CN205115324U - Production of explosive line keeps warm and uses water circulating system - Google Patents
Production of explosive line keeps warm and uses water circulating system Download PDFInfo
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- CN205115324U CN205115324U CN201520799737.4U CN201520799737U CN205115324U CN 205115324 U CN205115324 U CN 205115324U CN 201520799737 U CN201520799737 U CN 201520799737U CN 205115324 U CN205115324 U CN 205115324U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P20/00—Technologies relating to chemical industry
- Y02P20/10—Process efficiency
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Abstract
The utility model discloses a production of explosive line keeps warm and uses water circulating system includes hot -water cylinder, heat preservation pipeline, hydrophobic main valve, hot water collecting pit and delivery pump, the hot -water cylinder is placed the eminence in and is connected the insulating tube way, and hot water heat preservation return water pipeline, hot water heat preservation return water pipeline will keep warm the log raft and go into the hot water collecting pit, and steam trap comdenstion water pipeline, the heating residual air pipeline comdenstion water that produces gas for the production and residual air enter the hot water collecting pit simultaneously, and the delivery pump is carried hot water collecting pit normal water to the hot -water cylinder and is carried out the repetitive heating, be equipped with a temperature sensor, level sensor on the hot -water cylinder, heat preservation process piping surface is equipped with the second temperature sensilla, and a temperature sensor, the second temperature sensilla, level sensor pass through controller and hot water heat preservation return water pipeline, delivery pump intercommunication. The utility model discloses general in all kinds of type popped ammonium nitrate explosive and the emulsion explosive production lines of need keeping warm, have simple structure safety, equipment easily erect with advantage such as energy -concerving and environment -protective.
Description
Technical field
The utility model relates to the recycle system, particularly relates to a kind of explosive production line insulation water circulation system
Background technology
In process of production, each pipeline and the pump housing need hot water and cold water to regulate holding temperature to explosive production line, and traditional way is that cold water and the hot water that is heated to certain temperature in hot-water cylinder are accessed thermo-insulating pipe line simultaneously, and the aperture of control valve carrys out control temperature.After insulation water is finished, directly carries out discharge process by the drain valve of each pipeline, so not only waste a large amount of water source, also result in a large amount of wastes of the electric equal energy source of heating.For saving water and the energy, explosive production line is badly in need of the water circulation utilization system of a kind of device simple, safety.
Utility model content
In order to overcome above-mentioned the deficiencies in the prior art, the utility model provides explosive production line insulation water circulation system, and it can save water and the energy simultaneously, has the advantages such as structure is simple and safe, equipment easily sets up.
The technical scheme that the utility model adopts is: a kind of explosive production line insulation water circulation system comprises hot-water cylinder, thermo-insulating pipe line, hot water thermal insulating water return pipeline, condensed water of steam trap pipeline, heating residual air pipeline, hot-water collection pond and transferpump, described hot-water cylinder is placed in eminence and connects thermo-insulating pipe line, heat preservation method pipeline tail end connects hot water thermal insulating water return pipeline, insulation water is entered hot-water collection pond by hot water thermal insulating water return pipeline, condensed water of steam trap pipeline simultaneously, the water of condensation that production gas produces by heating residual air pipeline and residual air enter hot-water collection pond, hot-water collection pond Zhong Shui is delivered to hot-water cylinder and carries out Repeat-heating by transferpump,
Hot-water cylinder is provided with the first temperature sensor, liquid level sensor, and described thermo-insulating pipe line surface is provided with the second temperature sensor, and the first temperature sensor, the second temperature sensor, liquid level sensor are communicated with hot water thermal insulating water return pipeline, transferpump by controller.
Cross a step to say, hot-water cylinder is provided with liquid level, temperature indicator and heating control device, and heating control device is communicated with controller.
Further, insulation water circulation system also comprises cooling feedwater line, and cooling feedwater line is communicated with thermo-insulating pipe line, and cooling feedwater line is provided with feedwater valve.
All right, feedwater valve is communicated with controller.
