CN206001439U - Sucralose produces waste heat energy-saving utilization device - Google Patents

Abstract

This utility model is related to a kind of device, produces waste heat energy-saving utilization device particularly to a kind of sucralose.It is characterized in that：First ball valve, second ball valve, 3rd ball valve, 4th ball valve, one end of 5th ball valve is connected with tower reactor respectively, the other end passes through pipeline and the 7th ball valve is connected, there is charging aperture on tower reactor, discharging opening, tower reactor is connected with fluid reservoir by pipeline, one end of vacuum pump is connected with boiler, the other end of vacuum pump and the 6th ball valve are connected, 6th ball valve, first pressure table, first thermometer, water pump is connected with fluid reservoir respectively, water pump is connected with check valve by pipeline, check valve is connected with boiler by pipeline, water-level gauge, second pressure table, second temperature table, 7th ball valve is connected with boiler respectively.Due to adopting technique scheme, this utility model is had the advantages and positive effects that：Practical.

Description

Sucralose produces waste heat energy-saving utilization device

Technical field

This utility model is related to a kind of device, produces waste heat energy-saving utilization device particularly to a kind of sucralose.

Background technology

At present, sucralose produces and consumes the substantial amounts of energy, and some sucralose manufacturing enterprises are tower reactor stream High-temperature-hot-water out directly discharges, and had so both wasted substantial amounts of thermal source, and had polluted sewer pipe and groundwater resources again.

Content of the invention

Technical problem to be solved in the utility model is：A kind of sucralose is provided to produce waste heat energy-saving utilization device, The high-temperature-hot-water that sucralose produces can be recycled.

This utility model solves its technical problem and be employed technical scheme comprise that：This utility model is by charging aperture, tower anti- Answer kettle, raise a ball valve, the second ball valve, the 3rd ball valve, the 4th ball valve, the 5th ball valve, discharging opening, vacuum pump, the 6th ball valve, first Pressure gauge, the first thermometer, check valve, water pump, fluid reservoir, water-level gauge, second pressure table, second temperature table, the 7th ball valve and Boiler forms, and it is characterized in that：First ball valve, the second ball valve, the 3rd ball valve, the 4th ball valve, the 5th ball valve one end respectively and tower Formula reactor is connected, and the other end passes through pipeline and the 7th ball valve is connected, and tower reactor has charging aperture, discharging opening, tower anti- Answer kettle to pass through pipeline to be connected with fluid reservoir, one end of vacuum pump is connected with boiler, the other end of vacuum pump and the 6th ball valve are connected, 6th ball valve, first pressure table, the first thermometer, water pump are connected with fluid reservoir respectively, and water pump is connected with check valve by pipeline, Check valve is connected with boiler by pipeline, and water-level gauge, second pressure table, second temperature table, the 7th ball valve are connected with boiler respectively.

Due to adopting technique scheme, this utility model is had the advantages and positive effects that：Practical.

Brief description

With reference to the accompanying drawings and examples this utility model is further illustrated.

Fig. 1 is structural representation of the present utility model.

In figure 1. charging aperture, 2. tower reactor, 3. the first ball valve, 4. the second ball valve, 5. the 3rd ball valve, 6. the 4th ball Valve, 7. the 5th ball valve, 8. discharging opening, 9. vacuum pump, 10. the 6th ball valve, 11. first pressure tables, 12. first thermometers, 13. is single To valve, 14. water pumps, 15. fluid reservoirs, 16. water-level gauges, 17. second pressure tables, 18. second temperature tables, 19. the 7th ball valves, 20. Boiler.

Specific embodiment

In Fig. 1, the first ball valve (3), the second ball valve (4), the 3rd ball valve (5), the 4th ball valve (6), the one of the 5th ball valve (7) End is connected with tower reactor (2) respectively, and the other end passes through pipeline and the 7th ball valve (19) is connected, and tower reactor (2) has Charging aperture (1), discharging opening (8), tower reactor (2) is connected with fluid reservoir (15) by pipeline, one end of vacuum pump (9) and pot Stove (20) is connected, and the other end of vacuum pump (9) and the 6th ball valve (10) are connected, the 6th ball valve (10), first pressure table (11), the One thermometer (12), water pump (14) are connected with fluid reservoir (15) respectively, and water pump (14) is connected with check valve (13) by pipeline, single Be connected with boiler (20) to valve (13) by pipeline, water-level gauge (16), second pressure table (17), second temperature table (18), the 7th Ball valve (19) is connected with boiler (20) respectively.

Operation principle of the present utility model is：Saturated vapor out in boiler, reaches tower reaction through the 7th ball valve Kettle, is then out tower reactor and reaches fluid reservoir, and at this moment hot water still carries certain pressure and temperature.Protected using vacuum pump In the case of holding certain vacuum degree, hot water is made to come back to boiler, thus realizing circulating work.

Claims (1)

1. a kind of sucralose produces waste heat energy-saving utilization device, by charging aperture, tower reactor, raise a ball valve, the second ball valve, 3rd ball valve, the 4th ball valve, the 5th ball valve, discharging opening, vacuum pump, the 6th ball valve, first pressure table, the first thermometer, unidirectional Valve, water pump, fluid reservoir, water-level gauge, second pressure table, second temperature table, the 7th ball valve and boiler composition, is characterized in that：First Ball valve (3), the second ball valve (4), the 3rd ball valve (5), the 4th ball valve (6), the 5th ball valve (7) one end respectively with tower reactor (2) it is connected, the other end passes through pipeline and the 7th ball valve (19) is connected, and tower reactor (2) has charging aperture (1), discharging opening (8), tower reactor (2) is connected with fluid reservoir (15) by pipeline, and one end of vacuum pump (9) is connected with boiler (20), vacuum The other end of pump (9) and the 6th ball valve (10) are connected, the 6th ball valve (10), first pressure table (11), the first thermometer (12), water Pump (14) is connected with fluid reservoir (15) respectively, and water pump (14) is connected with check valve (13) by pipeline, and check valve (13) passes through pipe Road is connected with boiler (20), water-level gauge (16), second pressure table (17), second temperature table (18), the 7th ball valve (19) respectively and Boiler (20) is connected.