CN108955304A - A kind of helical heat exchanger - Google Patents

Abstract

A kind of helical heat exchanger proposed by the present invention, comprising: helical structure, the first gasket, the second gasket, the first pressing structure and the second pressing structure.In the present invention, when the first helical duct or the second helical duct block, the first pressing structure, the second pressing structure, the first gasket and the second gasket can easily be dismantled, so that helical structure both ends are unimpeded, so as to clear up the first helical duct and the second helical duct from helical structure spool direction, to improve dredging efficiency, guarantee cleaning effect.

Description

A kind of helical heat exchanger

Technical field

The present invention relates to helical heat exchanger technical field more particularly to a kind of helical heat exchangers.

Background technique

Helical heat exchanger is rolled by two, forms two uniform helical ducts, and two kinds of heat transfer mediums can be into The full counter-current flow of row, greatly strengthens heat transfer effect, even if two kinds small temperature difference medium, can also reach ideal heat transfer effect.? In production process, since the tube sheet of helical tube plate type heat exchanger washed away by moisture, is cavitated and the corrosion of microchemistry medium, it is easy Blocking.Existing helical heat exchanger, when dredging, must all dismantle, heavy workload.

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of helical heat exchangers.

A kind of helical heat exchanger proposed by the present invention, comprising: helical structure, the first gasket, the second gasket, first Pressing structure and the second pressing structure；

Helical structure is rolled and is formed by the first guide plate, the second guide plate and third guide plate being parallel to each other, and first is close Packing and the second gasket are separately mounted on two opposite end faces of helical structure；

First guide plate and the second guide plate cooperate the first gasket and the second gasket-like at both ends to the first logical spiral shell Channel, the second guide plate and third guide plate cooperation the first gasket of cooperation and the second gasket-like are revolved into both ends to logical second Helical duct；

The disassembly of first pressing structure is mounted on helical structure and is resisted against side of first gasket far from helical structure, The disassembly of second pressing structure is mounted on helical structure and is resisted against side of second gasket far from helical structure.

Preferably, the first gasket be equipped with the first protrusion of the matched spiral shape of the first helical duct and with the second spiral shell Revolve matched the second protrusion of spiral shape in channel；Second gasket is equipped with and the matched spiral shape third protrusion of the first helical duct And it is raised with the matched spiral shape the 4th of the second helical duct.

Preferably, the first gasket and the first protrusion and the second protrusion are integrally formed, the second gasket and third protrusion and 4th protrusion is integrally formed.

Preferably, the first gasket and the second gasket are rubber parts.

Preferably, the perpendicular to the first guide plate and the second guide plate is equipped between the first guide plate and the second guide plate One connecting plate, the second guide plate and third guide plate are equipped with the second connecting plate perpendicular to the second guide plate and third guide plate.

Preferably, the first connecting plate is equipped with the first through hole unit for being connected to its opposite sides, and the second connecting plate is equipped with It is connected to the second through-hole unit of its opposite sides.

Preferably, the first pressing structure and the second pressing structure are circular slab.

Preferably, be respectively equipped with the first connector and the second connector on two opposite end faces of helical structure, the first connector and Second connector is axial direction and helical structure center overlapping of axles or parallel pipeline configuration；First pressing structure is by around the first connector The multiple fan-shaped surfaces composition being circumferentially distributed on helical structure end face, the second pressing structure is by being circumferentially distributed in spiral shell around the second connector Revolve multiple fan-shaped surfaces composition on structure end face.

A kind of helical heat exchanger proposed by the present invention, by the first gasket and the second gasket to the two of helical structure End end face is sealed, and is beneficial to prevent leakage.Then spiral is respectively facing by the first pressing structure and the second pressing structure Structure suppresses the first gasket and the second gasket, ensure that the first gasket and the second gasket to helical structure both ends end face What is sealed is tight.

In the present invention, when the first helical duct or the blocking of the second helical duct, the first compacting knot can be easily dismantled Structure, the second pressing structure, the first gasket and the second gasket, so that helical structure both ends are unimpeded, so as to from spiral Structure spool clears up the first helical duct and the second helical duct on direction, to improve dredging efficiency, guarantees cleaning effect.

