CN202301235U - Oil-gas separation pressure boost cylinder - Google Patents

Abstract

The utility model relates to an oil-gas separation pressure boost cylinder. An oil hydraulic cylinder, a pneumatic cylinder and a pre-compression cylinder are combined, and compressed air led into the pre-compression cylinder is separated from hydraulic oil stored in the pre-compression cylinder to guarantee quality of the hydraulic oil and save cost for replacing the hydraulic oil. When compressed air enters the pre-compression cylinder, a pre-compression piston in the pre-compression cylinder is pushed to enable the pre-compression piston to push the hydraulic oil in an oil storage space of the pre-compression cylinder into an oil storage space of the oil hydraulic cylinder. An oil hydraulic piston of the oil hydraulic cylinder is forced by pressure of the hydraulic oil to drive an oil hydraulic piston rod to move towards a work piece. Finally, a hydraulic piston rod of the pneumatic cylinder is forced by air pressure to extend into the oil storage space of the pneumatic cylinder to improve contribution of the oil hydraulic piston rod of the pneumatic cylinder to the work piece to achieve pressure boost effect.

Description

The pressurized cylinder of Oil-gas Separation

Technical field

The utility model is relevant with pressurized cylinder, particularly relevant for a kind of pressurized cylinder of Oil-gas Separation.

Background technique

See also existing pressurized cylinder 10 shown in Figure 1, consist predominantly of the pneumatic cylinder 14 that an oil hydraulic cylinder 12, vertically connects oil hydraulic cylinder 12, and a side direction connects the precompression cylinder 16 of oil hydraulic cylinder 12.As shown in Figure 2; After the pressurized air from external world's input gets into the oil storage space 162 of precompression cylinder 16; The oil storage space 162 stored hydraulic oil of precompression cylinder 16 can directly bear compressed-air actuated pressure and flow in the oil storage space 122 of oil hydraulic cylinder 12 via an Oil Guide passage 18; And convert the gas pressure that is born to precompression to the hydraulic piston 124 of oil hydraulic cylinder 12; The hydraulic piston bar 126 of the oil hydraulic cylinder 12 of this moment can because of the effect of precompression gradually towards workpiece near; Then the pneumaticpiston bar 142 of pneumatic cylinder 14 can receive the gas pressure that itself is produced and stretch in the oil storage space 122 of oil hydraulic cylinder 12, so just can increase by the exerting oneself of 126 pairs of workpiece of hydraulic piston bar of oil hydraulic cylinder 12, to reach pressurized effect.

Yet in the middle of the whole operation stroke of aforementioned pressurized cylinder 10; Hydraulic oil stored in the precompression cylinder 16 contacts with the pressurized air of the input from the external world inevitably; When the moisture contained as if pressurized air is too high, very easily cause hydraulic oil to produce emulsion, the hydraulic oil after rotten causes influence improperly to the efficient and the life-span of internal component; Operator must change hydraulic oil often, and then increase cost of material; On the other hand; After the supercharging stroke of aforementioned pressurized cylinder 10 finishes; The recovery pressure of stored hydraulic oil can discharge the pressurized air of importing from the external world at leisure in the precompression cylinder 16, but the fluid that hydraulic oil and pressurized air mixed is easy in exhaust process, evaporate into simultaneously ambient air, thus; Except meeting causes the atmospheric pollution context, also can near operator health be exerted an adverse impact; Moreover mobile for hydraulic oil can be produced through compressed-air actuated pressure, existing pressurized cylinder 10 can only adopt longitudinally and be provided with, and can not adopt laterally or the setting of other direction, causes existing pressurized cylinder 10 can receive many restrictions in the use.

The model utility content

The main purpose of the utility model is to provide a kind of pressurized cylinder of Oil-gas Separation, and it is few in the restriction of installing, and can guarantee the quality of hydraulic oil and save the cost of changing hydraulic oil, also can reduce atmospheric pollution simultaneously.

For reaching above-mentioned purpose; The pressurized cylinder of the utility model includes an oil hydraulic cylinder, a pneumatic cylinder; An and precompression cylinder; Wherein: this oil hydraulic cylinder has one first oil storage space, and is located at the hydraulic piston in this first oil storage space, and one connect this hydraulic piston the hydraulic piston bar, can receive pressure effect and the start of hydraulic oil; This pneumatic cylinder is connected in an end of this oil hydraulic cylinder and has a pneumaticpiston and a pneumaticpiston bar, and an end of this pneumaticpiston bar is connected in this pneumaticpiston, can receive the promotion of this pneumaticpiston and stretches in first oil storage space of this oil hydraulic cylinder with its other end; This precompression cylinder is connected in a side of this oil hydraulic cylinder; And second oil storage space, with this first oil storage space of connection is communicated with the gas-entered passageway of this second oil storage space, the exhaust passage of this second oil storage space of connection; And one be located in this second oil storage space and be positioned at the precompressed piston of the outlet end of this gas-entered passageway, can receive action of air pressure and start.

