CN203584756U

CN203584756U - Hollow oil well pump

Info

Publication number: CN203584756U
Application number: CN201320805764.9U
Authority: CN
Inventors: 高宏
Original assignee: SICHUAN AOWEI OIL EXTRACTION EQUIPMENT Co Ltd
Current assignee: SICHUAN AOWEI OIL EXTRACTION EQUIPMENT Co Ltd
Priority date: 2013-12-10
Filing date: 2013-12-10
Publication date: 2014-05-07
Anticipated expiration: 2023-12-10

Abstract

The utility model relates to a hollow oil well pump. The hollow oil well pump comprises an inner pipe and an outer pipe, wherein the inner pipe is sleeved with the outer pipe, an annular gap is formed between the inner pipe and the outer pipe, the inner pipe comprises a gas collecting pipe, a small-diameter plunger and a hollow pull rod, the gas collecting pipe, the small-diameter plunger and the hollow pull rod are coaxially arranged from bottom to top in sequence, a hollow sucker rod is coaxially arranged at the upper end of the hollow pull rod, a through hole in the hollow sucker rod is communicated with a through hole of the inner pipe to form a hollow channel, a traveling valve and a one-way dredging device are arranged in the annular gap from top to bottom in a spacing mode, and the one-way dredging device conducts dredging along the inner pipe from bottom to top. When the oil well pump works, the hollow sucker rod drives the inner pipe to reciprocate up and down, and water in a well is discharged out of the well through the cooperation between the traveling valve and the one-way dredging device; meanwhile, due to the fact that the hollow sucker rod is adopted, gas in the well can be directly pumped out through the cooperation between the hollow sucker rod and the inner pipe, the gas production speed is improved, and the gas production efficiency is improved.

Description

A kind of hollow oil-well pump

Technical field

The utility model relates to a kind of gas recovery facility, is specifically related to a kind of hollow oil-well pump.

Background technique

At present, for moisture gas well, exploit the technique that normally employing machine is taken out liquid discharging gas producing, this technique is to utilize pumping unit to convert the rotational of motor to energy that pumping unit horsehead pumps, by sucker rod, pump plunger is moved up and down, the liquid pumping is discharged by oil pipe, and gas is from sleeve pipe extraction, in this technique, the equipment adopting is simple, installs and uses maintenance technology and is easy to grasp, and one time investment cost is not high.

The technique that this machine is taken out liquid discharging gas producing is generally that conventional oil well pump and gas anchor support the use, and extracts together gas liquid mixture out gas well, because conventional oil well pump does not arrange air trap device, when work, is subject to gases affect serious, causes pump efficiency low; So there is airlock-resistant oil pump on market, when adopting airlock-resistant oil pump and gas anchor to support the use, although it is high that the more conventional oil well pump of pump efficiency is wanted, but existing airlock-resistant oil pump is due to the central passage of not straight-through pump lower end, so can not support the use with the hollow rod being widely used at present, and then make liquid row after rolling, the gas in gas well still needs the annular space output by oil pipe and sleeve pipe, cause aerogenesis speed slow, the low deficiency that waits of gas producing efficiency.

So, need badly at present and a kind ofly can be applicable to hollow rod, and can realize the oil well pump that utilizes hollow rod aerogenesis.

Model utility content

The purpose of this utility model is: what for existing oil well pump, exist can not be used in conjunction with hollow rod, and then cause aerogenesis speed slow, the deficiency that gas producing efficiency is low, provides a kind of and can be applicable to hollow rod, and can realize the oil well pump that utilizes hollow rod aerogenesis.

To achieve these goals, the technical solution adopted in the utility model is:

A kind of hollow oil-well pump, comprise inner tube and the outer tube that is set in described inner tube outside, between described inner tube and described outer tube, form annular gap, described inner tube comprises from the bottom to top coaxial gas collecting tube, path plunger and the hollow draw-bar arranging successively, described hollow draw-bar upper end is coaxially arranged with hollow rod, through hole in described hollow rod is communicated with formation hollow passageway with the through hole of described inner tube, in annular gap, be arranged at intervals with traveling valve and device in one-way on state from top to bottom, described device in one-way on state is along the direction conducting from the bottom to top of described inner tube.When oil well pump is worked, hollow rod drives inner tube to pump, cooperation by traveling valve and device in one-way on state is discharged the water in well outside well, simultaneously, owing to can being applicable to hollow rod, the liquid row in gas well after rolling, can directly discharge the gas in gas well by the cooperation of hollow rod and inner tube, improve aerogenesis speed, also improved gas producing efficiency.

