CN203642728U - Secondary steam condenser for sodium azide production - Google Patents

Abstract

The utility model discloses a secondary steam condenser for sodium azide production. The secondary steam condenser comprises a barrel, an end cover and a liquid collection hopper, an exhaust pipe and hanging rings are arranged on the end cover, a water inlet pipe is arranged at the top end of the barrel, a gas inlet pipe and a water drain pipe are arranged at the bottom end of the barrel, a primary condensing chamber and a secondary condensing chamber are arranged in the barrel, each of the primary condensing chamber and the second condensing chamber comprises a plurality of condensing discs and a water delivering pipe, a support frame and a first condensate outlet pipe are arranged on the liquid collection hopper, and gas enters the primary condensing chamber and the secondary condensing chamber via the gas inlet pipe so as to condense steam into liquid. Due to the design of secondary condensing, a condensing effect of sodium azide is more obvious; the gas entering the barrel can be diffused into the condensing chambers due to through holes in the condensing discs, so that contact areas between the gas and the condensing discs are enlarged, and condensing efficiency is improved; owing to an antirust coating arranged in the liquid collection hopper, quality of the condensate can be guaranteed, and service life of the condenser can be prolonged.

Description

A kind of sodium azide indirect steam condenser of producing

Technical field

The utility model relates to a kind of sodium azide indirect steam condenser of producing.

Background technology

Condenser be a kind of can be by the heat in pipe, in very fast mode, pass near air pipe, gas or steam are transformed into the device of liquid.

Along with more and more fields start refrigeration series products to cause the demand, evaporimeter, condenser have been widely used in how different fields, as solar power-generating facility, automobile refrigerating facility and refrigeration peculiar to vessel arrange etc.Along with making rapid progress of product structure, Functional Design, material substitution and the production technology of modern two devices, can expect that condenser will have more wide application development prospect.

Also there are many deficiencies in the existing condenser for industrial manufacture process, because condenser apparatus used is larger, condensation effect obviously declines, and the resource consuming increase, not only do not enhance productivity, and increased on the contrary production cost.

Utility model content

The utility model object is to provide for the existing deficiency of prior art a kind of technical scheme of producing sodium azide indirect steam condenser, and to reach, condensation effect is good, operating efficiency is high, reduce energy consumption, heat conversion is high and the effect of long service life.

In order to solve the problems of the technologies described above, the utility model adopts following technical scheme:

A kind of sodium azide indirect steam condenser of producing, is characterized in that: condenser comprises cylindrical shell, end cap and liquid collecting bucket, is provided with blast pipe and suspension ring on end cap; The top of cylindrical shell is provided with water inlet pipe, the bottom of cylindrical shell is provided with air inlet pipe and drainpipe, the top of air inlet pipe is provided with watch window, in cylindrical shell, be provided with condensation chamber and time condensation chamber, one time condensation chamber comprises some condensate pans and water-supply-pipe, time condensation chamber comprises some condensate pans and water-supply-pipe, between condensation chamber and time condensation chamber, separate by division board, between condensation chamber and time condensation chamber, be provided with the second condensate liquid drain pipe, on the second condensate liquid drain pipe, be provided with the second liquid valve; On liquid collecting bucket, be provided with bracing frame and the first condensate liquid drain pipe, on the first condensate liquid drain pipe, be provided with the first liquid valve; Gas enters condensation chamber and the condensation of time condensation chamber by air inlet pipe, realizes vapours and is condensed into liquid.

Further, condensate pans horizontal distribution, in cylindrical shell, has increased the contact area of gas and condensate pans, improves the condensation efficiency of gas.

Further, condensate pans is semicircle shape, makes condensation chamber and time condensation chamber symmetrical, utilizes to greatest extent the space of cylindrical shell, improves condensation efficiency.

Further, be provided with some through holes on condensate pans, when gas enters after air inlet pipe, enter condensation chamber one time through the through hole on condensate pans, uncooled gas enters time condensation chamber and continues condensation, and uncondensable gas is discharged by blast pipe.

Further, condensate pans inside is hollow, and when water flows to respectively two condensation chambers from water inlet pipe enters cylindrical shell, hollow condensate pans makes water flow more unimpeded, improves condensation efficiency.

Further, water-supply-pipe is vertically fixedly connected with adjacent condensate pans, water is circulated in condensation chamber more smooth and easy, improves the condensation efficiency of gas.

Further, liquid collecting bucket is tapered, when condensed gas becomes condensate liquid, slides along barrel, and the liquid collecting bucket of taper is convenient to condensate liquid to collect, and preventing that condensate liquid is deposited on affects condensation effect on barrel.

Further, in liquid collecting bucket, be provided with antirust coat, ensure the quality of condensate liquid, can extend the service life of condenser simultaneously.

The utility model, owing to having adopted technique scheme, has following beneficial effect:

Condensation effect is good, operating efficiency is high, reduce the high and long service life of energy consumption, heat conversion: the utility model adopts the design of time condensation to make the condensation effect of sodium azide more remarkable, through hole on condensate pans, after making gas enter cylindrical shell, disperse to enter condensation chamber, increase the contact area of gas and condensate pans, improve condensation efficiency; Watch window on cylindrical shell, can observe the liquid level height of the indoor condensate liquid of time condensation, thereby controls the switch of the second liquid valve, makes in a condensation chamber uncooled gas enter smoothly time condensation chamber and proceeds condensation; The antirust coat arranging in liquid collecting bucket has ensured the quality of condensate liquid, can extend the service life of condenser simultaneously; The suspension ring that arrange on end cap can need to fill and hang movement condenser according to place.The utility model is simple in structure, and low cost of manufacture makes the condensation effect of sodium azide more remarkable by time condensation.

