CN213179594U - Double-sealing and baffling ring structure for graphite heat exchanger - Google Patents

Abstract

The double-sealing and baffling ring structure for the graphite heat exchanger comprises a steel shell, graphite heat exchange blocks, a combined baffling ring, an inner sealing gasket and an outer sealing gasket, and is characterized in that the graphite heat exchange blocks are arranged inside the steel shell in a row manner, gaps are formed at the row positions of the graphite heat exchange blocks and the graphite heat exchange blocks, the outer end edges of the gaps are provided with the inner sealing gasket, the outer end of the inner sealing gasket is provided with the outer sealing gasket, a vertical space is arranged between the inner sealing gasket and the outer sealing gasket, the combined baffling ring is arranged between the graphite heat exchange blocks and the steel shell, the upper end and the lower end of the baffling ring are provided with fixing plates which are connected with the steel shell, at least two groups of the fixing plates are arranged between the fixing plates, and gaps are formed between the fixing plates, the baffling rings are arranged in the gaps, the original single sealing structure is improved into a double-, thereby achieving the purposes of eliminating the phenomenon of fluid short circuit and greatly improving the heat exchange effect of the equipment.

Description

Double-sealing and baffling ring structure for graphite heat exchanger

Technical Field

The utility model relates to a graphite heat exchanger correlation technique field, concretely relates to graphite heat exchanger is with double containment and baffling ring structure.

Background

The round block hole type graphite heat exchanger is a heat exchange equipment formed from graphite end socket, graphite heat exchange block, teflon sealing component, steel shell and pressure spring, etc. said equipment possesses the characteristics of high heat-transfer efficiency, high structural strength, strong impact resistance, long service life and convenient maintenance, but because of the single sealing structure used between the graphite heat exchange blocks, when it is used in the material with high toxicity or extreme harm grade, it still has the risk of micro-permeation, the shell side of the round block hole type graphite heat exchanger is equipped with semi-circular baffle ring, and the baffle ring can give fluid flow direction, reduce dead zone and prolong flow path, at the same time it also has a certain supporting and positioning action, and can raise heat-exchange effect, and the general standard heat exchanger adopts simple carbon steel ring, and said baffle ring has simple structure and large fit gap, the phenomenon of fluid short circuit exists, and the heat exchange effect of the heat exchanger is greatly influenced.

Disclosure of Invention

The utility model provides a double containment and baffling ring structure for graphite heat exchanger will solve the technical problem that appears in the above-mentioned background art.

Double containment and baffling ring structure for graphite heat exchanger, including steel casing, graphite heat transfer piece, combination formula baffling ring, internal seal pad, outer seal pad, its characterized in that graphite heat transfer piece lists the setting in the inside of steel casing, and graphite heat transfer piece is equipped with the gap with the list department of graphite heat transfer piece, and the outer end edge in gap is equipped with the internal seal pad, and the internal seal pad outer end is equipped with the outer seal pad, is equipped with perpendicular space between internal seal pad and the outer seal pad, is equipped with combination formula baffling ring between graphite heat transfer piece and the steel casing, the baffling ring lower extreme is equipped with the fixed plate, and the fixed plate is connected with the steel casing, and the fixed plate is two sets of at least to be equipped with the clearance between, the.

Preferably, the graphite heat exchanger is of a double-seal and baffling ring structure, and is characterized in that heat exchange holes are formed in the middle of the graphite heat exchange module, and the heat exchange holes are vertically and transversely arranged in a crossed mode.

Preferably, the graphite heat exchanger is of a double-seal and baffling ring structure, and is characterized in that a space is arranged between the graphite heat exchange block and the steel shell, and the space width of the space is equal to the transverse width of the baffling ring.

Preferably, the graphite heat exchanger is of a double-sealing and baffling ring structure, and is characterized in that a vertical space between the inner sealing gasket and the outer sealing gasket is a vacuum space.

Has the advantages that: the technology improves the original single sealing structure into the double sealing structure, thereby improving the sealing performance, eliminating the risk of toxic material leakage, and improving the original metal baffle ring into the combined baffle ring with the nonmetal clamping pieces, thereby achieving the purposes of avoiding the phenomenon of fluid short circuit and greatly improving the heat exchange effect of the equipment.

Drawings

FIG. 1 is a schematic view of the structure of the present invention

In the figure: the heat exchanger comprises a steel shell 1, a graphite heat exchange block 2, a combined baffle ring 3, an inner sealing gasket 4 and an outer sealing gasket 5.

