CN205300295U - Steam spiral compression rapid condensation ware - Google Patents

Abstract

The utility model provides a steam spiral compression rapid condensation ware, includes condensation casing and spiral condensation physically, the condensation casing is upper and lower open -ended tube -shape, the spiral condensation body compresses the condensation with the spiral of realizing steam through rotary driving in arranging the condensation casing in, the upper end opening of condensation casing is equipped with the compression entry, and the lower extreme opening is equipped with the compression and exports, the spiral condensation body is equipped with the pivot, the pivot runs through in the last under shed of condensation casing, the periphery of pivot is from last to having helical structure, helical structure's upper end communicates in the compression entry, thereby the lower extreme communicates and flows in helical structure in compression export steam from the compression entry and through flowing from the compression export behind the helical structure, therefore, the utility model discloses a compression and condensation are fast carried out to steam working medium to the method of spiral compression, have higher practicality, and technological structure are simple, and be with low costs, and the handling ease more has advantages such as steam working medium conversion efficiency height and economical and practical.

Description

Steam helical compression quick condenser

Technical field

The utility model relates to the technical field of steam-condensation, relates in particular to a kind of steam helical compression quick condenser.

Background technology

The condenser of existing power plant application, all adopts the good pipe structure of heat conduction to be assembled into condenser apparatus, adopts the medium that cooling water and temperature are higher to carry out heat exchange, thereby realizes the technology of hot steam's condensation. Adopt this condenser apparatus, owing to adopting the good tubing of a large amount of heat conductivilitys of consumption to do raw material, so equipment cost is higher. The easy scaling of (water majority is walked tube side) water in the time of cooling water and the higher media for heat exchange of temperature, forms rust deposite layer simultaneously, has increased thermal resistance, makes heat exchange efficiency degradation, can not meet the needs of production. Simultaneously because of the difference of the factors such as structure, material, service condition and the quality of cooling water of condenser, often cause the corrosion leakage problem at tube bank, the mouth of pipe, tube sheet place, cause condensate water to be polluted, by severe exacerbation feed water quality, aggravation boiler " four pipes " fouling and corrosion, cause " four pipes " demolition accident when serious. Leak because of the damage of condenser, often force the operation of unit load down even to be shut down. Compressor of air conditioner generally adopts piston compressor, and compressed steam freon becomes liquid, equipment complexity, and fault is many.

For this reason, designer of the present utility model is because above-mentioned defect, by concentrating on studies and designing, is comprehensively engaged in for a long time experience and the achievement of related industry for many years, and research and design goes out a kind of steam helical compression quick condenser, to overcome above-mentioned defect.

Utility model content

The purpose of this utility model is to provide a kind of steam helical compression quick condenser, and it is simple in structure, and simple operation is with low cost, can effectively overcome the defect of prior art.

For addressing the above problem, the utility model discloses a kind of steam helical compression quick condenser, comprise condensation housing and spiral condensate, it is characterized in that:

The tubular that described condensation housing is upper and lower opening, described spiral condensate is placed in condensation housing to realize the helical compression condensation of steam by rotary actuation, the upper end open of described condensation housing is provided with and is compressed into confession steam and enters, and lower ending opening is provided with compression outlet so that the liquid after spiral condensate condensation liquefaction is emitted;

Described spiral condensate is provided with rotating shaft, described rotating shaft is through the upper and lower opening of condensation housing, the periphery of described rotating shaft is provided with helical structure from top to bottom, the upper end of described helical structure is communicated in compression entrance, flows into helical structure also by flowing out from compression outlet helical structure thereby lower end is communicated in compression outlet steam from compression entrance.

Wherein: described helical structure sectional area from top to bottom reduces gradually.

Wherein: described helical structure is the metal spiral body that is formed at rotating shaft periphery, described metal spiral body forms helical structure in upper end to the lower end spiralization of rotating shaft and between rotating shaft and condensation housing, described metal spiral body reduces from top to bottom gradually from rotating shaft to the distance between condensation housing, and metal spiral body spacing from top to bottom also reduces gradually.

Wherein: described metal spiral body is welded in rotating shaft, and form closed structure between the periphery of metal spiral body and condensation housing.

Wherein: described metal spiral body is more than 50 circles.

Wherein: described rotating shaft two ends are extended and are provided with the bolster of reduced, are also provided with support, described support comprises and is positioned at rotating shaft two ends with the rotatable support portion connecting for bolster, and the support portion at two ends connects by many connecting rods.

Wherein: described support portion is also provided with bearing, the axle that holds of described spiral condensate is connected to slewing.

