CN214657394U - Energy-saving superheated water supply system - Google Patents

Abstract

The utility model discloses an energy-saving superheated water supply system for vulcanization, which comprises a deoxidizing heater, a circulating water pump, a vulcanizing machine capsule, a pressure water tank, a pressure water pump, a normal pressure water tank, a normal pressure water pump, a circulating water pipeline, a water return pipeline and a filling water pipeline, wherein superheated water circulates in the system and is used by the vulcanizing machine capsule; the system is also provided with a circulating water regulating valve, a backwater regulating valve and a filling water regulating valve, wherein the circulating water regulating valve is used for regulating the pressure of circulating water, the backwater regulating valve is used for regulating the pressure of backwater, filling water specially used for filling the capsule of the vulcanizing machine is taken from the backwater regulating valve, a pressure reducing and diameter changing pipeline is arranged on a filling water pipeline, the filling water regulating valve is arranged on a bypass of the filling water pipeline, and the pressure of the filling water is regulated; meanwhile, superheated water discharged during pressure regulation of the circulating water regulating valve on the circulating water pressure regulating bypass is also supplied to the filling water for use. Thus, the filling water is supplied to meet the requirements of the tire vulcanization process, the investment of a high-power hot water pump can be saved, the operation energy consumption is reduced, and the energy conservation and environmental protection of supplying the vulcanization superheated water are realized.

Description

Energy-saving superheated water supply system

Technical Field

The utility model relates to a tire vulcanization technical field, concretely relates to vulcanize energy-conserving water supply system of superheated water.

Background

The filling water and the circulating water of the traditional steam superheated water vulcanization process are independently supplied by two sets of water pump systems, or some enterprises directly fill a vulcanizer capsule with the circulating water, and the two schemes have certain defects, wherein the filling water and the circulating water need to invest a high-power hot water pump, the running power consumption is high, and the energy waste is caused; although the investment is saved, as the circulating water needs to be filled in the vulcanizing machine capsules, and the compression ratio of the water is very small, when a plurality of vulcanizing machines in the vulcanizing machine cluster are filled with water at the same time, the pressure fluctuation of the circulating water exceeds the standard, the requirement of the vulcanizing process on the fluctuation range of the water pressure of the circulating water within +/-0.1 MPa is not met, and the quality of vulcanized tires is further influenced.

Taking a 120 ten thousand all-steel radial tire project as an example, at least two 90KW hot water pumps are needed for a filling water pump, about 30 ten thousand yuan is needed according to one power frequency and one frequency conversion configuration, and in addition, at least about 74 ten thousand kilowatt-hours of electric energy is needed for the operation every year. Meanwhile, the return water with higher pressure (about 2.3MPa) is directly discharged into the deoxygenation heater (about 0.6MPa), and the pressure release of about 1.7MPa means energy conversion, and the process is not directly served by the step use of the excess pressure of the return water. The vulcanization process is usually an energy-consuming large household of a tire enterprise, and the potential in the aspect of superheated water supply can be exploited to help the enterprise reduce waste and investment cost.

Disclosure of Invention

The utility model discloses a solve the system pressure stability that various water supply schemes exist among the tire steam superheated water vulcanization process and be not enough or the energy and the extravagant scheduling problem of investment, provide an energy-conserving water supply system of vulcanization superheated water.

The technical scheme of the utility model is realized with following mode:

a superheated water vulcanizing energy-saving water supply system is provided with a deoxidizing heater, a circulating water pump, a return water regulating valve, a filled water regulating valve, a circulating water regulating valve, a vulcanizing machine capsule, a pressure water tank, a pressure water pump, a normal pressure water tank, a normal pressure water pump, a circulating water pipeline, a return water pipeline and a filling water pipeline, wherein the circulating water, the filled water and the return water are superheated water which circulates in the system and is used by the vulcanizing machine capsule; the device is characterized in that the circulating water regulating valve regulates the pressure of circulating water, the backwater regulating valve regulates the pressure of backwater, filling water specially used for filling a capsule of a vulcanizing machine is taken from the backwater regulating valve, a pressure reducing and diameter changing pipeline is arranged on a filling water pipeline, the filling water regulating valve is arranged on a bypass of the filling water pipeline, an outlet of the filling water regulating valve is connected to the deoxidizing heater, and the filling water regulating valve regulates the pressure of the filling water; meanwhile, superheated water discharged during pressure regulation of the circulating water regulating valve on the circulating water pressure regulating bypass is also supplied to filling water for use.

In the utility model, the filling water with lower pressure is supplied with water by the residual pressure of the return water, thereby realizing the step use of the pressure of the superheated water; and the pressure regulating drainage behind the circulating water regulating valve is higher than the return water residual pressure, also supplies to fill the water and uses to better energy saving, the concrete conditions are as follows:

the temperature in the deoxygenation heater is about 163 ℃, the pressure is about 0.6MPa, and the circulating water pump continuously operates to supply superheated water in the deoxygenation heater to the vulcanizing machine capsule through the circulating water pipeline. Filling saturated steam (about 1.6MPa) into a vulcanizer capsule after the tire is placed into a mold, closing the mold, shaping, filling water (about 1.9MPa), then starting circulating water (about 2.5MPa) to circulate or pause in the vulcanizer capsule according to the process step sequence to provide internal temperature and internal pressure required by tire vulcanization, discharging superheated water in the vulcanizer capsule into a pressure water tank after vulcanization, discharging superheated water below 0.5MPa into a normal-pressure water tank, sending hot water to the pressure water tank by a normal-pressure water pump, sending the superheated water back to a deoxygenation heater by the pressure water pump for deoxygenation and heating, and supplying the superheated water to the vulcanizer capsule for use through a circulating water pump to form a closed loop.

Preferably, a pressure transmitter is arranged at the outlet of the circulating water pump, and a circulating water regulating valve is arranged at the bypass of the outlet to control the pressure of the circulating water.

Preferably, the filling water is taken from a return water regulating valve on the return water pipeline and is supplied to the capsule of the vulcanizing machine for use through the filling water pipeline, the pressure reducing and changing pipeline and the pressure transmitter are arranged on the filling water pipeline, the filling water regulating valve is arranged on a bypass of the filling water pipeline and is used for controlling the pressure of the filling water, and the outlet of the regulating valve is connected to the deoxidizing heater.

Preferably, the superheated water (> 2.5MPa) discharged from the pressure regulating outlet of the circulating water regulating valve is also supplied to the filling water, and the outlet is bypassed to the deaerating heater.

Preferably, the return water pipeline is provided with a pressure transmitter and a return water regulating valve to regulate the return water pressure, the back of the return water regulating valve is connected with a filling water pipeline, and the bypass is connected to the deoxidizing heater.

Drawings

FIG. 1 is a schematic view of the energy-saving superheated water supply system.

The symbols in the figures are labeled as follows:

1. a deoxygenating heater; 11. a safety valve; 12. a water circulating pump; 13. a gate valve; 14. a circulating water line; 15. a water return pipeline; 16. a water filling pipeline;

2. a return water regulating valve; 21. a gate valve; 22. a pressure transmitter;

3. a fill water valve; 31. reducing pressure and diameter;

4. a filling water regulating valve; 41. a pressure transmitter;

5. a gate valve;

6. a vulcanizer capsule;

7. a circulating water regulating valve; 71. a gate valve; 72. a pressure transmitter;

8. a pressure water tank; 81. a safety valve; 82. a pressure water pump;

9. a normal pressure water tank; 91. a normal pressure water pump;

arrows "→" indicate the media flow direction; the connecting lines between each device and the valves are system pipelines.