Wherein this oil hydraulic cylinder has a Sealing and a divider; Form this first oil storage space between sealing part and this hydraulic piston; This divider is between sealing part and this hydraulic piston; In order to this first oil storage space district is separated out an accumulator and a pumping chamber, this accumulator is communicated with second oil storage space of this precompression cylinder, and the volume of this pumping chamber is with the change in location of this hydraulic piston; The pneumaticpiston bar of this pneumatic cylinder passes the sealing part and is positioned at this accumulator, and can receive the promotion of this pneumaticpiston and stretch in this pumping chamber.

Wherein this oil hydraulic cylinder has the first Oil Guide passage of this first oil storage space of connection, and this precompression cylinder has the second Oil Guide passage of this second oil storage space of connection, and this first Oil Guide passage and this second Oil Guide passage are interconnected.

Wherein this precompression cylinder has an oil filler pipe, and an end of this oil filler pipe connects this precompressed piston, and the other end passes outside this precompression cylinder and has an oil hole.

The utility model top beneficial effect is: the setting of described pressurized cylinder can not receive the restriction of any direction; In addition; The precompressed piston of this precompression cylinder is separated this gas-entered passageway and this second oil storage space; Make the pressurized air that gets into from this gas-entered passageway and being stored between the hydraulic oil in this second oil storage space in the middle of whole stroke, can not touch; Can reach and guarantee the hydraulic oil quality and save the purpose of changing the hydraulic oil cost, and can avoid producing simultaneously both, reduce the air-polluting purpose to reach because of mixing formed fluid each other.

Description of drawings

Following conjunction with figs. is enumerated following preferred embodiment, is elaborated in order to structure and effect to the utility model, wherein:

Fig. 1 is the sectional view of existing pressurized cylinder.

Fig. 2 is the sectional view of the utility model one preferred embodiment.

Fig. 3 is the operational flowchart of the utility model one preferred embodiment.

Embodiment

Please consult Fig. 2 earlier, be the pressurized cylinder 20 of the utility model one preferred embodiment, include an oil hydraulic cylinder 30, a pneumatic cylinder 40, and a precompression cylinder 50.

Oil hydraulic cylinder 30 has an oil-hydraulic cylinder 31, a hydraulic piston 32, a hydraulic piston bar 33, a Sealing 34, and a divider 35.Hydraulic piston 32 is located in the oil-hydraulic cylinder 31, can receive pressure effect and the start of hydraulic oil; The top of hydraulic piston bar 33 is connected in hydraulic piston 32, can receive hydraulic piston 32 drive and with its bottom towards workpiece 60 starts; Sealing 34 be located at oil-hydraulic cylinder 31 the top and and hydraulic piston 32 between form one first oil storage space 36 in order to stores hydraulic pressure oil 70; Divider 35 is located between Sealing 34 and the hydraulic piston 32, and in order to first oil storage space, 36 districts are separated out an accumulator 362 and a pumping chamber 364, the volume of pumping chamber 364 wherein changes with the position of hydraulic piston 32.In addition, oil-hydraulic cylinder 31 radially runs through one first Oil Guide passage 37 and communicates with the accumulator 362 of first oil storage space 36.

Pneumatic cylinder 40 has an air pressure cylinder body 41, a pneumaticpiston 42, and a pneumaticpiston bar 43.The bottom of air pressure cylinder body 41 is connected in the top of the oil-hydraulic cylinder 31 of oil hydraulic cylinder 30; Pneumaticpiston 42 is located in the air pressure cylinder body 41, the effect of air by compression and start; The top of pneumaticpiston bar 43 is connected in pneumaticpiston 42; The bottom of pneumaticpiston bar 43 is passed Sealing 34 and is positioned at the accumulator 362 of oil hydraulic cylinder 30; Can receive the drive of pneumaticpiston 42 and stretch in the pumping chamber 364 of oil hydraulic cylinder 30 with its bottom, as shown in Figure 3, to reach pressurized effect.

Precompression cylinder 50 has a precompressed cylinder body 51, a precompressed piston 52, and an oil filler pipe 53.Precompressed cylinder body 51 is connected in a side of oil hydraulic cylinder 30 and has one second oil storage space 54 in order to stores hydraulic pressure oil; And radially run through the one second Oil Guide passage 55 and second oil storage space 54; Also communicate simultaneously with the first Oil Guide passage 34 of oil hydraulic cylinder 30; In addition, precompressed cylinder body 51 has the air flue 56 of a connection second oil storage space 54, uses the pressurized air for the external world to get into or discharge; Precompressed piston 52 is located in second oil storage space 54 and is positioned at the outlet end of air flue 56, the pressure effect of air by compression and start downwards; The bottom of oil filler pipe 53 connects precompressed piston 52, and the top of oil filler pipe 53 passes outside the precompression cylinder 50 and has an oil hole 532, uses for operator new hydraulic oil 70 is injected in second oil storage space 54, has the effect of exhausting air simultaneously concurrently.

