CN104949551A - Heat exchanger - Google Patents

Abstract

The invention relates to a heat exchanger. The heat exchanger is mainly composed of a shell, pipe boxes located at the two sides of the shell, pipe plates located between the pipe boxes and the shell and heat exchanging pipes arranged in the shell. A saddle is arranged under the shell and is used for fixing the heat exchanger to the ground or other equipment. The shell is usually in a cylindrical shape. Cooling liquid is forced to be redirected to flow through central holes of arch-shaped plates after flowing through venting holes at the peripheries of the circular plates through spaced-arranged circular plates and arch-shaped plates, the flow range of the cooling liquid is prolonged, therefore the heat exchanging pipe is cooled fully, the cooling liquid is prevented from flowing from one end of the shell to the other end of the shell in a straight-line mode, and the phenomenon of inadequate cooling of the central position of the heat exchanging pipe is avoided.

Description

Heat exchanger

Technical field

The present invention relates to a kind of heat exchanger, belong to the optimisation technique of heat exchanger.

Background technology

Heat exchanger is widely used in the industrial circles such as petrochemical industry, electric power, environmental protection.Heat exchanger generally includes bobbin carriage, tube sheet, housing, multiple deflection plate, multiple heat exchanger tubes etc.Wherein deflection plate is except except the housing inner support heat exchanger tube of heat exchanger, mainly plays and fluid is flowed by specific path, the flow velocity improving shell-side fluid, the effect increasing turbulent extent, improve heat-transfer character.

The deflection plate of existing heat exchanger comprises segmental baffle and spirality deflection plate two kinds.

Common segmental baffle is flat, namely being generally circular flat board, to be cut into breach arc, axis direction interval along heat exchanger shell and heat exchanger tube is arranged, be arranged in because heat exchanger tube is intensive in the middle of housing, adjacent two deflection plates can also can cause shell-side fluid flowing velocity distribution unreasonable, valid circulation area is less, flow resistance is large, make cooling fluid mainly along the interstitial flow between heat exchanger tube and housing, the heat exchanger tube being positioned at center is made to cause heat exchange bad because coolant flow is not enough, heat exchange is relatively better because coolant flow is sufficient for the heat exchanger tube of close housing, it is uneven in temperature even after the fluid flowing through various heat exchange pipe is flowed out from heat exchanger.

Helical baffles is that polylith deflection plate is become approximate helical face along housing axis arranged, makes the shell-side fluid continuous-flow in the shape of a spiral of heat exchanger.Although make shell-side fluid liquid form more reasonable, increase valid circulation area, reduce flow resistance, compared with segmental baffle, helical baffles installs difficulty, and processing cost is high, and Product Precision is difficult to ensure, is unfavorable for industrial standardization.

Therefore, need to find that a kind of structure is simple, the more uniform heat exchanger of heat exchanger tube cooling.

Summary of the invention

The object of this invention is to provide a kind of water consumption few, early investment is not high, the cleaning equipment that operating cost is not high yet.

Technical scheme of the present invention is: heat exchanger, primarily of housing 1, forms at the bobbin carriage 2 of housing 1 both sides, the tube sheet 3 between bobbin carriage and housing and the heat exchanger tube 4 be placed in housing; The bobbin carriage 2 of housing side arranges the cooling liquid inlet pipe 21 running through bobbin carriage, the bobbin carriage of housing opposite side arranges the coolant outlet 22 running through bobbin carriage 2, cooling fluid flows directly into housing 1 from cooling liquid inlet pipe, flow through from heat exchanger tube gap and help heat exchanger tube cooling, finally flow into coolant outlet from housing and flow out; The bobbin carriage wall at cooling liquid inlet pipe place is also provided with the hot-fluid import 23 be communicated with bobbin carriage, the bobbin carriage wall at coolant outlet place is provided with the hot outlets 24 be connected with bobbin carriage; Described heat exchanger tube two ends are separately fixed on tube sheet, and the both ends open of heat exchanger tube lays respectively in bobbin carriage, set gradually the spaced circular slab 5 of many groups and cambered plate 6 in described housing from cooling liquid inlet pipe one end to cooling liquid outlet pipe end; Be provided with a circle discharge orifice along circular slab edge for coolant flow, cambered plate center is provided with centre bore for coolant flow.

