CN206831880U - A kind of condenser of two level cooling - Google Patents

Abstract

The utility model discloses a kind of condenser of the two level that coolant utilization rate is high and condensation effect is good cooling,Including shell,Baffle plate and condenser pipe,Shell includes carbon steel layer and stainless steel layer successively from outside to inside,Baffle plate setting is in shell,Baffle plate includes first baffle successively from left to right,Second baffle and third baffle,First baffle and third baffle set the same side inside the housing,Second baffle sets opposite side inside the housing,First baffle,Enclosure is divided into the first cavity by second baffle and third baffle,Second cavity,3rd cavity and the 4th cavity,Condenser pipe includes condensation feed tube,Condense drain pipe and tipping tube,Feed tube is condensed to set in barreled helical structure,The tapered helical structure of drain pipe is condensed to set,Condensation feed tube is set on condensation drain pipe,Tipping tube is used to connect condensation feed tube and condensation drain pipe,Condenser pipe is provided with two,Two condenser pipes are separately positioned in the second cavity and the 3rd cavity.

Description

A kind of condenser of two level cooling

Technical field

It the utility model is related to a kind of condenser of two level cooling.

Background technology

Condenser is the parts of refrigeration system, belongs to one kind of heat exchanger, gas or steam can be transformed into liquid, will managed Heat in son, in a manner of quickly, pass in the air near pipe.Condenser working process is the process of heat release, institute All it is higher with condenser temperature.

The single material of existing condenser casing generally use is made, if be made and can made of stainless steel material merely Cost increase, if simple be made of carbon steel material can cause corrosion-resistant；In addition, the coolant profit of existing condenser pipe It is not high with rate, the waste of the energy can be caused, while reduce the efficiency of energy utilization of whole cooler；In addition, existing condenser Gas generally is carried out into once cooling to discharge from exhaust outlet, is extremely difficult to preferable cooling effect, condensation effect is poor.

It is accordingly required in particular to a kind of condenser for the two level cooling that coolant utilization rate is high and condensation effect is good, to solve Problems of the prior art.

Utility model content

The defects of the purpose of this utility model is to solve in the prior art, there is provided a kind of coolant utilization rate is high and cold The condenser of the good two level cooling of solidifying effect, to solve problems of the prior art.

To achieve the above object, the technical solution of the utility model is as follows：

A kind of condenser of two level cooling, including shell, baffle plate and condenser pipe, the shell include carbon successively from outside to inside Steel layer and stainless steel layer, air inlet is provided with the shell left side, exhaust outlet is provided with the shell right side, it is described For baffle plate setting in shell, the baffle plate includes first baffle, second baffle and third baffle successively from left to right, and described first Baffle plate and third baffle set the same side inside the housing, and the second baffle sets opposite side inside the housing, and described the Enclosure is divided into the first cavity, the second cavity, the 3rd cavity and the 4th sky by one baffle plate, second baffle and third baffle Chamber, first cavity, the second cavity, the 3rd cavity and the 4th cavity are sequentially communicated setting, the condenser pipe include condensing into Liquid pipe, condensation drain pipe and tipping tube, the condensation feed tube are set in barreled helical structure, and the condensation drain pipe is tapered Helical structure set, it is described condensation feed tube be set in condensation drain pipe on, the tipping tube be used for connect condensation feed tube and Drain pipe is condensed, the condenser pipe is provided with two, and two condenser pipes are separately positioned in the second cavity and the 3rd cavity.

In order to further realize the utility model, paint film is provided with the outer surface of the carbon steel layer.

In order to further realize the utility model, the fixing end of the first baffle, second baffle and third baffle with it is outer Rubber damper is provided between shell inwall.

In order to further realize the utility model, spring is provided with the rubber damper.

In order to further realize the utility model, described tipping tube one end is connected with condensation feed tube right end, described The tipping tube other end connects with the big footpath cone bottom of condensation drain pipe.

In order to further realize the utility model, the upper end oral area of the condensation feed tube of two condenser pipes passes through cooling Liquid feed liquor house steward connects.

In order to further realize the utility model, the upper end oral area of the condensation drain pipe of two condenser pipes passes through condensation Liquid go out liquid house steward connects.

Beneficial effect

(1) the utility model includes carbon steel layer and stainless steel layer, stainless steel corrosion resistance successively from outside to inside by shell It is very strong, and carbon steel cost is low, but corrosion resistance is poor, internal layer is stainless steel, has stronger brain corrosivity, when outer layer is Carbon steel layer, that is, cost increase caused by all using stainless steel is avoided, the corrosion resistance of shell can be improved again.

