CN210293857U - Condensation mechanism of rock core oil washing machine - Google Patents

Abstract

The utility model discloses a condensing mechanism of a rock core oil washing machine, which comprises a liquid collecting chamber and a condensing chamber, wherein the liquid collecting chamber is communicated with the condensing chamber; the lower end of the liquid collection chamber is provided with a pipeline port for a steam pipeline to pass through and a liquid outlet for discharging the washing oil agent, the upper end of the steam pipeline is provided with an end cover, and a gap is formed between the end cover and the upper end of the steam pipeline; the condensation chamber includes periphery baffle, overhead gage, lower baffle, a plurality of being located inside condenser pipe, cooling water inlet tube and the cooling water outlet pipe of periphery baffle, it is a plurality of the upper end of condenser pipe all with the mesh intercommunication of overhead gage, it is a plurality of the lower extreme of condenser pipe all with the mesh intercommunication of baffle down, the cooling water gets into the back from the cooling water inlet tube, winds follow behind the inside a week of periphery baffle the cooling water outlet pipe flows. The utility model discloses effectively improve the cooling effect, reduce gaseous emission and avoided environmental pollution.

Description

Condensation mechanism of rock core oil washing machine

Technical Field

The utility model belongs to the technical field of the rock core cleaning equipment, especially, relate to a condensation mechanism of rock core oil washing machine.

Background

In the process of exploration and development of an oil field, the physical, chemical and structural characteristics of a test core are analyzed by testing experimental data such as porosity, permeability and saturation of an original core of a development layer. The quality of geological core cleaning quality and the efficiency influence the measurement of core data and the evaluation result of geological resources, and the oil washing machine is an essential machine for core cleaning and is used for cleaning the crude oil and soluble substances in the oil-containing core.

The condensing effect of current oil washer is not good, leads to the steam in the condensation chamber can not fully flow back, and in most steam directly discharged the air, cause environmental pollution, also cause the waste of raw materials.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a condensation mechanism of rock core oil washing machine, effectively improves the cooling effect, reduces gaseous emission and has avoided environmental pollution.

In order to solve the technical problem, the utility model discloses a technical scheme be: a condensation mechanism of a core oil washing machine comprises a liquid collection chamber and a condensation chamber, wherein the liquid collection chamber is communicated with the condensation chamber;

the lower end of the liquid collection chamber is provided with a pipeline port for a steam pipeline to pass through and a liquid outlet for discharging a washing oil agent, the upper end of the steam pipeline is higher than the pipeline port at the lower end of the liquid collection chamber, the liquid outlet is communicated with the washing oil chamber through a liquid outlet pipeline, the upper end of the steam pipeline is provided with an end cover, and a gap is formed between the end cover and the upper end of the steam pipeline;

the condensation chamber includes periphery baffle, overhead gage, lower baffle, a plurality of being located inside condenser pipe, cooling water inlet tube and the cooling water outlet pipe of periphery baffle, the overhead gage with the upper end of periphery baffle is connected, down the baffle with the lower extreme of periphery baffle is connected, and is a plurality of the upper end of condenser pipe all with the mesh intercommunication of overhead gage, it is a plurality of the lower extreme of condenser pipe all with the mesh intercommunication of baffle down, the cooling water inlet tube with the water inlet intercommunication of periphery baffle below, the cooling water outlet pipe with the delivery port intercommunication of periphery baffle top, the cooling water gets into the back from the cooling water inlet tube, winds follow behind the inside a week of periphery baffle the cooling water outlet pipe flows.

The utility model discloses a solve the further technical scheme that its technical problem adopted and be:

further, the condensation chamber still includes a central pipe and baffle, and is a plurality of the condenser pipe distribute in the periphery of central pipe, the upper end of central pipe with the middle part of overhead gage is connected, the lower extreme of central pipe with the middle part of lower baffle is connected, the delivery port with the water inlet is located the both sides of baffle, the baffle all around respectively with the inner wall of periphery baffle the outer wall of central pipe the overhead gage with baffle sealing connection down.

Further, the cooling water inlet pipe includes the horizontal pipeline section of intaking and the perpendicular pipeline section of intaking, the perpendicular pipeline section of intaking is kept away from the one end of horizontal pipeline section of intaking is the blind end, the perpendicular pipeline section of intaking is located the inside of condensation chamber, be equipped with a plurality of apopores on the pipeline lateral wall of the perpendicular pipeline section of intaking.

The cooling water outlet pipe comprises a horizontal water outlet pipe section and a vertical water outlet pipe section, one end, far away from the horizontal water outlet pipe section, of the vertical water outlet pipe section is a closed end, the vertical water outlet pipe section is located inside the condensation chamber, and a plurality of water inlet holes are formed in the side wall of the vertical water outlet pipe section.

Furthermore, the condensation mechanism further comprises a cooling chamber sealing cover, the cooling chamber sealing cover is connected with the upper baffle, a cavity is formed between the cooling chamber sealing cover and the upper baffle, and a ventilation pipe is arranged on the cooling chamber sealing cover.