What housing two ends were adjacent with tube sheet is circular slab.

Described tube sheet, cambered plate and circular slab are parallel to each other.

Centre bore area on one piece of cambered plate equals the area sum of small-sized discharge orifices all on one piece of circular slab.

Dispersion arrangement around the centre bore of described heat exchanger tube on cambered plate.

All space is left between any two heat exchanger tubes.

Described cooling fluid is water or oil.

Described Selection of Tubes in Heat Exchangers metal tube, is provided with fin or projection at heat exchanger tube outer wall.

Described cambered plate and circular slab are welded on inner walls.

Beneficial effect

1, by spaced circular slab and cambered plate, forcing functions liquid flows through rear changed course from the discharge orifice around circular slab and flows through from the centre bore of cambered plate, extend the flow process of cooling fluid, thus heat exchanger tube is cooled fully, cooling fluid is avoided to flow to the other end from shell one end is linear, for the phenomenon of the center cooling deficiency that heat exchanger tube is concentrated.

Accompanying drawing explanation

Fig. 1 is surface structure schematic diagram of the present invention;

Fig. 2 is generalized section of the present invention;

Fig. 3 is the schematic diagram after Fig. 2 removes heat exchanger tube;

Fig. 4 is circular plate structure schematic diagram;

Fig. 5 is cambered plate structural representation.

Detailed description of the invention

As depicted in figs. 1 and 2, heat exchanger, primarily of housing 1, forms at the bobbin carriage 2 of housing 1 both sides, the tube sheet 3 between bobbin carriage and housing and the heat exchanger tube 4 be placed in housing.Saddle is set below housing, for heat exchanger being fixed on ground or other equipment.Housing is generally cylindrical.

The bobbin carriage 2 of housing side arranges the cooling liquid inlet pipe 21 running through bobbin carriage, the bobbin carriage of housing opposite side arranges the coolant outlet 22 running through bobbin carriage 2, cooling fluid flows directly into housing 1 from cooling liquid inlet pipe, flow through from heat exchanger tube gap and help heat exchanger tube cooling, finally flow into coolant outlet from housing and flow out; The bobbin carriage wall at cooling liquid inlet pipe place is also provided with the hot-fluid import 23 be communicated with bobbin carriage, the bobbin carriage wall at coolant outlet place is provided with the hot outlets 24 be connected with bobbin carriage; Described heat exchanger tube two ends are separately fixed on tube sheet, the both ends open of heat exchanger tube lays respectively in bobbin carriage, as shown in Figure 3, in described housing, the spaced circular slab 5 of many groups and cambered plate 6 is set gradually from cooling liquid inlet pipe one end to cooling liquid outlet pipe end; As shown in Figure 4, be provided with a circle discharge orifice for coolant flow along circular slab edge, as shown in Figure 5, cambered plate center is provided with centre bore for coolant flow.

Need the liquid of cooling to enter bobbin carriage from hot-fluid import 23, then flow into the heat exchanger tube 4 be fixed on tube sheet, after flowing through the heat exchanger tube supervisor being positioned at housing, flow into the bobbin carriage being positioned at housing opposite side, then from hot outlets 24 out.Cooling fluid flows in housing from cooling liquid inlet pipe 21, flows to the cambered plate of next stage from the discharge orifice around circular slab, then flows to the circular slab of next stage through cambered plate centre bore, until arrive the tube sheet of opposite side, flows out bobbin carriage from coolant outlet.In the process that cooling fluid flows in housing, flow through from the gap of heat exchanger tube, take away the heat on heat exchanger tube surface.Because circular slab and cambered plate interval are arranged, forcing functions liquid flows through rear changed course from the discharge orifice around circular slab and flows through from the centre bore of cambered plate, extend the flow process of cooling fluid in housing, thus heat exchanger tube is cooled fully, cooling fluid is avoided to flow to the other end from shell one end is linear, for the phenomenon of the center cooling deficiency that heat exchanger tube is concentrated.

