CN207144866U - A kind of high-order current divider box drawing mechanism - Google Patents

Abstract

The utility model discloses a kind of high-order current divider box drawing mechanism, including current divider box and discharge nozzle.Current divider box bottom is provided with support, and support height is not less than and the matching used vibratory sieve loading hopper of current divider box；The height of support can be adjusted.Shunting lower box part is fixedly connected with least two discharge nozzles, valve is provided with discharge nozzle, discharge nozzle outlet is above vibratory sieve loading hopper.Current divider box is interior, the offside of discharge nozzle is provided with one piece of riser, and riser is fixedly connected by the through hole being arranged on current divider box with the expansion link of telescope motor, and telescope motor is fixed on shunting box outer wall.Can effectively solve easy sand setting in current divider box using the current divider box drawing mechanism of the structure, sand setting clears up time-consuming and part flow arrangement difficult technical problem.

Description

A kind of high-order current divider box drawing mechanism

Technical field

It the utility model is related to a kind of part flow arrangement, and in particular to a kind of high-order current divider box drawing mechanism.

Background technology

The conventional current divider box drawing mechanism of present drilling well industry is all to use low-level feeding pattern, i.e. current divider box is directly placed In on ground, expects pipe both ends are fixedly connected with the middle part of current divider box with vibration ethmoidal infundibulum respectively.Discharged using the current divider box of the structure Device, mud liquid level necessarily be greater than the weir of vibration ethmoidal infundibulum and enclose in current divider box, and mud could enter sieve box of vibrating, under current divider box Portion is populated with mud always.Mud long-term existence can cause to have a large amount of sand settings in current divider box, it is necessary to periodically be cleaned, not only Manpower and materials are consumed, can also extend the duration.In addition, being fixedly connected between current divider box and vibratory sieve by expects pipe, needed when carrying Again to remove and install, difficult.

Utility model content

For above-mentioned existing prior art, expense that the utility model will solve easy sand setting in current divider box, sand setting cleaning is taken a lot of work When and part flow arrangement difficult technical problem.

In order to achieve the above object, technical scheme is used by the utility model：A kind of high-order current divider box discharging is provided Device, including current divider box and discharge nozzle；Current divider box bottom is provided with support, and support height is not less than matching used with current divider box Vibratory sieve loading hopper；Shunting lower box part is fixedly connected with least two discharge nozzles, valve is provided with discharge nozzle, discharge nozzle goes out Mouth is above vibratory sieve loading hopper；In current divider box, the offside of discharge nozzle be provided with one piece of riser, riser is by being arranged on point Through hole on stream case is fixedly connected with the expansion link of telescope motor, and telescope motor is fixed on shunting box outer wall.

The beneficial effects of the utility model are：Discharge nozzle is fixed on shunting lower box part, opens after discharge nozzle in current divider box Mud all can be flowed out by discharge nozzle, mud will not in current divider box extended stationary periods, sand setting will not be produced in current divider box, reduced The wash number of current divider box, has saved manpower and materials, and construction period shortens.Shunting lower box part is fixed with least two discharge nozzles Connection, can meet multi-shaker vibration sieve while the needs of working, substantially increase drilling efficiency；Meanwhile more discharge nozzles can be with Mud in current divider box is shunted in good time.Shunting lower box part is provided with support, and the height of support is not less than vibratory sieve The height of funnel, current divider box bottom are higher than funnel, and the mud in current divider box directly can be put into vibration ethmoidal infundibulum by discharge nozzle, Realize high-order charging；High position charging does not need mud liquid level in current divider box to be enclosed higher than funnel weir, and mud will not be deposited in current divider box Stay, reduce sand setting amount.Valve on discharge nozzle can effectively realize that mud shunts when there is multi-shaker vibration sieve；Open different dischargings Valve on pipe, mud can be controlled to flow into the vibratory sieve needed.High-order current divider box drawing mechanism is separated from each other with vibratory sieve, During carrying, directly both are carried, it is convenient and time-saving without carrying out disassembly process.One piece of riser is provided with current divider box, should Riser is located at discharge nozzle offside, does not influence current divider box charging, when the mud in current divider box soon racks up, starts flexible electricity Remaining mud in current divider box, to the lateral movement of discharge nozzle one, is all released discharge nozzle by machine, riser in the presence of telescope motor, Mud will not be assembled in current divider box to be solidified, and without additionally being cleaned to current divider box, current divider box can long-time normal work；And Riser can provide certain pressure for the mud in current divider box, and mud can rapidly enter whole sieve under the effect of the pressure.

On the basis of above-mentioned technical proposal, the utility model can also do following improvement.

Further, the height of riser is the half of current divider box height.

