CN205909714U - Graphite heat exchanger - Google Patents

Abstract

The utility model relates to a graphite heat exchanger, its innovation point lies in: this graphite heat exchanger includes head, graphite block, casing, carbon tube and cooling tube, this graphite heat exchanger adopts the inside lining steel sheet rubberizing at the graphite heat exchanger head even to have a plurality of fibre layers, and fibre layers adopts cross -distribution, and fibre layers's the thick end is greater than 10mm and the whole sealed mode of fibre layers adoption, has improved graphite heat exchanger's leakproofness, has reduced the possibility of seepage, the carbon tube is installed holecoaxiality with the graphite block on the graphite block and is less than phi 0.05mm, adopts sealed pad of a plurality of to set gradually between carbon tube and the graphite block, has ensured sealed pad and has installed the leakproofness on the carbon tube, has ensured graphite heat exchanger's prevention of seepage effect.

Description

A kind of graphite heat exchanger

Technical field

This utility model is related to crystal vessel field, more particularly, to a kind of graphite heat exchanger.

Background technology

Graphite heat exchanger is the heat exchanger that heat-transferring assembly graphite is made, and graphite heat exchanger operation principle is: according to graphite Acid-resistant corrosion and good heat-conductive characteristic, be fabricated to water conservancy diversion device with graphite, when two media each other by when, high temperature Medium constantly imparts heat to graphite heat exchanger, and cryogenic media constantly obtains heat from heat exchanger, it is achieved thereby that heat exchange. According to the feature of graphite, current graphite heat exchanger obtains increasingly extensive in industries such as cold-rolling pickling line, chemical industry, oil and pesticide Application.Traditional graphite heat exchanger can be divided into block cellular type, shell-and-tube and board-like 3 types by its structure.Block cellular type: by several Blocky graphite assembling components with holes form.Shell-and-tube: shell-and-tube heat exchanger occupies critical role in graphite heat exchanger, by knot Structure is divided into fixed and two kinds of floating head type again.Block cellular type and shell-and-tube conveniently respectively have quality in heat exchange property, such as block cellular type, and it is excellent Point is that structural strength is high, heat exchange safety, and shortcoming is to need substantial amounts of piece of cellular type heat transfer block to be spliced to form heat exchange core body, and graphite uses Amount is big, relatively costly, and the interval between coolant guiding channel and high temperature acid solution passage is larger, and cooling effect is not good；Shell-and-tube Advantage be that graphite-pipe is directly contacted with cooling medium, heat exchange area is larger, and preferably, graphite usage amount is less for heat transfer effect, lacks Point is that structural strength is relatively low, and graphite-pipe is fragile.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of graphite heat exchanger, and it is strong that this graphite heat exchanger has structure Spend higher, heat exchange safety, heat exchange efficiency is higher, heat transfer effect is preferable, lower-cost feature.

For solving above-mentioned technical problem, the technical solution of the utility model is: a kind of graphite heat exchanger, and its innovative point exists In: this graphite heat exchanger includes end socket, graphite block, housing, graphite-pipe and cooling tube；

Described housing is in cylinder tubbiness, and the two ends of housing outline periphery are provided with connection otic placode a, on housing outline Housing axisymmetrical is provided with several cooling tubes, described cooling tube turns on perpendicular to housing and with housing；Described graphite Block is separately mounted to the two ends of housing, and graphite block is closely coupled with housing, and the center of graphite block is provided with graphite-pipe installing hole；

Described end socket includes left end socket and right end socket, is connected to the both sides positioned at housing two ends graphite block, left end socket, Right end socket is provided with sealing ring with graphite block connecting place and graphite block with housing connecting place；The centre of end socket has connection Mouthful, the edge of end socket is provided with connection otic placode b, and connection otic placode a is connected by bolt with connection otic placode b, make end socket, graphite block and Closely coupled between housing；The medial wall of described end socket is provided with lining steel plate, and the surface of lining steel plate is bonded with carbon fiber Layer；

Described graphite-pipe passes through housing, the stone opening up in the middle of the two ends of graphite-pipe and graphite block along the axis direction of housing Black installing hole is connected, and the two ends of graphite-pipe are round table-like, are provided with several sealing gaskets, sealing gasket between graphite-pipe and graphite block From the lateral housing side of end socket one, the outline along graphite-pipe sets gradually；

