CN203732371U - Ball sealer compression test device - Google Patents

Abstract

The utility model discloses a ball sealer compression test device. The device comprises a compressive cylinder, an inlet sealer, an outlet sealer and a pressure pump, wherein the inlet sealer and the outlet sealer are respectively encapsulated at two cylinder openings of the compressive cylinder to form a compressive cavity; a ball sealer is arranged in the compressive cavity; the pressure pump is connected with the inlet sealer through a pipeline; a liquid injection hole is formed in the inlet sealer; the liquid injection hole is respectively communicated with the pipeline and the compressive cavity and is used for injecting liquid into the liquid injection hole for pressurizing. According to the device, the blank of a ball sealer compression test is filled, the ball sealer is arranged in the compressive cavity, the pressure is relieved through the pressure pump after the pressure pump is pressurized to a preset pressure value, the inlet sealer is removed to observe a deformation state of the ball sealer, the operation is repeated for several times, and the aim of measuring the compressive capacity of the ball sealer can be achieved.

Description

A kind of ball sealer resistance to compression experimental provision

Technical field

The utility model relates to oil recovery production gas technology field, relates in particular to a kind of resistance to compression experimental provision of the ball sealer recovering the oil in gas recovery facility.

Background technology

In oil recovery gas production field, pressure break refers in oil recovery or gas production process, utilizes hydraulic action, makes hydrocarbon zone form a kind of method in crack, claims again waterfrac treatment.Hydrocarbon zone fracturing technology process fracturing truck, liquid high-pressure large-displacement to certain viscosity is clamp-oned hydrocarbon zone, when hydrocarbon zone is extruded behind many cracks, adds propping agent (as silica sand etc.) filling to enter crack, improve the penetrating power of hydrocarbon zone, to increase oil and gas production.

There are a lot of multilayer oil gas fields in China, conventionally will carry out fracturing of separate layers.In addition, in oil-field development series of strata are divided, though have belong to a straticulate exploration together, oil reservoir anisotropic property is strong, has a lamination in layer, this will carry out selective fracturing conventionally.Current selective fracturing method, has packer layered pressure break, the fracturing of separate layers of current limliting method and ball sealer to select pressure break etc. conventionally.

Ball sealer selects Splitting Method to refer to, presses interval once to penetrate out wish in well, adds sand after first pressing off low parting pressure interval, then injects displacement fluid stifled this interval temporarily with ball sealer; Improve again pump pressure and press off the stratum with slightly high parting pressure, inject as required the displacement fluid that finishes to construct or continue to inject with ball sealer after displacement fluid and block up temporarily this interval other interval of pressure break on one side, thereby improve produce oil gas section.

Select in the construction of pressure break at ball sealer, the physical propertys such as ball sealer anti-pressure ability play vital effect in fracturing process, once use the ball sealer that anti-pressure ability is inadequate, will certainly be lowered into the efficiency of oil recovery gas production.Based on this, the utility model provides a kind of experimental provision that can detect ball sealer anti-pressure ability, to meet, Oil/gas Well is carried out to the needs that first ball sealer carried out quality inspection before pressing crack construction.

Utility model content

The purpose of this utility model is to provide a kind of ball sealer resistance to compression experimental provision, selects, in the construction of pressure break, to test for the anti-pressure ability of ball sealer to realize at ball sealer, guarantees that used ball sealer meets the pouring of ball sealer selection Splitting Method.

Based on above-mentioned purpose, the utility model provides a kind of ball sealer resistance to compression experimental provision, and this device comprises resistance to compression cylinder, entrance shutoff, outlet shutoff and forcing pump, wherein:

Described entrance shutoff and described outlet shutoff are encapsulated in respectively two tube port positions of described resistance to compression cylinder, form resistance to compression chamber, and described resistance to compression is placed with ball sealer in chamber;

Described forcing pump connects described entrance shutoff by pipeline, in described entrance shutoff, is provided with liquid injection hole, and described liquid injection hole communicates with described pipeline and described resistance to compression chamber respectively, the supercharging for filling liquid in described liquid injection hole.