As preferred version of the present utility model, the upper and lower two ends of described outer tube are respectively arranged with box cupling and lower box cupling, described upper box cupling upper end connected pipes, described lower box cupling inside is provided with annular baffle, the inwall of described annular baffle and described gas collecting tube outer wall Spielpassung, be provided with some through holes on described annular baffle, described gas collecting tube is arranged with gas-liquid separation device outward, described gas-liquid separation device is arranged on the annular baffle of described lower box cupling, is provided with some through holes on described gas collecting tube.When oil well pump is worked, gas-liquid separation device, by the gas in gas liquid mixture in gas well and liquor separation, make liquid in annular gap, and gas enters in gas collecting tube by the through hole on gas collecting tube, after gas-liquid separation, it is first the velocity of discharge that has improved gas; Secondly, because gas is separated liquid, liquid is being discharged well when outer through traveling valve and device in one-way on state, the velocity of discharge raising of liquid, and then the pump efficiency of oil well pump is improved.

As preferred version of the present utility model, described gas-liquid separation device comprises eddy flow sleeve pipe and is arranged in the shape of a spiral the helical blade on described eddy flow sleeve outer wall, described eddy flow casing pipe sleeve is located on described gas collecting tube, with described gas collecting tube Spielpassung, the lower end of described eddy flow sleeve pipe is arranged on the described annular baffle of described lower box cupling inside, on described eddy flow sleeve pipe sidewall, be provided with some through holes, the inwall Spielpassung of the outer rim of described helical blade and described outer tube.By helical blade, the annular gap between gas collecting tube and outer tube is divided into helical flow path, when oil well pump is worked, gas liquid mixture enters in helical flow path by the through hole on the annular baffle in lower box cupling, in up mobile process, due to the effect of centrifugal force, it is separated that gas and liquid start, and liquid part moves laterally, gas part enters in gas collecting tube by the through hole on eddy flow sleeve pipe and the through hole on gas collecting tube, thereby has realized gas-liquid separation.

As preferred version of the present utility model, described traveling valve comprises the valve seat that moves about that moves about valve ball and match with the described valve ball that moves about, the two ends up and down of the described valve ball that moves about are connected with the upper end of described path plunger with the lower end of described hollow draw-bar respectively, described hollow draw-bar upper end is provided with hollow stem box cupling, the upper end of described hollow stem box cupling is connected with described hollow rod, in the end, upper end of described hollow draw-bar is coated on by end, described hollow stem box cupling lower end, the described outer tube wall that described hollow draw-bar is corresponding slides and is provided with large footpath plunger, described large footpath plunger inwall and described hollow draw-bar outer wall separate, the described valve seat that moves about is arranged on the lower end of described large footpath plunger, the upper end of described large footpath plunger is provided with delivery connection, extend towards the outer wall of described hollow draw-bar described delivery connection upper end, and match with the outer wall of described hollow draw-bar, in the part that described delivery connection extends towards described hollow draw-bar outer wall, be arranged at intervals with some through holes, end, described delivery connection upper end to described in the distance of moving about between end, valve seat lower end be less than end, described hollow stem box cupling lower end to described in the distance of moving about between end, valve ball upper end.When oil well pump is worked, hollow rod drives inner tube to pump, water through gas-liquid separation device enters in the annular gap between outer tube and inner tube by device in one-way on state, because end, delivery connection upper end to the distance of moving about between end, valve seat lower end is less than end, hollow stem box cupling lower end to the distance of moving about between end, valve ball upper end, so, when hollow draw-bar moves downward, hollow stem box cupling lower end props up the upper end of delivery connection, when delivery connection moves down with hollow draw-bar, the valve ball that moves about does not contact between valve seat with moving about, make can continue to enter into after traveling valve in the gap between hollow rod and oil pipe through the water of device in one-way on state, and gap between hollow rod and oil pipe directly and the well head on ground be connected, when hollow rod moves up, the valve ball that moves about matches with the valve seat that moves about, traveling valve ball sealing closes and when moving about valve seat, also promotes large footpath plunger and move up, water in gap between hollow rod and oil pipe is pushed up, be positioned near the water of ground well head and be pushed out into outer wellhead discharge, meanwhile, traveling valve below is full of by water again, when hollow rod down moves again, the water of traveling valve below is in traveling valve enters into the gap between hollow rod and oil pipe, with this to-and-fro motion, water after gas-liquid separation device is progressively discharged to outside well.

