CN105588794A - Gas-liquid mixing pipeline system - Google Patents

Abstract

The invention relates to a gas-liquid mixing pipeline system including a gas path system and a liquid path system. The liquid path system includes a liquid storage pot. A liquid inlet/discharge pipe is connected between the liquid storage pot and a soaking tank. The gas path system includes a gas source, a gas supply main path being communicated with a gas inlet port, a gas supply branched path being communicated with a rotary air cylinder, and a pressure branched path being communicated with a liquid storage pot and supplying gas pressure. The gas source is respectively connected to the gas supply main path, the gas supply branched path and the pressure branched path. By means of the manner of one gas source matching three branched paths, wherein the gas supply main path serves as a gas path source of bubbling detection, the gas supply branched path serves as a power source for mechanical movement of the apparatus, and the pressure branched path is connected to a liquid path system to form a pressure source of liquid filling/discharging during test, the system satisfies demand on gas during the bubbling detection of a filter core in a high-effective and convenient manner.

Description

A kind of gas-liquid mixed pipe-line system

Technical field

The present invention relates to a kind of gas-liquid mixed pipe-line system, relate in particular to a kind of gas-liquid mixed pipe-line system of applying in core performance checkout equipment of filtering.

Background technology

Can cross filter core bubbling detection be to test filter core continue the important evidence using, conventionally the filter core of crossing detecting need be immersed in the isopropyl alcohol that solubility is 99%, air is poured in filter core, the air pressure of the even bubble of test filter core and air flow through the flow value of filter core, and the standard that further contrasts filter core is judged.

The normally small batch detection in laboratory is tested in traditional filter core bubbling of crossing, and efficiency is lower, is difficult to adapt to the detection demand in enterprise's production. Need a kind of filter core bubbling testing arrangement of crossing for this reason, dynamic action source that it adopts the effect of air pressure and hydraulic pressure to complete whole device, be therefore necessary to relate to one efficiently easily gas-liquid mixed pipe-line system power resources are provided.

Summary of the invention

The object of the invention is to overcome the problem of above-mentioned prior art, efficiently gas-liquid mixed pipe-line system easily of one is provided, it can meet the demand of filter core bubbling test with providing convenience.

The object of the invention is to be achieved through the following technical solutions:

A kind of gas-liquid mixed pipe-line system, comprises air-channel system and liquid-way system, and described liquid-way system comprises fluid reservoir, between described fluid reservoir and fermentation vat, is communicated with into discharging tube; Air feed main road, the air feed branch road being communicated with described rotation cylinder that described air-channel system comprises source of the gas, be communicated with described intake interface and be communicated with described fluid reservoir and provide the pressure of air pressure branch road, described source of the gas to connect respectively described air feed main road, described air feed branch road and described pressure branch road.

Further, described source of the gas gas outlet is provided with threeway, described air feed main road comprises the stop valve, air compressor, switch valve, pressure regulator valve, air pressure regulator, air pressure reset valve and the auxiliary threeway that are communicated with successively from described threeway, described auxiliary threeway connecting valve relief valve and flowmeter respectively, described flowmeter is communicated with described intake interface, and described flowmeter is connected with air pressure display instrument.

Further, described air feed branch road comprises switch stop valve, choke valve and reversal valve from described threeway, and described reversal valve is communicated with rotation cylinder. Rotation cylinder can be used as the machine power of device.

Further, described pressure branch road is arranged between described air compressor and described switch valve, described pressure branch road is provided with two-position-five-way solenoid valve, and described fluid reservoir is provided with air inlet and exhaust outlet, and described air inlet and described exhaust outlet are connected with described two-position-five-way solenoid valve respectively.

A kind of gas-liquid mixed pipe-line system of the present invention, comprises air-channel system and liquid-way system, and liquid-way system comprises fluid reservoir, between fluid reservoir and fermentation vat, is communicated with into discharging tube; Air feed main road, the air feed branch road being communicated with rotation cylinder that air-channel system comprises source of the gas, be communicated with intake interface and be communicated with fluid reservoir the pressure of air pressure branch road is provided, source of the gas connects respectively air feed main road, air feed branch road and pressure branch road. By adopting the mode of three shunt of a source of the gas, the gas circuit source that wherein air feed main road detects as bubbling, air feed branch road is as the power resources of device for mechanical action, pressure branch road charges and discharge the source pressure of liquid be connected as test during with liquid-way system, thereby has efficiently met easily the demand of crossing filter core bubbling test.

