CN201697532U - Internal-pressure expansion-type helical rubber ball for heat-exchange pipes - Google Patents

Abstract

The utility model discloses an internal-pressure expansion-type helical rubber ball for heat-exchange pipes, which comprises a hollow shaft and vanes, wherein a structure of ridges in the hollow shaft constitutes the vanes; the ridges taking the center of the inner diameter of the hollow shaft as the center have a certain helical angle; and the diameter of the two ends of the inner hole of the hollow shaft is larger than the intermediate bore diameter. Since the rubber ball has a hollow structure, and the hollow shaft is arc-shaped or cone-shaped in the axial direction, the rubber ball expands when the inner surface is under the stress of fluid, thus increasing the area of contact between the outer surface of the rubber ball and the inner wall of the heat-exchange pipe and increasing the forward driving force of the fluid on the rubber ball; based on the hollow structure, the utility model can reduce the weight of the rubber ball, save the cost for materials, reduce the resistance on the fluid and improve the circulation performance of the rubber ball in the heat-exchange pipe; the vanes are arranged in the hollow shaft, the rubber is driven by the circumferential force perpendicular to the axial direction to rotate when the fluid flows through the vanes, thus enhancing the cleaning effect; and the rubber ball rotates continuously, thus removing the contaminants on the net and increasing the recovery rate of the rubber ball.

Description

A kind of inner-pressure expansion type spiral rubber ball for heat exchange tube

Technical field

The utility model relates to a kind of element of water purification installation, particularly a kind ofly is applied in the equipment such as shell-and-tube heat exchanger, heat exchange reactor cleaning element in the heat exchanger tube.

Background technology

Deposition dirt easily in the heat exchanger tube is when containing the fluid of impurity at cooling water particularly all the time, and for example when seawater, river, heat exchanger tube will deposit very thick dirt in very short time as 3-5 days.The dirt of deposition has very big harmfulness, and the thermal resistance of dirt is very big, has directly lowered the heat transfer efficiency in the heat exchanger tube greatly, and dirt is also had corrosivity in addition, can shorten the life-span of heat exchanger tube, thereby bring very big economic loss to factory.The method of dirt has machine cleaning technique, glueballs cleaning technique and on-line cleaning technology in the heat exchanger tube for removing.The very big hydraulic pressure of machine pressure wash Technology Need, very high to the requirement of machine, but the result of machine pressure wash is not satisfactory, it is complete inadequately to clean dirt.The on-line cleaning technology is the technology that last decade grows up, generally be that interspersed descaling component cleans automatically in heat exchanger tube, consequently the cleaning to dirt produces effect, but can pose a big pressure loss, influence runner, entrainment in the fluid is easy to stop up heat exchanger tube simultaneously, and this technology is perfect not enough simultaneously.Technology is to utilize the glueballs on-line cleaning relatively preferably, and shape and material can be adjusted, and has friction effect still can not damage tube wall to tube wall, and glueballs can reuse simultaneously, and cost is lower.The patent No. 200710098489.0, name is called a kind of member for online cleaning and removing scale of heat exchange tube, and this element has runner, but the shortcoming of element is a maximum outside diameter to be contacted with the heat exchanger tube inwall is that line contacts, the effect of cleaning dirt is limited, and hollow shaft is a d-axis, and the element traffic capacity forward is limited; The glueballs that uses at present is the soft body structure of porous softness, and in use the hygrometric state diameter of glueballs and proportion are difficult to control, and also is easy to by mud, dirt and microorganism etc. accompanyingly, so trafficability performance is bad, glueballs is hindered during recovery, and organic efficiency is lower; When glueballs was made solid shape, the resistance of convection cell was bigger, easily blocks pipeline.

The utility model content

The purpose of this utility model is a kind of glueballs that is applied to clean in the heat exchanger tube inwall of design, it is under the effect of heat exchanger tube inner fluid medium, when in heat exchanger tube, moving forward, can rotate, has the effect of strengthening cleaning, and can strengthen the negotiability of glueballs in heat exchanger tube, and help improving the efficient that glueballs cleans, increase the glueballs rate of recovery.

The utility model is that the technical scheme that addresses the above problem employing is: a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube, form by hollow shaft and blade, the hollow shaft inner surface is arcuate structure or pyramidal structure, hollow shaft endoporus two ends diameter is greater than median pore radius, because the elasticity of glueballs, in the time of in medium flow into hollow shaft, make it produce expansive force, increase the contact area between glueballs and the heat exchange tube wall, and then strengthen frictional strength between hollow shaft outer surface and the heat exchanger tube inner surface, improve glueballs and clean dynamics and efficient; Described blade is the fin structure in the hollow shaft, this fin is the center of circle with hollow shaft internal diameter center, has certain helical angle, shape in the shape of a spiral, blade becomes left-handed or dextrorotation around hollow shaft, and blade must be fixed on the hollow shaft surface, in glueballs is launched into heat exchanger tube, fluid media (medium) acts on the described blade, produce the peripheral force that makes progress perpendicular to the footpath on the glueballs, form rotation torque, glueballs rotates, strengthen the friction of glueballs and heat exchanger tube inwall, reduce the possibility of being detained, help improving the negotiability of glueballs, the speed that glueballs moves forward strengthens, the glueballs surface forms dynamic friction with the heat exchanger tube inwall, can improve the cleaning efficiency of glueballs, hollow shaft is made hollow shape can save material cost, alleviates the quality of glueballs, strengthen the trafficability performance of glueballs, reduce the glueballs cleaning frequency.

