CN207231281U - The smooth heat exchanger for conveying not mobile liquid - Google Patents
The smooth heat exchanger for conveying not mobile liquid Download PDFInfo
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- CN207231281U CN207231281U CN201721068849.8U CN201721068849U CN207231281U CN 207231281 U CN207231281 U CN 207231281U CN 201721068849 U CN201721068849 U CN 201721068849U CN 207231281 U CN207231281 U CN 207231281U
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- pipe
- mobile liquid
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Abstract
A kind of smooth heat exchanger for conveying not mobile liquid, including:Multiple heat-exchange tubes being parallel to each other side by side, one end of two adjacent exchange tubes are interconnected;One heat exchanger plate, it is threaded through in each heat-exchange tube, one first pipeline and a second pipe are internally formed with each heat-exchange tube in interval, in the connectivity part of two adjacent exchange tubes, the heat exchanger plate is equipped with two relative tilts to form the tilting section of angle, each tilting section forms one first inclined plane in the first pipeline respectively, the first pipeline of two adjacent heat-exchange tubes is set continuously to change conveying direction by first inclined plane to lead to the first pipeline of another heat-exchange tube, each tilting section forms one second inclined plane in second pipe respectively, the second pipe of two adjacent heat-exchange tubes is set continuously to change conveying direction by second inclined plane to lead to the second pipe of another heat-exchange tube;With smooth conveying, mobile liquid does not enter another heat-exchange tube, during which implements heat exchange by heat exchanger plate.
Description
Technical field
The utility model is related to a kind of heat exchanger, particularly relate to one kind can use it is thick, stickiness is high or impurity content is high
Not mobile liquid implement the heat exchanger of heat exchange, can continuously change the conveying flow direction of the not mobile liquid, with
The heat exchanger of smooth conveying not mobile liquid.
Background technology
Apply in the refrigerating and air conditioning system such as cold air, refrigerator, freezer or cooling system, the heat for handing over function to provide heat is handed over
Parallel operation, typically using heat-exchange tube convey a kind of heat exchange medium (such as:Refrigerant) pass through another heat exchange medium (example
Such as:Water, air), both heat exchange mediums is carried out heat exchange by the tube wall of the heat-exchange tube, belong to the prior art.
If existing heat exchanger using thick, stickiness it is high or impurity content is high etc. not mobile liquid (such as:Sewage,
Sludge, industrial products such as tomato sauce, liquid manure) it is used as heat exchange medium, due to the viscosity of this kind of not mobile liquid
It is very high, be not easy to flow, it is necessary to expend larger energy (such as:Electric power) pump not mobile liquid and other heat exchanges
Medium (such as:Refrigerant) progress heat exchange, the shortcomings that causing to be difficult to reduce pumping energy, power consumption.
In view of this, the present inventor is the accumulation research of association area and practical experience for many years, and spy creates a kind of suitable
The heat exchanger of smooth conveying not mobile liquid, the shortcomings that so as to improving the above-mentioned prior art.
Utility model content
Therefore, the main purpose of the utility model is to be to provide a kind of smooth heat exchange for conveying not mobile liquid
Device, it includes:Multiple heat-exchange tubes, are parallel to each other side by side, and one end of two adjacent exchange tubes is interconnected;One heat exchange
Plate, is threaded through in each heat-exchange tube, and one first pipeline and a second pipe are internally formed with each heat-exchange tube in interval;At this two
The connectivity part of adjacent exchange tubes, the heat exchanger plate are equipped with two relative tilts to form the tilting section of angle;And each inclination
Section respectively in first pipeline formed one first inclined plane, make two adjacent heat-exchange tubes the first pipeline pass through it is described
First inclined plane continuously changes conveying direction and leads to the first pipeline of another heat-exchange tube;Each tilting section is respectively in second pipe
One second inclined plane is formed in road, the second pipe of two adjacent heat-exchange tubes is continuously changed by second inclined plane
Become conveying direction and lead to the second pipe of another heat-exchange tube.
