CN203625030U - Combined type integrated graphite hydrogen chloride synthesis furnace - Google Patents

Abstract

The utility model provides a combined type integrated graphite hydrogen chloride synthesis furnace comprising an internal synthesis processing part and an external furnace cylinder, wherein an interlayer is arranged between the synthesis processing part and the external furnace cylinder; the synthesis processing part sequentially comprises a lamp holder section component, a synthesis section component, a honeycomb graphite cooling absorption heat exchange section component and a top cooling component which are communicated with one another from bottom to top; a gas inlet is formed in the lamp holder section component; the honeycomb graphite cooling absorption heat exchange section component is a honeycombed graphite block; the top cooling component comprises an HCL (hydrogen chloride) gas-liquid separation section and a cooling absorption section, the HCL gas-liquid separation section is arranged below the cooling absorption section, an acid outlet is formed below the gas-liquid separation section, and an absorption liquid inlet and an exhaust outlet are formed above the cooling absorption section; an explosion-proof opening is formed in the top end of the top cooling component. The combined type graphite-hydrogen chloride synthesis furnace provided by the utility model effectively improves the heat transfer efficiency, and achieves full energy conversion of combustion heat energy.

Description

A kind of combined integral graphite synthesis furnace for hydrochloride

Technical field

The utility model relates to a kind of graphite equipment synthetic furnace, relates in particular to a kind of combined integral graphite synthesis furnace for hydrochloride.

Background technology

The production of technical hydrochloric acid mainly adopts chlorine and the synthesizing chlorinated hydrogen of combustion of hydrogen, again by synthetic higher than 1500 ℃ of high temperature in synthetic furnace, in this process, need to synthesize by igniting, then cooling, hydrogen chloride gas after cooling absorbs and generates synthetic hydrochloric acid with diluted acid water again, comprise: first synthetic, rear cooling, finally absorb basic three process.

Conventional production adopts respectively at least three or multiple devices to complete respectively above-mentioned basic three process, its equipment, and human input is many, and production cost is higher, and production efficiency is low, wastage of material is more serious.

At present comparatively advanced flow process is: by above-mentioned synthetic, cooling, absorb basic three process and be synthesized in an equipment and complete, adopt All-in-One hydrochloric acid synthetic furnace.General All-in-One stove is synthesizing for hydrochloric acid only.But, in the process of burning generation hydrogenchloride, produce larger heat, and these heats are not utilized preferably, to cause the waste of the energy.

At present, more advanced technology, is to adopt on the basis of All-in-One hydrochloric acid synthetic furnace, the combustion heat of hydrogenchloride is passed to circulating hot water, to increase the heat content of circulating hot water, realizing the recycling of heat, generates byproduct steam or hot water, to make full use of the energy.

The All-in-One hydrochloric acid synthetic furnace of the byproduct steam of prior art or hot water, the inside and outside wall of its synthetic furnace stove cylinder is light wall shape conventionally, or more shallow enhancement of heat transfer groove, wall internal drilling etc., its heat transfer surface area is relatively little, thereby has limited the effect of conducting heat.

In addition, in order to improve heat-transfer effect, between inside and outside stove cylinder, interlayer arranges spiral deflector and division plate, for flow direction and the raising flow velocity of Directed cooling liquid or heating fluid.The traverse baffle of the All-in-One hydrochloric acid synthetic furnace of the byproduct steam of prior art or hot water is a kind of single tabular or ring made from metal, plastics or graphite.Because metal, plastics and graphite are rigid material, and between traverse baffle and outer furnace tube, leave space, therefore, water coolant or heating fluid just easily leak from space, cause the obstruction of passage or the inequality of conducting heat, and have affected heat-transfer effect.

Summary of the invention

It is a kind of rational in infrastructure that the purpose of this utility model is to provide, and effectively improves a kind of combined integral graphite synthesis furnace for hydrochloride of heat transfer efficiency.