Preferably, this device also comprises blowdown valve and pressure gauge, wherein:

Described blowdown valve and described pressure gauge are connected on described pipeline by many siphunculus, and described blowdown valve is for getting rid of the gas in described resistance to compression chamber, and described pressure gauge is for the hydraulic pressure value in pipeline described in at-once monitor.

Preferably, described entrance shutoff and described outlet shutoff are set to respectively, axially have successively threaded portion and connecting portion along it, wherein:

Described threaded portion is screwed onto on the nozzle inwall of described resistance to compression cylinder, and described connecting portion is to described resistance to compression chamber extension, and described connecting portion diameter is less than described threaded portion diameter;

Described pipeline is sleeved on the described connecting portion of described entrance shutoff, and described liquid injection hole runs through described threaded portion and the described connecting portion of described entrance shutoff.

Preferably, this device also comprises two the first pressure caps, and described two the first pressure caps mount cover respectively on two nozzles of described resistance to compression cylinder;

On described the first pressure cap, be provided with and the through hole of described resistance to compression chamber concentric, described through-hole diameter is less than described threaded portion diameter;

Described connecting portion is through described through hole.

Preferably, described two the first pressure caps are screwed onto respectively on two nozzle outer walls of described resistance to compression cylinder.

Preferably, described outlet shutoff has fluid hole, and described fluid hole runs through described threaded portion and the described connecting portion of described outlet shutoff, and the aperture of described fluid hole is less than the radius of described ball sealer;

In described fluid hole, be provided with plunger.

Preferably, described outlet shutoff has relief hole, and described relief hole runs through described threaded portion and the described connecting portion of described outlet shutoff, and the aperture of described relief hole is greater than described ball sealer radius, and is less than the diameter of described ball sealer;

The aperture place of described relief hole is packaged with pressure release shutoff, and described pressure release shutoff has fluid hole, and the aperture of described fluid hole is less than the radius of described ball sealer;

In described fluid hole, be provided with plunger.

Preferably, the described connecting portion upper cover of described outlet shutoff is equipped with the second pressure cap, is provided with the pilot hole with described relief hole concentric on described the second pressure cap;

Described pressure release shutoff is set to axially have successively main part and protuberance along it, described main part external diameter is greater than the aperture of described pilot hole, be used for being screwed onto in described relief hole, described protuberance external diameter is less than described main part external diameter, and described protuberance is through described pilot hole;

Described fluid hole runs through described main part and described protuberance.

Preferably, this device also comprises base, and described base is spill framed structure, and described resistance to compression cylinder is suspended in concave regions, wherein:

On described resistance to compression drum outer wall, be connected with two symmetrical transverse axis of arranging, described transverse axis perpendicular to described resistance to compression cylinder axially, and described transverse axis is arranged on described base by bearing, makes the described resistance to compression cylinder can be around described transverse axis axial line upset;

Between described transverse axis and described base, be provided with latch assembly, for the location after described resistance to compression cylinder upset.

Preferably, described floor installation has return pulley and brake, for the movement of described experimental provision and fixing.

In sum, the utility model provides a kind of device that is exclusively used in ball sealer resistance to compression experiment, this device has been filled up the blank of ball sealer resistance to compression experiment, this experimental provision, is placed in resistance to compression chamber by ball sealer, is forced into after preset pressure value by forcing pump, by forcing pump pressure release, remove the deformation state that ball sealer is observed in entrance shutoff, repeatedly aforesaid operations, can realize the object of the anti-pressure ability that predicts ball sealer.And then realize the assurance for ball sealer anti-pressure ability.

Further, the ball sealer resistance to compression experimental provision that the utility model provides, be provided with blowdown valve and pressure gauge, can accurately adjust institute's applied pressure value by pressure gauge, improve the accuracy of experiment, and after exerting pressure to a certain extent, can get rid of the gas in resistance to compression chamber by blowdown valve, prevent that gas-liquid mixed from affecting the calculating of force value, further improved the accuracy of experiment.

