CN204101951U - Long-distance Control material-compound tank - Google Patents

Abstract

The utility model provides a kind of Long-distance Control material-compound tank, comprise tank body, described tank body is plugged with the first communicating pipe for connecting inert gas, described first communicating pipe outside tank body is provided with the first retaining valve and the second retaining valve, described tank body is also plugged with muffler, described muffler outside tank body is provided with return-air valve, described tank body is plugged with tensimeter, described tank body is plugged with the residual oxygen probe for detecting residual oxygen, described tensimeter, residual oxygen probe, the second retaining valve are all connected with PLC remote controllers with return-air valve.The utility model is plugged with the first communicating pipe for being communicated with inert gas on tank body, carry out the existence of comprehensive too much oxygen, utilize tensimeter and residual oxygen probe to monitor in real time for the pressure in tank body and remaining oxygen separately, the remaining oxygen in guarantee tank body is in the scope of specifying simultaneously.

Description

Long-distance Control material-compound tank

Technical field

The utility model relates to a kind of Long-distance Control material-compound tank.

Background technology

After existing material-compound tank is stirred solid or liquid or the combination both it by stirrer, there will be too much oxygen and other gases in the process stirred, but the existence of oxygen too much in tank body easily has influence on the material stirring aftershaping, generally by artificial mode, these gases are emitted, but when discharging, go to differentiate by artificial observation, whether the interior gas of tank body drains the material that can not have influence in this tank body only, and when knowing this tank body, also be adopt artificial mode simply to clean in tank body, the requirement of specifying can not be reached .

Summary of the invention

The purpose of this utility model is the deficiency overcoming prior art existence, provides a kind of Long-distance Control material-compound tank.

The purpose of this utility model is achieved through the following technical solutions:

Long-distance Control material-compound tank, comprise tank body, described tank body has one for placing the filling mouth of solid or liquid, bottom in described tank body is provided with stirrer, described tank body is plugged with the first communicating pipe for connecting inert gas, described first communicating pipe outside tank body is provided with the first retaining valve and the second retaining valve, be communicated with the second communicating pipe for connecting rinse water described first communicating pipe, described second communicating pipe is connected between the first retaining valve and the second retaining valve, be provided with the 3rd retaining valve described second communicating pipe, described tank body is also plugged with muffler, described muffler outside tank body is provided with return-air valve, described tank body is plugged with tensimeter, the middle part of described tank body is plugged with the residual oxygen probe for detecting residual oxygen, described tensimeter, residual oxygen probe, second retaining valve and return-air valve are all connected with PLC remote controllers.

Further, above-mentioned Long-distance Control material-compound tank, gos deep into the termination in tank body is provided with bubbling device described first communicating pipe, described bubbling device be distributed in first communicating pipe termination aperture, the diameter range of described aperture is at 1.5mm-2.5mm.

Again further, above-mentioned Long-distance Control material-compound tank, is provided with spray ball in described tank body, and the communicating pipe of described spray ball was connected with the second communicating pipe.

Substantive distinguishing features and the progress of technical solutions of the utility model are mainly reflected in:

The utility model is plugged with the first communicating pipe for being communicated with inert gas on tank body, carry out the existence of comprehensive too much oxygen, utilize tensimeter and residual oxygen probe to monitor in real time for the pressure in tank body and remaining oxygen separately simultaneously, remaining oxygen in guarantee tank body is in the scope of specifying, the termination of the first communicating pipe is provided with bubbling device, enter into the pressure that can increase its gas in tank body at inert gas, the residual oxygen of inert gas fast and in liquid is merged.Adopt PLC remote controllers to carry out Long-distance Control to tensimeter, residual oxygen probe, the second retaining valve and return-air valve simultaneously, and can monitor in real time, ensure that the air pressure in tank body, remaining oxygen are in specified scope.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, technical solutions of the utility model are described further:

Fig. 1: organigram of the present utility model;

The partial structurtes schematic diagram of A in Fig. 2: Fig. 1.

Embodiment

embodiment 1

As shown in Figure 1, Long-distance Control material-compound tank, comprise tank body 1, described tank body 1 has one for placing the filling mouth of solid or liquid, bottom in described tank body 1 is provided with stirrer, described tank body 1 is plugged with the first communicating pipe 2 for connecting inert gas, be provided with the first retaining valve 3 and the second retaining valve 4 described first communicating pipe 2 outside tank body 1, be communicated with the second communicating pipe 5 for connecting rinse water described first communicating pipe 2, be connected to described second communicating pipe 5 between first retaining valve 3 and the second retaining valve 4, described second communicating pipe 5 is provided with the 3rd retaining valve, described tank body 1 is also plugged with muffler 7, described muffler 6 outside tank body 1 is provided with return-air valve 6, described tank body 1 is plugged with tensimeter 9, the middle part of described tank body 1 is plugged with the residual oxygen probe 10 for detecting residual oxygen, described tensimeter 9, residual oxygen probe 10, second retaining valve 4 is all connected with PLC remote controllers 11 with return-air valve 6.By the real-time monitoring of PLC remote controllers 11 pairs of tensimeters 9, residual oxygen probe 10, second retaining valve 4 and return-air valve 6, remaining oxygen in tank body 1 and pressure are made and reacts fast, open the second retaining valve 4 and return-air valve 6, remaining oxygen in tank body 1 is degraded, by return-air valve 6, the excessive air pressure in tank body 1 is got rid of by muffler simultaneously.