Detailed Description

The following detailed description of the present invention is made with reference to the following embodiments and accompanying drawings 1:

the embodiment provides an energy-saving superheated water supply system, which is provided with a deaerating heater 1, a circulating water pump 12, a return water regulating valve 2, a filling water regulating valve 4, a circulating water regulating valve 7, a vulcanizer capsule 6, a pressure water tank 8, a pressure water pump 82, a normal pressure water tank 9 and a normal pressure water pump 91, wherein the parts are connected with valves through a circulating water pipeline 14, a return water pipeline 15, a filling water pipeline 16 and other system pipelines, and the circulating water, the filling water and the return water are superheated water.

Superheated water flows out of the deoxygenation heater 1, is pressurized by a circulating water pump 12 and then is subjected to pressure regulation, pressure-regulating drainage is connected into filling water, the circulating water subjected to pressure regulation enters a vulcanizing machine capsule 6 from a circulating water pipeline 14 according to process requirements, the flow direction of the superheated water in the vulcanizing machine capsule 6 is different along with different vulcanizing stages, wherein the superheated water is divided into two parts in the circulating water circulating stage through a water return pipeline 15, a water return regulating valve 2, a gate valve 3 and a pressure reducing reducer 31, one part of the return water is changed into filling water to be supplied to other vulcanizing machine capsules 6 in a vulcanizing machine group and then returns to the water return pipeline 15 together with the circulating water, and most of the return water returns to the deoxygenation heater 1 through the filling water regulating valve 4; the superheated water in the vulcanizer capsule 6 does not circulate at the circulation suspension stage; after the vulcanization is finished, the superheated water in the vulcanizer capsule 6 is discharged into the pressure water tank 8, and the superheated water below 0.5MPa is discharged into the normal pressure water tank 9. The normal pressure water pump 91 sends hot water to the pressure water tank 8, the pressure water pump 82 sends superheated water back to the oxygen removal heater for oxygen removal and heating, and the superheated water is pressurized by the circulating water pump and then is supplied to the capsule of the vulcanizing machine for use, so that a complete circulating flow is formed.

A pressure transmitter 72 is provided on the circulating water pipe 14 at the outlet of the circulating water pump 12, and a circulating water regulating valve 7 is provided on the outlet bypass to regulate the pressure of the circulating water. Superheated water (more than 2.5MPa) discharged after pressure regulation of the circulating water regulating valve 7 is divided into two paths, one path is connected to a filling water pipeline, and the other path is connected to the deoxygenation heater 1.

The return water pipe 15 is provided with a pressure transmitter 22 and a return water regulating valve 2 for regulating the return water pressure. The backwater is supplied with filling water after passing through a backwater regulating valve 2, and the bypass is connected to a deoxygenation heater 1.

The filling water is taken from the back water regulating valve 2, the pressure reducing diameter 31 and the pressure transmitter 41 are arranged on the filling water pipeline 16, the outlet of the filling water regulating valve 4 arranged on the bypass of the filling water pipeline is connected to the deoxidizing heater, and the filling water regulating valve 4 regulates the pressure of the filling water.

When the system is in operation, the valve is switched on and off as follows: the gate valve 21 is closed, the filling water valve 3 is opened, the gate valve 5 is opened, the gate valve 71 is closed, the gate valve 13 is opened to a certain opening degree at the initial stage of system operation, and the gate valve is opened or closed as required after the operation of the vulcanizing machine group is normal. The safety valve 11 has a set pressure of 0.63MPa, and the safety valve 81 has a set pressure of 0.53 MPa.

When the system operates, the pressure control principle is as follows: the pressure transmitter 72 detects the pressure of the circulating water, when the pressure is higher than the set upper limit, the opening of the circulating water regulating valve 7 is enlarged, the pressure is reduced, when the pressure is lower than the set lower limit, the opening of the circulating water regulating valve 7 is reduced, the pressure is increased, and thus the pressure of the circulating water fluctuates within a predetermined range. The backwater regulating valve 2 controls backwater pressure, and when the detection value of the pressure transmitter 22 exceeds an upper limit or a lower limit set value, the opening of the backwater regulating valve 2 is correspondingly increased or decreased so as to control the backwater pressure to fluctuate within a preset range. Similarly, the pressure transmitter 41 detects the filling water pressure, and the filling water regulating valve 4 is controlled by the filling water pressure, so that the filling water pressure fluctuates within a predetermined range.