Further, the ball sealer resistance to compression experimental provision that the utility model provides, can realize the withstand voltage of ball sealer and smash two kinds of experiment purposes.When the fluid hole of described outlet shutoff is set to hour, while being less than the radius of a ball of ball sealer, can provide totally enclosed resistance to compression chamber, the accuracy that guarantee is exerted pressure, coordinate the deformation state of observing ball sealer after periodic pressure release, can predict the force value that makes its distortion, be applicable to withstand voltage experiment; When the fluid hole of described outlet shutoff is set to when larger, when being greater than the radius of a ball of ball sealer and being less than bulb diameter, the ball sealer fragment after smashing to be penetrated by fluid hole, can predict the force value that makes its crushing, be applicable to smash experiment.

And further, the ball sealer resistance to compression experimental provision that the utility model provides, for the feature of this experiment high risk, special setting there is the base of concave regions, withstand voltage cylinder is turning in concave regions, and then extremely turning, make liquid injection hole upward, fluid hole, rushes at ground while making fluid hole get rid of highly pressurised liquid and penetrate ball sealer fragment down, prevents that ejecta from hurting sb.'s feelings or damaging miscellaneous equipment.

Brief description of the drawings

Fig. 1 is the structural representation of the utility model embodiment mono-;

Fig. 2 is the structural representation of the utility model embodiment bis-;

Fig. 3 is the structural representation of the utility model embodiment tri-;

Fig. 4 is the structural representation of the utility model embodiment tetra-.

Embodiment

For making the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing, the utility model embodiment is described in further detail.

Embodiment mono-

Referring to Fig. 1, this embodiment discloses a kind of ball sealer resistance to compression experimental provision, and this device comprises resistance to compression cylinder 100, entrance shutoff 200, outlet shutoff 300 and forcing pump 400.

Described entrance shutoff 200 and described outlet shutoff 300 are encapsulated in respectively two tube port positions of described resistance to compression cylinder 100, form resistance to compression chamber 110, in described resistance to compression chamber 110, be placed with ball sealer, described resistance to compression chamber 110 is cylindrical cavity, and what be convenient to described ball sealer puts into and take out operation.

Described forcing pump 400 connects described entrance shutoff 200 by pipeline 410, in described entrance shutoff 200, be provided with liquid injection hole 210, described liquid injection hole 210 communicates with described pipeline 410 and described resistance to compression chamber 110 respectively, for to the interior filling liquid of described liquid injection hole 210 and supercharging.

While experiment, first installation outlet shutoff 300, puts into resistance to compression chamber 110 by ball sealer, and entrance shutoff 200 is installed.Increase the pressure in resistance to compression chamber 110 by forcing pump 400 filling liquids, stop supercharging when being increased to after default force value, keep after this force value a period of time, extracting partially liq by forcing pump 400 reduces pressure, be down to when suitable with atmospheric pressure, open entrance shutoff 200 or outlet shutoff 300, observe this force value and whether make ball sealer generation deformation.

Embodiment bis-

Referring to Fig. 2, this embodiment provides a kind of ball sealer resistance to compression experimental provision, the experimental provision of this embodiment is the further improvement on the basis of embodiment mono-, and the disclosed technical scheme of embodiment mono-also belongs to this embodiment, and embodiment mono-disclosed technical scheme is no longer repeated in this description.

Particularly, the ball sealer resistance to compression experimental provision of this embodiment, on the basis of the technical scheme of embodiment mono-, blowdown valve 420 and pressure gauge 430 are increased, described blowdown valve 420 and described pressure gauge 430 are connected on described pipeline 410 by many siphunculus 440, example as shown in FIG., adopts four-way piece to be connected in described pipeline 410.

In the experimentation described in embodiment mono-, when forcing pump 400 filling liquids to have in resistance to compression chamber 110 higher than external atmosphere pressure pressure time, suspend supercharging and open blowdown valve 420 simultaneously, by the air scavenge in resistance to compression chamber 110, to prevent that the gases affect in resistance to compression chamber 110 from arriving the control of force value, and then improve the accuracy of experiment.