Detailed description of the invention

Fig. 1 is that helical structure rolls anterior elevational view in a kind of helical heat exchanger proposed by the present invention.

Fig. 2 is the side view of Fig. 1；

Fig. 3 is the first gasket structure figure.

Specific embodiment

Referring to Fig.1, a kind of helical heat exchanger proposed by the present invention, comprising: helical structure, the first gasket 8, second are close Packing, the first pressing structure and the second pressing structure.

Helical structure is rolled and is formed by the first guide plate 1, the second guide plate 2 and third guide plate 3 being parallel to each other, and first Gasket 8 and the second gasket are separately mounted on two opposite end faces of helical structure.First guide plate 1 and the second guide plate 2 the first gaskets 8 of cooperation and the second gasket-like are oriented to the first logical helical duct 4, the second guide plate 2 and third at both ends The cooperation of plate 3 cooperates the first gasket 8 and the second gasket-like at both ends to the second logical helical duct 5.

In present embodiment, it is equipped between the first guide plate 1 and the second guide plate 2 perpendicular to the first guide plate 1 and second First connecting plate 6 of guide plate 2, the second guide plate 2 and third guide plate 3 are equipped with to be oriented to perpendicular to the second guide plate 2 and third Second connecting plate 7 of plate 3.First connecting plate 6 is used to guarantee relative distance between the first guide plate 1 and the second guide plate 2, with Guarantee the width of the first helical duct 4；Second connecting plate 7 is opposite between the second guide plate 2 and third guide plate 3 for guaranteeing Distance, to guarantee the width of the second helical duct 5.

In present embodiment, the first connecting plate 6 is equipped with the first through hole unit for being connected to its opposite sides, the second connecting plate 7 are equipped with the second through-hole unit for being connected to its opposite sides.When it is implemented, if on the first connecting plate 6 and the second connecting plate 7 There is no through-hole structure, the first helical duct 4 is mutually independent two along the plane cutting perpendicular to spool by the first connecting plate 6 Second helical duct 5 is mutually independent two logical along the plane cutting perpendicular to spool by a channel, the second connecting plate 7 Road.In this way, the first guide plate 1, the second guide plate 2 and third guide plate form four helical ducts, more work can be met Demand, such as heat exchange processing is carried out to two kinds of materials simultaneously.

The disassembly of first pressing structure is mounted on helical structure and is resisted against one of the first gasket 8 far from helical structure Side, the disassembly of the second pressing structure are mounted on helical structure and are resisted against side of second gasket far from helical structure.This reality It applies in mode, the both ends end face of helical structure is sealed by the first gasket 8 and the second gasket, is beneficial to prevent and lets out Leakage.Then it is close helical structure the first gasket 8 and second of compacting to be respectively facing by the first pressing structure and the second pressing structure Packing ensure that the first gasket 8 and the second gasket to the tight of helical structure both ends end face seal.And present embodiment In, when the first helical duct 4 or the blocking of the second helical duct 5, it can easily dismantle the first pressing structure, the second compacting knot Structure, the first gasket 8 and the second gasket, so that helical structure both ends are unimpeded, so as to from helical structure spool direction The first helical duct 4 of upper cleaning and the second helical duct 5 guarantee cleaning effect to improve dredging efficiency.

In present embodiment, the first gasket 8 be equipped with matched the first protrusion of spiral shape 9 of the first helical duct 4 with And with matched the second protrusion of spiral shape 10 of the second helical duct 5.Second gasket is equipped with matched with the first helical duct 4 Spiral shape third protrusion and with matched the 4th protrusion of spiral shape of the second helical duct 5.In this way, passing through the first protrusion and third Protrusion and the gap between the first guide plate 1 and the second guide plate 2 are interference fitted, and pass through the second protrusion and the 4th protrusion and second Gap interference fit between guide plate 2 and third guide plate 3, it is ensured that the first gasket 8 and the second gasket are to spiral knot Structure both ends seal tight, and guarantee that the installation of the first gasket 8 and the second gasket is stablized.