To achieve these goals, a kind of combined integral graphite synthesis furnace for hydrochloride that the utility model provides, comprise inner synthetic handling part and be coated on the outer furnace tube outside synthetic handling part, synthetic handling part and outer furnace tube will be provided with interlayer, and interlayer carries out heat conduction, heat radiation, cooling for water;

Synthetic handling part comprises successively from bottom to up and being interconnected: lamp holder section assembly, synthesis stage assembly, honeycomb graphite cooling and absorbing heat exchanging segment assembly and top cooling module;

Lamp holder section assembly is provided with inlet mouth;

Synthesis stage assembly is stove cylinder in graphite;

Honeycomb graphite cooling and absorbing heat exchanging segment assembly is cellular graphite block, and cellular graphite block is located at interior stove cylinder top; Cellular graphite block is provided with the vertical through hole that is communicated in interior stove cylinder and the horizontal through hole that is communicated in interlayer;

Top cooling module comprises: HCL gas-liquid separation section and cooling down absorption segment, and HCL gas-liquid separation section is located at cooling down absorption segment below, and gas-liquid separation section below is provided with acid mouth, and cooling down absorption segment top is provided with absorption liquid import and tail gas outlet;

Cooling module top, top is provided with venting;

Synthesis stage assembly, honeycomb graphite cooling and absorbing heat exchanging segment assembly outside sandwich are cooling heat transferring chamber, and top cooling module outside sandwich is cooling chamber.

In some embodiments, outer furnace tube is connected and is formed by multistage, is provided with expansion joint assembly between adjacent both ends outer furnace tube.

In some embodiments, lamp holder section assembly comprises: chassis I, manhole connecting pipe, chassis II, manhole differential, the first bolt, manhole plate, the second bolt;

Synthesis stage assembly comprises: the pad I, lighting-up tuyere assembly, visor mouth assembly, the I type venting assembly that are connected with interior stove cylinder;

Honeycomb graphite cooling and absorbing heat exchanging segment assembly comprises from bottom to up successively: chamfering, chamfering flange, heat transfer block, upper chamber lower shell, upper chamber lamina tecti and venting II assembly under the interior upper heat transfer block of stove, the interior top of stove cylindrical shell, water cooler;

Top cooling module comprises: upper chamber upper shell, epimerite cylindrical shell, bolt connection assembly IV and upper cover plate.

In some embodiments, lowermost end outer furnace tube, chassis I are arranged on the upper side of chassis II.Chassis I is arranged on inner barrel below;

Manhole plate is arranged on manhole differential downside by the second bolt;

Manhole differential is connected to chassis II downside by the first bolt;

Chassis II is provided with acid discharge mouth and the sewage draining exit of mouth down;

Manhole connecting pipe setting is by chassis I, chassis II and manhole differential inner chamber;

Bulb socket is arranged in the inner chamber of manhole connecting pipe and manhole differential;

Lamp holder is set in bulb socket, and bulb socket is outer is provided with hydrogen inlet, chlorine inlet by angle.

In some embodiments, between interior stove cylinder bottom and chassis I, be provided with pad I, interior stove cylinder top is connected with lower heat transfer block in stove;

Interior furnace tube outer wall is provided with the certain azimuthal solid welding joint of each one-tenth and is connected with lighting-up tuyere assembly, visor mouth assembly and I type venting assembly respectively;

Lighting-up tuyere assembly is provided with lighting-up tuyere;

Visor mouth assembly is provided with visor mouth;

I type venting assembly is provided with venting I.

In some embodiments, the outer furnace tube of synthesis stage assembly comprises outer furnace tube I assembly and outer furnace tube II assembly;

Expansion joint assembly between outer furnace tube I assembly and outer furnace tube II assembly connects by spring rod assembly;

Outer furnace tube II assembly is provided with water tank cylindrical shell, and water tank cylindrical shell is bolted assembly II and connects;

Be provided with in addition balancing pipeline and be connected to that outer furnace tube I assembly outer wall below is provided with hot water inlet and outer furnace tube II assembly outer wall top is provided with on hot water outlet;

In interlayer, be provided with the spiral deflector hot water that adopts stainless steel to make and be helicoidal flow by spiral stream guidance plate structure.