In an embodiment, by the hydraulic pressure in pipeline 410 described in pressure gauge 430 at-once monitors, this hydraulic pressure system is equal to the hydraulic pressure value in described resistance to compression chamber 110, the accurately supercharging accuracy of controlled pressure pump 400, and precision adjustment immediately and record the hydraulic pressure value in resistance to compression chamber 110, further improve the accuracy of experiment.

Embodiment tri-

Referring to Fig. 3, this embodiment provides a kind of ball sealer resistance to compression experimental provision, this embodiment is the further improvement on the basis of embodiment bis-, and the disclosed technical scheme of embodiment bis-also belongs to this embodiment, and embodiment bis-disclosed technical scheme is no longer repeated in this description.

Particularly, the ball sealer resistance to compression experimental provision of this embodiment, is preferably applicable to withstand voltage experiment.

Referring to Fig. 3, for the each parts annexation of clearer demonstration, in this figure, do not show the structures such as forcing pump, pressure gauge and blowdown valve, the parts that do not show are identical with embodiment bis-.

In this embodiment, preferably, the mode that described entrance shutoff 200 and described outlet shutoff 300 are threaded connection respectively, be arranged on the nozzle inwall of described resistance to compression cylinder 100, be convenient to dismounting to realize, and realize and improve strength of joint, meet the resistance to compression chamber 110 of high pressure for the requirement of strength of joint.

In order further to improve the intensity in resistance to compression chamber 110, this device also comprises two the first pressure caps 500, described two the first pressure caps 500 mount cover respectively on two nozzles of described resistance to compression cylinder 100, for further fixing described entrance shutoff 200 and described outlet shutoff 300, concrete:

Described entrance shutoff 200 and described outlet shutoff 300 are set to respectively, axially have successively threaded portion 220 and connecting portion 230 along it.Described threaded portion 220 has external thread, and the nozzle of described resistance to compression cylinder 100 has internal thread, and described threaded portion 220 is screwed onto on the nozzle inwall of described resistance to compression cylinder 100.Described connecting portion 230 is to described resistance to compression chamber 110 extensions, and described connecting portion 230 diameters are less than described threaded portion 220 diameters.Described pipeline is sleeved on the described connecting portion 230 of described entrance shutoff 200, and described liquid injection hole 210 runs through described threaded portion 220 and the described connecting portion 230 of described entrance shutoff 200.On described the first pressure cap 500, be provided with and the through hole of described resistance to compression chamber 110 concentrics, described through-hole diameter is less than described threaded portion 220 diameters, and described connecting portion 230 is through described through hole.

For ensureing, on the basis of strength of joint, to be convenient to dismounting, described two the first pressure caps 500 are screwed onto respectively on two nozzle outer walls of described resistance to compression cylinder 100.On two the first pressure caps 500, be respectively arranged with internal thread, be respectively arranged with the external thread suitable with described internal thread at the nozzle of described resistance to compression cylinder 100.

In this embodiment, further preferred, described outlet shutoff 300 has fluid hole 310, described fluid hole 310 runs through described threaded portion 220 and the described connecting portion 230 of described outlet shutoff 300, the aperture of described fluid hole 310 is less than the radius of described ball sealer 900, and described fluid hole 310 is for getting rid of liquid and pressure release; In described fluid hole 310, be provided with plunger 320, extract after plunger 320, can realize, not removing under the prerequisite of described entrance shutoff 200 or described outlet shutoff 300, carry out discharge opeing and pressure release, and then improved conventional efficient.The aperture of described fluid hole 310 is larger, and sealing difficulty is larger, and the withstand voltage effect in described resistance to compression chamber 110 is poorer, therefore be set to the radius of a ball that aperture is less than ball sealer 900, and can guarantee that on the basis of normal drainage pressure release, aperture is as far as possible little, to be applicable to the withstand voltage experiment of ball sealer 900.

Described plunger 320 can be for example swollen hook bolt, and its swollen bolt cap is positioned at outside described fluid hole 310, and its hitching post is screwed onto in described fluid hole 310, adopts this standard component, has reduced the cost of experimental provision, has improved again the convenience of dismounting plunger 320.