When the system operates, the internal temperature of the deoxygenation heater 1 is about 163 ℃, the pressure is about 0.6MPa, the circulating water pressure is 2.5 +/-0.1 MPa, the backwater pressure is 2.3 +/-0.1 MPa, and the filling water pressure is 1.9 +/-0.1 MPa. Filling 1.6 +/-0.1 MPa saturated steam into the vulcanizer bladder 6 after the tire is placed into a mold for mold closing and shaping, filling water, and then starting circulating water to circulate or pause in the vulcanizer bladder 6 according to the process step sequence so as to provide the internal temperature and the internal pressure required by tire vulcanization.

By adopting the superheated water vulcanizing energy-saving water supply system, all indexes of vulcanized tires meet the quality requirements.

By adopting the superheated water vulcanizing energy-saving water supply system, one 120 ten thousand sets of all-steel radial tire projects can reduce the investment of a water filling hot water pump by about 30 ten thousand yuan, reduce the occupied area of equipment, and save electricity by at least 74 ten thousand kilowatt hours every year.

The above description is only for the purpose of illustrating the present invention, and the detailed embodiments are not intended to limit the scope of the present invention, and all obvious changes and modifications belonging to the technical solution of the present invention are within the scope of the present invention.

Claims (5)

1. A superheated water vulcanizing energy-saving water supply system comprises a deoxidizing heater, a circulating water pump, a vulcanizing machine capsule, a pressure water tank, a pressure water pump, a normal-pressure water tank, a normal-pressure water pump, a circulating water pipeline, a water return pipeline and a filling water pipeline, wherein superheated water circulates in the system and is used by the vulcanizing machine capsule; the method is characterized in that: the system has still set up circulating water governing valve, return water governing valve and filled water governing valve, circulating water governing valve adjusts circulating water pressure, return water pressure is adjusted to the return water governing valve, and the filling water that is used for filling the vulcanizer capsule specially follows connect behind the return water governing valve and get, set up the decompression reducing on filling the water pipeline and set up on its bypass and fill the water governing valve, exit linkage to deoxidization heater, fill water governing valve and adjust and fill water pressure, simultaneously, the overheated water of exhaust also supplies to fill the water and uses during the circulating water governing valve pressure regulating on the circulating water pressure regulating bypass.

2. A superheated water energy-saving water supply system according to claim 1, wherein: and a pressure transmitter is arranged at the outlet of the circulating water pump, and a circulating water regulating valve is arranged at the bypass at the outlet to control the pressure of the circulating water.

3. A superheated water energy-saving water supply system according to claim 1, wherein: the filling water is taken from the back water regulating valve on the back water pipeline and is supplied to the capsule of the vulcanizing machine for use through the filling water pipeline, the pressure reducing and pressure transmitter is arranged on the filling water pipeline, the filling water regulating valve is arranged on a bypass of the filling water pipeline to control the pressure of the filling water, and the outlet of the regulating valve is connected to the deoxidizing heater.

4. A superheated water energy-saving water supply system according to claim 1, wherein: superheated water discharged from the pressure regulating outlet of the circulating water regulating valve is also supplied for filling water, and the outlet bypass is connected to the deoxidizing heater.

5. A superheated water energy-saving water supply system according to claim 1, wherein: the return water pipeline is provided with a pressure transmitter and a return water regulating valve to regulate the return water pressure, the back of the return water regulating valve is connected with a filling water pipeline, and the bypass is connected to the deoxidizing heater.

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