CN201606652U - Compressed Liquefied gas filling system - Google Patents

Abstract

The utility model discloses a compressed liquefied gas filling system, which relates to the field of liquefied gas filling. The liquefied compressed gas filling system comprises a liquid storing pot, a filling pump, a gas cylinder and a filling station, wherein the filling pump and the liquid storing pot are connected through a tube; the gas cylinder is placed on the filling station, and is connected with the filling pump through a tube; a flow automatic adjusting device capable of automatically controlling filling pump flow is connected to the filling pump; and an intelligent quantified filling device is connected between the gas cylinder and the filling pump. The compressed liquefied gas filling system also comprises an adjusting control center device and a pressure automatic adjusting device. The flow automatic adjusting device and the intelligent quantified filling device are also respectively connected with the adjusting control center device through control lines. One end of the pressure automatic adjusting device is connected with the adjusting control center device, and the other end is connected with the liquid storing pot. By using the structure, the utility model has the advantages of fully automatic control, accurate filling weight, low cost, safety, long use life and the like.

Description

Compressed liquefied gas charging system

[technical field]

The utility model relates to the liquefied gas charging technical field, and particularly a kind of compressed liquefied gas fills technical field.

[background technique]

Liquid gas calorific value height, deposit and take up space for a short time, easy to use, welcome by the common people.But liquid gas is inflammable, explosive, volatile, stores and transportation is very limited, and normally is provided with large-scale liquefied gas tank in liquefied gas station, large-scale liquefied gas tank pass through again the lpg filling device with lpg filling to user's liquified petroleum gas cylinder.Industry lpg filling device commonly used has two kinds at present, is respectively: machinery is charging device and the quantitative charging device of electronic scale quantitatively.Machinery quantitatively charging device is to touch air valve switch when only relying on the arm beam of steelyard to lift and with the simple and mechanical device of the valve closing of air valve switch, its function is too simple, still can not break away from mechanical platform scale and fall behind working method, still exist the loaded down with trivial details of manual weighing's process, the edge of a knife is exposed to make moist easily and gets rusty or deteriorate and influence the degree of accuracy of weighing, could continue many shortcomings such as use after needing specialized maintenance to detect.The quantitative charging device of electronic scale, though it is convenient to reach weighing, purpose simple to operate, but it yet exists following shortcoming: 1, can not distinguish the interference effect power that easily produces in the filling process of rejecting, leak to need clap clinch ear and the active force that produces as the jig joint, cause virtual weighing definite value to reach and closing in advance of causing; 2, only possess the control of the function that quantitatively fills of single gas cylinder.

[model utility content]

The purpose of this utility model provide a kind of can automatic regulating system pressure, flow, filling weight accurately, can reduce or eliminate compressed liquefied gas charging security risk, increase the benefit, effectively control cost, alleviate working strength of workers and stress, comprehensively link and be controlled to be the compressed liquefied gas charging system of one.

The utility model for realizing the technological scheme that above-mentioned model utility purpose adopts is: a kind of compressed liquefied gas charging system, comprise liquid container, filling pump, gas cylinder and fill platform, described filling pump is connected by pipeline with liquid container, described gas cylinder is positioned over and fills on the platform, gas cylinder is connected with filling pump by pipeline, be connected with the automatic flow rate adjusting device that to control the filling pump flow automatically on the described filling pump, be connected with the quantitative charging device of the intelligence that to control filling weight automatically between described gas cylinder and filling pump, described compressed liquefied gas charging system also comprises regulates control centre's device and pressure automatic adjusting device, described automatic flow rate adjusting device and intelligence quantitatively charging device also are connected with adjusting control centre device by control wiring respectively, described pressure automatic adjusting device one end is connected with described adjusting control centre device, and the pressure automatic adjusting device the other end is connected with described liquid container.

Wherein said filling pump connects at least two gas cylinders in parallel by pipeline, gas cylinder is arranged at arranged side by side filling on the platform mutually respectively, all be connected with quantitatively charging device of intelligence between each gas cylinder and filling pump, each intelligence quantitatively charging device respectively with regulate control centre's device and be connected.

Wherein said automatic flow rate adjusting device comprises successively flow communication module, flow decoder module, the motor speed-regulating module that connects, and described flow communication module is connected with described adjusting control centre device, and described motor speed-regulating module is connected with filling pump.

The quantitative charging device of wherein said intelligence comprises described platform, A/D convertor circuit, single chip circuit, solenoid valve, the pneumatic ball valve of filling that connects successively, the described platform that fills comprises load-bearing platen and the weighing transducer that is connected with the load-bearing platen, described weighing transducer is connected with A/D convertor circuit, and described single chip circuit is connected with described adjusting control centre device.