As preferred version of the present utility model, described in the move about upper end end bosses cambered surface in the form of a ring of valve ball, described in move about end, valve seat lower end with described in the move about ring-type cambered surface of valve ball match.The valve ball that moves about is set to ring-type cambered surface with the fitting surface of valve seat of moving about, and the valve ball that makes to move about coordinates tightly between valve seat with moving about, raising drainage efficiency.

As preferred version of the present utility model, described device in one-way on state comprises standing valve cover, fixed valve base, lower contact and fixed valve ball, described outer tube comprises upper exterior tube and lower outer pipe, the upper end of described standing valve cover is connected with the lower end of described upper exterior tube, described standing valve cover lower end is set in the outside of described lower contact upper end part, the lower end of described lower contact is connected with described lower outer pipe, in described standing valve cover, being provided with ring-type cuts off, the inwall that described ring-type is cut off matches with the outer wall of described inner tube, described ring-type is arranged at intervals with some through holes on cutting off, the end, upper end of described lower contact is provided with described fixed valve base, described fixed valve base is circular, described fixed valve ball is slidably arranged on the described outer wall of inner tube that described fixed valve base is corresponding, described in described fixed valve ball lower end edge, inner tube extends through described fixed valve base downwards, the upper end part of described fixed valve ball along the circumferential direction forms annular projection, the external diameter of the annular projection part of described fixed valve ball is greater than the internal diameter of described fixed valve base, and be less than the internal diameter of described standing valve cover, the annular projection part of described fixed valve ball is between described ring-type partition and described fixed valve base, the height of the annular projection part vertical direction of described fixed valve ball is less than described ring-type and cuts off lower end to the distance between described fixed valve base.When hollow rod up moves, friction due to inner tube, fixed valve ball disengaging coordinates with fixed valve base, the water of device in one-way on state below enters in the gap between upper exterior tube and path plunger, and when hollow rod down moves, due to the friction of inner tube, fixed valve ball matches with fixed valve base, being cut off of the above and below of fixed valve ball, thus realize one-way conduction.

As preferred version of the present utility model, match with the upper end of described fixed valve base in the lower end of the annular projection of described fixed valve ball.Make fixed valve ball annular projection can with fixed valve base between coordinate tight.

As preferred version of the present utility model, on described standing valve cover inwall corresponding to described fixed valve base upper end, be provided with seam.Make the fixed valve base can be by firm being arranged in standing valve cover.

As preferred version of the present utility model, the through hole lower end that described ring-type is cut off and the inwall of described standing valve cover seamlessly transit, and the upper end outer rim of the annular projection of described fixed valve ball is provided with chamfering.While preventing that fixed valve ball upper end and ring-type from cutting off lower end in contact, the annular projection of fixed valve ball blocks the through hole that ring-type is cut off, and guarantees when fixed valve ball is separated with fixed valve base, and device in one-way on state below is unobstructed with top.

As preferred version of the present utility model, described lower box cupling lower end is connected with tail pipe.By tail pipe, play the effect of sand setting and foreign matter, improve the reliability of oil well pump.

In sum, owing to having adopted technique scheme, the beneficial effects of the utility model are:

1, can be applicable to hollow rod, and can realize and utilize hollow rod aerogenesis, improve aerogenesis speed, also improve gas producing efficiency.

