CN205980446U - Heat exchanger with store liquid, energy -conservation, hydrops function - Google Patents

Abstract

The utility model mainly discloses a heat exchanger with store liquid, energy -conservation, hydrops function, its technical scheme: including the conveyer pipe, the first casing that cooling tube and outside -in set up, second casing and third casing, form the stock solution chamber between first casing and the second casing, form the cooling chamber between second casing and the third casing, the conveyer pipe is the U -shaped, the conveyer pipe includes the feed liquor pipe, drain pipe and connecting pipe, feed liquor pipe and drain pipe run through the second casing respectively and the third casing stretches into in the first casing, the connecting pipe is located first casing, the bottom of connecting pipe is equipped with the liquid outlet, the cooling tube is located the cooling intracavity, and along the setting of spiraling of the outer wall circumference of third casing, be equipped with the import of first refrigerant on the cooling tube, import of second refrigerant and refrigerant outlet. The utility model discloses cool time grows, the condenser cooling surface guangZhou, and the input condition of easily adjusting coolant had both improved heat exchange efficiency, still had the liquid of storing, energy -conservation and hydrops function, and the practicality is strong.

Description

A kind of have reservoir, energy-conservation, the heat exchanger of hydrops function

Technical field

This utility model is related to a kind of there is reservoir, energy-conservation, the heat exchanger of hydrops function.

Background technology

In prior art, heat exchanger is also known as heat-exchange apparatus and heat exchanger, is used to make heat transmit from hot fluid To cold flow body, to meet the device of the technological requirement of regulation, it is a kind of commercial Application of convection heat transfer' heat-transfer by convection and conduction of heat.Heat exchanger can Differently to classify.Dividing wall type, hybrid, heat accumulating type (or claiming back-heating type) three major types can be divided into by its operating process； Close-coupled and non-close-coupled two class can be divided into by the compactness on its surface.Liquid reservoir as the container of storing liquid cold-producing medium, It is indispensable ingredient in heat exchanger, the Main Function of liquid reservoir is storage coolant, impurity screening and absorbs moisture. In general refrigeration system, heat exchanger and reservoir are provided separately, and are two different parts, more waste of materials, and The coolant temperature being passed through heat exchanger is non-adjustable, and after the effect of a period of time cooling, cooling effect declines, pumped (conveying) medium Contact area and cooling medium between and time of contact not, lead to the heat exchanger effectiveness of heat exchanger not high.

Utility model content

The purpose of this utility model is the many deficiencies for prior art, provides one kind to have reservoir, energy-conservation, hydrops The heat exchanger of function, cool time is long, and film-cooled heat is wide, easily adjusts the input condition of cooling medium, had both improve heat exchange Efficiency, also has reservoir, energy-conservation and hydrops function, practical.

In order to solve above-mentioned technical problem, this utility model adopts the following technical scheme that：

A kind of have reservoir, energy-conservation, the heat exchanger of hydrops function, sets including delivery pipe, cooling tube and ecto-entad The first housing, the second housing and the 3rd housing put, forms liquid storage cylinder, the second housing and the between the first housing and the second housing Form cooling chamber, delivery pipe takes the shape of the letter U, delivery pipe includes feed tube, drain pipe and connecting tube, feed tube and go out liquid between three housings One end of pipe is located at the outside of the first housing, and the other end of feed tube and drain pipe extends through the second housing and the 3rd housing is stretched Enter in first shell body, connecting tube is located in first shell body, and the bottom of connecting tube is provided with liquid outlet, cooling tube is located at cooling intracavity, And the outer wall circumference along the 3rd housing spirals setting, cooling tube is provided with the first refrigerant import, the second refrigerant import and coolant Outlet.It is flowed in the 3rd housing from feed tube from the cold-producing medium of compressor High Temperature High Pressure out, cooling medium is cold from first Matchmaker's import enters into cooling tube, after absorbing the heat of cold-producing medium in the 3rd housing, then flows out from refrigerant exit, additionally, protecting While holding the first refrigerant import and be passed through cooling medium, identical or different coolings can also be passed through in the second refrigerant import and be situated between Matter, improves heat transfer effect；Cold-producing medium becomes the cold-producing medium of cryogenic high pressure after feed tube is cooled the cooling effect of pipe, then Enter into connecting tube, the refrigerant liquid of a part enters into storage, the refrigeration of another part in first shell body by liquid outlet Agent liquid is re-introduced into being cooled the cooling effect of pipe in the 3rd housing by drain pipe, further will be wherein gaseous Cold-producing medium is changed into liquid, improves the cooling effect of cold-producing medium；Cooling tube is arranged on cooling intracavity, simultaneously in the 3rd housing Pumped (conveying) medium and liquid storage cylinder in liquid cooled down, cooling tube spirals setting, changes the flow direction of cooling medium, increases Flowing time, expands the contact area with pumped (conveying) medium, thus improving cooling heat transferring efficiency；By the liquid storage cylinder in first shell body Storage lime set, reduces other equipment, reduces cost, save energy, stores the partially liq of delivery pipe simultaneously, both avoided lime set Accumulate excessive within the condenser and so that heat transfer area is diminished, affect heat-transfer effect, adapt to the load change of vaporizer to supply again The demand of amount, when Load Evaporator is excessive, technique amount also increases, and by the liquid storage supply of liquid storage cylinder, load becomes hour, needs liquid Amount also reduces, and unnecessary liquid storage is stored in liquid storage intracavity, using flexible.