What housing two ends were adjacent with tube sheet is circular slab, can extend the flow process of cooling fluid, thus better can take away the heat on heat exchanger tube surface.

Described cooling fluid is water or oil.

Described Selection of Tubes in Heat Exchangers metal tube, is provided with fin or projection at heat exchanger tube outer wall, to expand the contact area with cooling fluid, so that dispel the heat better.The shape in its cross section is circular or oval, is preferably oval, and the area that heat exchanger tube surface is contacted with cooling fluid is larger, and the inside needs the thickness of the liquid dispelled the heat moderate, and heat is easily absorbed by heat exchanger tube thus cooled liquid is taken away.

Described cambered plate and circular slab are welded on inner walls.

Described tube sheet, cambered plate and circular slab are parallel to each other.

Centre bore area on one piece of cambered plate equals the area sum of small-sized discharge orifices all on one piece of circular slab, contributes to forcing functions liquid and more flows evenly through various piece in housing.

Dispersion arrangement around the centre bore of described heat exchanger tube on cambered plate.

All leave space between any two heat exchanger tubes, be convenient to cooling fluid and flow through the heat taking away heat exchanger tube surface between pipe, help liquid cools in heat exchanger tube.

Above-described embodiment is only used to interpretation purposes of the present invention, and is not limitation of the present invention, those skilled in the art, in essential scope of the present invention, makes a variety of changes or substitutes, also should belong to protection category of the present invention.

Claims (9)

1. heat exchanger, primarily of housing (1), is positioned at the bobbin carriage (2) of housing (1) both sides, the tube sheet (3) between bobbin carriage and housing and is placed in heat exchanger tube (4) composition of housing; It is characterized in that: the bobbin carriage (2) in housing side is upper arranges the cooling liquid inlet pipe (21) running through bobbin carriage, the bobbin carriage of housing opposite side arranges the coolant outlet (22) running through bobbin carriage (2), cooling fluid flows directly into housing (1) from cooling liquid inlet pipe, flow through from heat exchanger tube gap and help heat exchanger tube cooling, finally flow into coolant outlet from housing and flow out; The bobbin carriage wall at cooling liquid inlet pipe place is also provided with the hot-fluid import (23) be communicated with bobbin carriage, the bobbin carriage wall at coolant outlet place is provided with the hot outlets (24) be connected with bobbin carriage; Described heat exchanger tube two ends are separately fixed on tube sheet, the both ends open of heat exchanger tube lays respectively in bobbin carriage, sets gradually the spaced circular slab of many groups (5) and cambered plate (6) in described housing from cooling liquid inlet pipe one end to cooling liquid outlet pipe end; Be provided with a circle discharge orifice along circular slab edge for coolant flow, cambered plate center is provided with centre bore for coolant flow.

2. heat exchanger according to claim 1, is characterized in that: what housing two ends were adjacent with tube sheet is circular slab.

3. heat exchanger according to claim 1, is characterized in that: described tube sheet, cambered plate and circular slab are parallel to each other.

4. heat exchanger according to claim 1, is characterized in that: the centre bore area on one piece of cambered plate equals the area sum of discharge orifices all on one piece of circular slab.

5. heat exchanger according to claim 1, is characterized in that: dispersion arrangement around the centre bore of described heat exchanger tube on cambered plate.

6. heat exchanger according to claim 1, is characterized in that: all leave space between any two heat exchanger tubes.

7. heat exchanger according to claim 1, is characterized in that: described cooling fluid is water or oil.

8. heat exchanger according to claim 1, is characterized in that: described Selection of Tubes in Heat Exchangers metal tube, is provided with fin or projection at heat exchanger tube outer wall.

9. heat exchanger according to claim 1, is characterized in that: described cambered plate and circular slab are welded on inner walls.