluid transporting resistance in pipeline to increase, meeting blocking pipe when serious, heat transfer property greatly descends simultaneously; Dirt can seriously reduce heat transfer efficiency and cause great energy waste in the heat exchanger tube, meanwhile dirt generally has corrosivity, tube wall is corrosion therefore, leak fluid causes major safety risks, therefore be forced to exactly take stop production in treating method traditionally and clean, so not only stopped over the manufacturing schedule of factory, also needed to pay expensive cleaning charge simultaneously and use; In order to address these problems better, people study the on-line automatic augmentation of heat transfer that employing do not stop production and the various ways and the device of descaling and antiscaling always.Many antiscaling, descaling method and apparatus have appearred in recent years, one of them utilizes fluid to promote the method that the spiral band energy of rotation is realized online automatic desludging, the spiral band China Patent No. is: ZL95236063.2, name is called the utility model of " cleaning device of descaling and antiscaling in the heat-transfer pipe " and creates, the technical scheme that this utility model is created is made of the tie that is equipped with in the heat exchanger tube with heat exchanger tube cardinal principle equal length, the radial dimension of distortion band is less than the internal diameter of heat exchanger tube, the place is provided with the axial restraint frame at the heat exchanger tube inlet, there is lead channel the position, intermediate portion, the head of axial restraint frame has an axis hole, bearing pin is housed in it, and the bearing pin afterbody also is connected with tie; The utility model name is called " spiral enhanced heat exchange of dual turbulent and automatic descaling apparatus ", the Chinese patent application publication number is CN1424554, this device is as augmentation of heat transfer and automatic desludging thereof, include spiral band, fixed mount, spiral band is arranged in the helix tube, utilizes by the mobile spiral band that drives of heat exchanger tube inner fluid and rotates.Because spiral band is a whole band, heat exchanger tube is straight inadequately after installing through processing, can produce uneven slit between spiral band and the heat exchanger tube inwall, and the scale removal effect of tie is little and inhomogeneous like this, and descale effect is undesirable.In the spiral band method apparatus for eliminating sludge, spiral band all is single-ended fixing, and the other end freely swings, and the radial dimension of distortion band is less than the internal diameter of heat-transfer pipe.Spiral band has following deficiency: (1) tie is an integral body, heat-transfer pipe is directly swiped damage heat exchanger tube inwall; Promoting the tie rotation when (2) fluid flows needs bigger driving moment, consumes more fluid kinetic energy; (3) service life of the bearing of single-ended fixedly usefulness is short; (4) the field cooperative reinforcing heat-transfer effect of tie generation is not remarkable.China Patent No. is ZL200520127121.9 afterwards, the patent application that the utility model name is called " rotator type cleaning and heat-transfer enhancing device " is disclosed, this device is to be made of fixed mount, rotor, flexible shaft and stay pipe, and two fixed mounts are separately fixed at the two ends of heat exchanger tube; The appearance of rotor has scroll, and centre bore is arranged on the rotor; Bracing frame is located between rotor and the fixed mount, and flexible shaft passes the centre of rotor hole and stay pipe is fixed on two fixed mounts.This device has the function of on-line automatic antiscaling, descaling and augmentation of heat transfer, under the situation of fluid following current or adverse current in heat-transfer pipe, the effect of antiscaling, descaling and augmentation of heat transfer is arranged all.But shortcoming is when certain fluid passes through, the rotary speed of rotor is that the lead angle by the spiral shell rib is determined, the rotary speed of getting over hour rotor in spiral shell rib helical pitch is fast, the resistance of convection cell increases thereupon simultaneously, rotor directly is connected to friction and connects, because the transmission of the power moment of torsion of rotor the most at last passes to locating part, the rotating shaft meeting is rotated, and the life-span reduces; Chinese patent application numbers 200620172805.5, the utility model name is called " low flow resistance rotor of cleaning and heat-transfer enhancing in the heat-transfer pipe ", this device is by rotor, bracing frame be connected axis and constitute, bracing frame is fixed on the heat-transfer pipe two ends, the two ends that connect axis are separately fixed on the bracing frame, a plurality of rotors are installed on and connect on the axis, rotor is to be made of hollow shaft and blade, it is same skewed that each blade becomes with hollow shaft, adjacent blades is end to end, this structure convection cell resistance reduces, fluid is good by performance, but its velocity of rotation is higher, friction connection between the end between the hollow shaft, all rotors pass to locating part with the moment of torsion of accumulation, and the rotating shaft life-span can reduce.