The quantitative charging device of wherein said intelligence also comprises the led display unit that is connected with described single chip circuit.

The arithmetic element that wherein said adjusting control centre device comprises data acquisition unit, be connected with data acquisition unit reaches the center communication unit that is connected with arithmetic element.

Wherein said pressure automatic adjusting device comprises pressure communication unit, pressure demoding circuit, pressure executive circuit, the pneumatic backflow ball valve that connects successively, described pressure communication unit is connected with described adjusting control centre device, and described pneumatic backflow ball valve is connected with described liquid container by pipeline.

Wherein said pneumatic backflow ball valve also is parallel with the hand control valve of an available manual pilot pressure.

Wherein said compressed liquefied gas charging system also comprises pressure gauge and safety valve, and this pressure gauge is connected with filling pump, gas cylinder and adjusting control centre device respectively with safety valve.

Because adopt said structure, the compressed liquefied gas charging system of the utility model has following beneficial effect:

1, full-automation is controlled, filling weight is accurate, cost is low

The compressed liquefied gas charging system of the utility model also is provided with the adjusting control centre device that is connected and coordinates the control said apparatus with said apparatus owing to be provided with the automatic flow rate adjusting device that is connected with filling pump, the quantitative charging device of intelligence, the pressure automatic adjusting device that can control filling weight automatically.Filling pump can open automatically, stop and regulate the running speed according to pipeline pressure and flow etc., reaches automatic adjusting and fills flow, effectively improves the purpose of filling a bottle efficient, reducing the personnel that fill; The filling weight of gas cylinder can be set by regulating control centre's device, and control filling process automatically by the quantitative charging device of intelligence, automatically closing the ball valve switch when filling weight of gas cylinder reaches setting value stops to fill, can realize that filling weight is accurate, and intelligence quantitatively charging device can be discerned improper factor interference automatically and get rid of and disturb in filling process, guarantee normally to fill, reduce labor strength; But pressure automatic adjusting device automatic regulating system pressure, regulating control centre's device can comprehensively arrange and coordinate the working condition of each device in the native system, make each device all be in best working state, therefore native system can be realized full-automatic control, reduce labor strength, greatly improved and fill economic benefit of enterprises, reduce cost.

2, safety, long service life

The pressure automatic adjusting device of the compressed liquefied gas charging system of the utility model can be regulated pressure in the pipeline automatically according to media filling condition, fills to prevent superpressure; Automatic flow rate adjusting device then can make each bottle gas keep a rational flow velocity when filling according to the flow that how much reaches the pipeline pressure automatic regulating system that fills gas cylinder, fills to avoid excess.Therefore the compressed liquefied gas charging system of the utility model fills etc. pipeline pressure height, flow system flow size, the control of filling pump rotating speed, superpressure, the excess of the required monitoring of whole filling process and is related to security of system and Comprehensive Control carry out in normally operation aspect, the safety rate height; Because charging system pressure stability, safety can effectively reduce the working life that filling equipment damages, prolongs equipment.

Below in conjunction with drawings and Examples the utility model compressed liquefied gas charging system is further described.

[description of drawings]

Fig. 1 is the utility model compressed liquefied gas charging system structural representation.

Fig. 2 is the structured flowchart of automatic flow rate adjusting device in the utility model compressed liquefied gas charging system.

Fig. 3 is the structured flowchart of the quantitative charging device of intelligence in the utility model compressed liquefied gas charging system.

Fig. 4 is a structured flowchart of regulating control centre's device in the utility model compressed liquefied gas charging system.

Fig. 5 is the structured flowchart of pressure automatic adjusting device in the utility model compressed liquefied gas charging system.

The element numbers explanation:

The 1-liquid container, 2-filling pump, 3-gas cylinder, 4-fills platform, the 5-automatic flow rate adjusting device, and 6-intelligence is charging device quantitatively, the 61-pneumatic ball valve, 7-regulates control centre's device, 8-pressure automatic adjusting device, the pneumatic backflow ball valve of 81-, 9-hand switch valve, 10-liquid discharging valve, the 11-autocontrol valve, 12-hand control valve, the pneumatic reflux valve of 13-, the 14-pressure gauge, the 15-safety valve.

[embodiment]

As Fig. 1 to shown in Figure 5, the utility model compressed liquefied gas charging system comprises liquid container 1, filling pump 2, gas cylinder 3, fills platform 4, automatic flow rate adjusting device 5, intelligence quantitatively charging device 6, regulate control centre's device 7 and pressure automatic adjusting device 8.

