CN204865193U - Adopt ultrasonic wave ceramic -medium filter separator - Google Patents

Abstract

The utility model provides an adopt ultrasonic wave ceramic -medium filter separator, wherein filtration equipment includes the frame, the slurry tank, carry platform and mud separating mechanism, mud separating mechanism install in the frame, and communicate with the slurry tank, mud separating mechanism includes the filter chamber, the ceramic filter board, vacuum mud collection tank and unloading mechanism, wherein the ceramic filter board is located the filter chamber, the filter chamber passes through the mounting of rotors in the frame, in addition through honeycomb duct and vacuum mud collection tank intercommunication, vacuum mud collection tank includes mud collection tank and vacuum pump, wherein unloading mechanism installs and offsets in the frame and with the filter chamber, it filters process and includes that drilling mud collects, once filter, secondary filter, the filter cake is peeled off, filter chamber clearance and loop filter etc. Are six steps. The utility model discloses manufacturing equipment structural design is equitable, and degree of automation is high for clearance technology to can carry out effectual cleaning work to filtration equipment carrying out filterable while of mud.

Description

A kind of employing ultrasonic wave ceramic filter separator

Technical field

The utility model relates to a kind of employing ultrasonic wave ceramic filter separator, belongs to drilling equipment technical field.

Background technology

Along with the exploration and development of oil-gas resource, but rig gets rid of a large amount of landwaste and waste liquid in exploration process, in these waste liquids while containing a large amount of moisture and landwaste, another containing plurality of heavy metal and various inorganic salts and macromolecular organic compound etc., cause that underground water source pollutes, dust takes sand makes periphery Ecological Fragility, therefore, drilling fluid has to pass through the process such as necessary mud separation, realize that harmless treatment is up to standard can be discharged in natural environment, to avoid the environmental pollution causing periphery serious.In order to effectively carry out Separation of Solid and Liquid to drilling fluid, current mainly by utilizing large-scale plate ore deposit filter press to possess screening simultaneously, the mud separation equipment of the functions such as filtration processes drilling fluid, but find in actual use, such equipment volume and the deadweight of current use are larger, the formula operating mode of having a rest causes its place to adapt to can be not enough, effectively can not meet Various Complex outdoor sports ground and use needs, in running, automaticity is low simultaneously, the labour intensity of operating personnel greatly and filter efficiency and filter quality poor, operation energy consumption is also relatively large, simultaneously, also need frequently to carry out maintenance down or replacing to screening and filter element, the operation stability that result also in equipment is poor, run and maintenance cost higher, be difficult to the needs effectively met drill-in fluid prune job, therefore for this present situation, in the urgent need to developing a kind of drilling mud shaking separator, with the needs that satisfied reality uses.

Utility model content

The purpose of this utility model is to provide the utility model provides a kind of pottery to cross micropore negative pressure filtration technique to drilling mud separator and the filtering technique method based on this device.

In order to achieve the above object, the utility model provides following technical scheme:

A kind of employing ultrasonic wave ceramic filter separator, comprise frame, mud ditch, transport platform and Mud Sepa Machine structure, wherein Mud Sepa Machine structure is arranged in frame, and be positioned at mud ditch, directly over transport platform, and be communicated with mud ditch, Mud Sepa Machine structure comprises filter chamber, ceramic filter plate, vacuum slurry collecting tank and cutting agency, wherein ceramic filter plate is positioned at filter chamber, and uniform diameter is not more than 500 object filter bores on ceramic filter plate, filter chamber is arranged in frame by rotor, separately be communicated with vacuum slurry collecting tank by mozzle, vacuum slurry collecting tank comprises slurry collecting tank and vavuum pump, and vavuum pump is interconnected with filter chamber and slurry collecting tank respectively, wherein cutting agency to be arranged in frame and to offset with filter chamber, described cutting agency comprises scraper and ultrasonic oscillator.

Further, described filter chamber is communicated with vavuum pump by two-way reversing control valve.

Further, described mozzle separately establishes cleaning agent adding tube and backwash tube.

The drilling mud separation equipment that the utility model is more traditional and drilling mud cleaning technology, device structure is reasonable in design, parts compact in design, cleaning technology automaticity is high, under labour intensity and energy consumption is relatively low, and whole filtering slurry process integration degree is high, stable equipment operation and good reliability, and can while carrying out filtering slurry, effective cleaning work is carried out to filter plant, thus reach the filter quality improving filter element, extend use longevity of filter element high object, and contribute to reducing equipment operating cost and regular maintenance cost.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the utility model structural representation;

Fig. 2 is the utility model using method flow chart.

Detailed description of the invention

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing of the present utility model, obviously, described embodiment is only the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

One as shown in Figure 1 adopts ultrasonic wave ceramic filter separator, comprise frame 1, mud ditch 2, transport platform 3 and Mud Sepa Machine structure, wherein Mud Sepa Machine structure is arranged in frame 1, and be positioned at mud ditch 2, directly over transport platform 3, and be communicated with mud ditch 2, Mud Sepa Machine structure comprises filter chamber 4, ceramic filter plate 5, vacuum slurry collecting tank 6 and cutting agency 7, wherein ceramic filter plate 5 is positioned at filter chamber 4, and uniform diameter is not more than 500 object filter bores 8 on ceramic filter plate 5, filter chamber 4 is arranged in frame 1 by rotor 9, the another mozzle 10 that passes through is communicated with vacuum slurry collecting tank, vacuum slurry collecting tank 6 comprises slurry collecting tank 61 and vavuum pump 62, and vavuum pump 62 is interconnected with filter chamber 4 and slurry collecting tank 61 respectively, wherein cutting agency 7 to be arranged in frame 1 and to offset with filter chamber 4, described cutting agency 7 comprises scraper 71 and ultrasonic oscillator 72.