Furthermore, a first floating ball type detection device is arranged on the side wall of the liquid collecting chamber.

Furthermore, the end cover is an arc-shaped end cover, the heated and evaporated oil washing agent enters the condensation chamber from a gap between the end cover and the upper end of the steam pipeline, and the oil washing agent flowing down after being condensed from the condensation chamber flows into the bottom of the liquid collection chamber through the edge of the end cover.

The utility model has the advantages that: the utility model discloses a condensation mechanism includes collection liquid chamber and condensation chamber, and the wash oil solvent gets into the condenser pipe of condensation chamber from the steam conduit, and after cooling water got into the condensation chamber from the cooling water inlet tube, flow from the cooling water outlet pipe around central pipe a week back for the benzene vapour in the condenser pipe flows back to in the collection liquid chamber after becoming benzene liquid, and flows to the wash oil chamber from the liquid outlet of collection liquid chamber, the utility model discloses a structural design of condensation chamber guarantees the condensation effect of benzene vapour, avoids too much benzene vapour to discharge from the ventilation pipe.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic view of the sump chamber of the present invention;

FIG. 3 is a schematic cross-sectional view of the plenum of the present invention;

FIG. 4 is a schematic structural view of a condensing chamber according to the present invention;

FIG. 5 is an exploded view of the condensing chamber of the present invention;

FIG. 6 is a schematic cross-sectional view of a condensing chamber according to the present invention;

FIG. 7 is a schematic view of the structure of the cooling water inlet pipe, the cooling water outlet pipe and the partition plate according to the present invention;

the parts in the drawings are marked as follows:

the device comprises a liquid collecting chamber 1, an end cover 11, a first floating ball type detection device 12, a condensation chamber 2, a peripheral baffle 21, an upper baffle 22, a lower baffle 23, a condensation pipe 24, a cooling water inlet pipe 25, a horizontal water inlet pipe section 251, a vertical water inlet pipe section 252, a water outlet hole 253, a cooling water outlet pipe 26, a horizontal water outlet pipe section 261, a vertical water outlet pipe section 262, a water inlet hole 263, a central circular pipe 27, a partition plate 28, a cooling chamber sealing cover 3, a ventilation pipe 31 and a liquid outlet pipe 4.

Detailed Description

The following detailed description of the preferred embodiments of the present invention will be provided in conjunction with the accompanying drawings, so as to enable those skilled in the art to more easily understand the advantages and features of the present invention, and thereby define the scope of the invention more clearly and clearly.

Example (b): as shown in fig. 1-7, the condensation mechanism of the core oil washing machine comprises a liquid collection chamber 1 and a condensation chamber 2, wherein the liquid collection chamber is communicated with the condensation chamber;

the lower end of the liquid collecting chamber is provided with a pipeline port for a steam pipeline to pass through and a liquid outlet for discharging a washing oil agent, the upper end of the steam pipeline is higher than the pipeline port at the lower end of the liquid collecting chamber, the liquid outlet is communicated with the washing oil chamber through a liquid outlet pipeline 4, the upper end of the steam pipeline is provided with an end cover 11, and a gap is formed between the end cover and the upper end of the steam pipeline;

the condensation chamber includes periphery baffle 21, overhead gage 22, lower baffle 23, a plurality of being located inside condenser pipe 24, cooling water inlet tube 25 and the cooling water outlet pipe 26 of periphery baffle, the overhead gage with the upper end of periphery baffle is connected, down the baffle with the lower extreme of periphery baffle is connected, and is a plurality of the upper end of condenser pipe all with the mesh intercommunication of overhead gage, it is a plurality of the lower extreme of condenser pipe all with the mesh intercommunication of baffle down, the cooling water inlet tube with the water inlet intercommunication of periphery baffle below, the cooling water outlet pipe with the delivery port intercommunication of periphery baffle top, the cooling water gets into the back from the cooling water inlet tube, winds follow behind the inside a week of periphery baffle the cooling water outlet pipe flows.

The condensation chamber still includes a central pipe 27 and baffle 28, and is a plurality of the condenser pipe distribute in the periphery of central pipe, the upper end of central pipe with the middle part of overhead gage is connected, the lower extreme of central pipe with the middle part of baffle is connected down, the delivery port with the water inlet is located the both sides of baffle, the baffle around respectively with the inner wall of periphery baffle the outer wall of central pipe the overhead gage with baffle sealing connection down. The structural design can realize that cooling water flows out from the cooling water outlet pipe after entering from the cooling water inlet pipe and along the circle of the central circular pipe.

The cooling water inlet pipe includes horizontal water inlet pipe section 251 and perpendicular water inlet pipe section 252, perpendicular water inlet pipe section is kept away from the one end of horizontal water inlet pipe section is the blind end, perpendicular water inlet pipe section is located the inside of condensation chamber, be equipped with a plurality of apopores 253 on the pipeline lateral wall of perpendicular water inlet pipe section.