Compared with prior art, the insulation water emitted in conventional art is carried out circulating-heating use by semi-enclosed hot-water collection pond and transferpump by the utility model, use equipment is simple and safe, achieve a large amount of saving of water and the energy, use the temperature value on the second temperature sensor Real-time Collection thermo-insulating pipe line surface simultaneously, with Accurate Determining heat insulation effect (temperature value on thermo-insulating pipe line surface and heat insulation effect value, during work, the hot water of hot-water cylinder outer and outside carries out heat exchange at thermo-insulating pipe line, heat with the parts that need heat thermo-insulating pipe line outside or equipment, by free air temperature, humidity, the impact of wind speed and thermal conductivity, when heat preservation method channel interior water temperature is identical, the temperature on its surface is not necessarily identical), be convenient to controller to hot-water cylinder temperature, the control of the turnover water yield, improve the effect of insulation.
accompanying drawing illustrates:
Fig. 1 is structural representation of the present utility model.
Fig. 2 controls schematic diagram in Fig. 1.
As in figure: 1-heat preservation method pipeline, 2-second temperature sensor, 3-cold valves, 4-hot-water cylinder, 5-first temperature sensor, 6-liquid level sensor, 7-transferpump, 8-hot-water collection pond, 9-hot water thermal insulating water return pipeline, 10-drain valve condensate line, 11-heats residual air pipeline, 12-overflow weir, 13-heating control device, 14-controller.
Embodiment
Below in conjunction with drawings and Examples, the utility model is further described.
As in Fig. 1, a kind of explosive production line insulation water circulation system comprises hot-water cylinder 4, heat preservation method pipeline 1, hot water thermal insulating water return pipeline 10, condensed water of steam trap pipeline 11, heating residual air pipeline 12, hot-water collection pond 8 and transferpump 7, described hot-water cylinder 4 is placed in eminence and connects heat preservation method pipeline 1, heat preservation method pipeline 1 tail end connects hot water thermal insulating water return pipeline 10, insulation water is entered hot-water collection pond 8 by hot water thermal insulating water return pipeline 10, condensed water of steam trap pipeline 11 simultaneously, the water of condensation that production gas produces by heating residual air pipeline 12 and residual air enter hot-water collection pond 8, water in hot-water collection pond 8 is delivered to hot-water cylinder 4 and carries out Repeat-heating by transferpump 7.Preferably, hot-water cylinder 4 is provided with liquid level, temperature indicator and heating control device 13;
Hot-water cylinder 4 is provided with the first temperature sensor 5, liquid level sensor 6, heat preservation method pipeline 1 surface is provided with the second temperature sensor 2, as in Fig. 2, the first temperature sensor 5, second temperature sensor 2, liquid level sensor 6 are communicated with hot water thermal insulating water return pipeline 10, transferpump 7 by controller 14, heating control device 13 is communicated with
Preferably, insulation water circulation system also comprises cooling feedwater line, and cooling feedwater line is communicated with heat preservation method pipeline 1, and cooling feedwater line is provided with feedwater valve 3.
First temperature sensor 5, second temperature sensor 2, liquid level sensor 6 are communicated with hot water thermal insulating water return pipeline 10, transferpump 7 by controller 14, heating control device 13, feedwater valve 3 are communicated with.
During work, when explosive production line production hot-water cylinder 4 liquid level normal temps is low, first temperature sensor 5 opens the heating control device 13 of heating signal to hot-water cylinder 4 by controller 14 transmission, heating control device 13 pairs of hot-water cylinders 4 heat, when temperature rises to normal, first temperature sensor 5 cuts out the heating control device 13 of heating signal to hot-water cylinder 4 by controller 14 transmission, be incubated water in hot-water cylinder 4 and flow into heat preservation method pipeline 1, when insulation water is full of heat preservation method pipeline 1, second temperature sensor 2 gathers heat preservation method pipeline 1 surface temperature value, when surface temperature value meets explosive production line production requirement, the second temperature sensor 2 does not send signal, when the full not enough explosive production line production requirement of surface temperature value, the second temperature sensor 2 sends signal, when temperature is too high, controller 14 stops the heating control device 13 starting hot-water cylinder 4, or by starting the feedwater valve 3 of cooling feedwater line, lower the temperature to heat preservation method pipeline 1 by feedwater valve 3, when temperature is too low, heating control device 13 pairs of hot-water cylinders 4 that controller 14 starts hot-water cylinder 4 heat, and open by controller 14 flowing that hot water thermal insulating water return pipeline 10 accelerates hot water in heat preservation method pipeline 1, liquid level sensor 6 transmits start signal to transferpump 7 by controller 14, and transferpump 7 is opened and the insulation water in hot-water collection pond 8 is added hot-water cylinder 4, and when liquid level is normal, liquid level sensor 6 transmits shutdown signal to transferpump 7, and transferpump 7 cuts out.