In some embodiments, honeycomb graphite cooling and absorbing heat exchanging segment assembly comprises lower heat transfer block in the interior above heat transfer block of stove and stove, and in stove, above heat transfer block is located on the interior lower heat transfer block of stove;

In stove, top cylindrical shell is located on the interior upper heat transfer block of stove, and in stove, top inner barrel is provided with cavity;

Under water cooler, chamfering is located on the cylindrical shell of the interior top of stove;

Heat transfer block is located under water cooler in chamfering;

Upper chamber lower shell is located on heat transfer block, and junction is provided with by pad II;

Upper chamber upper shell is located on upper chamber lower shell;

Epimerite cylindrical shell is located on upper chamber upper shell, and is positioned at the below of upper cover plate.

In some embodiments, the cellular through hole that is provided with same interval vertical and horizontal direction in stove in lower heat transfer block, stove in upper heat transfer block, stove under top cylindrical shell, water cooler in chamfering, heat transfer block, upper chamber lower shell, upper chamber upper shell, epimerite cylindrical shell, material adopts impermeable graphite manufacture.

In some embodiments, upper chamber upper shell, epimerite cylindrical shell and be bolted assembly IV dress and press connected upper cover plate and cooling section cylindrical shell II, between be tightly connected by pad III.Cooling section cylindrical shell II is arranged on cooling section cylindrical shell I, between be bolted assembly III connect, cooling section cylindrical shell I is arranged in water tank cylindrical shell, is bolted assembly II and connects, and cooling section cylindrical shell I is bolted assembly V with chamfering flange and is connected.

In some embodiments, upper cover plate is provided with water outlet, the venting II assembly outer wall connecting is provided with drain, cooling section cylindrical shell II outer wall is provided with hanging support, cooling section cylindrical shell I outer wall is provided with HCL outlet, the inner tank theca of the inwall of cooling section cylindrical shell I, cooling section cylindrical shell II and heat transfer block stack composition forms an interlayer, and interlayer distance is in the vertical direction provided with division plate.

A kind of combined integral graphite synthesis furnace for hydrochloride that the utility model provides, hydrogen and chlorine enter from inlet mouth, by lighting near bulb socket lighting-up tuyere, the synthetic hydrogen chloride gas that generates in synthesis stage assembly; High-temp chlorination hydrogen rises, and enters honeycomb graphite cooling and absorbing heat exchanging segment assembly, and a part of combustion heat passes to the fluid in heat exchanging segment by interior stove cylinder, closely the combustion heat is converted to the heat content of fluid; Hydrogen chloride gas after cooling continues to rise, by hydrogenchloride gas-liquid segregation section, cutting out partial liquid; Gas continues upwards, enters cooling down absorption segment, when cooling down absorption segment rises, is absorbed by mobile absorption liquid from top to down, and absorption liquid acid concentration is enhanced; The absorption liquid that has been enhanced concentration continues to flow downward, and enters gas-liquid separation section, and has acid mouth output; Tail gas is discharged from the tail gas outlet of cooling down absorption segment top.

A kind of combined integral graphite synthesis furnace for hydrochloride that the utility model provides, rational in infrastructure, effectively improve heat transfer efficiency.

Accompanying drawing explanation

The structural representation of a kind of combined integral graphite synthesis furnace for hydrochloride of Fig. 1 the utility model.

Embodiment

Below in conjunction with accompanying drawing 1 and specific embodiment, the utility model is described in further detail to explanation.

Fig. 1 has schematically shown a kind of combined integral graphite synthesis furnace for hydrochloride according to a kind of embodiment of the utility model.