(2) the utility model condenser pipe includes condensation feed tube, condensation drain pipe and tipping tube, in use, coolant from The upper end oral area for condensing feed tube enters, and discharges coolant from top to bottom, and energy gradually uses up, and condensation feed tube is in barreled spiral Structure setting, the utilization rate to coolant can be improved, accelerate the discharge of coolant by tipping tube, after tipping tube in pipe Coolant overturns the circulation of coolant from the circulation clockwise of condensation feed tube to the circulation counterclockwise from condensation drain pipe Afterwards, the consumption of coolant internal energy is accelerated, effectively increases the utilization rate of coolant, by condensing the tapered spiral shell of drain pipe Structure setting is revolved, fully uses its coolant dump energy again in the condensation tapered large diameter end of drain pipe spiral, then gradually add Speed discharge, be advantageous to improve the utilization rate of coolant, while effectively maintain the overall output effect of condenser pipe, improve condenser Operating efficiency.

(3) when in use, gas enters the first cavity to the utility model from air inlet, by first baffle stop to Lower motion, moved upwards by the stop of second baffle hence into the second cavity, gas, first is carried out in the second cavity Secondary cooling, then into the 3rd cavity, gas is moved downward by the stop of third baffle, and second is carried out in the 3rd cavity Secondary cooling, make to carry out cooling twice in gas, good cooling results, simultaneously because the effect of baffle plate, is the path that gas flows Increase, gas lengthens in the time of condenser, further improves cooling effect.

Brief description of the drawings

Fig. 1 is the structural representation of the condenser of the utility model two level cooling；

Fig. 2 is the partial sectional view of shell in the condenser that the utility model two level cools down；

Fig. 3 is the structural representation of rubber damper in the condenser that the utility model two level cools down；

Fig. 4 is the structural representation of condenser pipe in the condenser that the utility model two level cools down.

Description of reference numerals：

1st, shell；11st, carbon steel layer；12nd, stainless steel layer；13rd, paint film；14th, air inlet；15th, exhaust outlet；21st, first baffle； 22nd, second baffle；23rd, third baffle；24th, rubber damper；241st, spring；25th, the first cavity；26th, the second cavity；27th, Three cavitys；28th, the 4th cavity；3rd, condenser pipe；31st, feed tube is condensed；32nd, drain pipe is condensed；33rd, tipping tube；34th, coolant is entered Liquid house steward；35th, condensate liquid go out liquid house steward.

Embodiment

The utility model is further described in detail below in conjunction with the accompanying drawings, these accompanying drawings are simplified signal Figure, only illustrates basic structure of the present utility model, the direction of this specific implementation is using Fig. 1 directions as standard in a schematic way.

Embodiment one

As Figure 1-Figure 4, the condenser of the utility model two level cooling includes shell 1, baffle plate and condenser pipe 3, wherein：

Shell 1 includes carbon steel layer 11 and stainless steel layer 12 successively from outside to inside, and stainless steel corrosion resistance is very strong, and carbon steel Cost is low, but corrosion resistance is poor, and internal layer is stainless steel layer 12, has stronger brain corrosivity, when outer layer is carbon steel layer 11, Cost increase caused by all using stainless steel is avoided, the corrosion resistance of shell 1, the appearance of carbon steel layer 11 can be improved again Paint film 13 is provided with face, due to the presence of paint film 13, the part of carbon steel layer 11 that the outside of shell 1 often contacts with water or steam, It is not easy to be corroded, air inlet 14 is provided with the left surface of shell 1, exhaust outlet 15 is provided with the right flank of shell 1.

For baffle plate setting in shell 1, baffle plate includes first baffle 21, second baffle 22 and third baffle successively from left to right 23, first baffle 21 and third baffle 23 are arranged on the inside the same side of shell 1, and second baffle 22 is arranged on another inside shell 1 Side, rubber damping is provided between first baffle 21, the fixing end of second baffle 22 and third baffle 23 and the inwall of shell 1 Pad 24, spring 241 is provided with rubber damper 24, good effectiveness in vibration suppression is played, prevents gas collisions first baffle 21, Condenser produces vibration when two baffle plates 22 and third baffle 23, reduces noise, while improve the service life of condenser, first gear Plate 21, second baffle 22 and third baffle 23 will be divided into the first cavity 25, the second cavity 26, the 3rd cavity 27 inside shell 1 With the 4th cavity 28, the first cavity 25, the second cavity 26, the 3rd cavity 27 and the 4th cavity 28 are sequentially communicated setting.