Wherein: the outside at condensation housing is provided with cooling device, the cooling water channel that described cooling device comprises spiral setting and/or be soldered to the spiral heat dissipation sheet of condensation housing.

Known by said structure, steam helical compression quick condenser of the present utility model has following effect:

1, by the method for helical compression, steam working medium is carried out to Fast Compression and condensation, there is higher practicality;

2, utilize cooling water to carry out equipment to this utility model cooling, compressed steam and cooling water use simultaneously, realize energy-conservation and function quick collection vapour liq working medium;

3, also have a process structure simple, cost is low, is convenient to processing, and steam working medium conversion efficiency is high, and the advantage such as economical and practical.

Detailed content of the present utility model can obtain by explanation described later and institute's accompanying drawing.

Brief description of the drawings

Fig. 1 has shown the structural representation of steam helical compression quick condenser of the present utility model.

Fig. 2 has shown the structural representation of the utility model spiral condensate.

Fig. 3 has shown the structural representation of another embodiment of the utility model.

Reference numeral:

10, condensation housing; 101, compression entrance; 102, compression outlet; 103, cooling device; 11, spiral condensate; 111, rotating shaft; 112, bolster; 113, metal spiral body; 12, support; 121, support; 122, connecting rod; 123, bearing.

Detailed description of the invention

Referring to Fig. 1 and 2, show steam helical compression quick condenser of the present utility model.

Described steam helical compression quick condenser comprises condensation housing 10 and spiral condensate 11, the tubular that described condensation housing 10 is upper and lower opening, described spiral condensate 11 is placed in condensation housing 10, to pass through rotary actuation, realize the helical compression condensation of steam, the upper end open of described condensation housing 10 is provided with compression entrance 101, enters for steam, lower ending opening is provided with compression outlet 102, so that the liquid after spiral condensate 11 condensation liquefactions is emitted.

For realizing the application's both vapor compression rapid condensation, described spiral condensate 11 is provided with rotating shaft 111, described rotating shaft 111 is through the upper and lower opening of condensation housing 10, the bolster 112 that is provided with reduced is extended at its two ends, the periphery of described rotating shaft 111 is provided with helical structure from top to bottom, the upper end of described helical structure is communicated in compression entrance 101, lower end is communicated in compression outlet 102, thereby steam flows into helical structure from compression entrance 101, and by flowing out from compression outlet 102 after helical structure, wherein, described rotating shaft can drive rotation by drive source, by helical structure, steam is carried out to rapid condensation, for realizing better rapid condensation, described helical structure sectional area from top to bottom reduces gradually, when thereby steam enters helical structure, volume is large, in rotary course, steam is constantly compressed by helical structure downwards, realize fast condensation.

For realizing the accurate location of spiral condensate 11, also be provided with support 12, described support 12 comprises and is positioned at rotating shaft 111 two ends with the rotatable support portion 121 connecting for bolster 112, the support portion 121 at two ends connects by many connecting rods 122, thereby form overall rotary support, described support portion 121 also can be provided with bearing 123, better be convenient to the rotation of bolster 112, the holding axle 112 and can be connected on the slewings such as motor of described spiral condensate 11, also can be provided with speed change gear, as speed change gear or hydraulic-gear, realize the rotary actuation of spiral condensate 11.

Referring to Fig. 2, show wherein a kind of preferred structure of the application's spiral condensate 11, in this structure, described helical structure is the metal spiral body 113 that is formed at rotating shaft 111 peripheries, described metal spiral body 113 forms helical structure in upper end to the lower end spiralization of rotating shaft 111 and between rotating shaft 111 and condensation housing 10, and for the sectional area of realizing helical structure reduces gradually, described metal spiral body 113 reduces from top to bottom gradually from rotating shaft 111 to the distance between condensation housing 10, and metal spiral body 113 spacing from top to bottom also reduces gradually, along with ramp distance and the volume of metal spiral body 113 constantly dwindle, form the structure that a cone or classification form cone, be compacted into liquid to last outlet, last output liquid working medium.

Wherein, described metal spiral body 112 is welded in rotating shaft 111, more than it is at least 50 circles, more than being preferably 100 circles, and forms closed structure between the periphery of metal spiral body 112 and condensation housing 10.