As shown in Figure 1, a kind of combined integral graphite synthesis furnace for hydrochloride of the present utility model, comprise inner synthetic handling part and be coated on the outer furnace tube outside synthetic handling part, synthetic handling part and outer furnace tube will be provided with interlayer, and interlayer carries out heat conduction, heat radiation, cooling for water; Synthetic handling part comprises successively from bottom to up and being interconnected: lamp holder section assembly A, synthesis stage assembly B, honeycomb graphite cooling and absorbing heat exchanging segment assembly C and top cooling module D; Lamp holder section assembly A is provided with inlet mouth; Synthesis stage assembly B is stove cylinder 11 in graphite; Honeycomb graphite cooling and absorbing heat exchanging segment assembly C is cellular graphite block, and cellular graphite block is located at interior stove cylinder top; Cellular graphite block is provided with the vertical through hole that is communicated in interior stove cylinder 11 and the horizontal through hole that is communicated in interlayer; Top cooling module D comprises: HCL gas-liquid separation section and cooling down absorption segment, and HCL gas-liquid separation section is located at cooling down absorption segment below, and gas-liquid separation section below is provided with acid mouth j, and cooling down absorption segment top is provided with absorption liquid import and tail gas outlet; Cooling module D top, top is provided with venting; Synthesis stage assembly B, honeycomb graphite cooling and absorbing heat exchanging segment assembly C outside sandwich are cooling heat transferring chamber, and top cooling module D outside sandwich is cooling chamber.Outer furnace tube is connected and is formed by multistage, is provided with expansion joint assembly between adjacent both ends outer furnace tube.

As shown in the figure, lamp holder section assembly A comprises: chassis I 5, manhole connecting pipe 3, chassis II 6, manhole differential 2, the first bolt A7, manhole plate A8, the second bolt A9.Synthesis stage assembly B comprises: the pad I 9, lighting-up tuyere assembly 10, visor mouth assembly 41, the I type venting assembly 16 that are connected with interior stove cylinder 11.Honeycomb graphite cooling and absorbing heat exchanging segment assembly C comprises from bottom to up successively: chamfering 20, chamfering flange 21, heat transfer block 30, upper chamber lower shell 32, upper chamber lamina tecti 33 and venting II assembly 39 under the interior upper heat transfer block 18 of stove, the interior top of stove cylindrical shell 19, water cooler.Top cooling module D comprises: upper chamber upper shell 33, epimerite cylindrical shell 34, bolt connection assembly IV 38 and upper cover plate 37.

Lowermost end outer furnace tube, chassis I 5 are arranged on the upper side of chassis II 6.Chassis I 5 is arranged on inner barrel 11 belows; Manhole plate A8 is arranged on manhole differential 2 downsides by the second bolt A9; Manhole differential 2 is connected to chassis II 6 downsides by the first bolt A7; Chassis II 6 is provided with acid discharge mouth c and the sewage draining exit d of mouth down; Manhole connecting pipe 3 arranges by chassis I 5, chassis II 6 and manhole differential 2 inner chambers; Bulb socket is arranged in the inner chamber of manhole connecting pipe 3 and manhole differential 2; Lamp holder is set in bulb socket, and bulb socket is outer is provided with hydrogen inlet a1-2, chlorine inlet b by angle.

Between interior stove cylinder 11 bottoms and chassis I 5, be provided with pad I 9, interior stove cylinder 11 tops are connected with lower heat transfer block 17 in stove; Interior stove cylinder 11 outer walls are provided with the certain azimuthal solid welding joint B1 of each one-tenth and are connected with lighting-up tuyere assembly 10, visor mouth assembly 41 and I type venting assembly 16 respectively; Lighting-up tuyere assembly 10 is provided with lighting-up tuyere g; Visor mouth assembly 41 is provided with visor mouth f1-2; I type venting assembly 16 is provided with venting I h1-2.

