CN217329751U - Novel multi-functional pure steam generator - Google Patents

Abstract

The utility model discloses a novel multifunctional pure steam generator, which comprises a feed water pump, an energy converter, an electric heater, a non-condensable gas output device, a distilled water output valve, a second condenser, a separation tower, a first condenser, a saturation separator and a pure steam output valve; the feed water pump is divided into two paths for output, one path is connected with the energy converter, and the other path is connected with the first condenser; the output end of the energy converter, the non-condensable gas output device, the electric heater, the separation tower, the saturation separator and the pure steam output valve are sequentially connected; the bottom of the electric heater is provided with a first discharge pipe and is connected to the energy converter; the saturated separator and the pure steam output valve are connected with the first condenser through a pure steam pipe, and then connected with the second condenser, and the second condenser is connected with the energy converter; the energy converter is provided with a second discharge pipe. The utility model discloses after the purified water gets into, produce pure steam after the heating evaporation separation, can also produce the water for injection.

Description

Novel multi-functional pure steam generator

Technical Field

The utility model relates to a steam generator especially relates to a novel multi-functional pure steam generator.

Background

Pure steam generators are devices for producing pure steam. Conventional pure steam generators generally have two types: one is that pure steam generator and electric steam generator are used to complete the preparation of pure steam, and the equipment only produces pure steam; another type of device, which produces only pure steam, consists of an electrically heated pressure vessel and a separation device. The two pure steam generators must be designed and manufactured according to the standard of the pressure vessel, belong to special equipment, and the second device is improved relative to the first device, but is quite troublesome in design, manufacture and application. And after the manufacturing is finished, the volume of the equipment is large, and the occupied space is large. Both of these devices can only produce pure steam singly, and cannot directly produce distilled water for injection. Therefore, the development of a novel multifunctional pure steam generator becomes a problem to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned not enough, provide a novel multi-functional pure steam generator.

The above object of the present invention is achieved by the following technical solutions: a novel multifunctional pure steam generator comprises a feed water pump, an energy converter, an electric heater, a non-condensable gas output device, a distilled water output valve, a second condenser, a separation tower, a first condenser, a saturation separator and a pure steam output valve;

the feeding water pump is divided into two paths of output, one path is connected with the energy converter through a sixth feeding water pipe, and the other path is connected with the first condenser through the first feeding water pipe;

the output end of the energy converter is connected with a non-condensable gas output device through a second feeding water pipe, the non-condensable gas output device is connected with an electric heater through a third feeding water pipe, the electric heater is connected with a separation tower, the separation tower is connected with a saturation separator, and the saturation separator is connected with a pure steam output valve; the bottom of the electric heater is provided with a first discharge pipe and is connected to the energy converter;

the non-condensable gas output device is provided with a non-condensable gas discharge pipe connected to the energy converter;

the saturated separator and the pure steam output valve are connected with a first condenser through a pure steam pipe, the output end of the first condenser is connected with a second condenser through a fourth feeding water pipe, and the second condenser is provided with a distilled water output valve and is connected to the energy converter through a fifth feeding water pipe; the energy converter is provided with a second discharge duct.

Further, the energy converter comprises a first heat exchanger and a second heat exchanger;

the first heat exchanger is provided with two input ends which are respectively connected with the first discharge pipe and the fifth feeding water pipe; the first heat exchanger is provided with two output ends which are respectively connected with the second feeding water pipe and the second discharge pipe;

the second heat exchanger is provided with two input ends which are respectively connected with a sixth feeding water pipe and a non-condensable gas discharge pipe; the second heat exchanger is provided with two output ends which are respectively connected with a second feeding water pipe and a second discharge pipe.

The utility model discloses a theory of operation: after entering, the feed water is heated by an electric heater to generate steam, and the steam is separated by a centrifugal separation device to remove impurities such as pyrogen and the like, and pure steam is output. Pure steam enters a condenser and can produce distilled water for injection through heat energy exchange.