Further, the inwall of the first housing is provided with heat-insulation layer.The heat-insulation layer of setting is used for ensureing the cooling of cooling medium Effect, it is to avoid absorb extraneous heat, reduces scattering and disappearing of energy, improves heat exchange efficiency, save energy.

Further, the second housing and the 3rd housing are provided with two, and the 3rd housing corresponds respectively and is arranged on accordingly The second housing inside.Setting two the second housings and the 3rd housing, make the second housing and the 3rd housing respectively with feed tube Correspond with drain pipe, improve heat exchange efficiency.

Further, feed tube is located in one of in the 3rd housing, and drain pipe is located in another the 3rd housing, feed tube It is provided with the first drainage screen, drain pipe is provided with the second drainage screen, feed tube, drain pipe and connecting tube are formed in one structure. Feed tube and drain pipe are separately positioned in different housings and are cooled down respectively, it is to avoid interfere, improve cooling effectiveness, First drainage screen of setting avoids the impurity in the external world to enter in heat exchanger with pumped (conveying) medium, reduces heat transfer effect, setting The second drainage screen avoid the impurity in heat exchanger to enter in other equipment with pumped (conveying) medium, affect whole refrigeration system Work；Feed tube, drain pipe and connecting tube are integrally formed, and manufacturing process is simple, assembling is easy, reusable, and reduction sets Standby cost.

Further, cooling tube is fixed on the medial wall of the second housing by fixed support, and cooling tube includes being interconnected The first spiral group and the second spiral group, the first spiral group be located at feed tube at, the second spiral group be located at drain pipe at.To cool down Gutron is crossed fixed support and is fixed on the medial wall of the second housing, is connected firmly between cooling tube and the second housing, prevents from cooling down The impact that medium produces in circulation makes the position of cooling tube produce skew, reduces cooling effect, support bracket fastened setting simultaneously It is easy to dismounting and the installation of cooling tube, if cooling tube needs to replace or clean, easily cooling tube is disassembled and tieed up Shield, increases cooling tube and heat exchanger service life；Cooling tube is divided into the first spiral group and the second spiral group, to feed tube and Drain pipe is cooled down respectively, dual-cooled, improves cooling heat transferring effect.

Further, the first refrigerant import is located at the lower end of the first spiral group and stretches out the first housing, the second refrigerant import position In the lower end of the second spiral group and stretch out the first housing, refrigerant exit is located at the upper end of the second spiral group and stretches out the first housing. First refrigerant import and the second refrigerant import are arranged on lower end, refrigerant exit is arranged on upper end so that cooling medium and conveying Pumped (conveying) medium in pipe completely attaches to, and cool time is long, and cooling effect is good.

Further, it is provided with temperature sensor and ultraviolet sterilizer in the 3rd housing.The temperature sensor of setting is used for sensing Temperature conditionss in 3rd housing and the cooling situation of pumped (conveying) medium, if the temperature in the 3rd housing for the temperature sensor senses Higher then open the second refrigerant import it is impossible to ensure the cooling effect of pumped (conveying) medium well, increase the input of cooling medium, Strengthen the cooling heat transferring of cooling medium；Pumped (conveying) medium in delivery pipe is carried out sterilizing by the ultraviolet sterilizer of setting, improves The cleanliness of pumped (conveying) medium, strengthens the safety in utilization of heat exchanger.

