CN214467903U - Novel non-condensing discharge device - Google Patents

Abstract

The utility model relates to a novel not condense discharge device, include: a raw material water inlet means for introducing raw material water to a temperature and a pressure; the vapor-liquid separation release device is communicated with the raw material water inlet device and is used for realizing the release and separation of vapor; the non-condensable gas discharging connecting pipe is communicated with the top of the gas-liquid separation and release device and is used for discharging non-condensable gas in the raw material water; and the raw material water outlet device is communicated with the bottom of the vapor-liquid separation and release device and is used for discharging the raw material water separated under the action of gravity. Through the arrangement, the problems that the existing noncondensable gas discharging device is complex in structure, low in working efficiency and not stable enough can be solved.

Description

Novel non-condensing discharge device

Technical Field

The utility model relates to a not condense and discharge technical field, concretely relates to novel not condense and discharge device.

Background

In the national drug production quality management standard, the risk that the pure steam produced in an aseptic mode is not allowed to generate dead corners and microorganism breeding and the like in the preparation or storage process exists, and the content index of non-condensable gas in the pure steam is one of indexes for detecting the quality of the pure steam.

At present, in the existing non-condensable gas discharging devices in the market of China, the structures of all the discharging devices are different, the process universality is poor, meanwhile, the structures of all types of equipment are different, and the reasonable discharging positions of the non-condensable gas are also different. Therefore, the non-condensable gas emission device cannot reach the non-condensable gas emission index.

In the partial noncondensable gas discharging device, in order to ensure the product yield, only an intermittent discharging mode can be adopted, which is easy to generate larger pollution and seriously affects the quality and the yield of the produced steam. In the pharmaceutical industry, cross contamination among materials is absolutely avoided in the production process, so that the whole service life of equipment and the quality of water quality of products are prevented from being influenced, and therefore the partial non-condensable gas discharge device cannot meet the actual requirements.

Therefore, a novel non-condensing-steam discharging device which has a simple structure, high and stable working efficiency and can ensure that water quality is not polluted is urgently needed in the prior art or the market.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, an object of the utility model is to provide a novel noncondensable steam discharging device solves the problem that current noncondensable steam discharging device structure is complicated, work efficiency is low and stable inadequately.

In order to realize one of the above-mentioned utility model purposes, an embodiment of the utility model provides a novel non-condensing discharge device, include:

a raw material water inlet means for introducing raw material water to a temperature and a pressure;

the vapor-liquid separation release device is communicated with the raw material water inlet device and is used for realizing the release and separation of vapor;

the non-condensable gas discharging connecting pipe is communicated with the top of the gas-liquid separation and release device and is used for discharging non-condensable gas in the raw material water;

and the raw material water outlet device is communicated with the bottom of the vapor-liquid separation and release device and is used for discharging the raw material water separated under the action of gravity.

As an embodiment of the present invention, the inside of the vapor-liquid separation releasing device is provided with the vapor-liquid separation chamber extending along the vertical direction, the raw material water inlet device is provided with the raw material water inlet pipe, the raw material water inlet pipe and the vapor-liquid separation chamber are both vertically arranged.

As a further improvement of an embodiment of the present invention, the non-condensing discharge device further includes a connection device, the connection device is a sanitary connection device, and is used for connecting the raw material water inlet device with the vapor-liquid separation release device with the non-condensing gas discharge connection pipe the vapor-liquid separation release device with the raw material water outlet device is connected two by two respectively.

As a further improvement of an embodiment of the present invention, the sanitary type connecting device is provided with a sanitary type chuck.

As a further improvement of an embodiment of the present invention, the sanitary coupling device is further provided with a high temperature resistant sanitary gasket for sealing connection.

As a further improvement of an embodiment of the present invention, the noncondensable gas discharge pipe is provided with a noncondensable gas discharge port, the noncondensable gas discharge port and the vapor-liquid separation release device are connected at the interface position thereof and are further provided with an adjusting valve and a check device.

As a further improvement of an embodiment of the present invention, the non-condensing discharge device further comprises a raw material water heating device, which is connected to the raw material water inlet device, for heating the raw material water to 80 to 92 ℃.

As a further improvement of an embodiment of the present invention, all the components of the non-condensing discharge device are high temperature and high pressure resistant components.

As a further improvement of an embodiment of the present invention, the non-condensing discharge device further includes a raw material water cooling device, and the raw material water outlet device is connected to cool the discharged raw material water.

As a further improvement of an embodiment of the present invention, the raw material water cooling device is provided with an evaporator, the raw material water outlet device is provided with a raw material water outlet pipe, and the raw material water outlet pipe is disposed in the evaporator.