During operation, the feed water carries out energy converter's second heat exchanger through sixth inlet pipe, flows in noncondensable gas output device through the second inlet pipe again, and noncondensable gas output device (noncondensable gas output device is water vapor separation device) carries out the aqueous vapor separation with the feed water after the intensification, and water is imported the electric heater by the third inlet pipe, and gaseous noncondensable gas of noncondensable gas delivery pipe discharge to form the comdensation water through the second heat exchanger and discharge from the second delivery pipe, effectively promote quality of water. And then, after the feed water is heated and evaporated by the electric heater, the residual water can form high-temperature concentrated water, flows out of the first discharge pipe below the electric heater to the first heat exchanger for cooling, and is finally discharged from the second discharge pipe. The steam enters the separation tower to realize the water-steam separation and become pure steam. Then, the pure steam enters a saturation separator for further separation, and finally is output through a pure steam output valve.

When the valve is closed, pure steam flows out of a pure steam pipe between the pure steam output valve and the saturated separator to the first condenser, a feed water pump injects feed water into the first condenser through a first feed water pipe to be used as cooling water for cooling the pure steam, and the cooling water passes through a fourth feed water pipe and then passes through the second condenser to enable distilled water formed by the pure steam to be output from a distilled water conveying valve; and cooling water flowing out of the second condenser flows into the first heat exchanger of the energy converter through a fifth feeding water pipe and enters a second feeding water pipe as feeding water. Thereby, a multifunctional operation is realized.

Compared with the prior art, the utility model the advantage be:

1. the utility model discloses a tubular structure's heater, knockout tower, centrifugal separator, non-condensable gas output device, electric heater's integrated design makes the purified water get into the back, produces pure steam after the heating evaporation separation, can also produce "water for injection" through the condenser.

2. As most of the components of the pure steam generator are of a pipeline structure, the design and the manufacture of the pure steam generator are not in the scope of 'pressure vessels', the equipment volume is small, and the occupied space is small, so that the standard requirements of design, manufacture and use are greatly simplified.

3. The pure steam generator realizes internal cyclic utilization of heat energy through the condenser and the energy converter device, and achieves the effects of energy conservation and emission reduction.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of the energy converter of the present invention.

In the figure, 1-pure steam output valve, 2-saturated separator and 3-first condenser; 4-a separation tower, 5-a second condenser and 6-a distilled water output valve; 7-non-condensable gas output device; 8-electric heater, 9-energy converter, 901-first heat exchanger; 902-a second heat exchanger; 10-feed water pump; 11-a discharge pipe; 12-a third feed water pipe; 13-a first feed water pipe; 14-a fourth feed water pipe; 15-a fifth feed water pipe; 16-a second feed water pipe; 17-pure steam tube; 18-a non-condensable gas discharge pipe; 19-a sixth feed water pipe; 20-second discharge pipe.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, a novel multifunctional pure steam generator comprises a feed water pump 10, an energy converter 9, an electric heater 8, a non-condensable gas output device 7, a distilled water output valve 6, a second condenser 5, a separation tower 4, a first condenser 3, a saturation separator 2 and a pure steam output valve 1;

the feed water pump 10 is divided into two paths for output, one path is connected with the energy converter 9 through a sixth feed water pipe 19, and the other path is connected with the first condenser 3 through a first feed water pipe 13;

the output end of the energy converter 9 is connected with a non-condensable gas output device 7 through a second feeding water pipe 16, the non-condensable gas output device 7 is connected with an electric heater 8 through a third feeding water pipe 12, the electric heater 8 is connected with a separation tower 4, the separation tower 4 is connected with a saturation separator 2, and the saturation separator 2 is connected with a pure steam output valve 1; the bottom of the electric heater 8 is provided with a first discharge pipe 11 and is connected to the energy converter 9;

the non-condensable gas output device 7 is provided with a non-condensable gas discharge pipe 18 connected to the energy converter 9;

the saturated separator 2 and the pure steam output valve 1 are connected with a first condenser 3 through a pure steam pipe 17, the output end of the first condenser 3 is connected with a second condenser 5 through a fourth feeding water pipe 14, and the second condenser 5 is provided with a distilled water output valve 6 and is connected to an energy converter 9 through a fifth feeding water pipe 15; the energy converter 9 is provided with a second discharge duct 20.