According to above-mentioned key structural feature, which can convey a refrigerant, make the refrigerant along the heat exchanger plate
The connectivity part of two adjacent exchange tubes is directed to, the refrigerant is subject to the inclined guide of each first inclined plane and is continuously changed
Flow direction, the second pipe can convey a not mobile liquid, and making this, mobile liquid is not directed to this along the heat exchanger plate
The connectivity part of two adjacent exchange tubes, making this, mobile liquid is not subject to the inclined guide of each second inclined plane and continuously changes
Flow direction.
According to above-mentioned key structural feature, which is equipped with two relatively in the connectivity part of two adjacent exchange tubes
Tilt to form the inclination tube wall of angle, the inner face of the inclination tube wall corresponds to second inclined plane.
According to above-mentioned key structural feature, the section of the second pipe is more than the section of first pipeline.
According to above-mentioned key structural feature, the heat-exchange tube of a ragged edge position of the heat-exchange tube is equipped with one first pipe
The outlet of the entrance in road and a second pipe, the heat-exchange tube of another ragged edge position of the heat-exchange tube are equipped with one first pipe
The outlet in road and the entrance of a second pipe.
According to above-mentioned key structural feature, two adjacent heat-exchange tubes are overlapped, make this two adjacent heat friendships
Change pipe and share single tube wall in overlapping.
According to above-mentioned key structural feature, each heat-exchange tube is to enclose the rectangular tube that group forms by four tube walls, makes each first
The section of pipeline and second pipe respectively becomes rectangle.
According to above-mentioned key structural feature, two side pipe walls of each heat-exchange tube are made of a plate respectively.
Continuously change flow direction by each first inclined plane inclined guide refrigerant and each second inclined plane inclined guide should
Mobile liquid does not change the means of structure of flow direction continuously, is greatly reduced and pumps the refrigerant, mobile liquid does not pass through each heat
The resistance of pipe is exchanged, promotes the not mobile liquid of a heat-exchange tube is smooth to deliver into another heat-exchange tube, during which can be by
The heat exchanger plate implements heat exchange, and then can easily using this, not mobile liquid carries out heat exchange, while lift this
Class not mobile liquid implement heat exchange heat exchanger effectiveness.
Brief description of the drawings
Fig. 1 is the stereogram of the utility model preferred embodiment;
Fig. 2 is the cut-away view of Fig. 1;
Fig. 3 is the cut-away view at another visual angle of Fig. 1.
Description of reference numerals
100th, 101,102 heat-exchange tube
11 tube walls
12nd, 13 tube wall is tilted
14 plates
2 heat exchanger plates
21st, 22 tilting section
211st, 221 first inclined plane
212nd, 222 second inclined plane
3 first pipelines
31st, 41 entrance
32nd, 42 outlet
4 second pipes.
Embodiment
Please refer to Fig.1 to Fig.3, it is new by above-mentioned this practicality of brief description of the drawings to illustrate the attached drawing of the utility model embodiment
The heat exchanger of the smooth conveying of type not mobile liquid, it includes multiple heat-exchange tubes 100,101 and a heat exchanger plate 2.Should
Multiple heat-exchange tubes 100,101 are parallel to each other side by side, and each heat-exchange tube 100,101 is to enclose the rectangle that group forms by four tube walls
Pipe, and one end of two adjacent exchange tubes 100,101 is interconnected.