Condenser pipe 3 includes condensation feed tube 31, condensation drain pipe 32 and tipping tube 33, and condensation feed tube 31 is in barreled spiral Structure setting, 32 tapered helical structure of condensation drain pipe are set, and condensation feed tube 31 is set on condensation drain pipe 32, condensation Feed tube 31 and condensation drain pipe 32 are provided with gap, and tipping tube 33 is used to connect condensation feed tube 31 and condensation drain pipe 32, The one end of tipping tube 33 is connected with the condensation right end of feed tube 31, the other end of tipping tube 33 and 32 big footpath of condensation drain pipe cone bottom end End connection, in use, coolant enters from the upper end oral area of condensation feed tube 31, coolant is discharged from top to bottom, energy is gradual Consumption, condensation feed tube 31 set in barreled helical structure, can improve the utilization rate to coolant, be accelerated by tipping tube 33 cold But the discharge of liquid, coolant after tipping tube 33 in pipe is from the circulation clockwise of condensation feed tube 31 to from condensation drain pipe 32 circulation counterclockwise, after the circulation upset of coolant, the consumption of coolant internal energy is accelerated, effectively increases cooling The utilization rate of liquid, set by condensing 32 tapered helical structure of drain pipe, in the condensation tapered bigger diameter end of the spiral of drain pipe 32 Portion fully uses its coolant dump energy again, then ramps up discharge, is advantageous to improve the utilization rate of coolant, while effectively The overall output effect of condenser pipe 3 is maintained, improves the operating efficiency of condenser, condenser pipe 3 is provided with two, two condenser pipes 3 are separately positioned in the second cavity 26 and the 3rd cavity 27, and the upper end oral area of the condensation feed tube 31 of two condenser pipes 3 passes through cold But liquid feed liquor house steward 34 is connected, and the upper end oral area of the condensation drain pipe 32 of two condenser pipes 3 is connected by condensate liquid go out liquid house steward 35 Connect.

In summary, in use, gas enters the first cavity 25 from air inlet 14, by first baffle 21 stop to Lower motion, moved by the stop of second baffle 22 hence into the second cavity 26, gas, enter in the second cavity 26 upwards Row cools down for the first time, and then into the 3rd cavity 27, gas is moved downward by the stop of third baffle 23, in the 3rd cavity Carry out cooling down for second in 27, make to carry out cooling twice, good cooling results, simultaneously because the effect of baffle plate, is gas in gas The path of body flowing increases, and gas lengthens in the time of condenser, further improves cooling effect.

Better embodiment of the present utility model is the foregoing is only, the utility model is not limited to above-mentioned embodiment party Formula, local small structural modification is there may be in implementation process, if various changes or modifications to the utility model are not Depart from spirit and scope of the present utility model, and belong within the scope of the claims and equivalents of the utility model, then originally Utility model is also intended to comprising these changes and modification.

Claims (7)

1. a kind of condenser of two level cooling, it is characterised in that including shell, baffle plate and condenser pipe, the shell is from outside to inside Include carbon steel layer and stainless steel layer successively, be provided with air inlet on the shell left side, be provided with the shell right side Exhaust outlet, for the baffle plate setting in shell, the baffle plate includes first baffle, second baffle and third gear successively from left to right Plate, the first baffle and third baffle set the same side inside the housing, and the second baffle sets inside the housing another Enclosure is divided into the first cavity, the second cavity, the 3rd sky by side, the first baffle, second baffle and third baffle Chamber and the 4th cavity, first cavity, the second cavity, the 3rd cavity and the 4th cavity are sequentially communicated setting, the condenser pipe Including condensation feed tube, condensation drain pipe and tipping tube, the condensation feed tube is set in barreled helical structure, described to be condensed out The tapered helical structure of liquid pipe is set, and the condensation feed tube is set on condensation drain pipe, and the tipping tube is cold for connecting Solidifying feed tube and condensation drain pipe, the condenser pipe are provided with two, two condenser pipes be separately positioned on the second cavity and In 3rd cavity.

2. the condenser of two level cooling according to claim 1, it is characterised in that set on the outer surface of the carbon steel layer There is paint film.

3. the condenser of two level according to claim 1 cooling, it is characterised in that the first baffle, second baffle and Rubber damper is provided between the fixing end and outer casing inner wall of third baffle.

4. the condenser of two level cooling according to claim 3, it is characterised in that be provided with bullet in the rubber damper Spring.

5. the condenser of two level cooling according to claim 1, it is characterised in that described tipping tube one end and condensation feed liquor Pipe right end connects, and the tipping tube other end connects with the big footpath cone bottom of condensation drain pipe.

6. the condenser of two level cooling according to claim 1, it is characterised in that the condensation feed liquor of two condenser pipes The upper end oral area of pipe is connected by coolant feed liquor house steward.

7. the condenser of two level according to claim 6 cooling, it is characterised in that two condenser pipes are condensed out liquid The upper end oral area of pipe is connected by condensate liquid go out liquid house steward.