In the utility model embodiment, other beneficial effects are:

1, in shaft bottom, first gas liquid mixture is carried out to gas-liquid separation, improved the velocity of discharge of gas and liquid, and then the pump efficiency of oil well pump is improved.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

Fig. 2 is the partial enlarged drawing at A place in Fig. 1;

Fig. 3 is the partial enlarged drawing at B place in Fig. 1;

Fig. 4 is the partial enlarged drawing at C place in Fig. 1,

Mark in figure: 1-inner tube, 2-outer tube, 3-hollow rod, 4-traveling valve, 5-device in one-way on state, box cupling under 6-, 7-gas-liquid separation device, 8-hollow stem box cupling, the large footpath of 9-plunger, 10-delivery connection, 11-seam, 12-tail pipe, the upper box cupling of 13-, 14-oil pipe, 101-gas collecting tube, 102-path plunger, 103-hollow draw-bar, 201-upper exterior tube, 202-lower outer pipe, the 401-valve ball that moves about, the 402-valve seat that moves about, 501-standing valve cover, 502-fixed valve base, 503-lower contact, 504-fixed valve ball, 505-ring-type is cut off, 601-annular baffle, 701-eddy flow sleeve pipe, 702-helical blade.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in detail.

In order to make the purpose of this utility model, technological scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

A kind of hollow oil-well pump as shown in Figures 1 to 4, comprise inner tube 1 and the outer tube 2 that is set in described inner tube 1 outside, between described inner tube 1 and described outer tube 2, form annular gap, described inner tube 1 comprises from the bottom to top the coaxial gas collecting tube 101 arranging successively, path plunger 102 and hollow draw-bar 103, described hollow draw-bar 103 upper ends are coaxially arranged with hollow rod 3, through hole in described hollow rod 3 is communicated with formation hollow passageway with the through hole of described inner tube 1, in annular gap, be arranged at intervals with traveling valve 4 and device in one-way on state 5 from top to bottom, described device in one-way on state 5 is along the direction conducting from the bottom to top of described inner tube 1.When oil well pump is worked, hollow rod 3 drives inner tube 1 to pump, cooperation by traveling valve 4 and device in one-way on state 5 is discharged the water in well outside well, simultaneously, owing to can being applicable to hollow rod 3, the liquid row in gas well after rolling, can directly discharge the gas in gas well by the cooperation of hollow rod 3 and inner tube 1, improve aerogenesis speed, also improved gas producing efficiency.

As preferred version of the present utility model, described outer tube is respectively arranged with box cupling 13 and lower box cupling 6 in two ends Shang Xia 2, described upper box cupling 13 upper end connected pipes 14, described lower box cupling 6 inside are provided with annular baffle 601, the inwall of described annular baffle 601 and described gas collecting tube 101 outer wall Spielpassung, on described annular baffle 601, be provided with some through holes, the outer gas-liquid separation device 7 that is arranged with of described gas collecting tube 101, described gas-liquid separation device 7 is arranged on the annular baffle 601 of described lower box cupling 6, on described gas collecting tube 101, is provided with some through holes.When oil well pump is worked, gas-liquid separation device 7, by the gas in gas liquid mixture in gas well and liquor separation, make liquid in annular gap, and gas enters in gas collecting tube 101 by the through hole on gas collecting tube 101, after gas-liquid separation, it is first the velocity of discharge that has improved gas; Secondly, because gas is separated liquid, liquid is being discharged wells when outer through traveling valve 4 and device in one-way on state 5, the velocity of discharge raising of liquid, and then the pump efficiency of oil well pump is improved.