The utility model content

The purpose of this utility model is the syndeton that reduces to rub between the hollow shaft of a kind of rotor of design, utilize fluid that rotor end-face is separated, when keeping the cleaning and heat-transfer enhancing performance, reduce friction on hollow shaft is radial and axial, the asynchronous rotation of each rotor can strengthen turbulent extent, the accumulation of moment of torsion is little between the rotor, the fluid dynamic energyization that consumes rubbing transfers the kinetic energy of rotor to, improves turbulent extent, strengthens the effect of augmentation of heat transfer and antifouling scrubbing.

The utility model is that the technical scheme that addresses the above problem employing is: rotation type rotor syndeton in the heat exchanger tube, it includes hollow shaft, blade, outer lug boss, concave station, inner convex platform, concave station helicla flute and inner convex platform helicla flute, vanes fixed is on hollow shaft, through hole is arranged in the hollow shaft, the internal diameter of the through hole of hollow shaft is beneficial to rotating shaft and passes greater than the external diameter of rotating shaft; There is coaxial configuration at the hollow shaft two ends, one of them the afterbody of hollow shaft of two adjacent rotor cooperates with the head of another hollow shaft, outer lug boss is the afterbody of hollow shaft, concave station and inner convex platform are the head of hollow shaft, the concave station internal diameter is greater than the outer lug boss external diameter, be easy to install cooperation and reduce the friction on two surfaces, be processed with the thread groove identical on the concave station with the rotor direction of rotation, be processed with the thread groove opposite on the inner convex platform with the rotor direction of rotation, during rotor rotation, fluid flow in the concave station helicla flute along the slit of concave station and outer lug boss, the fluid film that produces separates diametrically because fluid is squeezed for outer lug boss and concave station, reduce friction, fluid is flowed through and is flow between inner convex platform and the outer lug boss axial end in the slit between hollow shaft and the rotating shaft, meet through different rotation direction spiral fluted fluids on concave station and the inner convex platform, increase the turbulent extent of fluid, reduce the accumulation of dirt.

Be processed with lead channel at concave station near the place, outer face, a large amount of fluids can enter in the slit between outer lug boss and the concave station through lead channel, more the multithread body is through in the slit between concave station and the outer lug boss, flow into again in the concave station helicla flute, after outer lug boss and inner convex platform axial slits flow out, further reduce the frictional force that outer lug boss and concave station directly make progress, and reduce outer lug boss and inner convex platform frictional force in the axial direction.

Hollow shaft is middle outage, and the shape of outage is square, can also be circle or polygon, and a large amount of fluids flow out through outages, and the rotor rotation is discharged fluid edge from outage perpendicular to radial direction, increase the turbulent extent of fluid.

The mating surface structure of outer lug boss, inner convex platform and concave station can be spherical, can also be coniform.