In the present embodiment, described filter chamber 4 is communicated with vavuum pump 62 by two-way reversing control valve 9.

In the present embodiment, described mozzle 10 is separately established cleaning agent adding tube 11 and backwash tube 12.

As shown in Figure 2, in use, its operating procedure is as follows for the utility model:

The first step, drilling mud is collected, and by slurry transportation pipeline, will store in the slurry transportation produced to mud ditch 2 in drilling process;

Second step, once filter, the rotor 9 of Mud Sepa Machine structure is driven to rotate, and start vavuum pump 62 pump simultaneously and vavuum pump mozzle 10 is communicated with filter chamber 4 and slurry collecting tank 61, simultaneously under rotor 9 induced effect filter chamber room 4 successively by with mud ditch 2, and when filter chamber 4 is by mud ditch 2, filter chamber 4 is all immersed in the mud of mud ditch 2, filter chamber 4 is under the effect of vavuum pump 62 simultaneously, the solid particle on the one hand moisture in mud in mud ditch 2 and diameter being less than filter 5 filter bores 8 diameter to be transferred in slurry collecting tank 61 and to deposit, another aspect partly will contain large quantity of moisture and the solid particle that diameter is greater than filter 5 filter bores diameter 8 is adsorbed on filter chamber 4 outer surface, and form filter cake and leave mud ditch with filter chamber 4,

3rd step, secondary filter, after mud ditch leaves in filter chamber 4, the subnormal ambient that vavuum pump 62 is formed is utilized in filter chamber 4, continue to carry out absorption to the moisture in filter cake and minor diameter solid particle to reclaim, filter cake is dehydrated, and this filter process leaves from filter cake the cutting agency 7 that mud ditch 2 is continued until Mud Sepa Machine structure simultaneously;

4th step, filter cake is peeled off, filter chamber 4 rotates to the cutting agency 7 of Mud Sepa Machine structure gradually under rotor 9 driving effect from mud ditch 2, the same scraper 71 by cutting agency 7 and ultrasonic oscillation 72 act on, filter cake is peeled off from filter chamber 4 outer wall, and the filter cake under peeling off is transported to assigned address by transport platform 3;

5th step, filter chamber clears up, after completing filter cake stripping, filter chamber 4 continues rotate and be communicated with vavuum pump 62 by switching valve with rotor 9, make in high pressure conditions in filter chamber 4, and utilize high pressure draught and external ultrasonic concussion effect to clear up the filter cake particle be detained in filter 5 filter bores 8 and filter chamber 4 sidewall;

6th step, circulating filtration, the filter chamber 4 after the 5th step is cleaned, in rotor 9 driving effect, again enters into mud ditch 2, and again from second step, repeats whole filter process.

After filter runs the long period, can utilize the cleaning agent adding tube on mozzle and backwash tube in filter chamber, are filled with cleaning agent and filter chamber and filter are rinsed comprehensively, and separately can be undertaken by supersonic oscillations are collaborative when rinsing.

The drilling mud separation equipment that the utility model is more traditional, device structure is reasonable in design, parts compact in design, cleaning technology automaticity is high, under labour intensity and energy consumption is relatively low, and whole filtering slurry process integration degree is high, stable equipment operation and good reliability, and can while carrying out filtering slurry, effective cleaning work is carried out to filter plant, thus reach the filter quality improving filter element, extend use longevity of filter element high object, and contribute to reducing equipment operating cost and regular maintenance cost.

The above; be only detailed description of the invention of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should described be as the criterion with the protection domain of claim.

Claims (3)

1. one kind adopts ultrasonic wave ceramic filter separator, it is characterized in that: described employing ultrasonic wave ceramic filter separator comprises frame, mud ditch, transport platform and Mud Sepa Machine structure, wherein Mud Sepa Machine structure is arranged in frame, and be positioned at mud ditch, directly over transport platform, and be communicated with mud ditch, it is characterized in that: described Mud Sepa Machine structure comprises filter chamber, ceramic filter plate, vacuum slurry collecting tank and cutting agency, wherein said ceramic filter plate is positioned at filter chamber, and uniform diameter is not more than 500 object filter bores on ceramic filter plate, described filter chamber is arranged in frame by rotor, separately be communicated with vacuum slurry collecting tank by mozzle, described vacuum slurry collecting tank comprises slurry collecting tank and vavuum pump, and vavuum pump is interconnected with filter chamber and slurry collecting tank respectively, wherein said cutting agency to be arranged in frame and to offset with filter chamber, described cutting agency comprises scraper and ultrasonic oscillator.

2. the one that claim 1 is stated adopts ultrasonic wave ceramic filter separator, and it is characterized in that, described filter chamber is communicated with vavuum pump by two-way reversing control valve.

3. the one stated according to claim 1 adopts ultrasonic wave ceramic filter separator, it is characterized in that, described mozzle separately establishes cleaning agent adding tube and backwash tube.