Separately, for this experiment feature that Keep Clear-High Voltage, preferred, this device also comprises base 600.Described base 600 is spill framed structure, and described resistance to compression cylinder 100 is turnover to be suspended in concave regions, to realize, makes fluid hole 310 down, prevents from penetrating thing and hurts sb.'s feelings or damage other equipment.; on described resistance to compression cylinder 100 outer walls, be connected with two symmetrical transverse axis of arranging 610; described transverse axis 610 perpendicular to described resistance to compression cylinder 100 axially, and described transverse axis 610 is arranged on described base 600 by bearing, makes the described resistance to compression cylinder 100 can be around described transverse axis 610 axial lines upsets.Between described transverse axis 610 and described base 600, be provided with latch assembly 620, when after described resistance to compression cylinder 100 upsets, by this latch assembly 620, it positioned.Described base 600 is provided with return pulley 630 and brake 640, for the movement of described experimental provision and fixing.

Described base 600 for example can be set to, the rectangle frame that bottom is level, and the bottom of rectangle frame has four return pulleys 630, is respectively arranged with brake 640 on described four return pulleys 630.Both sides at described rectangle frame are provided with triangle frame, and triangle frame is perpendicular to rectangle frame.Described transverse axis 610 is arranged on described two triangle frames by bearing.

In the time carrying out withstand voltage experiment:

1, this device is moved to test block, 640 fixing by braking.

2, upset resistance to compression cylinder 100, makes entrance shutoff 200 upward, and outlet shutoff 300, is fixed this state by latch assembly 620 down, removes the first pressure cap 500 of entrance shutoff 200 and this side, and experiment is packed in resistance to compression chamber 110 with ball sealer 900.

3, assemble entrance shutoff 200 and the first pressure cap 500, Bonding pressure pump 400, blowdown valve 420 and pressure gauge 430.

4, inject highly pressurised liquid, after playing pressure, open the air that blowdown valve 420 is got rid of top, close blowdown valve 420.

5, continue to be pressurized to 50MPa, keep pressure.

6, at interval of deformation and other situation of within 10 minutes, observing ball sealer 900.

When each observation deformation: need first remove plunger 320, get rid of the liquid in resistance to compression chamber 110 down, shed pressure, remove outlet shutoff 300, take out ball sealer 900.After observation, reinstall resistance to compression chamber 110, repeat 2～4 steps.

7, experiment finishes, and opens blowdown valve 420, sheds pressure, takes out ball sealer 900, by wiped clean such as resistance to compression cylinder 100 and bases 600, in order to experiment next time.

Embodiment tetra-

Referring to Fig. 4, this embodiment provides a kind of ball sealer resistance to compression experimental provision, this embodiment is the further improvement on the basis of embodiment tri-, and the disclosed technical scheme of embodiment tri-also belongs to this embodiment, and embodiment tri-disclosed technical scheme is no longer repeated in this description.

Particularly, the ball sealer resistance to compression experimental provision of this embodiment, is, after the technical scheme of embodiment tri-is improved, to be applicable to smash experiment.

Referring to Fig. 4, for the each parts annexation of clearer demonstration, in this figure, do not show the structures such as forcing pump, pressure gauge and blowdown valve, the parts that do not show are identical with embodiment bis-.

In this embodiment, preferably, described outlet shutoff 300 has relief hole 330, and described relief hole 330 runs through described threaded portion 220 and the described connecting portion 230 of described outlet shutoff 300, the aperture of described relief hole 330 is greater than described ball sealer 900 radiuses, and is less than the diameter of described ball sealer 900.The for example sphere diameter of described ball sealer 900 is 76mm, and sphere diameter is the diameter of ball, and the footpath, chamber in described resistance to compression chamber 110 (being intracavity diameter) is 80mm, and the aperture (being bore dia) of described relief hole 330 is 73mm.After described ball sealer 900 fragmentations, described relief hole 330 is for discharging ball sealer 900 fragments.Described resistance to compression chamber 110 and described relief hole 330 make cavity present on the whole reducing state, to be applicable to smash experiment.