The beneficial effects of the utility model are: 1, the concave station internal diameter is greater than the outer lug boss external diameter, simultaneously on the concave station end face, having oblique lead channel, strengthen fluid and flow into influx between outer lug boss and the concave station, rotor rotation drives fluid and flows along helicla flute, form fluid film, radially separating between outer lug boss and the concave station, reduce the friction between the hollow shaft diametrically, fluid flows out through the axial end gap between outer lug boss and the inner convex platform simultaneously, reduced the friction between the rotor in the axial direction, each rotor can be done freely to rotate, strengthened the turbulent extent of fluid like this, reduced the accumulation of moment of torsion between the rotor, friction consumption originally is converted into the kinetic energy of rotor, energy savings improves turbulent extent; 2, the thread groove rotation direction on the inner convex platform is opposite with thread groove rotation direction on the outer concave station, and fluid is done flowing of different rotation directions around different rotation direction thread grooves, has strengthened the turbulent extent of fluid, reduces the accumulation of dirt; 3, a large amount of fluids will be in inner convex platform and outer lug boss end clearance flow into gap between hollow shaft and the rotating shaft, inner convex platform and outer lug boss end face with on produce fluid film, both ends of the surface are separated, making rubs between hollow shaft axially reduces, the moment of torsion of rotor can not transmitted mutually, reduced the active force of rotor, prolonged the life-span of rotating shaft locating part; 4, outage is arranged on hollow shaft, a large amount of fluids along discharging perpendicular to radial direction, have strengthened the turbulent extent of fluid through outage, have improved the effect of augmentation of heat transfer and antiscaling, descaling, help fluid simultaneously and enter into space between rotor internal diameter and the rotating shaft external diameter, improve anti-wear performance.

The rotor of the utility model syndeton is installed in the heat exchanger tube, according to concrete rotor speed requirement, hollow shaft length etc., come the concrete decision syndeton,, be through in the heat exchanger tube with rotating shaft together, utilize the two ends of suspension member countershaft to carry out axial restraint then several rotor inlines, when fluid flows through blade, rotor is had tangential force perpendicular to radially, rotor is rotated around the shaft, heat exchanging inside pipe wall dirt can be removed; Frictional force reduces between the rotor simultaneously, and energy savings does not have the transmission of moment of torsion yet between the rotor, the asynchronous rotation of each rotor, and fluid produces the more strong turbulent flow that helps augmentation of heat transfer, and hollow shaft has outage further to strengthen the turbulent extent of fluid.

Description of drawings

Fig. 1 is a rotation type rotor syndeton schematic diagram in the utility model heat exchanger tube.

Fig. 2 is Fig. 1 rotor head structure enlarged diagram.

Fig. 3 is the rotor schematic diagram that rotation type rotor syndeton has lead channel and outage in the utility model heat exchanger tube.

Fig. 4 is Fig. 3 rotor head structure enlarged diagram.

Fig. 5 is Fig. 3 outage structure enlarged diagram.

Fig. 6 is the rotor scheme of installation during the rotation type rotor connects in the utility model heat exchanger tube.

Among the figure, 1-hollow shaft, 2-lead channel, 3-outer lug boss, 4-concave station, 5-concave station helicla flute, 6-inner convex platform, 7-blade, 8-inner convex platform helicla flute, 9-outage, 10-rotating shaft, 11-heat exchanger tube, 12-connecting portion, 13-suspension member.

The specific embodiment

As shown in Figure 6, a kind of embodiment of rotation type rotor syndeton in the utility model heat exchanger tube, include rotor, rotating shaft 10, heat exchanger tube 11 and suspension member 13 in the heat transfer unit (HTU), suspension member 13 is fixed on heat exchanger tube 11 two ends, the two ends of rotating shaft 10 are separately fixed on the suspension member 13, and several rotors are installed in two rotating shafts 10 between the suspension member 13.

