CN216305889U - Detachable fracturing manifold ball throwing device - Google Patents

Abstract

The utility model discloses a detachable fracturing manifold ball throwing device, which comprises: the movable rack is characterized in that a movable wheel is arranged at the lower end of the movable rack, a sliding cavity is arranged at the upper end of the movable rack, a sliding block matched with the sliding cavity is arranged in the sliding cavity in a sliding mode, a ball bin is arranged in the sliding block, a feeding hole communicated with the ball bin is formed in the upper end of the sliding block, a discharging hole communicated with the ball bin is formed in one end of the sliding block, a discharging valve is arranged on the discharging hole, the other end of the sliding block is connected with a piston rod of an air cylinder, the air cylinder is fixedly arranged on the movable rack, a support is arranged at one end, close to the discharging hole, of the movable rack, a connecting flange is arranged at one end, far away from the movable rack, of the support, a vertical pulley rack is arranged in the middle of the support, and a first fixed pulley is arranged at the upper end of the vertical pulley rack in a rotating mode.

Description

Detachable fracturing manifold ball throwing device

Technical Field

The utility model relates to the technical field of petroleum machinery, in particular to a detachable fracturing manifold ball throwing device.

Background

The fracturing manifold is a device used in the oil exploitation process, generally has a bow-shaped structure, an inlet flange is arranged at one end of the fracturing manifold, an outlet flange is arranged at the other end of the fracturing manifold, and a plurality of manifold ports are distributed on the fracturing manifold. The fracturing manifold can be scaled in the fracturing manifold after being used for a long time, so that the phenomena of low thermal efficiency, insufficient temperature rise and the like of the fracturing manifold are caused, normal production of an oil field is seriously influenced, people clean the scale in the fracturing manifold all through manual cleaning at present, workers need to climb into the fracturing manifold to clean the scale gradually, and the cleaning is troublesome, the automation degree is low, the working efficiency is low, and the labor intensity is high.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is as follows: the utility model provides a fracturing manifold bowling device dismantled that work efficiency is high.

In order to solve the technical problems, the utility model adopts the technical scheme that: can dismantle fracturing manifold bowling device includes: the device comprises a moving frame, moving wheels are arranged at the lower end of the moving frame, a sliding cavity is arranged at the upper end of the moving frame, a sliding block matched with the sliding cavity is arranged in the sliding cavity in a sliding mode, a ball bin is arranged in the sliding block, a feeding hole communicated with the ball bin is formed in the upper end of the sliding block, a discharging hole communicated with the ball bin is formed in one end of the sliding block, a discharging valve is arranged on the discharging hole, the other end of the sliding block is connected with a piston rod of an air cylinder, the air cylinder is fixedly arranged on the moving frame, a support is arranged at one end, close to the discharging hole, of the moving frame, a connecting flange is arranged at one end, far away from the moving frame, of the support, a vertical pulley frame is arranged in the middle of the support, a first fixed pulley is rotatably arranged at the upper end of the vertical pulley frame, and an arc-shaped pulley frame is arranged on the connecting flange, a second fixed pulley is rotatably arranged at one end of the arc-shaped pulley frame far away from the connecting flange, a feeding hose way is supported on the first fixed pulley and the second fixed pulley, one end of the feeding hose is connected with the discharge hole, the other end of the feeding hose is connected with the positioning disc, a plurality of impeller heads which are communicated with the feeding hose pipeline are uniformly arranged at the lower end of the positioning disc, a plurality of T-shaped sliding holes are uniformly arranged on the outer side of the positioning disc along the radial direction, T-shaped sliding blocks matched with the T-shaped sliding holes are arranged in the T-shaped sliding holes in a sliding manner, a first buffer spring is arranged in the T-shaped sliding hole, one end of the first buffer spring is propped against the positioning disk, the other end of the first buffer spring is propped against the T-shaped sliding block, and one end of the T-shaped sliding block, which extends out of the positioning disk, is connected with a first fixing foot, and first balls are respectively embedded in the first fixing foot in a rolling manner.

In order to better solve the technical problems, the utility model adopts the further technical scheme that: the upper end of the positioning plate is uniformly and upwards obliquely provided with a plurality of second fixing feet along the radial direction, one ends of the second fixing feet are movably connected with the positioning plate through pin shafts, second balls are respectively embedded in the other ends of the second fixing feet in a rolling mode, and the middle parts of the second fixing feet are connected with the positioning plate through second springs.

In order to better solve the technical problems, the utility model adopts the further technical scheme that: an inclined plane is arranged in the ball bin, and the inclined lower end of the inclined plane is close to the discharge hole.

In order to better solve the technical problems, the utility model adopts the further technical scheme that: the feeding hose is made of metal materials.

In order to better solve the technical problems, the utility model adopts the further technical scheme that: and the inner sides of the first fixed pulley and the second fixed pulley are respectively provided with a wear-resistant layer.

In order to better solve the technical problems, the utility model adopts the further technical scheme that: the wear-resistant layer is made of polytetrafluoroethylene materials.

