CN205897632U - A condenser for high temperature heat pump - Google Patents
A condenser for high temperature heat pump Download PDFInfo
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- CN205897632U CN205897632U CN201620911497.7U CN201620911497U CN205897632U CN 205897632 U CN205897632 U CN 205897632U CN 201620911497 U CN201620911497 U CN 201620911497U CN 205897632 U CN205897632 U CN 205897632U
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- baffle
- condenser
- hole
- cylinder
- high temperature
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Abstract
The utility model discloses a condenser for high temperature heat pump, it is imported including a barrel, a condenser, the condenser access connection in the top one end of barrel, the condenser still including: at least one condenser export, the condenser exit linkage in the bottom of barrel, a baffle, the baffle connect in the internal face of barrel, the baffle with be formed with a first through -hole between the other end of barrel, the first baffle of a plurality of, first baffle is located first through -hole with between the condenser import, first baffle all connect in the top of baffle with the barrel, first baffle the baffle with be formed with a second through -hole between the barrel, it is adjacent first baffle forms the second through -hole is crisscross distribute in both ends around in the barrel. The utility model discloses a heat transfer ability obtains make full use of, and efficiency is higher, has solved the temperature and too high and arouse unit efficiency decay problem.
Description
Technical field
This utility model is related to a kind of condenser for high temperature heat pump.
Background technology
Condenser used by current high temperature heat pump (according to gb25861, leaving water temperature is more than 50 degree, as high temperature heat pump), pressure
Contracting machine aerofluxuss are low in superheat section utilization rate, and the exchange capability of heat of condenser is not fully used, and temperature is too high causes unit
Efficiency decays.
Utility model content
The technical problems to be solved in the utility model is the heat-energy transducer in order to overcome superheat section utilization rate of the prior art low
Power is not fully used, and easily causes the defects such as unit efficiency decay, provides a kind of condenser for high temperature heat pump.
This utility model is to solve above-mentioned technical problem by following technical proposals:
A kind of condenser for high temperature heat pump, it includes a cylinder, a condenser inlet, and described condenser inlet is even
It is connected to the top of described cylinder, and described condenser inlet is located at one end of described cylinder, its feature is, described condenser is also
Include:
At least one condensator outlet, described condensator outlet is connected to the bottom of described cylinder;
One dividing plate, described dividing plate is connected to the internal face of described cylinder, and the inside of described cylinder is divided into by described dividing plate
Upper space and lower space, are formed with a first through hole, described upper space and institute between the other end of described dividing plate and described cylinder
State lower space to be connected by described first through hole;
Several first baffles, described first baffle is located in described upper space, and described first baffle is located at described the
Between one through hole and described condenser inlet, described first baffle is all connected to the top of described dividing plate and described cylinder, described
Be formed with one second through hole between first baffle, described dividing plate and described cylinder, adjacent described first baffle formed described the
The rear and front end that two through holes are interspersed in described cylinder.
It is preferred that described condenser also includes several second baffles, described second baffle is located in described lower space,
And described second baffle is connected to the internal face of described cylinder, is formed with one between the bottom of described second baffle and described cylinder
Lower through-hole, is formed with through hole between the top of described second baffle, described dividing plate and described cylinder.
In this programme, using said structure form, condensed liquids and gases are enabled to by second baffle and divides
Open, and allow gas can continue cooling so that heat exchange is more abundant.
It is preferred that described condenser includes several heat exchanger tubes, described first baffle is provided with several the first perforation, institute
State heat exchanger tube to pass through described first perforation and be connected to described first baffle.
In this programme, using said structure form, enter and between the steam of condenser and heat exchanger tube, form forced heat-exchanging
Structure is so that heat exchange is more thorough, in hgher efficiency.
In addition, the bonding strength of exchange heat pipe is strengthened it is ensured that the safe handling of condenser and stable by first baffle
Property.
It is preferred that described second baffle is provided with several the second perforation, described heat exchanger tube passes through described second perforation and connects
It is connected to described second baffle.
In this programme, using said structure form, needed after heat exchanger tube heat exchange cools down by the gas of upper through hole
Could discharge so that heat transfer effect is more fully thorough from the circulating area reaching lower through-hole.
In addition, the bonding strength of exchange heat pipe is strengthened it is ensured that the safe handling of condenser and stable by second baffle
Property.
It is preferred that described condenser also has a water inlet and an outlet, described water inlet and described outlet all with
Described heat exchanger tube is connected.
In this programme, using said structure form, being convenient to add water is cooled down,
It is preferred that the cross-sectional area of described first baffle is identical with the cross-sectional area of described second through hole.
In this programme, using said structure form, the steam entering condenser can equably circulate cooling, and heat exchange is more
Plus fully thorough, in hgher efficiency.
On the basis of meeting common sense in the field, above-mentioned each optimum condition, can combination in any, obtain final product this utility model each relatively
Good example.