Compared with the prior art, the beneficial effects of the utility model reside in that: set up raw materials water inlet unit in non-condensing discharging equipment, raw materials water outlet device, vapour-liquid separation release and non-condensing gas discharge take over, highly set up raw materials water inlet unit to be higher than raw materials water outlet device's height, make raw materials water get into behind the vapour-liquid separation release by raw materials water inlet device, carry out vapour-liquid separation, non-condensable gas discharges from non-condensing gas discharge take over, the raw materials water that is separated under the action of gravity then discharges from the raw materials water outlet device of bottom, thereby utilize the action of gravity, carry out high-efficient quick vapour-liquid separation with raw materials water, guarantee the quality of raw materials water.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the embodiments or the description of the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other drawings can be derived from them without inventive effort.

Fig. 1 is a schematic structural view of an embodiment of the present invention.

Wherein the reference numbers referred to in the figures are as follows:

the device comprises a noncondensable gas discharge connecting pipe 1, a raw material water inlet device 2, a vapor-liquid separation releasing device 3, a vapor-liquid separation cavity 31, a raw material water outlet device 4 and an evaporator 51.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the following will combine the embodiments of the present invention and the corresponding drawings to clearly and completely describe the technical solutions of the present invention. It is to be understood that the described embodiments are merely exemplary of some, and not necessarily all, embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

The embodiments described below with reference to the accompanying drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1, an embodiment of the present invention provides a novel non-condensing discharge device, including:

a raw material water inlet means 2 for introducing raw material water to a temperature and a pressure;

the vapor-liquid separation and release device 3 is communicated with the raw material water inlet device 2 and is used for realizing the release and separation of vapor;

the non-condensable gas discharging connecting pipe 1 is communicated with the top of the gas-liquid separation and release device 3 and is used for discharging non-condensable gas in the raw material water;

and a raw water outlet device 4 which is communicated with the bottom of the vapor-liquid separation and release device 3 and is used for discharging the raw water separated under the action of gravity.

Specifically, set up raw materials water inlet unit 2 in non-condensing discharging equipment, raw materials water outlet unit 4, vapour-liquid separation release 3 and noncondensable gas discharge take over 1, highly set up raw materials water inlet unit 2 to be higher than raw materials water outlet unit 4's height, make raw materials water get into behind vapour-liquid separation release 3 by raw materials water inlet unit 2, carry out vapour-liquid separation, noncondensable gas discharges from noncondensable gas discharge take over 1, separated raw materials water then discharges from the raw materials water outlet unit 4 of bottom under the action of gravity, thereby utilize the action of gravity, carry out high-efficient quick vapour-liquid separation with raw materials water, guarantee the quality of raw materials water.

In actual use, the non-condensing discharge device is used for water for injection and pure steam, has simple structure and stable work, ensures that the water quality is not polluted, and can reach the index of non-condensing gas in the pure steam quality required in the current industrial standard. Meanwhile, the continuous non-condensable gas emission can be realized, and the emission efficiency maximization of the non-condensable gas emission device is ensured.

The vapor-liquid separation and release device 3 realizes the vapor-water space release and separation, and ensures that the non-condensable gas is discharged to meet the requirements of the industrial standard.

Further, the inside of vapor-liquid separation release 3 is equipped with along the vapor-liquid separation chamber 31 of vertical direction extension, and raw materials water installations 2 is equipped with raw materials water inlet pipe, and raw materials water inlet pipe and vapor-liquid separation chamber 31 both perpendicular settings.

In practical use, the raw material water inlet device 2 is located at the top of the vapor-liquid separation and release device 3, and the raw material water inlet device 2 and the vapor-liquid separation chamber 31 are arranged perpendicular to each other, that is, the connection port of the raw material water inlet device 2 and the vapor-liquid separation chamber 31 is located at the top of the vapor-liquid separation and release device 3. Raw material water level gets into vapour-liquid separation chamber 31, carries out the vapour-liquid separation under the action of gravity behind the connector, and noncondensable gas is vertical upwards to be discharged, thereby raw material water is vertical downwards to be separated, get into the raw material water play water installation 4 discharge of bottom.

Therefore, the vapor-liquid separation speed is higher, the efficiency is higher, the separation effect is good, and the quality of the separated raw material water is good.

Further, the non-condensing discharge device further comprises a connecting device which is a sanitary connecting device and is used for connecting the raw material water inlet device 2 and the vapor-liquid separation release device 3, the vapor-liquid separation release device 3 and the non-condensing gas discharge connecting pipe 1, and the vapor-liquid separation release device 3 and the raw material water outlet device 4 in pairs respectively.

Further, the sanitary type connecting device is provided with a sanitary type chuck.

The sanitary connection is adopted, so that the whole device can be quickly disassembled and replaced, and the standardized and modular design is realized.

Furthermore, the sanitary type connecting device is also provided with a high-temperature resistant sanitary gasket for sealing connection.