In present embodiment, the first gasket 8 and the first protrusion 9 and the second protrusion 10 are integrally formed, the second gasket with Third protrusion and the 4th protrusion are integrally formed.And first gasket 8 and the second gasket be rubber parts.

In present embodiment, the first pressing structure and the second pressing structure are circular slab.

When it is implemented, multiple fanning strips can also be respectively adopted in the first pressing structure and the second pressing structure.Specifically, spiral shell Be respectively equipped with the first connector and the second connector on opposite two end faces of rotation structure, the first connector and the second connector be it is axial with Helical structure center overlapping of axles or parallel pipeline configuration.First pressing structure is by being circumferentially distributed in helical structure around the first connector Multiple fan-shaped surfaces composition on end face, the second pressing structure are multiple on helical structure end face by being circumferentially distributed in around the second connector Fan-shaped surface composition.

The above, preferable specific embodiment only of the present invention, but protection scope of the present invention not office Be limited to this, anyone skilled in the art in the technical scope disclosed by the present invention, technology according to the present invention Scheme and its inventive concept are subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (8)

1. a kind of helical heat exchanger characterized by comprising helical structure, the first gasket (8), the second gasket, first Pressing structure and the second pressing structure；

Helical structure is rolled and is formed by the first guide plate (1), the second guide plate (2) and third guide plate (3) being parallel to each other, the One gasket (8) and the second gasket are separately mounted on two opposite end faces of helical structure；

First guide plate (1) and the second guide plate (2) cooperation the first gasket (8) and the second gasket-like are at both ends to logical the One helical duct (4), the second guide plate (2) and third guide plate (3) cooperation cooperation the first gasket (8) and the second gasket-like At both ends to logical the second helical duct (5)；

The disassembly of first pressing structure is mounted on helical structure and is resisted against the side of the first gasket (8) separate helical structure, The disassembly of second pressing structure is mounted on helical structure and is resisted against side of second gasket far from helical structure.

2. having the helical heat exchanger of automated cleaning structure as described in claim 1, which is characterized in that the first gasket (8) be equipped with the first protrusion of the matched spiral shape of the first helical duct (4) and with the second helical duct (5) matched spiral Shape second is raised (10)；Second gasket is equipped with the matched spiral shape third protrusion of the first helical duct (4) and with the Matched the 4th protrusion of spiral shape of two helical ducts (5).

3. having the helical heat exchanger of automated cleaning structure as claimed in claim 2, which is characterized in that the first gasket (8) be integrally formed with first raised (9) and second raised (10), the second gasket and third protrusion and the 4th protrusion integrally at Type.

4. having the helical heat exchanger of automated cleaning structure as claimed in claim 3, which is characterized in that the first gasket (8) and the second gasket is rubber parts.

5. having the helical heat exchanger of automated cleaning structure as described in claim 1, which is characterized in that the first guide plate (1) the first connecting plate (6) perpendicular to the first guide plate (1) and the second guide plate (2) is equipped between the second guide plate (2), Second guide plate (2) and third guide plate (3) are equipped with the second connection perpendicular to the second guide plate (2) and third guide plate (3) Plate (7).

6. having the helical heat exchanger of automated cleaning structure as claimed in claim 5, which is characterized in that the first connecting plate (6) it is equipped with the first through hole unit for being connected to its opposite sides, the second connecting plate (7), which is equipped with, is connected to the second of its opposite sides Through-hole unit.

7. such as the helical heat exchanger as claimed in any one of claims 1 to 6 with automated cleaning structure, which is characterized in that the One pressing structure and the second pressing structure are circular slab.

8. such as the helical heat exchanger as claimed in any one of claims 1 to 6 with automated cleaning structure, which is characterized in that spiral shell Be respectively equipped with the first connector and the second connector on opposite two end faces of rotation structure, the first connector and the second connector be it is axial with Helical structure center overlapping of axles or parallel pipeline configuration；First pressing structure is by being circumferentially distributed in helical structure around the first connector Multiple fan-shaped surfaces composition on end face, the second pressing structure are multiple on helical structure end face by being circumferentially distributed in around the second connector Fan-shaped surface composition.