It is using the above-mentioned further beneficial effect of technical scheme：Riser just works when mud discharges finish soon, now The liquid level of current divider box mud is relatively low, it is not necessary to which riser has too high height；Riser is arranged to the one of current divider box height Half, normal production requirement can be met, and material can be saved during fabrication, manufacturing cost reduces.

Further, bottom of the riser and both sides are enclosed with rubber.

It is using the above-mentioned further beneficial effect of technical scheme：Riser, can due to the presence of rubber in motion process It is clean so that the mud of current divider box side wall and bottom residual to be wiped, manually cleaned from the later stage；And in riser in motion process In, mud will not be flowed into behind riser by gap, and once movement can wipe residual slip clean.

Further, it is lined with sealing ring between through hole and telescopic rod.

It is using the above-mentioned further beneficial effect of technical scheme：Due to the presence of sealing ring, after charging, mud will not be let out Dew；Equally mud will not also be revealed in expansion link motion process.

Further, the support height can be adjusted.

It is using the above-mentioned further beneficial effect of technical scheme：The support that height can be adjusted can be avoided due to physical features The reason for and the current divider box bottom that occurs less than vibration ethmoidal infundibulum situation, it is in office where to realize current divider box bottom under gesture Higher than funnel, mud can be flowed into smoothly in funnel from current divider box bottom, will not cause the situation of sand setting.Using Height Adjustable Support, expand the use range of current divider box drawing mechanism.

Further, support is tripod or cross bracket.

It is using the above-mentioned further beneficial effect of technical scheme：Manufacture is easy, and firm effect is good.

Further, the pipe end that discharges is bend pipe, and preferably 90 ° of bend pipes.

It is using the above-mentioned further beneficial effect of technical scheme：Bend pipe is made in discharging pipe end, discharge nozzle outlet is straight Alignment vibration ethmoidal infundibulum is connect, mud around is sprayed during avoiding blowing.

Further, discharge nozzle is bolted on the current divider box.

It is using the above-mentioned further beneficial effect of technical scheme：Discharge nozzle is bolted with current divider box, is being discharged It is convenient to dismantle to be dredged and be overhauled when pipe occurs to block with failure.

Further, current divider box is rectangle cylinder, and rectangle cylinder corner is circular arc.

It is using the above-mentioned further beneficial effect of technical scheme：Rectangle cylinder is made in current divider box, can be more firm Solid be attached with support.Rectangle cylinder corner is circular arc, dead angle is not present in current divider box, mud will not be in current divider box It is more convenient when interior aggregation, reducing the wash number of current divider box, and cleaning.

Brief description of the drawings

Fig. 1 is current divider box drawing mechanism of the prior art；

Fig. 2 is current divider box drawing mechanism front view of the present utility model；

Fig. 3 is partial view on the left of current divider box drawing mechanism of the present utility model；

Wherein, 1, current divider box；2nd, discharge nozzle；3rd, valve；4th, support；5th, sealing ring；6th, expansion link；7th, telescope motor；8、 Through hole；9th, riser.

Embodiment

Specific embodiment of the present utility model is described in detail below in conjunction with the accompanying drawings.

In embodiment of the present utility model, as shown in Figure 2, there is provided a kind of high-order current divider box drawing mechanism, including shunting Case 1 and discharge nozzle 2.The current divider box drawing mechanism used in the prior art uses the low-level feeding pattern of vibratory sieve material feeding box, such as Shown in Fig. 1, enough mud must be stored in current divider box, the weir that mud can just cross in vibration ethmoidal infundibulum is enclosed and enters vibration The screen box of sieve, result are that mud stops for a long time in current divider box, occur a large amount of sand settings in current divider box, it is necessary to sand setting are carried out normal Stateization cleaning current divider box drawing mechanism ability normal work, not only expends a large amount of manpower and materials, can also extend construction period.Consider To the above situation, the utility model will provide a kind of current divider box drawing mechanism of high-order charging.The device raises current divider box 1, Make the bottom of current divider box 1 higher than vibration ethmoidal infundibulum.The mode for raising current divider box 1 is to set support 4 in the bottom of current divider box 1, support 4 Height must not be less than vibratory sieve hopper level.In order that current divider box drawing mechanism can use under differently potential condition, support 4 Height can adjust, make the bottom of current divider box 1 facilitate mud to discharge always above funnel.It is fixedly mounted out in the bottom of current divider box 1 Expects pipe 2, the outlet of discharge nozzle 2 is above vibration ethmoidal infundibulum.Examined when blocking or failure occurs in order to facilitate discharge nozzle 2 Repair, discharge nozzle 2 may be detachably retained at the bottom of current divider box 1, and the utility model is preferentially fixed using bolt.Situ of drilling well Often multi-shaker vibration sieve works simultaneously, therefore in order to meet needs, at least two is fixedly connected with the bottom of current divider box 1 and is gone out Expects pipe 2, the outlet of every discharge nozzle 2 are directed at a vibratory sieve.In order to prevent mud from disorderly being sprayed during blowing, by discharge nozzle 2 End be arranged to bend pipe, winding pipe exit alignment vibration ethmoidal infundibulum, the end of discharge nozzle 2 is preferably set into bend pipe in 90 °.Discharging Valve 3 is provided with pipe 2, valve 3 can effectively realize that mud shunts when there is multi-shaker vibration sieve；Open on different discharge nozzles 2 Valve 3, mud can be controlled to flow into the vibratory sieve needed.Valve 3 is butterfly valve.In addition, in order that current divider box 1 is connected with support 4 It is more firm, current divider box 1 is made rectangle cylinder, and also the corner of rectangle cylinder is circular arc, in such current divider box not Dead angle be present, mud will not be assembled in current divider box, more convenient when reducing the wash number of current divider box, and cleaning.In order to Wash number is reduced, even must not manually clean, telescope motor 7 is installed with the side wall of current divider box 1, telescope motor 7 Expansion link 6 puts in the inside of current divider box 1 by the through hole 8 being arranged on current divider box 1, and expansion link 6 is in the inside of current divider box 1 and riser 9 are fixedly connected.The length of portrait 9 is suitable with current divider box 1, and its height is the half of current divider box height, for cleaner wiping Except the mud remained in current divider box 1, rubber is enclosed with the both sides of riser 9 and bottom.