The aperture place of described relief hole 330 is packaged with pressure release shutoff 700, for sealing described relief hole 330.

Described pressure release shutoff 700 has fluid hole 310, and the aperture of described fluid hole 310 is less than the radius of described ball sealer 900, for getting rid of liquid and pressure release.

In described fluid hole 310, be provided with plunger 320.Described plunger 320 can be for example swollen hook bolt, and its swollen bolt cap is positioned at outside described fluid hole 310, and its hitching post is screwed onto in described fluid hole 310, adopts this standard component, has reduced the cost of experimental provision, has improved again the convenience of dismounting plunger 320.

Described connecting portion 230 upper covers of described outlet shutoff 300 are equipped with the second pressure cap 800, identical with described the first pressure cap 500 roles in embodiment tri-, the fastness of described the second pressure cap 800 for further guaranteeing that described pressure release shutoff 700 is connected with described outlet shutoff 300.Concrete, on described the second pressure cap 800, be provided with the pilot hole with described relief hole 330 concentrics.In order to improve the convenience of described pressure release shutoff 700 dismounting, the main part 710 that described pressure release shutoff 700 axially has successively along it and protuberance 720, described main part 710 external diameters are greater than the aperture of described pilot hole, described main part 710 is provided with external thread, for being screwed onto in the relief hole 330 of described outlet shutoff 300, described protuberance 720 diameters are less than the diameter of described main part 710, described protuberance 720 stretches out the pilot hole of described the second pressure cap 800, for realizing fixing for described pressure release shutoff 700.

Described fluid hole 310 runs through described main part 710 and described protuberance 720.

In the time smashing experiment:

1, this device is moved to test block, 640 fixing by braking.

2, upset resistance to compression cylinder 100, makes entrance shutoff 200 upward, and outlet shutoff 300, is fixed this state by latch assembly 620 down, removes the first pressure cap 500 of entrance shutoff 200 and this side, and experiment is packed in resistance to compression chamber 110 with ball sealer 900.

3, assemble entrance shutoff 200 and the first pressure cap 500, Bonding pressure pump 400, blowdown valve 420 and pressure gauge 430.

4, inject highly pressurised liquid, after playing pressure, open the air that blowdown valve 420 is got rid of top, close blowdown valve 420, along with pressure increases, and under the Action of Gravity Field of ball sealer 900, ball sealer 900 is positioned on the aperture of relief hole 330.

5, in the time that pressure is elevated to 10MPa left and right, open plunger 320 down, discharge liquid ball sealer 900 bottoms, that be positioned at relief hole 330.Note observing pressure ball sealer 900 tops, in resistance to compression chamber 110 and change, if pressure stability is constant, illustrate that ball sealer 900 is at reducing place, block at relief hole 330 aperture place upward.

6, now can pull down the second pressure cap 800, continue pressurization, can directly observe from relief hole 330 aperture down ball sealer 900 deformation situation under pressure.

7, adopt high-pressure pump from liquid injection port filling liquid to certain pressure, keep 10min, observe ball sealer 900 deformation, continue pressurization, until ball sealer 900 smashes (smash not yet if experiment reaches 50MPa, stop experiment), record smashes pressure.

Note: it should be noted that and prevent under pressure in the time that ball sealer 900 deformation is observed in relief hole 330 aperture down, ball sealer 900 is smashed, and penetrates and hurts sb.'s feelings from relief hole 330 aperture down.

8, experiment finishes, and opens blowdown valve 420, sheds pressure, takes out ball sealer 900, by wiped clean such as resistance to compression cylinder 100 and bases 600, in order to experiment next time.

The foregoing is only preferred embodiment of the present utility model, be not intended to limit protection domain of the present utility model.All any amendments of doing, be equal to replacement, improvement etc. within spirit of the present utility model and principle, be all included in protection domain of the present utility model.

