CN205192271U - Novel graphite condenser - Google Patents

Abstract

The utility model discloses a novel graphite condenser, its characterized in that: including the condenser body, it is equipped with vapour and liquid separator to draw together condenser body below, the condenser body includes inner condenser and external condenser, be provided with a plurality of work hole ways on the inner condenser is vertical, be provided with a plurality of condensation porees on horizontal, perpendicular interlocking did not each other just communicate with each other between condensation pore and work hole said, the external condenser is including all twining in the working pipe and the condenser pipe of inner condenser outer wall with the spiral mode, wherein working pipe and condenser pipe adjacent arrangement, working pipe is with the feed inlet intercommunication work hole way of condenser body, work hole says through the discharge gate intercommunication of vapour and liquid separator with the condenser body, gas outlet on the vapour and liquid separator lateral wall communicates to the discharge gate, condenser pipe and condensation pore all communicate the water inlet and the delivery port of condenser body. The utility model discloses it is big to trade the heat pipe heat exchange area, and the condensation realizes automatic control apart from the length moreover.

Description

A kind of novel graphite condenser

Technical field

The utility model relates to a kind of graphite condenser, particularly relates to a kind of novel graphite condenser.

Background technology

Condenser, as heat exchange elements, is provided with tube side and shell side, passes to material in tube side, pass to cooling water in shell side, complete heat exchange with this in condenser.Traditional condenser is provided with: upper cover, upper end cover, heat transfer block, low head and bottom end cover, end socket and end cap and end socket and condenser body with bolts respectively, gas-liquid separator is connected with bottom end cover bolt.

Graphite condenser is usually used in the condensation process of the gas producing severe corrosive, and the condensation of traditional block hole graphite condenser air-flow is apart from short, and condensation is often insufficient, and present used condenser seldom has control system to control.

Summary of the invention

Goal of the invention of the present utility model is: for above-mentioned Problems existing, a kind of novel graphite condenser is provided, through two condensations of outer inner condenser, expand heat exchange area, increase condensation distance, improve the condensation effect of condenser, the secondary of the gas of gas-liquid separation simultaneously uses, can economize on resources, improve condensation effect.The utility model additionally provides a kind of control system for novel graphite condenser, realizes automatically controlling.

The technical solution adopted in the utility model is as follows:

The utility model novel graphite condenser comprises condenser body, described drawing together below condenser body is provided with gas-liquid separator, described condenser body comprises inner condenser and external condenser, some work ducts are provided with on described inner condenser is longitudinal, transversely be provided with some condensation ducts, vertically interlaced and do not communicate between described condensation duct and work duct; Described external condenser comprises the service pipe and condenser pipe that are wound in inner condenser outer wall all in a spiral manner, wherein service pipe layout adjacent with condenser pipe, described service pipe is by the charging aperture connection work duct of condenser body, described work duct is communicated with by the discharging opening of gas-liquid separator with condenser body, gas outlet on described gas-liquid separator sidewall is communicated to discharging opening, and described condenser pipe and condensation duct are all communicated with water inlet and the delivery port of condenser body.

Further, the outer wall of described inner condenser is provided with spiral service pipe, and described condenser pipe to be placed in the spiral slot that formed between service pipe and to fit with service pipe.

Further, described service pipe and condenser pipe all adopt Cu alloy material to make.

Further, described charging aperture communicates with service pipe; Described water inlet connects condenser pipe and condensation duct respectively, and described delivery port connects condenser pipe and condensation duct respectively; Described work duct communicates with service pipe.

Further, described condenser pipe, condensation duct and water inlet intersection are provided with three-way solenoid valve A, described condensation duct, condenser pipe and delivery port intersection are provided with three-way solenoid valve B, and charging aperture place is provided with electromagnetism and regulates ball valve C, and service pipe is provided with electromagnetism with the intersection in work duct and regulates ball valve D;