Further, the energy converter 9 includes a first heat exchanger 901 and a second heat exchanger 902;

the first heat exchanger 901 is provided with two input ends which are respectively connected with the first discharge pipe 11 and the fifth feed water pipe 15; the first heat exchanger 901 has two output ends connected to the second feed water pipe 16 and the second discharge pipe 20, respectively;

the second heat exchanger 902 is provided with two input ends which are respectively connected with a sixth feeding water pipe 19 and a non-condensable gas discharging pipe 18; the second heat exchanger 902 is provided with two outputs connected to the second feed water pipe 16 and the second discharge pipe 20, respectively.

The utility model discloses a theory of operation: after entering, the feed water is heated by an electric heater to generate steam, and the steam is separated by a centrifugal separation device to remove impurities such as pyrogen and the like, and pure steam is output. Pure steam enters a condenser and can produce distilled water for injection through heat energy exchange.

During operation, the feed water passes through the sixth feed water pipe 19 and carries out the second heat exchanger 902 of energy converter 9, and then flows into non-condensable gas output device 7 through second feed water pipe 16, and non-condensable gas output device 7 (non-condensable gas output device 7 is the steam separator) carries out the steam separation with the feed water after the intensification, and water is imported electric heater 8 by third feed water pipe 12, and gas is through non-condensable gas discharge pipe 18 discharge non-condensable gas to form the comdenstion water through second heat exchanger 902 and discharge from second delivery pipe 20, effectively promote quality of water. Then, after the feed water is heated and evaporated by the electric heater 8, the residual water forms high-temperature concentrated water, and flows out from the first discharge pipe 11 under the electric heater 8 to the first heat exchanger 901 for cooling, and finally is discharged from the second discharge pipe 20. The steam enters the separation tower 4, which realizes the water-steam separation and becomes pure steam. Then, the pure steam enters a saturation separator 2 for further separation, and is finally output through a pure steam output valve 1.

When the valve 1 is closed, pure steam flows out of a pure steam pipe 17 between the pure steam output valve 1 and the saturation separator 2 to the first condenser 3, a feed water pump 10 injects feed water into the first condenser 3 through a first feed water pipe 13 to be used as cooling water for cooling the pure steam, and the cooling water passes through a fourth feed water pipe 14 and then passes through the second condenser 5 to enable distilled water formed by the pure steam to be output from a distilled water delivery valve 6; the cooling water flowing out of the second condenser 5 flows into the first heat exchanger 901 of the energy converter 9 through the fifth feed water pipe 15, and enters the second feed water pipe 16 as feed water. Thereby, a multifunctional operation is realized.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (2)

1. The utility model provides a novel multi-functional pure steam generator which characterized in that: the device comprises a feed water pump, an energy converter, an electric heater, a non-condensable gas output device, a distilled water output valve, a second condenser, a separation tower, a first condenser, a saturated separator and a pure steam output valve;

the feeding water pump is divided into two paths of output, one path is connected with the energy converter through a sixth feeding water pipe, and the other path is connected with the first condenser through the first feeding water pipe;

the output end of the energy converter is connected with a non-condensable gas output device through a second feeding water pipe, the non-condensable gas output device is connected with an electric heater through a third feeding water pipe, the electric heater is connected with a separation tower, the separation tower is connected with a saturation separator, and the saturation separator is connected with a pure steam output valve; the bottom of the electric heater is provided with a first discharge pipe and is connected to the energy converter;

the non-condensable gas output device is provided with a non-condensable gas discharge pipe connected to the energy converter;

the saturated separator and the pure steam output valve are connected with a first condenser through a pure steam pipe, the output end of the first condenser is connected with a second condenser through a fourth feeding water pipe, and the second condenser is provided with a distilled water output valve and is connected to the energy converter through a fifth feeding water pipe; the energy converter is provided with a second discharge pipe.

2. A novel multifunctional pure steam generator according to claim 1, characterized in that: the energy converter comprises a first heat exchanger and a second heat exchanger;

the first heat exchanger is provided with two input ends which are respectively connected with the first discharge pipe and the fifth feeding water pipe; the first heat exchanger is provided with two output ends which are respectively connected with the second feeding water pipe and the second discharge pipe;

the second heat exchanger is provided with two input ends which are respectively connected with a sixth feeding water pipe and a non-condensable gas discharge pipe; the second heat exchanger is provided with two output ends which are respectively connected with a second feeding water pipe and a second discharge pipe.

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