The utility model has the advantages that: above-mentioned can dismantle fracturing manifold bowling device, novel structure can carry out the installation of freely removing, simple to operate, simultaneously, can realize automatic bowling, can follow the inside follow of fracturing manifold and down progressively clear up comprehensively, and degree of automation is high, and work efficiency is high, reduces workman's intensity of labour.

Drawings

Fig. 1 is a schematic structural diagram of a detachable fracturing manifold ball-throwing device according to the present invention.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

In the figure: 1. the device comprises a moving frame, 2, a moving wheel, 3, a sliding cavity, 4, a sliding block, 5, a ball bin, 51, an inclined plane, 6, a feeding hole, 7, a discharging hole, 8, a discharging valve, 9, a cylinder, 10, a piston rod, 11, a support, 12, a connecting flange, 13, a vertical pulley frame, 14, a first fixed pulley, 15, an arc pulley frame, 16, a second fixed pulley, 17, a feeding hose way, 18, a positioning disc, 19, a shot blasting machine, 20, a T-shaped sliding hole, 21, a T-shaped sliding block, 22, a first buffer spring, 23, a first fixed foot, 24, a first ball, 25, a second fixed foot, 251, a pin shaft, 26, a second ball, 27, a second spring, 28, an arc-shaped fracturing manifold, 29, an inlet flange, 30, an outlet flange, 31 and a manifold interface.

Detailed Description

The details of the present invention are described below with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1 and 2, the detachable fracturing manifold ball injector comprises: the device comprises a movable frame 1, a movable wheel 2 is arranged at the lower end of the movable frame 1, a sliding cavity 3 is arranged at the upper end of the movable frame 1, a sliding block 4 matched with the sliding cavity 3 is arranged in the sliding cavity in a sliding mode, a ball bin 5 is arranged in the sliding block 4, a feeding hole 6 communicated with the ball bin 5 is arranged at the upper end of the sliding block 4, a discharging hole 7 communicated with the ball bin 5 is arranged at one end of the sliding block 4, a discharging valve 8 is arranged on the discharging hole 7, the other end of the sliding block 4 is connected with a piston rod 10 of an air cylinder 9, the air cylinder 9 is fixedly arranged on the movable frame 1, a support 11 is arranged at one end, close to the discharging hole 7, of the movable frame 1, a connecting flange 12 is arranged at one end, far away from the movable frame 1, of the support 11 is provided with a vertical pulley frame 13, a first fixed pulley 14 is rotatably arranged at the upper end of the vertical pulley frame 13, an arc pulley yoke 15 is arranged on the connecting flange 12, a second fixed pulley 16 is rotatably arranged at one end of the arc pulley yoke 15 far away from the connecting flange 12, a feeding hose passage 17 is supported on the first fixed pulley 14 and the second fixed pulley 16, one end of the feeding hose passage 17 is connected with the discharge hole 7, the other end of the feeding hose passage 17 is connected with a positioning disc 18, and a plurality of feeding hose passages 17 are uniformly arranged at the lower end of the positioning disc 18

The shot blasting machine comprises shot blasting machines 19 which are communicated with each other, wherein a plurality of T-shaped sliding holes 20 are uniformly arranged on the outer side of a positioning disc 18 along the radial direction, T-shaped sliding blocks 21 matched with the T-shaped sliding holes 20 are arranged in the T-shaped sliding holes 20 in a sliding mode, first buffer springs 22 are further arranged in the T-shaped sliding holes 20, one ends of the first buffer springs 22 abut against the positioning disc 18, the other ends of the first buffer springs 22 abut against the T-shaped sliding blocks 21, one ends of the T-shaped sliding blocks 21 extending out of the positioning disc 18 are connected with first fixing feet 23, and first balls 24 are respectively embedded in the first fixing feet 23 in a rolling mode.

As shown in fig. 1 and 2, in this example, for the purpose of more stable support of the positioning plate 18, a plurality of second fixing legs 25 are uniformly and upwardly inclined in a radial direction at the upper end of the positioning plate 18, one end of each second fixing leg 25 is movably connected with the positioning plate 18 through a pin 251, second balls 26 are respectively inserted into the other ends of the second fixing legs 25 in a rolling manner, and the middle of each second fixing leg 25 is connected with the positioning plate 18 through a second spring 27.

As shown in fig. 1, in this example, for smoother discharging, a slope 51 is provided in the ball bin 5, and the lower end of the slope 51 is close to the discharging hole 7.

As shown in fig. 1 and 2, in this example, the feeding hose 17 is made of a metal material in order to ensure that the inner space is not deformed during the bending of the feeding hose 17.

As shown in fig. 1, in this example, in order to increase wear resistance, wear resistant layers are provided on the inner sides of the first and second fixed pulleys 14 and 16, respectively.

As shown in fig. 1, in this example, the wear resistant layer is made of teflon.

During installation, the moving frame 1 moves towards the bow-shaped fracturing manifold 28 through the moving wheel 2, the positioning disc 18 is placed in the bow-shaped fracturing manifold 28, the positioning disc 18 is supported in the bow-shaped fracturing manifold 28 through the first ball 24 on the first fixing foot 23 and the second ball 26 on the second fixing foot 25, when the connecting flange 12 abuts against the inlet flange 29, the positioning disc 18 is hung in the fracturing manifold 28 in a horizontal disc mode from a vertical disc, and the connecting flange 12 and the inlet flange 29 are fixed through bolts.