Brief description of the drawings

Fig. 1 is a kind of main TV structure figure that crosses filter core bubbling testing arrangement of a kind of gas-liquid mixed pipe-line system application of the present invention;

Fig. 2 is the side view of Fig. 1;

Fig. 3 is the partial enlarged drawing at P place in Fig. 1;

Fig. 4 is the side-looking enlarged drawing of whirligig in Fig. 3;

Fig. 5 is the partial enlarged drawing at Q place in Fig. 1;

Fig. 6 is the schematic diagram of gas-liquid pipeline hybrid system of the present invention.

Detailed description of the invention

According to drawings and embodiments the present invention is described in further detail below.

As Fig. 1 and Fig. 2,, as shown in Fig. 3, Fig. 4 and Fig. 5, one described in the embodiment of the present invention is crossed filter core bubbling testing arrangement, comprise workbench 10, workbench 10 is provided with fermentation vat 11, the side of fermentation vat 11 is provided with a support column 12 and is hinged on the pivoted arm 13 on support column 12, pivoted arm 13 is provided with assembling and disassembling filter element device 20, assembling and disassembling filter element device 20 comprises the lateral frame 21 being fixedly connected on pivoted arm 13, the two ends of lateral frame 21 are respectively equipped with rotating folder lid 22, wherein laterally movable arrange and to pass through a locking device 30 spacing of at least one folder lid; Wherein at least one folder lid is connected with and controls the whirligig 40 that this folder lid rotates; Folder covers 22 sealed holdings crosses filter core 90, and the center, end of one of them folder lid is provided with the intake interface 89 that was communicated with filter core 90 internal cavities, and pivoted arm 13 is connected with tumbler.

The sealing of mistake filter core is arranged between two folder lids, one of them folder activity of covering arranges convenient clamping, tumbler drives pivoted arm to rotate, thereby drive filter element device to rotate, immerse fermentation vat from crossing filter core, in the cavity that was filter core by intake interface, squeeze into compressed air, compressed air passed through the filter core formation bubble of emerging, thereby form the basis of detecting, use whirligig rotating clip lid simultaneously and cross filter core, convenient observation.

As shown in Figure 2, pivoted arm 13 comprises the long pivoted arm 131 and the short pivoted arm 132 that are mutually angle, and tumbler comprises the rotation cylinder 14 being fixedly hinged below support column 12, and piston rod 14a and the short pivoted arm 132 of rotation cylinder 14 are movably hinged.

As shown in Figure 3. Be positioned at the folder lid fixed installation of lateral frame 21 left ends and be connected with whirligig 40, the folder lid that is positioned at lateral frame 21 right-hand members is movable arrange and to pass through locking device 30 spacing laterally, and intake interface 89 is arranged on the folder that is positioned at lateral frame 21 left ends and covers a side.

The left end of lateral frame 21 is fixedly connected with left installing plate 51, the end of left installing plate 51 fixedly mounts the installation shaft 52 of a center tool through hole, the outer end of installation shaft 52 intake interface 89 that is tightly connected, one of them chuck is rotatably set in the inner and axial restraint of installation shaft 52.

As shown in Figures 3 and 4, whirligig 40 comprises the handwheel 53 being rotatably installed on left installing plate 51, handwheel 53 activities run through left installing plate 51 and are connected with driving gear 54, the folder that is positioned at lateral frame 21 left ends covers 22 outer fixed covers and is provided with driven gear ring 55, and driving gear 54 directly engagement drives driven gear ring 55 or drives driven gear ring 55 by idler gear 56 engagements that are arranged on left installing plate 51. In the present embodiment, in order to ensure gear-driven speed, adopted two idler gears 56 to transmit speed ratio.

As Fig. 1, as 2 and Fig. 5 as shown in the right-hand member of lateral frame 21 be provided with a portable plate 61, portable plate 61 comprises the right installing plate 612 that slip cap is provided with the sliding sleeve 611 on lateral frame 21 and is fixedly connected with sliding sleeve 611, sliding sleeve 611 is provided with and tights a bolt 62, the end of right installing plate 612 is provided with elastic device 63, elastic device 63 comprises the resilient sleeve 64 being fixedly mounted on right installing plate 612, the interior slip cap of resilient sleeve 64 is provided with elasticity installation shaft 65, between elasticity installation shaft 65 and resilient sleeve 64, clamping has spring 66, one end of elasticity installation shaft 65 is run through resilient sleeve 64 and is fixedly connected with stop nut 67, the other end of elasticity installation shaft 65 runs through resilient sleeve 64 and forms installation end 65a, the folder lid that is positioned at lateral frame 21 right-hand members is rotatably set in the upper also axial location of installation end 65a.