Positive effect of the present utility model is:
Condenser for high temperature heat pump of the present utility model, by spaced first baffle so that compressor
Aerofluxuss uniformly can carry out heat exchange by the second through hole in upper space, and exchange capability of heat is fully used, in hgher efficiency, solves
The temperature of high temperature heat pump is too high and causes unit efficiency attenuation problem.
Brief description
Fig. 1 is the structural representation of the condenser for high temperature heat pump of this utility model preferred embodiment.
Fig. 2 is the corresponding overlooking the structure diagram of Fig. 1.
Fig. 3 is the internal structure schematic diagram of the condenser for high temperature heat pump of this utility model preferred embodiment.
Description of reference numerals:
Cylinder 1, condenser inlet 11, condensator outlet 12
Dividing plate 2, upper space 21, lower space 22, first through hole 23
First baffle 3, the second through hole 31, the first perforation 32
Second baffle 4, lower through-hole 41, upper through hole 42, the second perforation 43
Specific embodiment
Below by the mode of embodiment and combine accompanying drawing to become apparent from intactly this utility model being described, but not therefore
This utility model is limited among described scope of embodiments.
As depicted in figs. 1 and 2, the condenser for high temperature heat pump of the present utility model, it includes cylinder 1, condenser
Import 11, at least one condensator outlet 12, dividing plate 2, several first baffles 3, condenser inlet 11 is connected to the top of cylinder 1
Portion, and condenser inlet 11 is located at the right-hand member of cylinder 1, condenser inlet 11 is connected with the inside of cylinder 1, condenser inlet 11
It is external in compressor discharge port, thus being condensed discharging steam entrance condenser in compressor discharge port.Condenser
Outlet 12 is connected to the bottom of cylinder 1, and for discharging condensed liquid, it is right to be strengthened by the multiple condensator outlets 12 of setting
The discharge of condensed liquid.
Dividing plate 2 is connected to the internal face of cylinder 1, and the inside of cylinder 1 is divided between overhead 21 and lower space 22 by dividing plate 2,
Upper space 21 is superheat section region, is formed with first through hole 23 between left end dividing plate 2 and cylinder 1 within, upper space 21 with
Space 22 is connected by first through hole 23.First baffle 3 is located in upper space 21, and first baffle 3 is located at first through hole 23
And condenser inlet 11 between, first baffle 3 is all connected to the top of dividing plate 2 and the inside of cylinder 1, first baffle 3, dividing plate 2
It is formed with the second through hole 31 and cylinder 1 between, the second through hole 31 that adjacent first baffle 3 is formed is interspersed in cylinder 1
Rear and front end internal face.In this superheat section region, by spaced first baffle 3, the steam entering condenser passes through the
Two through holes 31 carry out arching trajectory and carry out circulation cooling, as shown in Fig. 2 wavy arrow in fig. 2 is not the structure of condenser,
But in order to the steam that indicates entry into circulating direction within the condenser is so that reach the effect of uniform cooling heat transferring, so that
Exchange capability of heat, in hgher efficiency, the temperature solving high temperature heat pump is too high and cause unit efficiency attenuation problem.
Can equably circulate the effect of cooling to reach the steam entering condenser, the cross-sectional area of first baffle 3
Identical with the cross-sectional area of the second through hole 31, the steam entering condenser will not be more than the because of the cross-sectional area of the second through hole 31
The cross-sectional area of one baffle plate 3 is so that some steam will not form arc circulation track, thus lead to can not fully heat exchange.Enter
The steam of condenser will not be less than the cross-sectional area of first baffle 3 because of the cross-sectional area of the second through hole 31, leads to steam to circulate
Make a slip of the tongue little the problems such as lead to heat exchange efficiency low.
For convenience in the cooling heat transferring to condenser, condenser can include several heat exchanger tubes, and (in figure is not shown
Go out), water inlet, outlet, heat exchanger tube is connected to the inside of cylinder 1, and water inlet is all connected with heat exchanger tube with outlet.Pass through
Water inlet and outlet are convenient to condenser and are cooled down.
As shown in figure 3, in order to reach the effect strengthening exchange capability of heat, first baffle 3 can be provided with several the first perforation
32, heat exchanger tube passes through the first perforation 32 and is connected to first baffle 3.So that form pressure between the steam entering and heat exchanger tube changing
Heat structure, the arc circulation that steam is formed and the multiple forced heat-exchanging of heat exchanger tube are so that heat exchange is more thorough, in hgher efficiency.
Meanwhile, the bonding strength of exchange heat pipe is strengthened it is ensured that the safe handling of condenser and stability by first baffle 3.