As preferred version of the present utility model, described gas-liquid separation device 7 comprises eddy flow sleeve pipe 701 and is arranged in the shape of a spiral the helical blade 702 on described eddy flow sleeve pipe 701 outer walls, described eddy flow sleeve pipe 701 is set on described gas collecting tube 101, with described gas collecting tube 101 Spielpassung, the lower end of described eddy flow sleeve pipe 701 is arranged on the described annular baffle 601 of described lower box cupling 6 inside, on described eddy flow sleeve pipe 701 sidewalls, be provided with some through holes, the inwall Spielpassung of the outer rim of described helical blade 702 and described outer tube 2.By helical blade 702, the annular gap between gas collecting tube 101 and outer tube 2 is divided into helical flow path, when oil well pump is worked, gas liquid mixture enters in helical flow path by the through hole on the annular baffle 601 in lower box cupling 6, in up mobile process, effect due to centrifugal force, gas starts separated with liquid, liquid part moves laterally, gas part enters in gas collecting tube 101 by the through hole on the through hole on eddy flow sleeve pipe 701 and gas collecting tube 101, thereby has realized gas-liquid separation.

As preferred version of the present utility model, described traveling valve 4 comprises the valve seat 402 that moves about that moves about valve ball 401 and match with the described valve ball 401 that moves about, the two ends up and down of the described valve ball 401 that moves about are connected with the upper end of described path plunger 102 with the lower end of described hollow draw-bar 103 respectively, described hollow draw-bar 103 upper ends are provided with hollow stem box cupling 8, the upper end of described hollow stem box cupling 8 is connected with described hollow rod 3, in the end, upper end of described hollow draw-bar 103 is coated on by described hollow stem box cupling 8 ends, lower end, described outer tube 2 inwalls of described hollow draw-bar 103 correspondences slide and are provided with large footpath plunger 9, described large footpath plunger 9 inwalls and described hollow draw-bar 103 outer walls separate, the valve seat 402 that moves about is arranged on the lower end of described large footpath plunger 9, the upper end of described large footpath plunger 9 is provided with delivery connection 10, extend towards the outer wall of described hollow draw-bar 103 described delivery connection 10 upper ends, and match with the outer wall of described hollow draw-bar 103, in the part that described delivery connection 10 extends towards described hollow draw-bar 103 outer walls, be arranged at intervals with some through holes, described delivery connection 10 ends, upper end to described in the distance of moving about between valve seat 402 ends, lower end be less than described hollow stem box cupling 8 ends, lower end to described in the distance of moving about between valve ball 401 ends, upper end.When oil well pump is worked, hollow rod 3 drives inner tube 1 to pump, water through gas-liquid separation device 7 enters in the annular gap between outer tube 2 and inner tube 1 by device in one-way on state 5, because delivery connection 10 ends, upper end to the distance of moving about between valve seat 402 ends, lower end is less than hollow stem box cupling 8 ends, lower end to the distance of moving about between valve ball 401 ends, upper end, so, when hollow draw-bar 103 moves downward, hollow stem box cupling 8 lower ends prop up the upper end of delivery connection 10, when delivery connection 10 moves down with hollow draw-bar 103, the valve ball 401 that moves about does not contact between valve seat 402 with moving about, make can continue to enter into after traveling valve 4 in the gap between hollow rod 3 and oil pipe 14 through the water of device in one-way on state 5, and gap between hollow rod 3 and oil pipe 14 directly and the well head on ground be connected, when hollow rod 3 moves up, the valve ball 401 that moves about matches with the valve seat 402 that moves about, valve ball 401 sealing of moving about also promotes large footpath plunger 9 when moving about valve seat 402 and moves up, water in gap between hollow rod 3 and oil pipe 14 is pushed up, be positioned near the water of ground well head and be pushed out into outer wellhead discharge, meanwhile, traveling valve 4 belows are full of by water again, when hollow rod 3 down moves again, the water of traveling valve 4 belows is in traveling valve 4 enters into the gap between hollow rod 3 and oil pipe 14, with this to-and-fro motion, water after gas-liquid separation device 7 is progressively discharged to outside well.

As preferred version of the present utility model, described in the move about upper end end bosses cambered surface in the form of a ring of valve ball 401, described in move about valve seat 402 ends, lower end with described in the move about ring-type cambered surface of valve ball 401 match.The valve ball 401 of moving about is set to ring-type cambered surface with the fitting surface of the valve seat 402 that moves about, and the valve ball 401 that makes to move about coordinates tightly between valve seat 402 with moving about, raising drainage efficiency.