Further, the outside of the first housing is provided with mounting seat, and mounting seat is provided with installing hole.The mounting seat of setting is easy to heat The fixation of exchanger and installation, improve mounting stability and the fastness of heat exchanger, can be fixed on arbitrarily heat exchanger Position, expands the fitting limit of heat exchanger；The installing hole of setting is easily installed connection and the fixation between seat and other equipment, Save the set-up time.

This utility model, due to employing technique scheme, has the advantages that：

It is flowed in the 3rd housing from feed tube from the cold-producing medium of compressor High Temperature High Pressure out, cooling medium is from first Refrigerant import enters into cooling tube, after absorbing the heat of cold-producing medium in the 3rd housing, then flows out from refrigerant exit, additionally, While keeping the first refrigerant import to be passed through cooling medium, identical or different coolings can also be passed through in the second refrigerant import Medium, improves heat transfer effect；Cold-producing medium becomes the cold-producing medium of cryogenic high pressure after feed tube is cooled the cooling effect of pipe, so After enter into connecting tube, the refrigerant liquid of a part passes through liquid outlet and enters in first shell body to store, the system of another part Cryogen liquid is re-introduced into being cooled the cooling effect of pipe in the 3rd housing by drain pipe, further will wherein gaseous state Cold-producing medium be changed into liquid, improve the cooling effect of cold-producing medium；Cooling tube is arranged on cooling intracavity, simultaneously to the 3rd housing Liquid in interior pumped (conveying) medium and liquid storage cylinder is cooled down, and cooling tube spirals setting, changes the flow direction of cooling medium, increases Plus flowing time, expand the contact area with pumped (conveying) medium, thus improving cooling heat transferring efficiency；By the liquid storage in first shell body Chamber stores lime set, reduces other equipment, reduces cost, stores the partially liq of delivery pipe simultaneously, has both avoided lime set in condensation Accumulate excessive in device and so that heat transfer area is diminished, affect heat-transfer effect, again the need to supply for the load change of adaptation vaporizer Ask, when Load Evaporator is excessive, technique amount also increases, by the liquid storage supply of liquid storage cylinder, load becomes hour, needs liquid measure also to subtract Little, unnecessary liquid storage is stored in liquid storage intracavity, using flexible.

This utility model is long for cool time, and film-cooled heat is wide, easily adjusts the input condition of cooling medium, has both improve heat friendship Change efficiency, also there is reservoir, energy-conservation and hydrops function, practical.

Brief description

The utility model is described in further detail below in conjunction with the accompanying drawings：

Fig. 1 is that this utility model is a kind of has reservoir, energy-conservation, the structural representation of the heat exchanger of hydrops function.

Reference：11st, feed tube；111st, the first drainage screen；12nd, drain pipe；121st, the second drainage screen；13rd, connecting tube； 131st, liquid outlet；2nd, cooling tube；21st, the first refrigerant import；22nd, the second refrigerant import；23rd, refrigerant exit；24th, the first spiral Group；25th, the second spiral group；3rd, the first housing；31st, liquid storage cylinder；4th, the second housing；41st, cooling chamber；42nd, heat-insulation layer；5th, the 3rd shell Body；51st, temperature sensor；52nd, ultraviolet sterilizer；6th, mounting seat.

Specific embodiment

As shown in figure 1, for of the present utility model a kind of there is reservoir, energy-conservation, the heat exchanger of hydrops function, include convey First housing 3 of pipe, cooling tube 2 and ecto-entad setting, the second housing 4 and the 3rd housing 5, the outside of the first housing 3 sets There is mounting seat 6, mounting seat 6 is provided with installing hole.The mounting seat 6 of setting is easy to fixation and the installation of heat exchanger, improves heat and hands over Heat exchanger can be fixed on arbitrary position, expand the fitting limit of heat exchanger by the mounting stability of parallel operation and fastness； The installing hole of setting is easily installed connection and the fixation between seat 6 and other equipment, saves the set-up time.First housing 3 interior Wall is provided with heat-insulation layer 42, and the heat-insulation layer 42 of setting is used for ensureing the cooling effect of cooling medium, it is to avoid absorb extraneous heat, Reduce scattering and disappearing of energy, improve heat exchange efficiency, save energy.Form liquid storage cylinder 31 between first housing 3 and the second housing 4, the Form cooling chamber 41, the second housing 4 and the 3rd housing 5 are provided with two, the 3rd housing 5 between two housings 4 and the 3rd housing 5 Correspond the inside being arranged on corresponding second housing 4 respectively.Two the second housings 4 of setting and the 3rd housing 5, make second shell Body 4 and the 3rd housing 5 are corresponded with feed tube 11 and drain pipe 12 respectively, improve heat exchange efficiency.

