CN210036386U - Large water outlet hole plate type condenser heat exchange plate structure capable of automatically discharging non-condensable gas - Google Patents

Abstract

The utility model relates to the technical field of plate condenser heat exchange structures, in particular to a plate condenser heat exchange plate structure with a large water outlet hole and self-discharging noncondensable gas, which comprises a heat exchange plate, wherein a cold medium outlet on the heat exchange plate is a longitudinal long circular hole, the diameters of semi-circular arcs at the upper end and the lower end of the cold medium outlet are both 300mm, and the lengths of straight line sections at the left side and the right side are 800 mm; the noncondensable gas and the comdensable water export also are fore-and-aft oblong hole, and the semicircle diameter of the upper end and the lower extreme of noncondensable gas and comdensable water export is 100mm, and the straightway length on left side and right side is 175mm, and the distance from the centre of a circle of lower extreme semicircle to the lower edge of heat transfer slab is 99 mm. This is novel has promoted the output capacity of cold medium to can make and float noncondensable gas in the upper end discharge from noncondensable gas outlet smoothly, make the comdenstion water discharge from the comdenstion water outlet, increase the heat transfer ability of condenser.

Description

Large water outlet hole plate type condenser heat exchange plate structure capable of automatically discharging non-condensable gas

Technical Field

The utility model relates to a plate condenser heat transfer technical field provides a big apopore and from plate condenser heat transfer slab structure of arranging noncondensable gas very much.

Background

Among the prior art, the shape of the cold medium outlet and the noncondensable gas and condensed water outlet on the plate type condenser heat exchange plate is circular, on one hand, the water yield is small, on the other hand, the gas is lighter and floats on the upper layer, so the noncondensable gas can not be effectively discharged, and the heat exchange efficiency of the heat exchanger is influenced.

In order to increase the water outlet, the size of the water outlet hole needs to be increased, but because the steam inlet and the cold medium outlet are usually arranged in parallel and transversely, and the width of the heat exchange plate is fixed, the size of the cold medium outlet is limited by the size of the steam inlet hole on one hand, and the width of the heat exchange plate on the other hand, so that the circular water outlet hole cannot be directly and effectively improved in size.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a big apopore just from row plate condenser heat transfer slab structure of noncondensable gas.

The utility model discloses a realize like this, a big apopore and from plate condenser heat transfer slab structure of arranging noncondensable gas, including the heat transfer slab, be equipped with steam inlet, noncondensable gas and comdenstion water export, cold medium import and cold medium export on the heat transfer slab respectively, the cold medium export on the heat transfer slab is the long circular hole of vertical, and the diameter of the semicircle of cold medium export upper end and lower extreme is 300mm, and left side and right side straightway length are 800 mm; the noncondensable gas and the comdensable water export also are fore-and-aft oblong hole, and the semicircle diameter of the upper end and the lower extreme of noncondensable gas and comdensable water export is 100mm, and the straightway length on left side and right side is 175mm, and the distance from the centre of a circle of lower extreme semicircle to the lower edge of heat transfer slab is 99 mm.

Further, still including the takeover structure, two circular ports are established respectively from top to bottom in the position that the takeover structure corresponds with noncondensable gas and comdenstion water export, are noncondensable gas export and comdenstion water export respectively.

Further, the diameter of the non-condensable gas outlet of the connecting pipe structure is 50mm, and the diameter of the condensed water outlet is 100 mm.