Detailed Description

The present invention will now be described in detail with reference to the drawings, wherein the embodiments are shown as a part of the embodiments of the present invention, but not as a whole. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may for example be fixedly connected, bolted, detachably connected, or integrally connected; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, and the two elements may be connected through an intermediate medium.

The double-seal and baffling ring structure of the graphite heat exchanger shown in fig. 1 comprises a steel shell 1, graphite heat exchange blocks 2, a combined baffling ring 3, an inner sealing gasket 4 and an outer sealing gasket 5, and is characterized in that the graphite heat exchange blocks 2 are arranged inside the steel shell 1 in a row mode, gaps are formed in the row positions of the graphite heat exchange blocks 2 and the graphite heat exchange blocks 2, the inner sealing gasket 4 is arranged on the edge of the outer end of each gap, the outer sealing gasket 5 is arranged at the outer end of the inner sealing gasket 4, a vertical space is arranged between the inner sealing gasket 4 and the outer sealing gasket 5, the combined baffling ring 3 is arranged between the graphite heat exchange blocks 2 and the steel shell 1, fixing plates are arranged at the upper end and the lower end of the baffling ring, the fixing plates are connected with the steel shell 1, the fixing plates.

Furthermore, the middle part of the graphite heat exchange module is provided with heat exchange holes which are vertically and transversely arranged in a cross way.

Furthermore, a space is arranged between the graphite heat exchange block 2 and the steel shell 1, and the width of the space is equal to the transverse width of the baffle ring.

Further, the vertical space between the inner gasket 4 and the outer gasket 5 is a vacuum space.

A double-seal and baffling ring structure of a graphite heat exchanger comprises a steel shell 1, graphite heat exchange blocks 2, a combined baffling ring 3, an inner sealing gasket 4 and an outer sealing gasket 5, and is characterized in that the graphite heat exchange blocks 2 are arranged inside the steel shell 1 in an array manner, gaps are arranged at the array positions of the graphite heat exchange blocks 2 and the graphite heat exchange blocks 2, the outer end edges of the gaps are provided with the inner sealing gasket 4, the outer end of the inner sealing gasket 4 is provided with the outer sealing gasket 5, a vertical space is arranged between the inner sealing gasket 4 and the outer sealing gasket 5, the combined baffling ring 3 is arranged between the graphite heat exchange blocks 2 and the steel shell 1, the upper end and the lower end of each baffling ring are provided with fixing plates, the fixing plates are connected with the steel shell 1, at least two groups of fixing plates are provided with gaps, the baffling rings are arranged in the gaps, heat exchange holes are arranged in the middle parts of the, the space width is equal to the transverse width of the baffle ring, and the vertical space between the inner sealing gasket 4 and the outer sealing gasket 5 is a vacuum space.

The technology improves the original single sealing structure into the double sealing structure, thereby improving the sealing performance, eliminating the risk of toxic material leakage, and improving the original metal baffle ring into the combined baffle ring with the nonmetal clamping pieces, thereby achieving the purposes of avoiding the phenomenon of fluid short circuit and greatly improving the heat exchange effect of the equipment.

Claims (4)

1. The double-sealing and baffling ring structure for the graphite heat exchanger comprises a steel shell (1), a graphite heat exchange block (2), a combined baffling ring (3), an inner sealing gasket (4) and an outer sealing gasket (5), it is characterized in that the graphite heat exchange blocks (2) are arranged inside the steel shell (1) in a row, gaps are arranged at the row positions of the graphite heat exchange blocks (2) and the graphite heat exchange blocks (2), inner sealing gaskets (4) are arranged at the edges of the outer ends of the gaps, outer sealing gaskets (5) are arranged at the outer ends of the inner sealing gaskets (4), vertical spaces are arranged between the inner sealing gaskets (4) and the outer sealing gaskets (5), combined type baffling rings (3) are arranged between the graphite heat exchange blocks (2) and the steel shell (1), the upper end and the lower end of the baffle ring are provided with fixing plates, the fixing plates are connected with the steel shell (1), at least two groups of fixing plates are arranged, a gap is arranged between the fixing plates, and the baffle ring is arranged in the gap.

2. The dual seal and baffle ring structure for graphite heat exchanger as claimed in claim 1 wherein the graphite heat exchange module has heat exchange holes in the middle, the heat exchange holes being arranged vertically and transversely across.

3. The dual seal and baffle ring structure for graphite heat exchanger as claimed in claim 1, wherein a space is provided between the graphite heat exchange block (2) and the steel shell (1), and the space width is equal to the transverse width of the baffle ring.

4. The dual seal and baffle ring structure for graphite heat exchangers according to claim 1 wherein the vertical space between the inner seal (4) and the outer seal (5) is a vacuum space.

Images