Claims (10)

1. a ball sealer resistance to compression experimental provision, is characterized in that, this device comprises resistance to compression cylinder, entrance shutoff, outlet shutoff and forcing pump, wherein:

Described entrance shutoff and described outlet shutoff are encapsulated in respectively two tube port positions of described resistance to compression cylinder, form resistance to compression chamber, and described resistance to compression is placed with ball sealer in chamber;

Described forcing pump connects described entrance shutoff by pipeline, in described entrance shutoff, is provided with liquid injection hole, and described liquid injection hole communicates with described pipeline and described resistance to compression chamber respectively, the supercharging for filling liquid in described liquid injection hole.

2. ball sealer resistance to compression experimental provision according to claim 1, is characterized in that, this device also comprises blowdown valve and pressure gauge, wherein:

Described blowdown valve and described pressure gauge are connected on described pipeline by many siphunculus, and described blowdown valve is for getting rid of the gas in described resistance to compression chamber, and described pressure gauge is for the hydraulic pressure value in pipeline described in at-once monitor.

3. ball sealer resistance to compression experimental provision according to claim 2, is characterized in that, described entrance shutoff and described outlet shutoff are set to respectively, axially have successively threaded portion and connecting portion along it, wherein:

Described threaded portion is screwed onto on the nozzle inwall of described resistance to compression cylinder, and described connecting portion is to described resistance to compression chamber extension, and described connecting portion diameter is less than described threaded portion diameter;

Described pipeline is sleeved on the described connecting portion of described entrance shutoff, and described liquid injection hole runs through described threaded portion and the described connecting portion of described entrance shutoff.

4. ball sealer resistance to compression experimental provision according to claim 3, is characterized in that,

This device also comprises two the first pressure caps, and described two the first pressure caps mount cover respectively on two nozzles of described resistance to compression cylinder;

On described the first pressure cap, be provided with and the through hole of described resistance to compression chamber concentric, described through-hole diameter is less than described threaded portion diameter;

Described connecting portion is through described through hole.

5. ball sealer resistance to compression experimental provision according to claim 4, is characterized in that, described two the first pressure caps are screwed onto respectively on two nozzle outer walls of described resistance to compression cylinder.

6. ball sealer resistance to compression experimental provision according to claim 4, is characterized in that,

Described outlet shutoff has fluid hole, and described fluid hole runs through described threaded portion and the described connecting portion of described outlet shutoff, and the aperture of described fluid hole is less than the radius of described ball sealer;

In described fluid hole, be provided with plunger.

7. ball sealer resistance to compression experimental provision according to claim 4, is characterized in that,

Described outlet shutoff has relief hole, and described relief hole runs through described threaded portion and the described connecting portion of described outlet shutoff, and the aperture of described relief hole is greater than described ball sealer radius, and is less than the diameter of described ball sealer;

The aperture place of described relief hole is packaged with pressure release shutoff, and described pressure release shutoff has fluid hole, and the aperture of described fluid hole is less than the radius of described ball sealer;

In described fluid hole, be provided with plunger.

8. ball sealer resistance to compression experimental provision according to claim 7, is characterized in that,

The described connecting portion upper cover of described outlet shutoff is equipped with the second pressure cap, is provided with the pilot hole with described relief hole concentric on described the second pressure cap;

Described pressure release shutoff is set to axially have successively main part and protuberance along it, described main part external diameter is greater than the aperture of described pilot hole, be used for being screwed onto in described relief hole, described protuberance external diameter is less than described main part external diameter, and described protuberance is through described pilot hole;

Described fluid hole runs through described main part and described protuberance.

9. according to the ball sealer resistance to compression experimental provision described in claim 1-8 any one, it is characterized in that, this device also comprises base, and described base is spill framed structure, and described resistance to compression cylinder is suspended in concave regions, wherein:

On described resistance to compression drum outer wall, be connected with two symmetrical transverse axis of arranging, described transverse axis perpendicular to described resistance to compression cylinder axially, and described transverse axis is arranged on described base by bearing, makes the described resistance to compression cylinder can be around described transverse axis axial line upset;

Between described transverse axis and described base, be provided with latch assembly, for the location after described resistance to compression cylinder upset.

10. ball sealer resistance to compression experimental provision according to claim 9, is characterized in that, described floor installation has return pulley and brake, for the movement of described experimental provision and fixing.