The outer furnace tube of synthesis stage assembly B comprises outer furnace tube I assembly 12 and outer furnace tube II assembly 15; Expansion joint assembly 13 between outer furnace tube I assembly 12 and outer furnace tube II assembly 15 connects by spring rod assembly 14; Outer furnace tube II assembly 15 is provided with water tank cylindrical shell 23, and water tank cylindrical shell 23 is bolted assembly II 22 and connects; Be provided with in addition balancing pipeline B3 and be connected to that outer furnace tube I assembly 12 outer walls belows are provided with hot water inlet e and outer furnace tube II assembly 15 outer walls tops are provided with on hot water outlet L; In interlayer, be provided with the spiral deflector A2 that adopts stainless steel to make, hot water is helicoidal flow by spiral deflector A2 structure.

Honeycomb graphite cooling and absorbing heat exchanging segment assembly C comprises lower heat transfer block 17 in the interior above heat transfer block 18 of stove and stove, and in stove, above heat transfer block 18 is located on the interior lower heat transfer block 17 of stove; In stove, top cylindrical shell 19 is located on the interior upper heat transfer block 18 of stove, and in stove, cylindrical shell 19 inside, top are provided with cavity; Under water cooler, chamfering 20 is located on the interior top of stove cylindrical shell 19; Heat transfer block 30 is located under water cooler in chamfering 20; Upper chamber lower shell 32 is located on heat transfer block 30, and junction is provided with by pad II 31; Upper chamber upper shell 33 is located on upper chamber lower shell 32; Epimerite cylindrical shell 34 is located on upper chamber upper shell 33, and is positioned at the below of upper cover plate 37.

The cellular through hole that is provided with same interval vertical and horizontal direction in stove in lower heat transfer block 17, stove in upper heat transfer block 18, stove under top cylindrical shell 19, water cooler in chamfering 20, heat transfer block 30, upper chamber lower shell 32, upper chamber upper shell 33, epimerite cylindrical shell 34, material adopts impermeable graphite manufacture.Upper chamber upper shell 33, epimerite cylindrical shell 34 and be bolted assembly IV 38 dress and press connected upper cover plate 37 and cooling section cylindrical shell II 27, between be tightly connected by pad III 35.Cooling section cylindrical shell II 27 is arranged on cooling section cylindrical shell I 24, between be bolted assembly III 26 and connect, cooling section cylindrical shell I 24 is arranged in water tank cylindrical shell 23, is bolted assembly II 22 and connects, and cooling section cylindrical shell I 24 is bolted assembly V 40 with chamfering flange and is connected.Upper cover plate 37 is provided with water outlet p, venting II assembly 39 outer walls that connect are provided with drain m, cooling section cylindrical shell II 27 outer walls are provided with hanging support 28, cooling section cylindrical shell I 24 outer walls are provided with HCL outlet j, the inner tank theca of the inwall of cooling section cylindrical shell I 24, cooling section cylindrical shell II 27 and heat transfer block 30 stack compositions forms an interlayer, and interlayer distance is in the vertical direction provided with division plate 29.

Principle of work:

Hydrogen and chlorine enter from raw material inlet mouth a1-2 and b respectively, light the synthetic hydrogen chloride gas that generates in synthesis stage B by lamp holder section (A) burning; High-temp chlorination hydrogen rises, enter heat exchange and honeycomb graphite cooling down absorption segment C, at synthesis stage B and heat exchange and honeycomb graphite cooling down absorption segment C, the part combustion heat passes to the circulating hot water in interlayer by the graphite tube of lower heat transfer block 17 and heat transfer block 30 in interior stove cylinder 11 and stove, closely the combustion heat is converted to the heat content of hot water.Circulating hot water enters from circulating hot water water-in e, after heat-obtaining, from circulating hot water water outlet L output, connects circulation by balancing pipeline B3.Hydrogen chloride gas after cooling continues to rise, and further lowers the temperature, then cool and isolate partially liq by gas-liquid by crossing honeycomb graphite cooling down absorption segment C; Gas continues upwards, enters top cooling section D cooling, from top to down flow, cooling and absorbing, absorption liquid acid concentration is enhanced; The absorption liquid that has been enhanced concentration continues to flow downward, and enters gas-liquid separation section, and exports from acid mouth j; Tail gas is discharged from cooling down absorption segment top tail gas outlet m.