Wherein, the first communicating pipe 2 that tank body 1 and inert gas are communicated with is connected, and will be subject to the control of PLC remote controllers 11, the data detected according to residual oxygen probe 10, open and close the second retaining valve 4, when tank body 1 is prepared burden, indifferent gas knows from experience the data by monitoring, and general remaining oxygen is when 10pPM, inert gas is sent in tank body 1, form a kind of process of displace oxygen, the oxygen in tank body 1 is degraded, reach the standard of specifying.

While the oxygen in tank body 1 of degrading, also certain pressure can be produced at inert gas, under the detection of tensimeter 9, force value in general tank body controls when 0.5Kg, after exceeding this numerical value, PLC remote controllers 11 will start return-air valve 6, be carried out by the excess pressure in tank body 1 getting rid of the needs meeting pressure in tank body 1.

As shown in Figure 2, go deep into described first communicating pipe 2 termination in tank body is provided with bubbling device 21, described bubbling device 21 for be distributed in first communicating pipe 2 termination aperture, the diameter range of described aperture is at 1.5mm-2.5mm.The general 2mm that is arranged to by the diameter of aperture, for best, when inert gas passes through the bubbling device of the first communicating pipe 2, can produce a large amount of bubble, carry out the oxygen in fast degradation tank body 1.

After batching in tank body 1 exhausts, lower a certain amount of batching also can be retained residual remaining with inert gas within the first communicating pipe 2, now can open the 3rd retaining valve, the rinse water sent into by the second communicating pipe 5 was cleaned the first communicating pipe 2, and by bubbling device 21, when carrying out cleaning first communicating pipe 2, owing to there is bubbling device 21, rinse water is when entering first communicating pipe 2 fast, can not flow rapidly in tank body 1, and produce certain pressure, residual inert gas in first communicating pipe 2 is sent into tank body together, can also remnants batching be also sent in tank body 1 simultaneously, then getting rid of.

Spray ball 8 is provided with in described tank body 1, the communicating pipe (not shown) of described spray ball 8 was connected with the second communicating pipe 5, after batching uses, inwall in tank body 1 occurs that some remain last time, spray now can be utilized to ask 8 can to clean the inwall in tank body 1, ensure the clean of tank body 1 inwall, be convenient to use next time.

During specific works, PLC remote controllers 11 monitor tensimeter 9 and the respective pressure of residual oxygen probe 10 and remaining oxygen too high after, first the second retaining valve 4 is opened, inert gas is sent in tank body 1 by the first communicating pipe 2, the oxygen in degraded tank body 1, and now when degrading oxygen, the excessive pressure produced, to get rid of outside tank body 1 by muffler 7 by the return-air valve 6 opened, now pressure and remaining oxygen are being subject to the monitoring of PLC remote controllers 11 always, until prepared burden.

The utility model is plugged with the first communicating pipe for being communicated with inert gas on tank body, carry out the existence of comprehensive too much oxygen, utilize tensimeter and residual oxygen probe to monitor in real time for the pressure in tank body and remaining oxygen separately simultaneously, remaining oxygen in guarantee tank body is in the scope of specifying, the termination of the first communicating pipe is provided with bubbling device, enter into the pressure that can increase its gas in tank body at inert gas, the residual oxygen of inert gas fast and in liquid is merged.Adopt PLC remote controllers to carry out Long-distance Control to tensimeter, residual oxygen probe, the second retaining valve and return-air valve simultaneously, and can monitor in real time, ensure that the air pressure in tank body, remaining oxygen are in specified scope.

It is emphasized that: be only preferred embodiment of the present utility model above, not any pro forma restriction is done to the utility model, every above embodiment is done according to technical spirit of the present utility model any simple modification, equivalent variations and modification, all still belong in the scope of technical solutions of the utility model.

Claims (3)

1. Long-distance Control material-compound tank, it is characterized in that: comprise tank body, described tank body has one for placing the filling mouth of solid or liquid, bottom in described tank body is provided with stirrer, described tank body is plugged with the first communicating pipe for connecting inert gas, described first communicating pipe outside tank body is provided with the first retaining valve and the second retaining valve, be communicated with the second communicating pipe for connecting rinse water described first communicating pipe, described second communicating pipe is connected between the first retaining valve and the second retaining valve, be provided with the 3rd retaining valve described second communicating pipe, described tank body is also plugged with muffler, described muffler outside tank body is provided with return-air valve, described tank body is plugged with tensimeter, the middle part of described tank body is plugged with the residual oxygen probe for detecting residual oxygen, described tensimeter, residual oxygen probe, second retaining valve and return-air valve are all connected with PLC remote controllers.

2. Long-distance Control material-compound tank according to claim 1, it is characterized in that: go deep into described first communicating pipe the termination in tank body is provided with bubbling device, described bubbling device be distributed in first communicating pipe termination aperture, the diameter range of described aperture is at 1.5mm-2.5mm.

3. Long-distance Control material-compound tank according to claim 1, is characterized in that: be provided with spray ball in described tank body, the communicating pipe of described spray ball was connected with the second communicating pipe.