Described filling pump 2 and liquid container 1 are connected by pipeline, and gas cylinder 3 is positioned over and fills on the platform 4, and gas cylinder 3 is connected with filling pump 2 by pipeline.Be connected with the automatic flow rate adjusting device 5 that to control the filling pump flow automatically on the described filling pump 2,2 of described gas cylinder 3 and filling pumps are connected with quantitatively charging device 6 of intelligence, described automatic flow rate adjusting device 5 and intelligence quantitatively charging device 6 also connect adjusting control centre device 7 by control wiring respectively, described pressure automatic adjusting device 8 one ends are connected with described adjusting control centre device 7, and pressure automatic adjusting device 8 the other ends are connected with described liquid container 1.

Described filling pump 2 connects at least two gas cylinders 3 in parallel by pipeline, and the fluid port of filling pump connects five gas cylinders 3 in parallel by pipeline in the present embodiment, and the quantity that connects gas cylinder can be selected according to actual needs.Each gas cylinder is arranged at correspondence mutually arranged side by side respectively and fills on the platform 4, and 2 of each gas cylinder 3 and filling pumps all are connected with quantitatively charging device 6 of intelligence, and each intelligence quantitatively charging device 6 is connected 7 with adjusting control centre device respectively by control wiring.

Described filling pump 2 is provided with the motor (not shown) of its work of control, and the feed liquor port of filling pump 2 is connected with liquid container 1, and is provided with liquid discharging valve 10 on the pipeline of 1 of filling pump 2 and liquid container.Be connected with the automatic flow rate adjusting device 5 that to control the filling pump flow automatically on the filling pump 2.Automatic flow rate adjusting device 5 comprises flow communication module, flow decoder module, the motor speed-regulating module that connects successively, described flow communication module is connected with described adjusting control centre device 7 by control wiring, and described motor speed-regulating module is connected by the motor of control wiring with filling pump 2.Wherein the flow communication module is responsible for receiving the flux signal that adjusting control centre device 7 sends over, the flow decoder module is responsible for a tach signal that the signal conversion of receiving becomes the motor speed-regulating module to discern, the motor speed-regulating module is then regulated the motor speed of filling pump 2 according to this tach signal, because the pump housing of filling pump 2 is the piston cylinder operator (not shown), so output flow is proportional to motor speed fully, so just realized the purpose of regulating filling pump 2 flows automatically by the signal of regulating control centre's device 7.

Described gas cylinder 3 is positioned over to fill on the platform 4 and by pipeline and is connected with the fluid port of filling pump 2.Be connected with quantitatively charging device 6 of intelligence at gas cylinder 3 and 2 of filling pumps.Intelligence quantitatively charging device 6 comprises described platform 4, A/D convertor circuit, single chip circuit, solenoid valve, the pneumatic ball valve 61 of filling that connects successively, the described platform that fills comprises load-bearing platen (not shown in figure 1) and the weighing transducer (not shown in figure 1) that is connected with the load-bearing platen, described weighing transducer is connected with A/D convertor circuit, and intelligence quantitatively charging device also comprises the led display unit that is connected with described single chip circuit.Described single chip circuit is connected with described adjusting control centre device 7, and described pneumatic ball valve 61 is connected on the pipeline of 2 of gas cylinder 3 and filling pumps.Also be provided with hand switch valve 9 at pneumatic ball valve and 3 of gas cylinders.When being placed on, gas cylinder 3 fills when filling on the platform 4, fill 3 compressings of gas cylinder on the platform 4 and fill the weighing transducer of platform, weighing transducer output is proportional to the aanalogvoltage of gas cylinder 3 weight, this aanalogvoltage converts digital quantity to through A/D convertor circuit, single chip circuit calculates these digital quantities by programmed and is shown by display device, and judge current gas cylinder according to result calculated and be in and wait to fill, filling, be full of, several states such as move away from, come the electric current of control electromagnetic valve again by the state requirement of correspondence, make pneumatic ball valve 61 open or close the valve (not shown) of pneumatic ball valve, realize accurately filling, and can pass through led display unit, the status indicator lamp (not shown) shows the process status that fills.