As preferred version of the present utility model, described device in one-way on state 5 comprises standing valve cover 501, fixed valve base 502, lower contact 503 and fixed valve ball 504, described outer tube 2 comprises upper exterior tube 201 and lower outer pipe 202, the upper end of described standing valve cover 501 is connected with the lower end of described upper exterior tube 201, described standing valve cover 501 lower ends are set in the outside of described lower contact 503 upper end parts, the lower end of described lower contact 503 is connected with described lower outer pipe 202, in described standing valve cover 501, be provided with ring-type and cut off 505, the inwall of described ring-type partition 505 matches with the outer wall of described inner tube 1, on described ring-type partition 505, be arranged at intervals with some through holes, the end, upper end of described lower contact 503 is provided with described fixed valve base 502, described fixed valve base 502 is circular, described fixed valve ball 504 is slidably arranged on described inner tube 1 outer wall of described fixed valve base 502 correspondences, described in described fixed valve ball 504 lower end edges, inner tube 1 extends through described fixed valve base 502 downwards, the upper end part of described fixed valve ball 504 along the circumferential direction forms annular projection, the external diameter of the annular projection part of described fixed valve ball 504 is greater than the internal diameter of described fixed valve base 502, and be less than the internal diameter of described standing valve cover 501, the annular projection part of described fixed valve ball 504 is between described ring-type partition 505 and described fixed valve base 502, the height of the annular projection vertical direction of described fixed valve ball 504 is less than described ring-type and cuts off 505 lower ends to the distance between described fixed valve base 502.When hollow rod 3 up moves, friction due to inner tube 1, fixed valve ball 504 disengagings coordinate with fixed valve base 502, the water of device in one-way on state 5 belows enters in the gap between upper exterior tube 201 and path plunger 102, and when hollow rod 3 down moves, due to the friction of inner tube 1, fixed valve ball 504 matches with fixed valve base 502, being cut off of the above and below of fixed valve ball 504, thus realize one-way conduction.

As preferred version of the present utility model, match with the upper end of described fixed valve base 502 in the lower end of the annular projection of described fixed valve ball 504.Make fixed valve ball 504 can with fixed valve base 502 between coordinate tight.

As preferred version of the present utility model, on described standing valve cover 501 inwalls corresponding to described fixed valve base 502 upper ends, be provided with seam 11.Make the fixed valve base 502 can be by firm being arranged in standing valve cover 501.

As preferred version of the present utility model, the through hole lower end on described ring-type partition 505 and the inwall of described standing valve cover 501 seamlessly transit, and the upper end outer rim of the annular projection of described fixed valve ball 504 is provided with chamfering.While preventing that fixed valve ball 504 upper ends and ring-type from cutting off 505 times end in contact, the annular projection of fixed valve ball 504 blocks ring-type and cuts off the through hole on 505, guarantees that device in one-way on state 5 belows and top are unobstructed when fixed valve ball 504 is separated with fixed valve base 502.

As preferred version of the present utility model, described lower box cupling 6 lower ends are connected with tail pipe 12.By tail pipe 12, play the effect of sand setting and foreign matter, improve the reliability of oil well pump.

All any modifications of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims

1. a hollow oil-well pump, comprise inner tube and the outer tube that is set in described inner tube outside, between described inner tube and described outer tube, form annular gap, it is characterized in that, described inner tube comprises from the bottom to top the coaxial gas collecting tube arranging successively, path plunger and hollow draw-bar, described hollow draw-bar upper end is coaxially arranged with hollow rod, through hole in described hollow rod is communicated with formation hollow passageway with the through hole of described inner tube, in annular gap, be arranged at intervals with traveling valve and device in one-way on state from top to bottom, described device in one-way on state is along the direction conducting from the bottom to top of described inner tube.

2. hollow oil-well pump according to claim 1, it is characterized in that, the upper and lower two ends of described outer tube are respectively arranged with box cupling and lower box cupling, described upper box cupling upper end connected pipes, described lower box cupling inside is provided with annular baffle, the inwall of described annular baffle and described gas collecting tube outer wall Spielpassung, on described annular baffle, be provided with some through holes, described gas collecting tube is arranged with gas-liquid separation device outward, described gas-liquid separation device is arranged on the annular baffle of described lower box cupling, is provided with some through holes on described gas collecting tube.