As shown in Figure 1, Figure 2 and Figure 3, the condensed fluid after the cooling heat transferring of upper space 21 is flowed into by first through hole 23
Lower space 22, thus discharged by condensator outlet 12.In order to reach the effect of abundant heat exchange, of the present utility model for high temperature
The condenser of heat pump can also include several second baffles 4, and second baffle 4 is located in lower space 22, and second baffle 4 is even
Be connected to the internal face of cylinder 1, between the bottom of second baffle 4 and cylinder 1, be formed with lower through-hole 41, the top of second baffle 4, every
It is formed with through hole 42 between plate 2 and cylinder 1.Condensed liquid quality weight, it will circulated by lower through-hole 41, thus
Discharged by condensator outlet 12.Condensed gaseous mass is light, it will is circulated by upper through hole 42 and is continued to cool down, make
Obtain heat exchange more abundant.
In order to reach the effect of abundant heat exchange, second baffle 4 can be provided with several the second perforation 43, and heat exchanger tube passes through the
Two perforation 43 and be connected to second baffle 4.So that ability after heat exchanger tube heat exchange cools down is needed by the gas of upper through hole 42
From the circulating area reaching lower through-hole 41, thus condensator outlet 12 could be passed through discharging so that heat transfer effect is more fully thorough
Bottom.Meanwhile, the bonding strength of exchange heat pipe is strengthened it is ensured that the safe handling of condenser and stability by second baffle 4.
Although the foregoing describing specific embodiment of the present utility model, it will be appreciated by those of skill in the art that
This is merely illustrative of, and protection domain of the present utility model is defined by the appended claims.Those skilled in the art
On the premise of without departing substantially from principle of the present utility model and essence, various changes or modifications can be made to these embodiments,
But these changes and modification each fall within protection domain of the present utility model.
Claims (6)
1. a kind of condenser for high temperature heat pump, it includes a cylinder, a condenser inlet, and described condenser inlet connects
In the top of described cylinder, and described condenser inlet is located at one end of described cylinder it is characterised in that described condenser also wraps
Include:
At least one condensator outlet, described condensator outlet is connected to the bottom of described cylinder;
One dividing plate, described dividing plate is connected to the internal face of described cylinder, and the inside of described cylinder is divided into overhead by described dividing plate
Between and lower space, be formed with a first through hole between the other end of described dividing plate and described cylinder, described upper space and described under
Space is connected by described first through hole;
Several first baffles, described first baffle is located in described upper space, and described first baffle is located at described first and leads to
Between hole and described condenser inlet, described first baffle is all connected to the top of described dividing plate and described cylinder, and described first
It is formed with one second through hole, described the second of adjacent described first baffle formation leads between baffle plate, described dividing plate and described cylinder
The rear and front end that hole is interspersed in described cylinder.
2. be used for as claimed in claim 1 the condenser of high temperature heat pump it is characterised in that described condenser also include some
Individual second baffle, described second baffle is located in described lower space, and described second baffle is connected to the internal face of described cylinder,
Be formed with a lower through-hole between the bottom of described second baffle and described cylinder, the top of described second baffle, described dividing plate and
It is formed with through hole between described cylinder.
3. it is used for the condenser of high temperature heat pump as claimed in claim 2 it is characterised in that described condenser includes several
Heat exchanger tube, described first baffle is provided with several the first perforation, and described heat exchanger tube passes through described first perforation and is connected to described
First baffle.
4. it is used for the condenser of high temperature heat pump as claimed in claim 3 it is characterised in that described second baffle is provided with several
Second perforation, described heat exchanger tube passes through described second perforation and is connected to described second baffle.
5. it is used for the condenser of high temperature heat pump as claimed in claim 3 it is characterised in that described condenser also has a water inlet
Mouth and an outlet, described water inlet is all connected with described heat exchanger tube with described outlet.
6. the condenser for high temperature heat pump as any one of claim 1-5 is it is characterised in that described first baffle
Cross-sectional area identical with the cross-sectional area of described second through hole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620911497.7U CN205897632U (en) | 2016-08-19 | 2016-08-19 | A condenser for high temperature heat pump |
Applications Claiming Priority (1)
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CN201620911497.7U CN205897632U (en) | 2016-08-19 | 2016-08-19 | A condenser for high temperature heat pump |
Publications (1)
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CN205897632U true CN205897632U (en) | 2017-01-18 |
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CN201620911497.7U Active CN205897632U (en) | 2016-08-19 | 2016-08-19 | A condenser for high temperature heat pump |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116105404A (en) * | 2023-02-17 | 2023-05-12 | 珠海格力电器股份有限公司 | Heat exchanger and refrigeration system |
-
2016
- 2016-08-19 CN CN201620911497.7U patent/CN205897632U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN116105404A (en) * | 2023-02-17 | 2023-05-12 | 珠海格力电器股份有限公司 | Heat exchanger and refrigeration system |
CN116105404B (en) * | 2023-02-17 | 2024-04-26 | 珠海格力电器股份有限公司 | Heat exchanger and refrigeration system |
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