Described liquid container 1 is provided with pneumatic reflux valve 13 with the pipeline enclosure of pressure automatic adjusting device 8.Described pressure automatic adjusting device 8 comprises pressure communication unit, pressure demoding circuit, pressure executive circuit, the pneumatic backflow ball valve 81 that connects successively, described pressure communication unit is connected with described adjusting control centre device 7, and described pneumatic backflow ball valve 81 is connected with described liquid container 1 by pipeline.The pressure communication unit receives constantly regulates the force value signal that control centre's device 7 is sent, the pressure demoding circuit is passed to the pressure executive circuit after the force value signal is decoded, thereby the pressure executive circuit promotes pneumatic reflux valve 13 and opens or closes by controlling on it pressure directions that corresponding solenoid valve (not shown) changes pneumatic backflow ball valve 81 again.When the pipeline superpressure, by controlling pneumatic backflow ball valve 81 and then controlling pneumatic reflux valve 13 and open, make pipe interior divide liquid to be back in the liquid container 1, and then make the interior excessive pressure of pipeline obtain discharging, make manifold pressure be stablized, guaranteed the safety of pipeline.

Described pneumatic backflow ball valve 81 also is parallel with the hand control valve 12 of an available manual pilot pressure.Described compressed liquefied gas charging system also comprises pressure gauge 14 and safety valve 15, and this pressure gauge 14 is connected with filling pump 2, gas cylinder 3 and adjusting control centre device 7 respectively with safety valve 15.Pressure gauge 14 is connected with filling pump 2 by pipeline respectively with safety valve 15, the pipeline that is connected with pressure gauge 14, safety valve 15 is connected with the fluid port of filling pump 2 again, and the pipeline that the pipeline that is connected with pressure gauge 14, safety valve 15 also is connected with gas cylinder 3 simultaneously interconnects.

The arithmetic element that described adjusting control centre device 7 comprises data acquisition unit, be connected with data acquisition unit reaches the center communication unit that is connected with arithmetic element.Described data acquisition unit is gathered the force value of pipeline and the run signal of every intelligent proportioning device, and the force value that collects and run signal are sent to arithmetic element carry out computing, draw current optimum flow value, again the optimum flow value is passed to automatic flow rate adjusting device.

When filling compressed liquefied gas with the utility model compressed liquefied gas charging system, open the outer liquid discharging valve 10 of liquid container earlier, make liquid enter filling pump and carry out precooling after 1～3 minute, open the pneumatic reflux valve 13 of liquid container again, the back starts filling pump 2, liquid will be pressed into pipeline continuously, enter to place the gas cylinder 3 that fills on the platform 4 and quantitatively fill.In filling process, intelligent quantitative charging device 6 has the series functions such as valve of automatic peeling weighing, the interference of automatic identification rejecting external force, automatic procedure for displaying charge, automatic follow procedure switch pneumatic ball valve, only need load onto when the workman operates and fill the jig (not shown), open the cylinder valve (not shown), click the play button (not shown) again, system will remove the peel automatically, automatic feed liquor or gas, show filling process, when filling weight reaches set amount, promptly close a series of activities such as valve of pneumatic ball valve 61 automatically; Pressure automatic adjusting device 8 can be regulated the height of manifold pressure automatically, prevents that superpressure from filling, when the malfunctioning cisco unity malfunction of pressure automatic adjusting device, and also available hand control valve 12 pilot pressures; 5 of automatic flow rate adjusting devices can be regulated flow automatically according to what and the pressure size that fill the gas cylinder number, liquid gas kept a rational flow velocity when each gas cylinder 3 was filled, prevent that excess from filling, reach automatic adjusting and fill flow, effectively improve and fill a bottle efficient, reduce purpose such as the personnel that fill; In filling process, regulating 7 in control centre's device can comprehensively arrange and coordinate the working condition of each device of native system, make each device all be in best working state, regulating control centre's device 7 calculates, judges by the working status parameter signal and the pipeline pressure value of gathering the quantitative charging device of each intelligence in the charging system, suitably regulate opening or closing of pneumatic reflux valve in the rotating speed of filling pump and the pipeline then, thereby realize the automatic adjusting of pressure and flow.The workman only need close gas cylinder when filling after tutorial light extinguishes cylinder valve, removal fill jig and just can easily and satisfactorily finish whole filling.

The installing engineering of the utility model compressed liquefied gas charging system is fairly simple, only fill bus structures transformation to former, so that relevant microcomputer-based intelligent device is installed, need not extend a factory building and Infrastructure, the result can expand the scale of production and enhance productivity 1～2 times, realizes the safe charging system of personnel reduction and enlargement and basic automation.