It is close that described sealing gasket includes nitrile rubber gasket, polyurethane rubber seal pad, silicone rubber seal gasket and fluorubber Packing；Described nitrile rubber gasket, polyurethane rubber seal pad, silicone rubber seal gasket and fluorubber sealing gasket are along graphite-pipe The round table-like outline in two ends set gradually from end socket to housing direction, the external diameter of sealing gasket is identical, and internal diameter is gradually increased, realize Cooperation with graphite-pipe two ends.

Further, described end socket connects mode, carbon fiber layer using glue between the carbon fiber layer of setting and lining steel plate Using cross-distribution and the thick bottom of carbon fiber layer is more than by the way of 10mm and carbon fiber layer adopt integral sealing.

Further, described graphite-pipe and the graphite block installing hole axiality on graphite block are less than φ 0.05mm.

The utility model has the advantage of: 1) this graphite heat exchanger is using the lining steel plate gluing in graphite heat exchanger end socket It is connected with some carbon fiber layers, carbon fiber layer adopts cross-distribution, and the thick bottom of carbon fiber layer is more than 10mm and carbon fiber layer is using whole The mode of body sealing, improves the sealing of graphite heat exchanger, reduces the probability of seepage；2) on graphite-pipe and graphite block Graphite block installing hole axiality is less than φ 0.05mm, is set gradually using several sealing gaskets, really between graphite-pipe and graphite block Protect the sealing that sealing gasket is arranged on graphite-pipe it is ensured that the anti-seepage effect of graphite heat exchanger.

Brief description

With reference to the accompanying drawings and detailed description this utility model is described in further detail.

Fig. 1 is the front view of graphite heat exchanger.

Fig. 2 is the partial enlarged drawing of graphite heat exchanger.

As shown in Figure 1: 1, end socket；11st, left end socket；12nd, right end socket；13rd, connector；14th, lining steel plate；15th, carbon fiber Layer；2nd, graphite block；21st, graphite-pipe installing hole；3rd, housing；4th, graphite-pipe；5th, cooling tube；6th, connection otic placode；7th, sealing ring；8th, close Packing；81st, nitrile rubber gasket；82nd, polyurethane rubber seal pad；83rd, silicone rubber seal gasket；84th, fluorubber sealing gasket.

Specific embodiment

The following examples can make professional and technical personnel that this utility model is more fully understood, but therefore will not This utility model is limited among described scope of embodiments.

A kind of graphite heat exchanger as shown in Figure 1, this graphite heat exchanger includes end socket 1, graphite block 2, housing 3, graphite-pipe 4 With cooling tube 5.

Housing 3 is in cylinder tubbiness, and the two ends of housing 3 outline periphery are provided with connection otic placode 6a, on housing 3 outline Housing 3 axisymmetrical is provided with several cooling tubes 5, described cooling 5 pipes turn on perpendicular to housing 3 and with housing 3；Described Graphite block 2 is separately mounted to the two ends of housing 3, and graphite block 2 is closely coupled with housing 3, and the center of graphite block 2 is provided with graphite Pipe installing hole 21.

End socket 1 includes left end socket 11 and right end socket 12, is connected to the both sides positioned at housing 3 two ends graphite block 2, left envelope 11, right end socket 12 and graphite block 2 connecting place and graphite block 2 are provided with sealing ring 7 with housing 3 connecting place；In end socket 1 Between have a connector 13, the edge of end socket 1 is provided with connection otic placode 6b, and connection otic placode 6a and connection otic placode 6b pass through bolt phase Even, make closely coupled between end socket 1, graphite block 2 and housing 3；The medial wall of described end socket 1 is provided with lining steel plate 14, liner Carbon fiber layer 15 is bonded with the surface of steel plate 14.

Graphite-pipe 4 passes through housing 3, the stone opening up in the middle of the two ends of graphite-pipe 4 and graphite block 2 along the axis direction of housing Black installing hole 21 is connected, and the two ends of graphite-pipe 4 are round table-like, are provided with several sealing gaskets 8 between graphite-pipe 4 and graphite block 2, Sealing gasket 8 sets gradually from lateral housing 3 side of end socket 1 one along the outline of graphite-pipe 4.