The cooling water outlet pipe comprises a horizontal water outlet pipe section 261 and a vertical water outlet pipe section 262, one end of the vertical water outlet pipe section, which is far away from the horizontal water outlet pipe section, is a closed end, the vertical water outlet pipe section is located inside the condensation chamber, and a plurality of water inlet holes 263 are arranged on the side wall of the vertical water outlet pipe section.

The condensation mechanism further comprises a cooling chamber sealing cover 3, the cooling chamber sealing cover is connected with the upper baffle, a cavity is formed between the cooling chamber sealing cover and the upper baffle, and a ventilation pipe 31 is arranged on the cooling chamber sealing cover.

And a first floating ball type detection device 12 is arranged on the side wall of the liquid collection chamber.

The end cover is an arc-shaped end cover, the heated and evaporated oil washing agent enters the condensation chamber from a gap between the end cover and the upper end of the steam pipeline, and the oil washing agent flowing down after condensation from the condensation chamber flows into the bottom of the liquid collection chamber through the edge of the end cover.

The working principle of the utility model is as follows:

wash the condenser pipe that oil solvent got into the condensation chamber from the steam conduit, after cooling water got into the condensation chamber from the cooling water inlet tube, flowed from the cooling water outlet pipe around central pipe a week for the benzene steam in the condenser pipe flows back to the collection liquid indoor after becoming benzene liquid.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the same principle as the present invention.

Claims (7)

1. The utility model provides a condensation mechanism of rock core oil washer which characterized in that: the condensing mechanism comprises a liquid collecting chamber (1) and a condensing chamber (2), and the liquid collecting chamber is communicated with the condensing chamber;

the lower end of the liquid collecting chamber is provided with a pipeline port for a steam pipeline to pass through and a liquid outlet for discharging a washing oil agent, the upper end of the steam pipeline is higher than the pipeline port at the lower end of the liquid collecting chamber, the liquid outlet is communicated with the oil washing chamber through a liquid outlet pipeline (4), the upper end of the steam pipeline is provided with an end cover (11), and a gap is formed between the end cover and the upper end of the steam pipeline;

the condensation chamber includes periphery baffle (21), overhead gage (22), lower baffle (23), a plurality of being located inside condenser pipe (24), cooling water inlet tube (25) and cooling water outlet pipe (26) of periphery baffle, the overhead gage with the upper end of periphery baffle is connected, down the baffle with the lower extreme of periphery baffle is connected, and is a plurality of the upper end of condenser pipe all with the mesh intercommunication of overhead gage, it is a plurality of the lower extreme of condenser pipe all with the mesh intercommunication of baffle down, the cooling water inlet tube with the water inlet intercommunication of periphery baffle below, the cooling water outlet pipe with the delivery port intercommunication of periphery baffle top, the cooling water gets into the back from the cooling water inlet tube, winds follow behind the inside a week of periphery baffle the cooling water outlet pipe flows.

2. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the condensation chamber still includes a central pipe (27) and baffle (28), and is a plurality of the condenser pipe distribute in the periphery of central pipe, the upper end of central pipe with the middle part of overhead gage is connected, the lower extreme of central pipe with the middle part of baffle is connected down, the delivery port with the water inlet is located the both sides of baffle, the baffle all around respectively with the inner wall of periphery baffle the outer wall of central pipe the overhead gage with baffle sealing connection down.

3. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the cooling water inlet pipe includes that the level advances water pipe section (251) and advances water pipe section (252) perpendicularly, the perpendicular water pipe section of intaking is kept away from the one end of the level section of intaking is the blind end, the perpendicular water pipe section of intaking is located the inside of condensation chamber, be equipped with a plurality of apopores (253) on the pipeline lateral wall of the perpendicular water pipe section of intaking.

4. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the cooling water outlet pipe comprises a horizontal water outlet pipe section (261) and a vertical water outlet pipe section (262), one end, far away from the horizontal water outlet pipe section, of the vertical water outlet pipe section is a closed end, the vertical water outlet pipe section is located inside the condensation chamber, and a plurality of water inlet holes (263) are formed in the side wall of the vertical water outlet pipe section.

5. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the condensation mechanism further comprises a cooling chamber sealing cover (3), the cooling chamber sealing cover is connected with the upper baffle, a cavity is formed between the cooling chamber sealing cover and the upper baffle, and a ventilation pipe (31) is arranged on the cooling chamber sealing cover.

6. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the side wall of the liquid collection chamber is provided with a first floating ball type detection device (12).

7. The condensation mechanism of the core oil washing machine as claimed in claim 1, wherein: the end cover is an arc-shaped end cover, the heated and evaporated oil washing agent enters the condensation chamber from a gap between the end cover and the upper end of the steam pipeline, and the oil washing agent flowing down after condensation from the condensation chamber flows into the bottom of the liquid collection chamber through the edge of the end cover.

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