When cleaning, the discharge valve 8 is opened, the steel balls in the ball bin 5 roll into the feeding hose pipeline 17 along the inclined plane 51 until reaching each impeller head 19 to throw the steel balls out, the steel balls clean the inner part of the arch fracturing manifold 28 by throwing, scales are continuously smashed and fall and are sent out from the outlet flange 30 along with the steel balls, meanwhile, the air cylinder 9 is started, the piston rod 10 of the air cylinder 9 drives the sliding block 4 to move leftwards in the sliding cavity 3, the sliding block moves downwards in the arch fracturing manifold 28 under the self gravity of the positioning disc 18 so as to drive the feeding hose pipeline 17 to move leftwards, the feeding hose pipeline 17 realizes moving guide on the first fixed pulley 14 and the second fixed pulley 16, when the positioning disc 18 moves to the lower end of the arch fracturing manifold 28, the air cylinder 9 resets, the connecting flange 12 is separated from the inlet flange 29 by loosening the bolts, the moving frame 1 is pulled rightwards, the moving frame 1 drives the integral ball throwing device to be separated from the fracturing manifold 28 by the moving wheel 2 moving rightwards, and realizing disassembly.

Above-mentioned can dismantle fracturing manifold bowling device, novel structure can carry out the installation of freely removing, simple to operate, simultaneously, can realize automatic bowling, can follow the inside follow of fracturing manifold and down progressively clear up comprehensively, and degree of automation is high, and work efficiency is high, reduces workman's intensity of labour.

Claims (6)

1. Can dismantle fracturing manifold bowling device, its characterized in that: the method comprises the following steps: the ball bin type ball feeder comprises a moving frame (1), a moving wheel (2) is arranged at the lower end of the moving frame (1), a sliding cavity (3) is arranged at the upper end of the moving frame (1), a sliding block (4) matched with the sliding cavity (3) is arranged in the sliding cavity in a sliding mode, a ball bin (5) is arranged in the sliding block (4), a feeding hole (6) communicated with the ball bin (5) is formed in the upper end of the sliding block (4), a discharging hole (7) communicated with the ball bin (5) is formed in one end of the sliding block (4), a discharging valve (8) is arranged on the discharging hole (7), the other end of the sliding block (4) is connected with a piston rod (10) of an air cylinder (9), the air cylinder (9) is fixedly arranged on the moving frame (1), and a support (11) is arranged at one end, close to the discharging hole (7), of the moving frame (1), a connecting flange (12) is arranged at one end of the support (11) far away from the movable frame (1), a vertical pulley frame (13) is arranged in the middle of the support (11), a first fixed pulley (14) is rotatably arranged at the upper end of the vertical pulley frame (13), an arc pulley frame (15) is arranged on the connecting flange (12), a second fixed pulley (16) is rotatably arranged at one end of the arc pulley frame (15) far away from the connecting flange (12), a feeding hose channel (17) is supported on the first fixed pulley (14) and the second fixed pulley (16), one end of the feeding hose channel (17) is connected with the discharge hole (7), the other end of the feeding hose channel (17) is connected with a positioning disc (18), a plurality of impeller heads (19) communicated with the feeding hose channel (17) are uniformly arranged at the lower end of the positioning disc (18), the outside of positioning disk (18) is along radially evenly being provided with a plurality of T type slide opening (20) it is provided with T type slider (21) rather than mutually supporting to slide in T type slide opening (20) still be provided with first buffer spring (22) in T type slide opening (20), the one end and positioning disk (18) of first buffer spring (22) offset, the other end and the T type slider (21) of first buffer spring (22) offset the T type slider (21) stretch out one of positioning disk (18) and be connected with first fixed foot (23) be rolled respectively on first fixed foot (23) and inlay first ball (24).

2. The collapsible frac manifold pitch device of claim 1, wherein: a plurality of second fixing feet (25) are uniformly and upwards obliquely arranged at the upper end of the positioning disc (18) along the radial direction, one ends of the second fixing feet (25) are movably connected with the positioning disc (18) through pin shafts (251), second balls (26) are respectively embedded at the other ends of the second fixing feet (25) in a rolling manner, and the middle parts of the second fixing feet (25) are connected with the positioning disc (18) through second springs (27).

3. The collapsible frac manifold pitch device of claim 1, wherein: an inclined surface (51) is arranged in the ball bin (5), and the inclined lower end of the inclined surface (51) is close to the discharge hole (7).

4. The collapsible frac manifold pitch device of claim 1, wherein: the feeding hose pipeline (17) is made of metal materials.

5. The detachable fracturing manifold pitching apparatus of claim 4, wherein: and wear-resistant layers are respectively arranged on the inner sides of the first fixed pulley (14) and the second fixed pulley (16).

6. The detachable fracturing manifold pitching apparatus of claim 5, wherein: the wear-resistant layer is made of polytetrafluoroethylene materials.

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