Further, described control system comprises: temperature monitoring module, distinguishes temperature of charge T1 and T2 in monitoring duct and service pipe, T1 and T2 is separately converted to temperature digital signal transmission to PLC; Traffic monitoring module, measures discharge Q1 and the Q2 of water inlet and delivery port, Q1 and Q2 is separately converted to traffic figure signal transmission to PLC; Pressure monitor module, gas pressure intensity P1 and P2 in monitoring duct and service pipe, is separately converted to pressure on the number signal, passs PLC by P1 and P2; PLC; receive temperature digital signal, pressure on the number signal and traffic figure signal; and contrast with preset value T, Q and P respectively; contrast between two similar values simultaneously; if T1>T or T2>T, then send executive signal 001 and executive signal 002; If T1<T2, PLC sends executive signal 003; If T1>T2, PLC sends executive signal 004; If Q1<Q or Q>Q2, then send executive signal 005; If P2>P1, the executive signal 006 that PLC sends; If P2<P1, PLC sends executive signal 007; If P1>P or P2>P, PLC first to give the alarm signal to alarm, sends executive signal 008 simultaneously.Executive Module, receives executive signal 001, executive signal 003, executive signal 004, executive signal 005 that PLC sends, and regulates the size of three-way solenoid valve A; Receive the executive signal 002 that PLC sends, and three-way solenoid valve B is tuned up; Receive executive signal 007, executive signal 008 that PLC sends, and regulate electromagnetism to regulate the size of ball valve C; Receive the executive signal 006 that PLC sends, and regulated by electromagnetism ball valve D to tune up.

Further, described temperature monitoring module comprises the thermocouple being arranged on service pipe end and work cell ends; Described traffic monitoring module comprises the electromagnetic flowmeter being located at water inlet and delivery port; Described pressure monitor module, comprises the pressure sensor be arranged on service pipe and work duct.

Further, described PLC is connected with alarm, when PLC to give the alarm signal to alarm, alarm fill order.

In sum, owing to have employed technique scheme, the beneficial effects of the utility model are:

(1) heat exchange area increases, and condensation effect is significantly improved.

The service pipe of external condenser and condenser pipe adopt helical structure to be wound around, and work duct and the condensation duct vertical interlaced of inner condenser can obtain larger heat exchange area, and condensation effect is high;

(2) condensation is apart from elongated, and condensation effect strengthens.

First carry out preliminary condensation by an external condenser, then carry out a condensation through inner condenser, condensed gas can be made to obtain condensation more fully, and condensation effect is good.

(3) secondary of divided gas flow utilizes, and saving resource improves condensation effect.

Gas gas-liquid separation gone out imports charging aperture again, then condensation, can save condensed gas on the one hand, avoids discharge waste; The gas be separated on the other hand more easily carries out condensation.

(4) automatically control condensation process, the cooperation between reasonable distribution each several part, condensation effect is good.

The utility model has a control system, can monitor the pressure in condensation process, temperature and flow, regulates the cooperation between links in time, makes condensation effect reach best.

Accompanying drawing explanation

The utility model illustrates by example and with reference to the mode of accompanying drawing, wherein:

Fig. 1 is the structured flowchart of the control system of novel graphite condenser.

Detailed description of the invention

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

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model novel graphite condenser comprises condenser body, described drawing together below condenser body is provided with gas-liquid separator, described condenser body comprises inner condenser and external condenser, some work ducts are provided with on described inner condenser is longitudinal, transversely be provided with some condensation ducts, vertically interlaced and do not communicate between described condensation duct and work duct; Described external condenser comprises the service pipe and condenser pipe that are wound in inner condenser outer wall all in a spiral manner, wherein service pipe layout adjacent with condenser pipe, described service pipe is by the charging aperture connection work duct of condenser body, described work duct is communicated with by the discharging opening of gas-liquid separator with condenser body, gas outlet on described gas-liquid separator sidewall is communicated to discharging opening, and described condenser pipe and condensation duct are all communicated with water inlet and the delivery port of condenser body.The outer wall of described inner condenser is provided with spiral service pipe, and described condenser pipe to be placed in the spiral slot that formed between service pipe and to fit with service pipe.Described service pipe and condenser pipe all adopt Cu alloy material to make.Described charging aperture communicates with service pipe; Described water inlet connects condenser pipe and condensation duct respectively, and described delivery port connects condenser pipe and condensation duct respectively; Described work duct communicates with service pipe.Described condenser pipe, condensation duct and water inlet intersection are provided with three-way solenoid valve A, described condensation duct, condenser pipe and delivery port intersection are provided with three-way solenoid valve B, charging aperture place is provided with electromagnetism and regulates ball valve C, and service pipe is provided with electromagnetism with the intersection in work duct and regulates ball valve D;