Extremely shown in Figure 5 as Fig. 1, rotor comprises hollow shaft 1, outer lug boss 3, concave station 4, concave station helicla flute 5, inner convex platform 6, inner convex platform helicla flute 8, the head of hollow shaft 1 comprises concave station 4 and inner convex platform 6, the afterbody of hollow shaft 1 is an outer lug boss 3, concave station 4 internal diameters are greater than outer lug boss 3 external diameters, be easy to install cooperation and reduce the friction on two surfaces, be processed with the concave station helicla flute 5 identical on the concave station 4 with the rotor direction of rotation, the processing thread groove opposite on the inner convex platform 6 with the rotor direction of rotation, during rotor rotation, fluid flows into along outer lug boss 3 and concave station 4 slits, the concave station helicla flute 5 of flowing through, the footpath upwards separates owing to fluid is squeezed, reduce friction, fluid is flowed through and is flow between inner convex platform 6 and outer lug boss 3 axial ends in the slit between hollow shaft 1 and the rotating shaft 10, and fluid is flowed through and produced different rotation directions on concave station helicla flute 5 and the inner convex platform helicla flute 8 and flow and meet, increase the fluid turbulent degree, reduce the accumulation of dirt.

Be processed with lead channel 2 in concave station 4 outer faces, increasing enters the fluid flow in the slit between outer lug boss 3 and the concave station 4, more the multithread body through concave station helicla flute 5 and outer lug boss 3 and inner convex platform 6 axially between in the slit, reduce between outer lug boss 3 and the concave station 4 footpath upwards and the frictional force axially.

Outage 9 is arranged in the middle of the hollow shaft 1, the shape of outage 9 is square, can also be circular or polygonal, flow out predominate fillet on the direction at fluid, reduce the inhibition of seamed edge fluid flow, a large amount of fluids flow out through outage 9, and the rotor rotation is discharged fluid edge from outage 9 perpendicular to radial direction, increase the turbulent extent of fluid.

The structure of the mating surface of outer lug boss 3, inner convex platform 6 and concave station 4 can be spherical, can also be coniform.

Hollow shaft 1 head of present embodiment rotor and the mating surface shape of afterbody are spherical; Outage 2 carries out rounding on one side that fluid flows out on the direction.

Rotation type rotor syndeton makes heat transfer unit (HTU) when keeping the cleaning and heat-transfer enhancing performance in the utility model heat exchanger tube, reduced hollow shaft 1 frictional force on radial and axial, improve the ability of the asynchronous rotation of each rotor, strengthen the fluid turbulent degree, reduced the accumulation of moment of torsion between the rotor, the rotor moment of torsion of countershaft on the whole reduces; The friction consumption that hollow shaft 1 is directly contacted simultaneously is converted into the kinetic energy of rotor, utilize fluid dynamic energy better, improve the fluid turbulent degree, also has outage on the hollow shaft simultaneously, the fluid edge of rotation can be discharged perpendicular to radial direction, strengthen the turbulent extent of fluid, strengthen the effect of augmentation of heat transfer and antifouling scrubbing.

Claims (5)

1. rotation type rotor syndeton in the heat exchanger tube, it includes hollow shaft, blade, outer lug boss, concave station, inner convex platform, outer lug boss helicla flute and inner convex platform helicla flute, vanes fixed is on hollow shaft, through hole is arranged in the hollow shaft, there is coaxial configuration at the hollow shaft two ends, one of them the afterbody of hollow shaft of two adjacent rotor cooperates with the head of another hollow shaft, it is characterized in that: outer lug boss is the afterbody of hollow shaft, concave station and inner convex platform are the head of hollow shaft, the concave station internal diameter is greater than the outer lug boss external diameter, be processed with the thread groove identical on the concave station, be processed with the thread groove opposite on the inner convex platform with the rotor direction of rotation with the rotor direction of rotation.

2. rotation type rotor syndeton in the heat exchanger tube according to claim 1 is characterized in that: concave station has lead channel near the place, outer face.

3. rotation type rotor syndeton in the heat exchanger tube according to claim 1 is characterized in that: outage is arranged in the middle of the hollow shaft.

4. rotation type rotor syndeton in the heat exchanger tube according to claim 3 is characterized in that: the shape of outage is square, circle or polygon.

5. rotation type rotor syndeton in the heat exchanger tube according to claim 1, it is characterized in that: the mating surface structure of outer lug boss, inner convex platform and concave station is spherical or coniform.

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