3. hollow oil-well pump according to claim 2, it is characterized in that, described gas-liquid separation device comprises eddy flow sleeve pipe and is arranged in the shape of a spiral the helical blade on described eddy flow sleeve outer wall, described eddy flow casing pipe sleeve is located on described gas collecting tube, with described gas collecting tube Spielpassung, the lower end of described eddy flow sleeve pipe is arranged on the described annular baffle of described lower box cupling inside, on described eddy flow sleeve pipe sidewall, be provided with some through holes, the inwall Spielpassung of the outer rim of described helical blade and described outer tube.

4. hollow oil-well pump according to claim 1, it is characterized in that, described traveling valve comprises the valve seat that moves about that moves about valve ball and match with the described valve ball that moves about, the two ends up and down of the described valve ball that moves about are connected with the upper end of described path plunger with the lower end of described hollow draw-bar respectively, described hollow draw-bar upper end is provided with hollow stem box cupling, the upper end of described hollow stem box cupling is connected with described hollow rod, in the end, upper end of described hollow draw-bar is coated on by end, described hollow stem box cupling lower end, the described outer tube wall that described hollow draw-bar is corresponding slides and is provided with large footpath plunger, described large footpath plunger inwall and described hollow draw-bar outer wall separate, the described valve seat that moves about is arranged on the lower end of described large footpath plunger, the upper end of described large footpath plunger is provided with delivery connection, extend towards the outer wall of described hollow draw-bar described delivery connection upper end, and match with the outer wall of described hollow draw-bar, in the part that described delivery connection extends towards described hollow draw-bar outer wall, be arranged at intervals with some through holes, end, described delivery connection upper end to described in the distance of moving about between end, valve seat lower end be less than end, described hollow stem box cupling lower end to described in the distance of moving about between end, valve ball upper end.

5. hollow oil-well pump according to claim 4, is characterized in that, described in the move about upper end end bosses cambered surface in the form of a ring of valve ball, described in move about end, valve seat lower end with described in the move about ring-type cambered surface of valve ball match.

6. hollow oil-well pump according to claim 1, it is characterized in that, described device in one-way on state comprises standing valve cover, fixed valve base, lower contact and fixed valve ball, described outer tube comprises upper exterior tube and lower outer pipe, the upper end of described standing valve cover is connected with the lower end of described upper exterior tube, described standing valve cover lower end is set in the outside of described lower contact upper end part, the lower end of described lower contact is connected with described lower outer pipe, in described standing valve cover, being provided with ring-type cuts off, the inwall that described ring-type is cut off matches with the outer wall of described inner tube, described ring-type is arranged at intervals with some through holes on cutting off, the end, upper end of described lower contact is provided with described fixed valve base, described fixed valve base is circular, described fixed valve ball is slidably arranged on the described outer wall of inner tube that described fixed valve base is corresponding, described in described fixed valve ball lower end edge, inner tube extends through described fixed valve base downwards, the upper end part of described fixed valve ball along the circumferential direction forms annular projection, the external diameter of the annular projection part of described fixed valve ball is greater than the internal diameter of described fixed valve base, and be less than the internal diameter of described standing valve cover, the annular projection part of described fixed valve ball is between described ring-type partition and described fixed valve base, the height of the annular projection part vertical direction of described fixed valve ball is less than described ring-type and cuts off lower end to the distance between described fixed valve base.

7. hollow oil-well pump according to claim 6, is characterized in that, matches with the upper end of described fixed valve base in the lower end of the annular projection of described fixed valve ball.

8. hollow oil-well pump according to claim 7, is characterized in that, on described standing valve cover inwall corresponding to described fixed valve base upper end, is provided with seam.

9. hollow oil-well pump according to claim 8, is characterized in that, the through hole lower end that described ring-type is cut off and the inwall of described standing valve cover seamlessly transit, and the upper end outer rim of the annular projection of described fixed valve ball is provided with chamfering.

10. hollow oil-well pump according to claim 2, is characterized in that, described lower box cupling lower end is connected with tail pipe.