More than be the detailed structure of the pressurized cylinder 20 of the utility model, below describe with regard to the operating process and the characteristic of the utility model again.

Please cooperate and consult Fig. 2 and Fig. 3; At first in second oil storage space 54 of pressurized air with the external world via the air flue 56 injection precompression cylinders 50 of precompression cylinder 50; Make the precompressed piston 52 of precompression cylinder 50 can be compressed the pressure effect of air and push hydraulic oil 70 in first oil storage space 36 of oil hydraulic cylinder 30 from second oil storage space 54 via the second Oil Guide passage 55 and the first Oil Guide passage 37; The hydraulic oil 70 of this moment just can produce a precompression to the hydraulic piston 32 of oil hydraulic cylinder 30; Let the hydraulic piston 32 of oil hydraulic cylinder 30 drive hydraulic piston bar 33 towards workpiece 60 starts, when treating near workpiece 60, the pneumaticpiston bar 43 of pneumatic cylinder 40 can receive the pneumatic cylinder 40 gas pressure effects that produced own and stretch in the pumping chamber 364 of oil hydraulic cylinder 30; Exerting oneself of 33 pairs of workpiece 60 of hydraulic piston bar to increase oil hydraulic cylinder 30 processed; After the processing of accomplishing workpiece 60, oil hydraulic cylinder 30, pneumatic cylinder 40 and precompression cylinder 50 can be returned to initial position respectively, so that carry out processing next time.

Can know that through above-mentioned design the pressurized cylinder 20 of the utility model can adopt vertically according to actual demand, laterally or the setting of other direction, no matter being provided with of any direction all can not influence the stroke that precompressed piston 52 promotes hydraulic oil 70, install quite convenient; In addition; Separated by precompressed piston 52 districts of precompression cylinder 50 between air flue 56 that air passes through and second oil storage space 54 owing to contract in order to stores hydraulic pressure oil 70 in order to voltage supply; Make between pressurized air and the hydraulic oil 70 no matter in the middle of precompressed stroke, supercharging stroke or recovery stroke, can not touch; So just can guarantee the quality of hydraulic oil 70 and reduce the number of times of changing hydraulic oil 70, save the purpose of changing hydraulic oil 70 costs to reach, and; Can avoid both to mix each other really and produce the fluid that is prone to befouling environment, reduce the air-polluting purpose to reach.

The utility model is in the constituent components of preceding taking off among the embodiment to be disclosed, is merely to illustrate, and be not the scope that is used for limiting this case, the substituting or change of other equivalent elements, the claim scope that also should be this case contains.

Claims (4)

1. the pressurized cylinder of an Oil-gas Separation is characterized in that, includes:

One oil hydraulic cylinder has one first oil storage space, and is located at the hydraulic piston in this first oil storage space, and the hydraulic piston bar of this hydraulic piston of connection;

One pneumatic cylinder is connected in an end of this oil hydraulic cylinder and has a pneumaticpiston and a pneumaticpiston bar, and an end of this pneumaticpiston bar is connected in this pneumaticpiston, can receive the promotion of this pneumaticpiston and stretches in first oil storage space of this oil hydraulic cylinder with its other end; And

One precompression cylinder is connected in a side of this oil hydraulic cylinder, and have one be communicated with this first oil storage space second oil storage space, be communicated with the air flue of this second oil storage space, and one establishes in this second oil storage space and is positioned at the precompressed piston of the outlet end of this air flue.

2. the pressurized cylinder of Oil-gas Separation as claimed in claim 1; It is characterized in that wherein this oil hydraulic cylinder has a Sealing and a divider, form this first oil storage space between sealing part and this hydraulic piston; This divider is between sealing part and this hydraulic piston; In order to this first oil storage space district is separated out an accumulator and a pumping chamber, this accumulator is communicated with second oil storage space of this precompression cylinder, and the volume of this pumping chamber is with the change in location of this hydraulic piston; The pneumaticpiston bar of this pneumatic cylinder passes the sealing part and is positioned at this accumulator, and can receive the promotion of this pneumaticpiston and stretch in this pumping chamber.

3. according to claim 1 or claim 2 the pressurized cylinder of Oil-gas Separation; It is characterized in that; Wherein this oil hydraulic cylinder has the first Oil Guide passage of this first oil storage space of connection; This precompression cylinder has the second Oil Guide passage of this second oil storage space of connection, and this first Oil Guide passage and this second Oil Guide passage are interconnected.

4. the pressurized cylinder of Oil-gas Separation as claimed in claim 1 is characterized in that, wherein this precompression cylinder has an oil filler pipe, and an end of this oil filler pipe connects this precompressed piston, and the other end passes outside this precompression cylinder and has an oil hole.

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