On a kind of combined integral graphite synthesis furnace for hydrochloride cylinder inboard wall of a kind of embodiment of the utility model or inside and outside wall, be provided with division plate, gusset and along barrel longitudinally, the flow deflector that arranges of hoop or spiral, and adopt the mixing setting of two or more forms; Meanwhile, interior stove cylinder barrel is provided with stiffening ring, therefore, has greatly expanded heat transfer area, has improved heat transfer efficiency, has improved the intensity of stove cylinder.In interlayer, be provided with spiral deflector, the convenience of spiral deflector in order to install, comprise rigidity and flexible screw flow deflector, flexible screw flow deflector with inner surface of outer cover change of shape, therefore, flexible screw flow deflector has been filled up the gap between rigidity spiral deflector and outer furnace tube, prevents from causing leakage because above-mentioned stress problem produces gap, cause phenomenon cooling or heating fluid short circuit, improved heat transfer efficiency.

In sum, a kind of combined integral graphite synthesis furnace for hydrochloride of the present utility model, effectively improves heat transfer efficiency, and combustion heat energy has been obtained to sufficient energy transformation, saves equipment cost.

Claims (10)

1. a combined integral graphite synthesis furnace for hydrochloride, it is characterized in that, comprise inner synthetic handling part and be coated on the outer furnace tube outside described synthetic handling part, described synthetic handling part and described outer furnace tube will be provided with interlayer, and described interlayer carries out heat conduction, heat radiation, cooling for water;

Described synthetic handling part comprises successively from bottom to up and being interconnected: lamp holder section assembly, synthesis stage assembly, honeycomb graphite cooling and absorbing heat exchanging segment assembly and top cooling module;

Described lamp holder section assembly is provided with inlet mouth;

Described synthesis stage assembly is stove cylinder in graphite;

Described honeycomb graphite cooling and absorbing heat exchanging segment assembly is cellular graphite block, and described cellular graphite block is located at described interior stove cylinder top; Described cellular graphite block is provided with the vertical through hole that is communicated in described interior stove cylinder and the horizontal through hole that is communicated in described interlayer;

Described top cooling module comprises: HCL gas-liquid separation section and cooling down absorption segment, described HCL gas-liquid separation section is located at described cooling down absorption segment below, described gas-liquid separation section below is provided with acid mouth, and described cooling down absorption segment top is provided with absorption liquid import and tail gas outlet;

Cooling module top, described top is provided with venting;

Described synthesis stage assembly, described honeycomb graphite cooling and absorbing heat exchanging segment assembly outside sandwich are cooling heat transferring chamber, and described top cooling module outside sandwich is cooling chamber.

2. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 1, is characterized in that, described outer furnace tube is connected and is formed by multistage, is provided with expansion joint assembly described in adjacent both ends between outer furnace tube.

3. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 2, is characterized in that,

Described lamp holder section assembly comprises: chassis I, manhole connecting pipe, chassis II, manhole differential, the first bolt, manhole plate, the second bolt;

Described synthesis stage assembly comprises: the pad I, lighting-up tuyere assembly, visor mouth assembly, the I type venting assembly that are connected with described interior stove cylinder;

Described honeycomb graphite cooling and absorbing heat exchanging segment assembly comprises from bottom to up successively: chamfering, chamfering flange, heat transfer block, upper chamber lower shell, upper chamber lamina tecti and venting II assembly under the interior upper heat transfer block of stove, the interior top of stove cylindrical shell, water cooler;

Described top cooling module comprises: upper chamber upper shell, epimerite cylindrical shell, bolt connection assembly IV and upper cover plate.

4. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 3, is characterized in that, outer furnace tube, chassis I are arranged on the upper side of chassis II described in lowermost end.Described chassis I is arranged on inner barrel below;

Described manhole plate is arranged on manhole differential downside by the second bolt;

Described manhole differential is connected to chassis II downside by the first bolt;

Described chassis II is provided with acid discharge mouth and the sewage draining exit of mouth down;

Described manhole connecting pipe setting is by chassis I, chassis II and manhole differential inner chamber;

Described bulb socket is arranged in the inner chamber of manhole connecting pipe and manhole differential;

In described bulb socket, lamp holder is set, bulb socket is outer is provided with hydrogen inlet, chlorine inlet by angle.

5. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 4, is characterized in that,

Between described interior stove cylinder bottom and chassis I, be provided with pad I, described interior stove cylinder top is connected with lower heat transfer block in stove;

Described interior furnace tube outer wall is provided with the certain azimuthal solid welding joint of each one-tenth and is connected with lighting-up tuyere assembly, visor mouth assembly and I type venting assembly respectively;

Described lighting-up tuyere assembly is provided with lighting-up tuyere;

Described visor mouth assembly is provided with visor mouth;

Described I type venting assembly is provided with venting I.

6. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 5, is characterized in that, the described outer furnace tube of described synthesis stage assembly comprises outer furnace tube I assembly and outer furnace tube II assembly;

Expansion joint assembly between described outer furnace tube I assembly and outer furnace tube II assembly connects by spring rod assembly;

Described outer furnace tube II assembly is provided with water tank cylindrical shell, and described water tank cylindrical shell is bolted assembly II and connects;

Be provided with in addition balancing pipeline and be connected to that outer furnace tube I assembly outer wall below is provided with hot water inlet and outer furnace tube II assembly outer wall top is provided with on hot water outlet;

In described interlayer, be provided with the spiral deflector that adopts stainless steel to make, described hot water is helicoidal flow by spiral stream guidance plate structure.

7. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 6, is characterized in that, honeycomb graphite cooling and absorbing heat exchanging segment assembly comprises lower heat transfer block in the interior above heat transfer block of stove and stove, and in described stove, above heat transfer block is located on the interior lower heat transfer block of stove;

In described stove, top cylindrical shell is located on the interior upper heat transfer block of stove, and in described stove, top inner barrel is provided with cavity;

Under described water cooler, chamfering is located on the cylindrical shell of the interior top of stove;

Heat transfer block is located under water cooler in chamfering;

Upper chamber lower shell is located on heat transfer block, and junction is provided with by pad II;

Upper chamber upper shell is located on upper chamber lower shell;

Epimerite cylindrical shell is located on upper chamber upper shell, and is positioned at the below of upper cover plate.

8. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 7, is characterized in that, top cylindrical shell, cooling in lower heat transfer block, the interior upper heat transfer block of stove, stove in described stove

Under device, in chamfering, heat transfer block, upper chamber lower shell, upper chamber upper shell, epimerite cylindrical shell, be provided with the cellular through hole of same interval vertical and horizontal direction, described material adopts impermeable graphite manufacture.

9. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 8, it is characterized in that, upper chamber upper shell, epimerite cylindrical shell and be bolted assembly IV dress and press connected upper cover plate and cooling section cylindrical shell II, be tightly connected by pad III between described.Described cooling section cylindrical shell II is arranged on cooling section cylindrical shell I, between described, being bolted assembly III connects, described cooling section cylindrical shell I is arranged in water tank cylindrical shell, the described assembly II that is bolted connects, and described cooling section cylindrical shell I is bolted assembly V with chamfering flange and is connected.

10. a kind of combined integral graphite synthesis furnace for hydrochloride according to claim 9, it is characterized in that, described upper cover plate is provided with water outlet, the venting II assembly outer wall of described connection is provided with drain, described cooling section cylindrical shell II outer wall is provided with hanging support, described cooling section cylindrical shell I outer wall is provided with HCL outlet, the inner tank theca of the inwall of described cooling section cylindrical shell I, cooling section cylindrical shell II and heat transfer block stack composition forms an interlayer, and described interlayer distance is in the vertical direction provided with division plate.

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