Delivery pipe takes the shape of the letter U, and delivery pipe includes feed tube 11, drain pipe 12 and connecting tube 13, feed tube 11 and drain pipe 12 One end be located at the outside of the first housing 3, the other end of feed tube 11 and drain pipe 12 extends through the second housing 4 and the 3rd shell Body 5 stretches in the first housing 3, and feed tube 11 is located in one of in the 3rd housing 5, and drain pipe 12 is located at another the 3rd housing In 5, feed tube 11 is provided with the first drainage screen 111, and drain pipe 12 is provided with the second drainage screen 121, feed tube 11, drain pipe 12 It is formed in one structure with connecting tube 13.Feed tube 11 and drain pipe 12 are separately positioned in different housings carry out respectively cold But, it is to avoid interfere, improve cooling effectiveness, the first drainage screen 111 of setting avoids the impurity in the external world to enter with pumped (conveying) medium Enter in heat exchanger, reduce heat transfer effect, the second drainage screen 121 of setting avoids the impurity in heat exchanger to be situated between with conveying Matter enters in other equipment, affects the work of whole refrigeration system；Feed tube 11, drain pipe 12 become with connecting tube 13 one Type, manufacturing process is simple, assembling is easy, reusable, reduces equipment cost.Connecting tube 13 is located in the first housing 3, connects The bottom of pipe 13 is provided with liquid outlet 131, and liquid outlet 131 is connected with liquid storage cylinder 31, is stored by the liquid storage cylinder 31 in the first housing 3 Lime set, reduces other equipment, reduces cost, save energy, stores the partially liq of delivery pipe simultaneously, both avoided lime set cold Accumulate excessive in condenser and so that heat transfer area is diminished, affect heat-transfer effect, adapt to the load change of vaporizer to supply again Demand, when Load Evaporator is excessive, technique amount also increases, and by the liquid storage supply of liquid storage cylinder 31, load becomes hour, needs liquid measure Also reduce, unnecessary liquid storage is stored in liquid storage cylinder 31, using flexible.

Cooling tube 2 is located in cooling chamber 41, and the outer wall circumference along the 3rd housing 5 is spiraled setting, and cooling tube 2 passes through to consolidate Fixed rack is fixed on the medial wall of the second housing 4, and cooling tube 2 includes the first spiral group 24 being interconnected and the second spiral group 25, the first spiral group 24 is located at feed tube 11, and the second spiral group 25 is located at drain pipe 12.Cooling tube 2 is passed through fixing Frame is fixed on the medial wall of the second housing 4, is connected firmly between cooling tube 2 and the second housing 4, prevents cooling medium in circulation When the impact that produces make the position of cooling tube 2 produce skew, reduce cooling effect, cooling tube is easy in support bracket fastened setting simultaneously Cooling tube 2, if cooling tube 2 needs to replace or clean, is easily disassembled and is safeguarded, increase by 2 dismounting and installation Cooling tube 2 and heat exchanger service life；Cooling tube 2 is divided into the first spiral group 24 and the second spiral group 25, to feed tube 11 Cooled down respectively with drain pipe 12, dual-cooled, improved cooling heat transferring effect.Cooling tube 2 is arranged in cooling chamber 41, with When the liquid in the pumped (conveying) medium and liquid storage cylinder 31 in the 3rd housing 5 is cooled down, cooling tube 2 spirals setting, changes cooling The flow direction of medium, increases flowing time, expands the contact area with pumped (conveying) medium, thus improving cooling heat transferring efficiency.Cold But pipe 2 is provided with the first refrigerant import 21, the second refrigerant import 22 and refrigerant exit 23, and the first refrigerant import 21 is located at the first spiral shell The lower end of rotation group 24 and stretch out the first housing 3, the second refrigerant import 22 is located at the lower end of the second spiral group 25 and stretches out first shell Body 3, refrigerant exit 23 is located at the upper end of the second spiral group 25 and stretches out the first housing 3；Will be cold for the first refrigerant import 21 and second Matchmaker's import 22 is arranged on lower end, and refrigerant exit 23 is arranged on upper end so that cooling medium is complete with the pumped (conveying) medium in delivery pipe Contact, and cool time is long, cooling effect is good.