In used embodiment, which is threaded through in each heat-exchange tube 100,101, makes the heat exchanger plate 2
It is spaced each heat-exchange tube 100,101 and is internally formed one first pipeline 3 and a second pipe 4, and makes first pipeline 3 and second
The section of pipeline 4 respectively becomes rectangle;The heat-exchange tube 100 of one ragged edge position of whole heat-exchange tubes 100,101,102 is set
There are the outlet 42 of 31 and one second pipe 4 of entrance of one first pipeline 3, another outermost of whole heat-exchange tubes 100,101,102
The heat-exchange tube 102 of side position is equipped with the entrance 41 of 32 and one second pipe 4 of outlet of one first pipeline 3;Preferably considering
In, in the connectivity part of two adjacent exchange tubes 100,101, which is equipped with two relative tilts to form angle
Tilting section 21,22;Each tilting section 21,22 forms one first inclined plane 211,221 in first pipeline 3 respectively, makes two
First pipeline 3 of an adjacent heat-exchange tube 100 by first inclined plane 211,221 continuously change multiple conveying direction and
Towards the first pipeline 3 of another heat-exchange tube 101;Each tilting section 21,22 forms one second respectively in the second pipe 4 and tilts
Face 212,222, makes the second pipe 4 of two adjacent heat-exchange tubes 100 continuously change by second inclined plane 212,222
Become multiple conveying direction and lead to the second pipe 4 of another heat-exchange tube 101.
In figure and show that this two adjacent heat-exchange tubes 100,101 are overlapped, other are adjacent in the present embodiment
Also can be overlapped between heat-exchange tube 102, this two adjacent heat-exchange tubes 100,101 is shared single tube wall in overlapping
11;Also, the section of the second pipe 4 can be equal to or more than the section of first pipeline 3.In addition, the second pipe 4 is at two
The connectivity part of adjacent exchange tubes 100,101 is equipped with two relative tilts to form the inclination tube wall 12,13 of angle, the tipping tube
The inner face of wall 12 corresponds to second inclined plane 212, and the inner face of the inclination tube wall 13 corresponds to second inclined plane 222.
Apprehensible to be, when use, can input a refrigerant by the entrance 31 of first pipeline 3, convey first pipeline 3
The refrigerant is sequentially by each heat-exchange tube 100,101,102, when the refrigerant is directed to two adjacent heats along the heat exchanger plate 2
When exchanging the connectivity part of pipe 100,101, the refrigerant is set to be subject to the inclined guide of each first inclined plane 211,221 and continuously change stream
To;Meanwhile can be inputted by the entrance 41 of the second pipe 4 one not mobile liquid (such as:Sewage, sludge, industrial products such as west
Red persimmon sauce, liquid manure), make the second pipe 4 conveying this not mobile liquid sequentially by each heat-exchange tube 102,101,
100, when mobile liquid is not directed to the connectivity part of two adjacent exchange tubes 101,100 along the heat exchanger plate 2 for this,
Making this, mobile liquid is not subject to the inclined guide of each second inclined plane 222,212 and continuously changes flow direction, and during which this is not easy to flow
Hydrodynamic body can also be subject to the inclined guide of each inclination tube wall 13,12 and continuously change flow direction;Accordingly, by each first inclined plane
211st, the 221 inclined guides refrigerant continuously changes flow direction and each second inclined plane 212,222 and tilts tube wall 12,13 and tilts
Guiding this, mobile liquid does not change the means of structure of flow direction continuously, you can the pumping refrigerant, not mobile liquid is greatly reduced
By the resistance of each heat-exchange tube 100,101,102, can especially promote to be not easy to flow in the heat-exchange tube 100,101,102
Hydrodynamic body is smooth to deliver into another heat-exchange tube 100, during which can implement heat exchange by the heat exchanger plate 2, and then being capable of letter
Just using this, mobile liquid does not carry out heat exchange, while lifts the heat exchange that this kind of not mobile liquid implements heat exchange
Efficiency.
As shown in Figures 1 and 3, in a feasible embodiment, two side pipes of whole heat-exchange tubes 100,101,102
Wall can be made of a plate 14 respectively;Whereby, using two 14 clampings of plate fix above-mentioned heat exchanger plate 2, tilting section 21,
22nd, tube wall 11 and tilt tube wall 12,13, can quickly, simply produce heat exchanger.
But it is described above, it is only the preferred embodiment of the utility model, when cannot can implement to limit the utility model
Scope, all those skilled in the art the change and modification that can substantially make, be regarded as not departing from the essence of the utility model
Content.