The sealing ring is made of high-performance sealing rings, the hardness performance of materials of the sealing rings can be integrated, tight sealing without leakage can be guaranteed, the sealing rings can be rapidly installed, disassembled and replaced, the requirements of sampling, cleaning, disinfection and the like are met, and standardization and serialization of the device are realized.

Furthermore, the noncondensable gas discharge connecting pipe 1 is provided with a noncondensable gas discharge port, and the connecting interface position of the noncondensable gas discharge port and the gas-liquid separation release device 3 is also provided with a regulating valve and a non-return device.

In actual use, the interface is provided with a regulating valve and a non-return device, so that the secondary pollution of raw material water can be effectively prevented.

Further, the non-condensing discharge device also comprises a raw material water heating device which is communicated with the raw material water inlet device 2 and is used for heating the temperature of the raw material water to 80-92 ℃.

Before entering the raw material water inlet device 2, the raw material water needs to be heated, and the temperature of the heated raw material water is between 80 and 92 ℃ so as to accelerate the speed of vapor-liquid separation.

Meanwhile, the separated hot raw water enters the next-stage equipment through the raw water outlet device 4.

Furthermore, all parts of the non-condensing-steam discharging device are high-temperature-resistant and high-pressure-resistant parts.

The parts of the device are made of high-temperature and high-pressure resistant materials, so that the device can be safely used under the conditions of high temperature and high pressure.

Furthermore, the non-condensing discharge device also comprises a raw material water cooling device which is connected with the raw material water outlet device 4 and used for cooling the discharged raw material water.

Further, the raw material water cooling device is provided with an evaporator 51, and the raw material water outlet device 4 is provided with a raw material water outlet pipe, which is arranged in the evaporator 51 in a penetrating manner.

In actual use, the separated hot raw water is discharged through the raw water discharging device 4, and the discharged hot raw water can be further cooled for subsequent use.

The raw water outlet pipe passes through the evaporator 51, and heat exchange is performed in the evaporator 51, thereby achieving cooling.

It should be understood that although the present description refers to embodiments, not every embodiment contains only a single technical solution, and such description is for clarity only, and those skilled in the art should make the description as a whole, and the technical solutions in the embodiments can also be combined appropriately to form other embodiments understood by those skilled in the art.

The above list of details is only for the feasible embodiments of the present invention, and is not intended to limit the scope of the present invention, and all equivalent embodiments or modifications that do not depart from the technical spirit of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a novel not condense discharge apparatus which characterized in that includes:

a raw material water inlet means for introducing raw material water to a temperature and a pressure;

the vapor-liquid separation release device is communicated with the raw material water inlet device and is used for realizing the release and separation of vapor;

the non-condensable gas discharging connecting pipe is communicated with the top of the gas-liquid separation and release device and is used for discharging non-condensable gas in the raw material water;

and the raw material water outlet device is communicated with the bottom of the vapor-liquid separation and release device and is used for discharging the raw material water separated under the action of gravity.

2. The novel non-condensed steam discharging device according to claim 1, wherein a steam-liquid separating chamber extending in a vertical direction is arranged inside the steam-liquid separating and releasing device, the raw material water inlet device is provided with a raw material water inlet pipe, and the raw material water inlet pipe is perpendicular to the steam-liquid separating chamber.

3. The novel non-condensing discharge device according to claim 1 or 2, wherein the non-condensing discharge device further comprises a connection device, and the connection device is a sanitary connection device for connecting the raw water inlet device and the vapor-liquid separation release device, the vapor-liquid separation release device and the non-condensing gas discharge connection pipe, and the vapor-liquid separation release device and the raw water outlet device in pairs respectively.

4. The novel non-condensing steam discharging device according to claim 3, characterized in that the sanitary connecting device is provided with a sanitary chuck.

5. The novel non-condensing steam discharging device according to claim 4, characterized in that the sanitary connecting device is further provided with a high-temperature-resistant sanitary gasket for sealing connection.

6. The novel non-condensing steam discharging device as claimed in claim 5, wherein the non-condensing steam discharging pipe is provided with a non-condensing steam discharging port, and the connecting interface position of the non-condensing steam discharging port and the steam-liquid separating and releasing device is further provided with a regulating valve and a non-return device.

7. The novel non-condensing discharge device according to claim 6, characterized in that the non-condensing discharge device further comprises a raw material water heating device which is communicated with the raw material water inlet device and used for heating the temperature of the raw material water to 80-92 ℃.

8. The novel non-condensing emission device according to claim 7, wherein all parts of the non-condensing emission device are high temperature and high pressure resistant parts.

9. The novel non-condensing discharge device according to claim 8, further comprising a raw water cooling device connected to the raw water outlet device for cooling the discharged raw water.

10. The novel non-condensed steam discharging device according to claim 9, wherein the raw water cooling device is provided with an evaporator, and the raw water outlet device is provided with a raw water outlet pipe which is arranged in the evaporator in a penetrating manner.

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