Referring to Fig. 3, at compressed steam, the temperature that causes the application is raise, simultaneously in order to accelerate the condensation rate of conveyor screw steam inside and to save power source, the application is provided with cooling device 103 in the outside of condensation housing 10, described cooling device 103 can be the cooling water channel that spiral arranges, the two ends of described cooling water channel are connected to coolant supply apparatus, thereby can adopt the cooling liquid moving in circles to lower the temperature to inner conveyor screw, described cooling device 103 can also be spiral heat dissipation sheet, described spiral heat dissipation sheet is soldered to condensation housing 10, thereby effectively increase area of dissipation, can also both all have, both cooling device 103 comprised cooling water channel and spiral heat dissipation sheet, spiral heat dissipation sheet can promote cooling water to accelerate to flow and circulation, can more effectively increase heat exchange effect.

As can be seen here, the application's principle is to utilize motor (or slewing) to drive this utility model equipment, the method that drive equipment spiral equipment compresses, steam working medium is carried out to Fast Compression and condensation, in order to save electric power energy and to accelerate condensation rate, it is cooling that this utility model also utilizes cooling water to carry out equipment to this utility model, and compressed steam and cooling water use simultaneously, realizes energy-conservation and function quick collection vapour liq working medium. Although increased motor and driving arrangement, condensation efficiency and speed are improved greatly, have very high practicality and novelty. Also to have process structure simple for this utility model equipment simultaneously, and cost is low, is convenient to processing, and steam working medium conversion efficiency is high, and the advantage such as economical and practical.

This utility model equipment steam inlet volume is large, and liquid outlet volume is little, so this metal spiral equipment mostly is vertebral body structure, or classification vertebral body structure. Steam inlet opening is large, and the every circle volume in spiral road progressively reduces, and inner space volume constantly reduces to form small space, constantly carries out both vapor compression, and final outlet forms liquid.

It is evident that above description and to record be only for example instead of in order to limit disclosure of the present utility model, application or use. Although described in an embodiment and be described in the drawings embodiment, but the utility model does not limit by accompanying drawing example and the optimal mode thought at present of conduct of describing in an embodiment to implement the specific examples of instruction of the present utility model, scope of the present utility model will comprise any embodiment that falls into description above and appended claim.

Claims (8)

1. a steam helical compression quick condenser, comprises condensation housing and spiral condensate,It is characterized in that:

The tubular that described condensation housing is upper and lower opening, described spiral condensate is placed in condensation housingInterior to realize the helical compression condensation of steam by rotary actuation, open the upper end of described condensation housingMouth is provided with and is compressed into confession steam and enters, and lower ending opening is provided with compression outlet with by spiral condensateLiquid after condensation liquefaction is emitted;

Described spiral condensate is provided with rotating shaft, and described rotating shaft is opened up and down through condensation housingMouthful, the periphery of described rotating shaft is provided with helical structure from top to bottom, and the upper end of described helical structure connectsLead in compression entrance, thereby lower end is communicated in compression outlet, steam flows into spiral knot from compression entranceStructure is also by flowing out from compression outlet after helical structure.

2. steam helical compression quick condenser as claimed in claim 1, is characterized in that:Described helical structure sectional area from top to bottom reduces gradually.

3. steam helical compression quick condenser as claimed in claim 1, is characterized in that:Described helical structure is the metal spiral body that is formed at rotating shaft periphery, and described metal spiral body is turningThe spiralization of the upper end of axle to lower end also forms helical structure, institute between rotating shaft and condensation housingState metal spiral body and reduce gradually from top to bottom from rotating shaft to the distance between condensation housing, and goldBelonging to conveyor screw spacing from top to bottom also reduces gradually.

4. steam helical compression quick condenser as claimed in claim 3, is characterized in that:Described metal spiral body is welded in rotating shaft, and between the periphery of metal spiral body and condensation housingForm closed structure.

5. steam helical compression quick condenser as claimed in claim 3, is characterized in that:Described metal spiral body is more than 50 circles.

6. as the steam helical compression quick condenser as described in arbitrary in claim 1 to 5, itsBe characterised in that: the bolster that is provided with reduced is extended at described rotating shaft two ends, is also provided with support,Described support comprise be positioned at rotating shaft two ends with rotatable for bolster connect support portion, two endsSupport portion connect by many connecting rods.

7. steam helical compression quick condenser as claimed in claim 6, is characterized in that:Described support portion is also provided with bearing, and the axle that holds of described spiral condensate is connected to slewing.

8. as the steam helical compression quick condenser as described in arbitrary in claim 1 to 5, itsBe characterised in that: the outside at condensation housing is provided with cooling device, described cooling device comprises spiralThe cooling water channel arranging and/or be soldered to the spiral heat dissipation sheet of condensation housing.