As Fig. 1, in force, the control system that the utility model novel graphite condenser provides comprises: temperature monitoring module, distinguishes temperature of charge T1 and T2 in monitoring duct and service pipe, T1 and T2 is separately converted to temperature digital signal transmission to PLC; Traffic monitoring module, measures discharge Q1 and the Q2 of water inlet and delivery port, Q1 and Q2 is separately converted to traffic figure signal transmission to PLC; Pressure monitor module, gas pressure intensity P1 and P2 in monitoring duct and service pipe, is separately converted to pressure on the number signal, passs PLC by P1 and P2; PLC; receive temperature digital signal, pressure on the number signal and traffic figure signal; and contrast with temperature preset value T, flow preset value Q and pressure preset value P respectively; contrast between two similar values simultaneously; if T1>T or T2>T; then send executive signal 001 to three-way solenoid valve A, send executive signal 002 to three-way solenoid valve B; If T1<T2, PLC sends executive signal 003 to three-way solenoid valve A; If T1>T2, PLC sends executive signal 004 to three-way solenoid valve A; If Q1>Q or Q<Q2, then send executive signal 005 to three-way solenoid valve A; If P2>P1, the executive signal 006 that PLC regulates ball valve D to send to electromagnetism; If P2<P1, PLC regulates ball valve C to send executive signal 007 to electromagnetism; If P1>P or P2>P, PLC first to give the alarm signal to alarm, regulates ball valve C all to send executive signal 008 to electromagnetism simultaneously.Executive Module, receives executive signal 001, executive signal 003, executive signal 004, executive signal 005 that PLC sends, and regulates the size of three-way solenoid valve A; Receive the executive signal 002 that PLC sends, and three-way solenoid valve B is tuned up; Receive executive signal 007, executive signal 008 that PLC sends, and regulate electromagnetism to regulate the size of ball valve C; Receive the executive signal 006 that PLC sends, and regulated by electromagnetism ball valve D to tune up.Described temperature monitoring module comprises the thermocouple being arranged on service pipe end and work cell ends; Described traffic monitoring module comprises the electromagnetic flowmeter being located at water inlet and delivery port; Described pressure monitor module, comprises the pressure sensor be arranged on service pipe and work duct.Described PLC is connected with alarm, when PLC to give the alarm signal to alarm, alarm fill order.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., all should be included within protection domain of the present utility model.

Claims (7)

1. a novel graphite condenser, it is characterized in that: comprise condenser body, gas-liquid separator is provided with below described condenser body, described condenser body comprises inner condenser and external condenser, some work ducts are provided with on described inner condenser is longitudinal, transversely be provided with some condensation ducts, vertically interlaced and do not communicate between described condensation duct and work duct; Described external condenser comprises the service pipe and condenser pipe that are wound in inner condenser outer wall all in a spiral manner, wherein service pipe layout adjacent with condenser pipe, described service pipe is by the charging aperture connection work duct of condenser body, described work duct is communicated with by the discharging opening of gas-liquid separator with condenser body, gas outlet on described gas-liquid separator sidewall is communicated to discharging opening, and described condenser pipe and condensation duct are all communicated with water inlet and the delivery port of condenser body.

2. novel graphite condenser according to claim 1, is characterized in that: the outer wall of described inner condenser is provided with spiral service pipe, and described condenser pipe to be placed in the spiral slot that formed between service pipe and to fit with service pipe.

3. novel graphite condenser according to claim 2, is characterized in that: described service pipe and condenser pipe all adopt Cu alloy material to make.

4. novel graphite condenser according to claim 1 or 2 or 3, is characterized in that: described charging aperture communicates with service pipe; Described water inlet connects condenser pipe and condensation duct respectively, and described delivery port connects condenser pipe and condensation duct respectively; Described work duct communicates with service pipe.

5. novel graphite condenser according to claim 4, it is characterized in that: described condenser pipe, condensation duct and water inlet intersection are provided with three-way solenoid valve A, described condensation duct, condenser pipe and delivery port intersection are provided with three-way solenoid valve B, charging aperture place is provided with electromagnetism and regulates ball valve C, and service pipe is provided with electromagnetism with the intersection in work duct and regulates ball valve D.

6. novel graphite condenser according to claim 5, is characterized in that: the control system also arranged comprises: temperature monitoring module, traffic monitoring module, pressure monitor module, PLC, Executive Module; Described temperature monitoring module comprises the thermocouple being arranged on service pipe end and work cell ends; Described traffic monitoring module comprises the electromagnetic flowmeter being located at water inlet and delivery port; Described pressure monitor module, comprises the pressure sensor be arranged on service pipe and work duct.

7. novel graphite condenser according to claim 5, is characterized in that: the control system also arranged comprises: temperature monitoring module, traffic monitoring module, pressure monitor module, PLC, Executive Module; Described PLC is connected with alarm, when PLC to give the alarm signal to alarm, alarm fill order.