Compared with the prior art, the utility model has the advantages of:

1. the area of the cold medium outlet is increased, so that the medium passing capacity is increased, and the heat exchange capacity is improved;

2. effectively separate noncondensable gas and comdenstion water for noncondensable gas is discharged from the noncondensable gas export of special establishing, and the comdenstion water is discharged from the comdenstion water export, discharges both more fully promptly, in order to promote the heat exchange efficiency of heat exchanger.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and embodiments:

fig. 1 is a schematic structural view of a heat exchange plate in the prior art;

FIG. 2 is a schematic view of the structure of the cold medium outlet of the heat exchange plate of the present invention;

FIG. 3 is a schematic view of the structure of the noncondensable gas and condensed water outlet of the heat exchange plate of the present invention;

fig. 4 is a schematic structural diagram of the pipe connection structure of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, the utility model provides a plate condenser heat exchange plate structure of big apopore and self-discharging noncondensable gas, including heat exchange plate 1, be equipped with steam inlet 101 on the heat exchange plate 1 respectively, noncondensable gas and comdensable water export 102, cold medium import 103 and cold medium export 104, cold medium export 104 on the heat exchange plate 1 is the longitudinal long circular hole, and the diameter of the semicircle of cold medium export 104 upper end and lower extreme is 300mm, and left side and right side straightway length is 800 mm; the noncondensable gas and condensed water outlet 102 is also a longitudinal oblong hole, the diameters of the semicircular arcs at the upper end and the lower end of the noncondensable gas and condensed water outlet 102 are both 100mm, the lengths of the straight line segments on the left side and the right side are 175mm, and the distance from the circle center of the semicircular arc at the lower end to the lower edge of the heat exchange plate 1 is 99 mm.

Plate condenser uses when this is novel, through the cold medium export 104 that enlarges, has promoted the output capacity of cold medium to can make and float noncondensable gas in the upper end discharge from noncondensable gas export 201 smoothly, make the comdensable water discharge from comdensable water export 202, increase the heat transfer ability of condenser.

In order to separate the non-condensable gas outlet from the condensed water outlet and improve the efficiency, the improved structure of the technical scheme further comprises a connecting pipe structure 2, wherein two circular holes are respectively formed in the connecting pipe structure 2 at the positions corresponding to the non-condensable gas outlet and the condensed water outlet 102, and the circular holes are respectively the non-condensable gas outlet 201 and the condensed water outlet 202.

In order to adapt to the size of the noncondensable gas and condensed water outlet 102, as a technical improvement, the diameter of the noncondensable gas outlet 201 of the adapter structure 2 is 50mm, and the diameter of the condensed water outlet 202 is 100 mm.

Claims (3)

1. The plate type condenser heat exchange plate structure with the large water outlet hole and capable of discharging non-condensable gas automatically comprises heat exchange plates (1), wherein a steam inlet (101), a non-condensable gas and condensed water outlet (102), a cold medium inlet (103) and a cold medium outlet (104) are respectively formed in each heat exchange plate (1), and is characterized in that the cold medium outlet (104) in each heat exchange plate (1) is a longitudinal long circular hole, the diameters of semicircular arcs at the upper end and the lower end of the cold medium outlet (104) are both 300mm, and the lengths of straight line sections on the left side and the right side are 800 mm; the noncondensable gas and condensed water outlet (102) is also a longitudinal oblong hole, the diameters of the semicircular arcs at the upper end and the lower end of the noncondensable gas and condensed water outlet (102) are both 100mm, the lengths of the straight line segments on the left side and the right side are 175mm, and the distance from the circle center of the semicircular arc at the lower end to the lower edge of the heat exchange plate (1) is 99 mm.

2. A plate condenser heat exchanger plate structure with a large water outlet and self-discharging non-condensable gas according to claim 1, further comprising a pipe connection structure (2), wherein the pipe connection structure (2) is provided with two circular holes respectively at the upper and lower positions corresponding to the non-condensable gas outlet and the condensed water outlet (102), and the two circular holes are respectively a non-condensable gas outlet (201) and a condensed water outlet (202).

3. Apopore and self-discharging non-condensable gas plate heat exchanger plate structure according to claim 2, characterised in that the diameter of the non-condensable gas outlet (201) of the nozzle structure (2) is 50mm and the diameter of the condensed water outlet (202) is 100 mm.

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