Preferably, in explosive production line insulation water circulation system, heat preservation method pipeline 1 is all connected with hot water thermal insulating water return pipeline 10.The centralized collection being incubated water can be realized by this set.
Preferably, hot-water collection pond 8 is semi-enclosed.Both can have been reduced the heat loss of insulation water by this set, taking-up that again can be real-time is incubated the utilization that water carries out other modes, such as cleaning equipment and instrument etc.
Preferably, overflow weir 12 is retained in hot-water collection pond 8.When hot-water collection pond 8 water yield transfinites, can be discharged in time by this set.
Preferred condensed water of steam trap pipeline 11, heating residual air pipeline 12 are communicated with hot-water collection pond 8.Water consumption and residual air heat can be utilized to greatest extent by this set, energy source secondary can be reached and utilize.
Claims (4)
1. an explosive production line insulation water circulation system, it is characterized in that: described insulation water circulation system comprises hot-water cylinder (4), heat preservation method pipeline (1), hot water thermal insulating water return pipeline (10), condensed water of steam trap pipeline (11), heating residual air pipeline (12), hot-water collection pond (8) and transferpump (7), described hot-water cylinder (4) is placed in eminence and connects heat preservation method pipeline (1), heat preservation method pipeline (1) tail end connects hot water thermal insulating water return pipeline (10), insulation water is entered hot-water collection pond (8) by hot water thermal insulating water return pipeline (10), condensed water of steam trap pipeline (11) simultaneously, the water of condensation that production gas produces by heating residual air pipeline (12) and residual air enter hot-water collection pond (8), water in hot-water collection pond (8) is delivered to hot-water cylinder (4) and carries out Repeat-heating by transferpump (7),
Described hot-water cylinder (4) is provided with the first temperature sensor (5), liquid level sensor (6), described heat preservation method pipeline (1) surface is provided with the second temperature sensor (2), and the first temperature sensor (5), the second temperature sensor (2), liquid level sensor (6) are communicated with hot-water cylinder (4), transferpump (7) by controller.
2. a kind of explosive production line insulation water circulation system according to claim 1, it is characterized in that: described hot-water cylinder (4) is provided with liquid level, temperature indicator and heating control device (13), and heating control device (13) is communicated with controller (14).
3. a kind of explosive production line insulation water circulation system according to claim 1, it is characterized in that: described insulation water circulation system also comprises cooling feedwater line, cooling feedwater line is communicated with heat preservation method pipeline (1), and cooling feedwater line is provided with feedwater valve (3).
4. a kind of explosive production line insulation water circulation system according to claim 3, is characterized in that: described feedwater valve (3) is communicated with controller (14).
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CN201520799737.4U CN205115324U (en) | 2015-10-16 | 2015-10-16 | Production of explosive line keeps warm and uses water circulating system |
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CN201520799737.4U CN205115324U (en) | 2015-10-16 | 2015-10-16 | Production of explosive line keeps warm and uses water circulating system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109238483A (en) * | 2018-09-30 | 2019-01-18 | 深圳市奕天博创科技有限公司 | A kind of kitchen range temperature and liquid level monitoring device and monitoring method |
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2015
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109238483A (en) * | 2018-09-30 | 2019-01-18 | 深圳市奕天博创科技有限公司 | A kind of kitchen range temperature and liquid level monitoring device and monitoring method |
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