The hollow shaft outer surface of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model has helicla flute, perhaps be provided with protruding nail, the described helicla flute hand of spiral is identical with the rotation direction of described blade, when glueballs stream passes through heat exchanger tube, the inner-pressure expansion effect makes helicla flute edge meeting heat exchanging inside pipe wall generation scraping effect, strengthens cleaning performance; When the heat exchanger tube inner fluid passes through, act on the spiral cell wall, hollow shaft is subjected to rotating perpendicular to the peripheral force that the footpath makes progress, and causes the rotation torque of glueballs bigger, spiral cell wall and the friction between the heat exchange tube wall during rotation are dynamic friction, further improve the effect that glueballs cleans.

The number of the blade on the hollow shaft of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can be one, and is perhaps a plurality of, when a plurality of blades are distributed on the hollow shaft, preferably evenly distribute, help the glueballs rotation evenly, more stable during the circulation heat exchanger tube, improve cleaning efficiency.

The internal diameter shape of the hollow shaft of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can be oval, perhaps circular, the outer surface of hollow shaft is spherical, help passing through heat exchanger tube, the length of hollow shaft is less than or equals the diameter of hollow shaft, helps glueballs and rotate the scavenge pipe wall in heat exchanger tube.

The making material of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can be rubber, plastics or other composite, requires material to have high-wearing feature, prolongs the service life of glueballs, improves the cleaning performance of glueballs; The density of material is less than the density of fluid media (medium), helps improving the trafficability performance of glueballs.

The beneficial effects of the utility model are: 1, glueballs has hollow shaft structure, helps alleviating the weight of glueballs, improves the trafficability performance of glueballs in heat exchanger tube, the material cost of having saved glueballs simultaneously; 2, glueballs hollow shaft upper inner surface is set to arcuate structure or pyramidal structure, helps glueballs and is subjected to the surge of fluid and expands the contact area of increasing glueballs outer surface and heat exchanger tube inner surface, dynamics and efficient that the raising glueballs cleans; 3, glueballs rotates, and ball screen is had cleaning action, and ball screen can not stopped up by impurity in the heat exchanger tube, and glueballs can not stick on ball screen simultaneously, improves the rate of recovery of glueballs, strengthens the efficient that glueballs cleans; 4, in the hollow shaft blade construction is arranged, when fluid acted on the blade, glueballs can rotate, and improved the trafficability performance of glueballs, improved the effect that glueballs cleans the heat exchange tube wall; 5, the hollow shaft outside has helical groove structure, the helicla flute direction is identical with the rotation direction of blade, the heat exchanger tube fluid media (medium) acts on and produces on the spiral fluted seamed edge perpendicular to radially going up peripheral force, strengthen the rotation rotating speed of glueballs, helicla flute has dynamic friction with the heat exchanger tube inwall and contacts, and strengthens the cleaning performance of glueballs.

The utility model glueballs is to be used in to clean the tube wall dirt in the heat exchanger tube, and generally the device of usefulness is after glueballs is launched through Rubber ball pump, to flow in the heat exchanger tube, and set glueballs has hollow shaft structure, can effectively reduce the quality of glueballs, reduces the resistance of convection cell; Described hollow shaft is provided with blade simultaneously, and fluid can promote blade, produces the peripheral force that makes progress perpendicular to the footpath on the hollow shaft, glueballs can rotate rotation, help improving the cleaning performance of glueballs, strengthen the circulation of glueballs in heat exchanger tube, glueballs can not stop up heat exchanger tube; Glueballs rotates simultaneously, and ball screen is had good cleaning dynamics, and ball screen can not stopped up by impurity in the heat exchanger tube, and glueballs can not stick on ball screen, easier recovery glueballs, the rate of recovery of raising glueballs; Described hollow shaft is provided with helicla flute or protruding nail outward, and spiral fluted spiral shell rib or protruding nail exchange inside heat pipe have bigger rubbing action, strengthen the dynamics that glueballs cleans, and improve the efficient that glueballs cleans.。

Description of drawings

Fig. 1 is a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube three-dimensional structure of the utility model schematic diagram.

Fig. 2 is the front view of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model.

Fig. 3 is the left view of Fig. 2, and the inner surface of hollow shaft 1 is an arcuate structure.

Fig. 4 is the another kind of structure three-dimensional schematic diagram of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model, is provided with three blades in the hollow shaft 1.

Fig. 5 is the another kind of structural representation of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model, and hollow shaft 1 inner surface is a pyramidal structure.