In use, according to the height of physical features adjusting bracket 4, current divider box 1 is set to be higher than matching used vibration ethmoidal infundibulum, then The distance between high-order current divider box drawing mechanism and vibratory sieve are adjusted, makes the outlet of discharge nozzle 2 above vibration ethmoidal infundibulum.Adjust After whole good height and distance, open vibratory sieve and switch, after vibratory sieve steady operation, be gradually opened valve 3, mud is flowed into leakage Bucket.During discharging, the folding of respective valves is controlled as needed, realizes that mud shunts.Mud in current divider box 1 will be arranged When discharging complete, telescope motor 7 is opened, the mud remained in current divider box 1 is all arranged in the presence of riser 9 from discharge nozzle 2 Go out.

Although being described in detail with reference to accompanying drawing to specific embodiment of the present utility model, should not be construed as pair The restriction of the protection domain of this patent.In the scope described by claims, those skilled in the art are without creative labor The dynamic various modification and variation that can be made still belong to the protection domain of this patent.

Claims (10)

1. a kind of high-order current divider box drawing mechanism, it is characterized in that：Including current divider box (1) and discharge nozzle (2), the current divider box (1) Bottom is provided with support (4), and the support (4) is highly not less than and the matching used vibratory sieve loading hopper of current divider box (1)；Institute State current divider box (1) bottom to be fixedly connected with least two discharge nozzles (2), valve (3) is provided with the discharge nozzle (2), it is described Discharge nozzle (2) outlet is above vibratory sieve loading hopper；The current divider box (1) is interior, the offside of discharge nozzle (2) is provided with one piece Riser (9), the expansion link (6) of through hole (8) and telescope motor (7) of the riser (9) by being arranged on current divider box (1) are fixed Connection, the telescope motor (7) are fixed on current divider box (1) outer wall.

2. high-order current divider box drawing mechanism according to claim 1, it is characterized in that：The height of the riser (9) is shunting The half of case (1) height.

3. high-order current divider box drawing mechanism according to claim 1 or 2, it is characterized in that：Riser (9) bottom and both sides It is enclosed with rubber.

4. high-order current divider box drawing mechanism according to claim 1, it is characterized in that：The through hole (8) and expansion link (6) it Between be lined with sealing ring.

5. high-order current divider box drawing mechanism according to claim 1, it is characterized in that：The support (4) can highly be adjusted.

6. high-order current divider box drawing mechanism according to claim 1 or 2, it is characterized in that：The support (4) be tripod or Cross bracket.

7. high-order current divider box drawing mechanism according to claim 1, it is characterized in that：Discharge nozzle (2) end is bend pipe.

8. high-order current divider box drawing mechanism according to claim 7, it is characterized in that：Discharge nozzle (2) end is 90 ° curved Pipe.

9. the high-order current divider box drawing mechanism according to claim 1 or 7 or 8, it is characterized in that：The discharge nozzle (2) passes through Bolt is fixedly connected on the current divider box (1).

10. high-order current divider box drawing mechanism according to claim 1, it is characterized in that：The current divider box (1) is rectangle cylinder Body, the rectangle cylinder corner are circular arc.