Sealing gasket 8 includes nitrile rubber gasket 81, polyurethane rubber seal pad 82, silicone rubber seal gasket as shown in Figure 2 83 and fluorubber sealing gasket 84；Described nitrile rubber gasket 81, polyurethane rubber seal pad 82, silicone rubber seal gasket 83 and fluorine Rubber gasket 84 is set gradually to housing 3 direction along the round table-like outline in two ends of graphite-pipe 4 from end socket 1, sealing gasket 8 External diameter is identical, and internal diameter is gradually increased, and realizes the cooperation with graphite-pipe 4 two ends.

Between the carbon fiber layer 15 of setting and lining steel plate 14, mode is connected using glue on end socket 1, carbon fiber layer 15 is using friendship The thick bottom of fork distribution and carbon fiber layer 15 is more than 10mm and carbon fiber layer 15 is by the way of integral sealing, improves graphite heat exchange The sealing of device, reduces the probability of seepage.

Graphite-pipe 4 is less than φ 0.05mm it is ensured that sealing gasket 8 is pacified with graphite block installing hole 21 axiality on graphite block 2 It is contained in the sealing on graphite-pipe 4.

It should be understood by those skilled in the art that, this utility model is not restricted to the described embodiments, above-described embodiment and Described in description, principle of the present utility model is simply described, on the premise of without departing from this utility model spirit and scope, This utility model also has various changes and modifications, and these changes and improvements both fall within claimed this utility model scope Interior.This utility model claims scope by appending claims and its equivalent thereof.

Claims (3)

1. a kind of graphite heat exchanger it is characterised in that: this graphite heat exchanger includes end socket, graphite block, housing, graphite-pipe and cooling Pipe；

Described housing is in cylinder tubbiness, and the two ends of housing outline periphery are provided with connection otic placode a, on housing outline with regard to Housing axisymmetrical is provided with several cooling tubes, and described cooling tube turns on perpendicular to housing and with housing；Described graphite block divides It is not arranged on the two ends of housing, graphite block is closely coupled with housing, the center of graphite block is provided with graphite-pipe installing hole；

Described end socket includes left end socket and right end socket, is connected to the both sides positioned at housing two ends graphite block, left end socket, right envelope Head is provided with sealing ring with graphite block connecting place and graphite block with housing connecting place；The centre of end socket has connector, envelope The edge of head is provided with connection otic placode b, and connection otic placode a is connected by bolt with connection otic placode b, makes end socket, graphite block and housing Between closely coupled；The medial wall of described end socket is provided with lining steel plate, and the surface of lining steel plate is bonded with carbon fiber layer；

Described graphite-pipe passes through housing along the axis direction of housing, the graphite peace opening up in the middle of the two ends of graphite-pipe and graphite block Dress hole is connected, and the two ends of graphite-pipe are round table-like, are provided with several sealing gaskets, sealing gasket is from envelope between graphite-pipe and graphite block First lateral housing side sets gradually along the outline of graphite-pipe；

Described sealing gasket includes nitrile rubber gasket, polyurethane rubber seal pad, silicone rubber seal gasket and fluorubber sealing gasket； Described nitrile rubber gasket, polyurethane rubber seal pad, silicone rubber seal gasket and fluorubber sealing gasket are along the two of graphite-pipe Hold round table-like outline to be set gradually to housing direction from end socket, the external diameter of sealing gasket is identical, and internal diameter is gradually increased, realize and stone The cooperation at black pipe two ends.

2. a kind of graphite heat exchanger according to claim 1 it is characterised in that: on described end socket setting carbon fiber layer with Between lining steel plate, mode is connected using glue, carbon fiber layer adopts cross-distribution and the thick bottom of carbon fiber layer is more than 10mm and carbon fiber Layer is by the way of integral sealing.

3. a kind of graphite heat exchanger according to claim 1 it is characterised in that: the graphite on described graphite-pipe and graphite block Block installing hole axiality is less than φ 0.05mm.