Among the figure, 1-hollow shaft, 2-blade, 3-helicla flute, the protruding nail of 4-, 5-arcuate structure, 6-cone structure.

The specific embodiment

As shown in the figure, a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube examples of implementation that the utility model relates to, described glueballs hollow shaft 1 is a circular configuration, Fig. 1 has two blades 2 to glueballs hollow shaft 1 shown in Figure 3, Fig. 1 is the three-dimensional structure schematic diagram of glueballs, Fig. 2 is the left view that has the glueballs of two blades 2, Fig. 3 is the left view of Fig. 2, Fig. 4 is the 3-D view that has the glueballs of 3 blades, the hollow shaft of this glueballs is provided with protruding nail 4 structures outward, and Fig. 5 is that the master who has in protruding nail 4 and the hollow shaft axially for the glueballs of pyramidal structure 6 looks cross section view.

A kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model, form by hollow shaft 1 and blade 2, described blade 2 is the fin structures on the hollow shaft 1, this fin is the center of circle with hollow shaft 1 internal diameter center, has certain helical angle, blade 2 is around 1 one-tenth left-handed or dextrorotation of hollow shaft, blade 2 must be fixed on hollow shaft 1 surface, in glueballs was launched into heat exchanger tube, fluid media (medium) acted on the described blade 2, produced the peripheral force that makes progress perpendicular to the footpath on the glueballs, form rotation torque, glueballs rotates, and strengthens the friction of glueballs and heat exchanger tube inwall, reduces the possibility of being detained, help improving the negotiability of glueballs, the speed that glueballs moves forward strengthens, and the glueballs surface forms dynamic friction with the heat exchanger tube inwall, can improve the cleaning efficiency of glueballs, hollow shaft 1 is made hollow shape can save material cost, alleviate the quality of glueballs, strengthen the trafficability performance of glueballs, reduce the glueballs cleaning frequency; Hollow shaft 1 inner surface is arcuate structure or pyramidal structure, hollow shaft 1 endoporus two ends diameter is greater than median pore radius, because the elasticity of glueballs, in when having medium to flow into hollow shaft 1 arc structure 5 or pyramidal structure 6 surfaces to go up, make it produce expansive force, increase the friction between glueballs and the heat exchange tube wall.

Hollow shaft 1 outer surface of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can have helicla flute 3 or protruding nail 4, and hollow shaft shown in Figure 1 is outward a helicla flute 3, and Fig. 4 example is that hollow shaft has protruding nail 4 outward; Described helicla flute 3 hands of spiral are identical with the rotation direction of described blade 2, and when glueballs stream passed through heat exchanger tube, cleaning performance was strengthened in helicla flute 3 edges meeting heat exchanging inside pipe wall generation scraping effect; When the heat exchanger tube inner fluid passes through, act on helicla flute 3 walls, hollow shaft 1 is subjected to rotating perpendicular to the peripheral force that the footpath makes progress, and causes the rotation torque of glueballs bigger, helicla flute 3 and the friction between the heat exchange tube wall during rotation are dynamic friction, further improve the effect that glueballs cleans; Described protruding nail 4 is arranged on hollow shaft 1 outer surface, and protruding nail 4 heat exchanging inside pipe walls play the effect of ceaselessly scrubbing during the glueballs rotation.

The number of the blade 2 in the hollow shaft 1 of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can be one, perhaps a plurality of, example is two blades among Fig. 1, Fig. 4 example is three blades, when a plurality of blades 2 are distributed on the hollow shaft 1, preferably evenly distribute, help the glueballs rotation evenly, more stable during the circulation heat exchanger tube, improve cleaning efficiency.

The internal diameter shape of the hollow shaft 1 of a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube of the utility model can be an arcuate structure 5, perhaps pyramidal structure 6, Fig. 1 example is an arcuate structure 5, Fig. 4 example is a pyramidal structure 6, the outer surface of hollow shaft 1 is spherical, and ellipse or almost spherical help glueballs and pass through heat exchanger tube, the length of hollow shaft 1 is less than or equals the diameter of hollow shaft 1, helps glueballs and rotate cleaning heat exchange tube wall in heat exchanger tube.

Claims (8)

1. inner-pressure expansion type spiral rubber ball for heat exchange tube, be made up of hollow shaft and blade, described blade is the fin structure in the hollow shaft, and it is characterized in that: described fin is the center of circle with hollow shaft internal diameter center, shape in the shape of a spiral, hollow shaft endoporus two ends diameter is greater than median pore radius.

2. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the hollow shaft inner surface is camber or pyramidal structure vertically.

3. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the glueballs outer surface has helicla flute.

4. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 3 is characterized in that: the helicla flute rotation direction is identical with the rotation direction of described blade.

5. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the glueballs outer surface has protruding nail.

6. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the number of blade is one or more.

7. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the shape of described hollow shaft internal diameter is oval or circular.

8. a kind of inner-pressure expansion type spiral rubber ball for heat exchange tube according to claim 1 is characterized in that: the material of glueballs is rubber, plastics or the composite with high-wearing feature, and the density of material is less than the density of fluid media (medium).

Images