It is provided with temperature sensor 51 and ultraviolet sterilizer 52 in 3rd housing 5.The temperature sensor 51 of setting is used for sensing Temperature conditionss in 3rd housing 5 and the cooling situation of pumped (conveying) medium, if temperature sensor 51 senses in the 3rd housing 5 Temperature drift it is impossible to ensure the cooling effect of pumped (conveying) medium well, then opens the second refrigerant import 22, increases cooling medium Input, strengthens the cooling heat transferring of cooling medium；Pumped (conveying) medium in delivery pipe is carried out sterilization and disappears by the ultraviolet sterilizer 52 of setting Poison, improves the cleanliness of pumped (conveying) medium, strengthens the safety in utilization of heat exchanger.

Be flowed in the 3rd housing 5 from feed tube 11 from the cold-producing medium of compressor High Temperature High Pressure out, cooling medium from First refrigerant import 21 enters into cooling tube 2, after absorbing the heat of cold-producing medium in the 3rd housing 5, then flows from refrigerant exit 23 Go out, additionally, while keeping the first refrigerant import 21 to be passed through cooling medium, can also be passed through identical in the second refrigerant import 22 Or different cooling mediums, improves heat transfer effect；Cold-producing medium becomes low after feed tube 11 is cooled the cooling effect of pipe 2 The cold-producing medium of warm high pressure, then into connecting tube 13, the refrigerant liquid of a part enters into first shell by liquid outlet 131 Storage in body 3, the refrigerant liquid of another part is re-introduced in the 3rd housing 5 by drain pipe 12, is cooled pipe 2 Wherein gaseous cold-producing medium is changed into liquid, improves the cooling effect of cold-producing medium by cooling effect further.

These are only specific embodiment of the utility model, but technical characteristic of the present utility model is not limited thereto.Appoint How, based on this utility model, for solving essentially identical technical problem, realize essentially identical technique effect, done Simple change, equivalent or modification etc., are all covered by among protection domain of the present utility model.

Claims (8)

1. a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Including delivery pipe, cooling tube and by The first housing, the second housing and the 3rd housing arranging outside to inside, forms storage between described first housing and described second housing Sap cavity, forms cooling chamber between described second housing and described 3rd housing, described delivery pipe takes the shape of the letter U, and described delivery pipe includes Feed tube, drain pipe and connecting tube, one end of described feed tube and described drain pipe is located at the outside of described first housing, described The other end of feed tube and described drain pipe extends through described second housing and described 3rd housing stretches into described first housing Interior, described connecting tube is located in described first shell body, and the bottom of described connecting tube is provided with liquid outlet, and described cooling tube is located at described Cooling intracavity, and the outer wall circumference along described 3rd housing spirals setting, described cooling tube be provided with the first refrigerant import, the Two refrigerant imports and refrigerant exit.

2. according to claim 1 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described The inwall of the first housing is provided with heat-insulation layer.

3. according to claim 1 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described Second housing and described 3rd housing are provided with two, and described 3rd housing corresponds respectively and is arranged on described accordingly The inside of two housings.

4. according to claim 3 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described Feed tube is located in one of in described 3rd housing, and described drain pipe is located in another described 3rd housing, described feed liquor Pipe is provided with the first drainage screen, and described drain pipe is provided with the second drainage screen, described feed tube, described drain pipe and described connection Pipe is formed in one structure.

5. according to claim 1 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described Cooling tube is fixed on the medial wall of described second housing by fixed support, and described cooling tube includes the first spiral shell being interconnected Rotation group and the second spiral group, described first spiral group is located at described feed tube, and described second spiral group is located at described drain pipe Place.

6. according to claim 5 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described First refrigerant import is located at the lower end of described first spiral group and stretches out described first housing, and described second refrigerant import is located at institute State the lower end of the second spiral group and stretch out described first housing, described refrigerant exit is located at the upper end of described second spiral group and stretches Go out described first housing.

7. according to claim 1 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described It is provided with temperature sensor and ultraviolet sterilizer in 3rd housing.

8. according to claim 1 a kind of have reservoir, energy-conservation, hydrops function heat exchanger it is characterised in that：Described The outside of the first housing is provided with mounting seat, and described mounting seat is provided with installing hole.