As shown in Figure 6, in order further to increase work efficiency, for this is crossed filter core bubbling checkout gear the pipe-line system of convenience and high-efficiency is provided, the bottom that is fermentation vat 11 is communicated with gas-liquid mixed pipe-line system 70, gas-liquid mixed pipe-line system 70 comprises air-channel system and liquid-way system, liquid-way system comprises fluid reservoir 721, between fluid reservoir 721 and fermentation vat 11, is communicated with into discharging tube 722; Air feed main road, the air feed branch road being communicated with rotation cylinder 14 that air-channel system comprises source of the gas 711, be communicated with intake interface 89 and be communicated with fluid reservoir 721 pressure of air pressure branch road is provided, source of the gas 711 connects respectively air feed main road, air feed branch road and pressure branch road.

Source of the gas 711 gas outlets are provided with threeway 76, air feed main road comprises the stop valve 731, air compressor 732, switch valve 733, pressure regulator valve 734, air pressure regulator 735, air pressure reset valve 736 and the auxiliary threeway 737 that are communicated with successively from threeway 76, auxiliary threeway 737 connecting valve relief valve 738 and flowmeter 739 respectively, flowmeter 739 is communicated with intake interface 89, and flowmeter 739 is connected with air pressure display instrument 739a.

Air feed branch road comprises switch stop valve 741, choke valve 742 and reversal valve 743 from threeway 76, and reversal valve 743 is communicated with rotation cylinder 14.

Pressure branch road is arranged between air compressor 732 and switch valve 733, and pressure branch road is provided with two-position-five-way solenoid valve 751, and fluid reservoir 721 is provided with air inlet and exhaust outlet, and air inlet and exhaust outlet are connected with two-position-five-way solenoid valve 751 respectively. The bottom of liquid storage pipe 721 is also provided with bleed valve 723.

The sealing of mistake filter core is arranged between two folder lids, one of them folder activity of covering arranges convenient clamping, tumbler drives pivoted arm to rotate, thereby drive filter element device to rotate, immerse fermentation vat from crossing filter core, in the cavity that was filter core by intake interface, squeeze into compressed air, compressed air passed through the filter core formation bubble of emerging, thereby form the basis of detecting, use whirligig rotating clip lid simultaneously and cross filter core, convenient observation. This filter core bubbling testing arrangement of crossing, has improved and has crossed the efficiency that filter core bubbling detects.

The foregoing is only explanation embodiments of the present invention; be not limited to the present invention, for a person skilled in the art, within the spirit and principles in the present invention all; any amendment of doing, be equal to replacement, improvement etc., within protection scope of the present invention all should be included in.

Claims (4)

1. a gas-liquid mixed pipe-line system, is characterized in that, comprises air-channel system and liquid-way system, and described liquid-way system comprises fluid reservoir, between described fluid reservoir and fermentation vat, is communicated with into discharging tube; Air feed main road, the air feed branch road being communicated with described rotation cylinder that described air-channel system comprises source of the gas, be communicated with described intake interface and be communicated with described fluid reservoir and provide the pressure of air pressure branch road, described source of the gas to connect respectively described air feed main road, described air feed branch road and described pressure branch road.

2. gas-liquid mixed pipe-line system as claimed in claim 1, it is characterized in that, described source of the gas gas outlet is provided with threeway, described air feed main road comprises the stop valve, air compressor, switch valve, pressure regulator valve, air pressure regulator, air pressure reset valve and the auxiliary threeway that are communicated with successively from described threeway, described auxiliary threeway connecting valve relief valve and flowmeter respectively, described flowmeter is communicated with described intake interface, and described flowmeter is connected with air pressure display instrument.

3. gas-liquid mixed pipe-line system as claimed in claim 2, is characterized in that, described air feed branch road comprises switch stop valve, choke valve and reversal valve from described threeway, and described reversal valve is communicated with rotation cylinder.

4. gas-liquid mixed pipe-line system claimed in claim 3, it is characterized in that, described pressure branch road is arranged between described air compressor and described switch valve, described pressure branch road is provided with two-position-five-way solenoid valve, described fluid reservoir is provided with air inlet and exhaust outlet, and described air inlet and described exhaust outlet are connected with described two-position-five-way solenoid valve respectively.