Brief description of the drawings

Below in conjunction with accompanying drawing, the utility model is described in further detail:

Fig. 1 is a kind of structural representation of producing sodium azide indirect steam condenser of the utility model;

Fig. 2 is the structural representation of a condensation chamber in the utility model;

Fig. 3 is the structural representation of time condensation chamber in the utility model;

Fig. 4 is the partial enlarged drawing at III place in Fig. 1;

Fig. 5 is the structural representation that in the utility model, condensate pans is connected with water-supply-pipe.

Detailed description of the invention

As shown in Figures 1 to 5, produce sodium azide indirect steam condenser for the utility model is a kind of, condenser comprises cylindrical shell 1, end cap 2 and liquid collecting bucket 19, is provided with blast pipe 4 and suspension ring 9 on end cap 2, the top of cylindrical shell 1 is provided with water inlet pipe 5, the bottom of cylindrical shell 1 is provided with air inlet pipe 3 and drainpipe 6, the top of air inlet pipe 3 is provided with watch window 10, in cylindrical shell 1, be provided with condensation chamber and time condensation chamber, one time condensation chamber comprises some condensate pans 13 and water-supply-pipe 14, time condensation chamber comprises some condensate pans 13 and water-supply-pipe 14, water-supply-pipe 14 is vertically fixedly connected with adjacent condensate pans 13, water is circulated in condensation chamber more smooth and easy, improve the condensation efficiency of gas, condensate pans 13 horizontal distribution are in cylindrical shell 1, condensate pans 13 is semicircle shape, make condensation chamber and time condensation chamber symmetrical, utilize to greatest extent the space of cylindrical shell 1, increase the contact area of gas and condensate pans 13, improve the condensation efficiency of gas, on condensate pans 13, be provided with some through holes 18, when gas enters after air inlet pipe 3, enter condensation chamber one time through the through hole 18 on condensate pans 13, uncooled gas enters time condensation chamber and continues condensation, uncondensable gas is discharged by blast pipe 4, and condensate pans 13 inside are hollow, when water flows to respectively two condensation chambers from water inlet pipe 5 enters cylindrical shell 1, hollow condensate pans 13 makes water flow more unimpeded, improves condensation efficiency, between condensation chamber and time condensation chamber, separate by division board 15, between condensation chamber and time condensation chamber, be provided with on the second condensate liquid drain pipe 16, the second condensate liquid drain pipes 16 and be provided with the second liquid valve 17, on liquid collecting bucket 19, be provided with bracing frame 11 and the first condensate liquid drain pipe 7, on the first condensate liquid drain pipe 7, be provided with the first liquid valve 8, liquid collecting bucket 19 is tapered, when condensed gas becomes condensate liquid, slide along barrel, the liquid collecting bucket 19 of taper is convenient to condensate liquid to collect, preventing that condensate liquid is deposited on affects condensation effect on barrel, in liquid collecting bucket 19, be provided with antirust coat 12, ensure the quality of condensate liquid, can extend the service life of condenser simultaneously, gas enters condensation chamber and the condensation of time condensation chamber by air inlet pipe 3, realizes vapours and is condensed into liquid.

These are only specific embodiment of the utility model, but technical characterictic of the present utility model is not limited to this.Any taking the utility model as basis, for realizing essentially identical technique effect, do ground simple change, be equal to replacement or modification etc., be all covered by among protection domain of the present utility model.

Claims (8)

1. produce a sodium azide indirect steam condenser, it is characterized in that: described condenser comprises cylindrical shell, end cap and liquid collecting bucket, on described end cap, be provided with blast pipe and suspension ring, the top of described cylindrical shell is provided with water inlet pipe, the bottom of described cylindrical shell is provided with air inlet pipe and drainpipe, the top of described air inlet pipe is provided with watch window, in described cylindrical shell, be provided with condensation chamber and time condensation chamber, a described condensation chamber comprises some condensate pans and water-supply-pipe, described time condensation chamber comprises some described condensate pans and described water-supply-pipe, between a described condensation chamber and described time condensation chamber, separate by division board, between a described condensation chamber and described time condensation chamber, be provided with the second condensate liquid drain pipe, on described the second condensate liquid drain pipe, be provided with the second liquid valve, on described liquid collecting bucket, be provided with bracing frame and the first condensate liquid drain pipe, on described the first condensate liquid drain pipe, be provided with the first liquid valve, gas enters a described condensation chamber and the chamber condensation of described time condensation by described air inlet pipe, realizes vapours and is condensed into liquid.

2. produce sodium azide indirect steam condenser according to the one described in claims 1, it is characterized in that: described condensate pans horizontal distribution is in described cylindrical shell.

3. produce sodium azide indirect steam condenser according to the one described in claims 2, it is characterized in that: described condensate pans is semicircle shape.

4. produce sodium azide indirect steam condenser according to the one described in claims 3, it is characterized in that: on described condensate pans, be provided with some through holes.

5. produce sodium azide indirect steam condenser according to the one described in claims 4, it is characterized in that: described condensate pans is inner for hollow.

6. produce sodium azide indirect steam condenser according to the one described in claims 1, it is characterized in that: described water-supply-pipe is vertically fixedly connected with adjacent described condensate pans.

7. produce sodium azide indirect steam condenser according to the one described in claims 1, it is characterized in that: described liquid collecting bucket is tapered.

8. produce sodium azide indirect steam condenser according to the one described in claims 7, it is characterized in that: in described liquid collecting bucket, be provided with antirust coat.

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