As conversion of the present utility model: filling pump can only connect a gas cylinder, and single gas cylinder is filled, and filling pump also can connect a plurality of gas cylinders, and simultaneously a plurality of gas cylinders is filled; Automatic flow rate adjusting device, intelligence quantitatively charging device, adjusting control centre device, pressure automatic adjusting device also are not limited to the described concrete structure of the foregoing description, as long as can reach the described fundamental function of said apparatus all in the utility model scope; Intelligence quantitatively charging device also can not be provided with led display unit, or is provided with the other display equipment with identical function and replaces; The pneumatic backflow ball valve of pressure automatic adjusting device also can a hand control valve not in parallel, and is directly controlled the switch of pneumatic reflux valve 13 by pneumatic backflow ball valve; The utility model compressed liquefied gas charging system also can not be provided with pressure gauge and safety valve, and directly by quantitatively charging device, adjusting control centre device, the work of pressure automatic adjusting device dispatch control system of automatic flow rate adjusting device, intelligence.

Claims (10)

1. compressed liquefied gas charging system, comprise liquid container (1), filling pump (2), gas cylinder (3) and fill platform (4), described filling pump (2) is connected by pipeline with liquid container (1), described gas cylinder (3) is positioned over and fills on the platform (4), gas cylinder (3) is connected with filling pump (2) by pipeline, it is characterized in that, be connected with the automatic flow rate adjusting device (5) that to control the filling pump flow automatically on the described filling pump (2), be connected with the quantitative charging device (6) of the intelligence that to control filling weight automatically between described gas cylinder (3) and filling pump (2), described compressed liquefied gas charging system also comprises regulates control centre's device (7) and pressure automatic adjusting device (8), described automatic flow rate adjusting device (5) and intelligence quantitatively charging device (6) also are connected with adjusting control centre's device (7) by control wiring respectively, described pressure automatic adjusting device (8) one ends are connected with described adjusting control centre's device (7), and pressure automatic adjusting device (8) the other end is connected with described liquid container (1).

2. compressed liquefied gas charging system as claimed in claim 1, it is characterized in that: described filling pump (2) connects at least two gas cylinders (3) in parallel by pipeline, gas cylinder (3) is arranged at arranged side by side filling on the platform (4) mutually respectively, all be connected with quantitatively charging device (6) of intelligence between each gas cylinder (3) and filling pump (2), each intelligence quantitatively charging device (6) is connected with adjusting control centre's device (7) respectively.

3. compressed liquefied gas charging system as claimed in claim 1 or 2, it is characterized in that: described automatic flow rate adjusting device (5) comprises flow communication module, flow decoder module, the motor speed-regulating module that connects successively, described flow communication module is connected with described adjusting control centre device, and described motor speed-regulating module is connected with filling pump (2).

4. compressed liquefied gas charging system as claimed in claim 1 or 2, it is characterized in that: the quantitative charging device of described intelligence (6) comprises described platform (4), A/D convertor circuit, single chip circuit, solenoid valve, the pneumatic ball valve of filling that connects successively, the described platform (4) that fills comprises load-bearing platen and the weighing transducer that is connected with the load-bearing platen, described weighing transducer is connected with A/D convertor circuit, and described single chip circuit is connected with described adjusting control centre device.

5. compressed liquefied gas charging system as claimed in claim 4 is characterized in that: the quantitative charging device of described intelligence (6) also comprises the led display unit that is connected with described single chip circuit.

6. compressed liquefied gas charging system as claimed in claim 1 or 2 is characterized in that: the arithmetic element that described adjusting control centre's device (7) comprises data acquisition unit, be connected with data acquisition unit reaches the center communication unit that is connected with arithmetic element.

7. compressed liquefied gas charging system as claimed in claim 1 or 2, it is characterized in that: described pressure automatic adjusting device (8) comprises pressure communication unit, pressure demoding circuit, pressure executive circuit, the pneumatic backflow ball valve (81) that connects successively, described pressure communication unit is connected with described adjusting control centre device, and described pneumatic backflow ball valve is connected with described liquid container (1) by pipeline.

8. compressed liquefied gas charging system as claimed in claim 7 is characterized in that: described pneumatic backflow ball valve (81) also is parallel with the hand control valve (12) of an available manual pilot pressure.

9. compressed liquefied gas charging system as claimed in claim 7 is characterized in that: be provided with pneumatic reflux valve (13) between described liquid container (1) and pneumatic backflow ball valve (81) and hand control valve (12).

10. compressed liquefied gas charging system as claimed in claim 1 or 2, it is characterized in that: described compressed liquefied gas charging system also comprises pressure gauge (14) and safety valve (15), and this pressure gauge (14) is connected with filling pump (2), gas cylinder (3) and adjusting control centre's device (7) respectively with safety valve (15).

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