Claims (8)
- A kind of 1. smooth heat exchanger for conveying not mobile liquid, it is characterised in that including:Multiple heat-exchange tubes, are parallel to each other side by side, and one end of two adjacent exchange tubes is interconnected;One heat exchanger plate, is threaded through in each heat-exchange tube, inside each heat-exchange tube in interval, forms one first pipeline and one second Pipeline;In the connectivity part of two adjacent exchange tubes, which is equipped with two relative tilts to form the inclination of angle Section;AndEach tilting section forms one first inclined plane in first pipeline respectively, makes the first pipe of two adjacent heat-exchange tubes Road continuously changes conveying direction to lead to the first pipeline of another heat-exchange tube by first inclined plane;Each tilting section difference One second inclined plane is formed in the second pipe, the second pipe of two adjacent heat-exchange tubes is inclined by described second Inclined-plane continuously changes conveying direction and leads to the second pipe of another heat-exchange tube.
- 2. the smooth heat exchanger for conveying not mobile liquid as claimed in claim 1, it is characterised in that the first pipeline energy A refrigerant is enough conveyed, the refrigerant is directed to the connectivity part of two adjacent exchange tubes along the heat exchanger plate, makes the refrigerant It is subject to the inclined guide of each first inclined plane and continuously changes flow direction, which can conveys a not mobile liquid, make Mobile liquid is not directed to the connectivity parts of two adjacent exchange tubes along the heat exchanger plate for this, makes the not mobile liquid It is subject to the inclined guide of each second inclined plane and continuously changes flow direction.
- 3. the smooth heat exchanger for conveying not mobile liquid as claimed in claim 2, it is characterised in that the second pipe exists The connectivity part of two adjacent exchange tubes is equipped with two relative tilts to form the inclination tube wall of angle, the inner face of the inclination tube wall Corresponding second inclined plane.
- 4. the smooth heat exchanger for conveying not mobile liquid as claimed in claim 2, it is characterised in that the second pipe is cut Face is more than the section of first pipeline.
- 5. the heat exchanger of smooth conveying as claimed in claim 1 or 2 or 3 or 4 not mobile liquid, it is characterised in that institute The outlet of entrance and a second pipe of the heat-exchange tube equipped with one first pipeline of a ragged edge position of heat-exchange tube is stated, it is described The heat-exchange tube of another ragged edge position of heat-exchange tube is equipped with the outlet of one first pipeline and the entrance of a second pipe.
- 6. the heat exchanger of smooth conveying as claimed in claim 1 or 2 or 3 or 4 not mobile liquid, it is characterised in that should Two adjacent heat-exchange tubes are overlapped, two adjacent heat-exchange tubes is shared single tube wall in overlapping.
- 7. the heat exchanger of smooth conveying as claimed in claim 1 or 2 or 3 or 4 not mobile liquid, it is characterised in that each Heat-exchange tube is to enclose the rectangular tube that group forms by four tube walls, the section of each first pipeline and second pipe is respectively become square Shape.
- 8. the smooth heat exchanger for conveying not mobile liquid as claimed in claim 7, it is characterised in that each heat-exchange tube Two side pipe walls are made of a plate respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721068849.8U CN207231281U (en) | 2017-08-24 | 2017-08-24 | The smooth heat exchanger for conveying not mobile liquid |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721068849.8U CN207231281U (en) | 2017-08-24 | 2017-08-24 | The smooth heat exchanger for conveying not mobile liquid |
Publications (1)
Publication Number | Publication Date |
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CN207231281U true CN207231281U (en) | 2018-04-13 |
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ID=61857754
Family Applications (1)
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CN201721068849.8U Active CN207231281U (en) | 2017-08-24 | 2017-08-24 | The smooth heat exchanger for conveying not mobile liquid |
Country Status (1)
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CN (1) | CN207231281U (en) |
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2017
- 2017-08-24 CN CN201721068849.8U patent/CN207231281U/en active Active
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