CN115095308B - Vehicle-mounted high-pressure fracturing manifold capable of being quickly docked - Google Patents

Abstract

The invention discloses a vehicle-mounted high-pressure fracturing manifold capable of being quickly docked, which comprises a high-pressure fracturing manifold sled, wherein two groups of high-pressure fracturing manifolds are arranged at the top of the high-pressure fracturing manifold sled, and a plurality of docking devices are arranged between the two groups of high-pressure fracturing manifolds; the plurality of butt joint devices comprise a first butt joint disc and a second butt joint disc, the first butt joint disc is provided with two butt joint inclined grooves, the second butt joint disc is provided with two installation inclined grooves, a clamping inclined plate is slidably installed in each installation inclined groove, one side of the bottom end of each clamping inclined plate is connected with a movable column, the second butt joint disc is provided with two movable inclined grooves, the two movable columns are connected with movable rings in a matched manner through the corresponding movable inclined grooves, the first butt joint disc is sleeved with a fixed ring, the movable ring is provided with a plurality of buckles, and the fixed ring is provided with a plurality of clamping tables; through adopting joint swash plate and butt joint chute butt joint, further use buckle and block platform fixed for the butt joint of high pressure fracturing manifold is quicker, need not the screw thread and twist can dock.

Description

Vehicle-mounted high-pressure fracturing manifold capable of being quickly docked

Technical Field

The invention relates to the technical field of fracturing manifold equipment, in particular to a vehicle-mounted high-pressure fracturing manifold capable of being quickly docked.

Background

In conventional oil and gas field development processes, after the oil and gas well exploitation enters the later stage, the reservoir is often required to be fractured to obtain better oil and gas channels in order to improve the single well yield, and in unconventional oil and gas exploration operations, the oil and gas-containing reservoir mostly has extremely low porosity and permeability due to special geological conditions, and the reservoir must be fractured to obtain industrial oil and gas flows.

When the existing fracturing manifold sets are connected, the connecting flanges of the connecting ports are fixed through bolts or the combination of multiple groups of fracturing manifolds is realized through threaded connection between the two flanges, but when the existing fracturing manifolds are connected through bolts or threads, the butt joint process is not very convenient, and the butt joint is adjusted manually, so that the butt joint precision and the butt joint efficiency are not high, and the working efficiency is further reduced.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a vehicle-mounted high-pressure fracturing manifold capable of being quickly docked.

The aim of the invention can be achieved by the following technical scheme:

the vehicle-mounted high-pressure fracturing manifold comprises high-pressure fracturing manifold sleds which are arranged on a bearing plate arranged on a carriage at the rear part of a vehicle body, wherein two groups of high-pressure fracturing manifolds are arranged at the top of each high-pressure fracturing manifold sled, the two groups of high-pressure fracturing manifolds are distributed in a central symmetry manner, and a plurality of butting devices are arranged between the two groups of high-pressure fracturing manifolds;

the plurality of butt joint devices all include first butt joint dish and second butt joint dish, a plurality of first butt joint dishes all set up on one side high pressure fracturing manifold, a plurality of second butt joint dishes all set up on the opposite side high pressure fracturing manifold, and two butt joint inclined slots have been seted up in the first butt joint dish inner wall, two installation inclined slots have been seted up in the inner wall of second butt joint dish, slidable mounting has the joint swash plate in the installation inclined slot, two joint swash plates and two butt joint inclined slot adaptations, bottom one side of joint swash plate is connected with the movable column, two movable inclined slots have been seted up on the axial face of second butt joint dish outside end, two movable inclined slots link up the setting with two installation inclined slots, two movable columns all pass the movable chute cooperation that corresponds and are connected with the fixed ring has been cup jointed to first butt joint dish outside end, be provided with a plurality of buckles on the movable ring, the fixed ring is provided with a plurality of blocks, first butt joint dish and second butt joint dish are fixed through buckle and block cooperation.

As a further scheme of the invention: the high-pressure fracturing manifold sled is characterized in that a butt joint adjusting groove is formed in the top of the high-pressure fracturing manifold sled, double-section screws are symmetrically arranged on two sides of the butt joint adjusting groove, two mounting plates are in threaded connection with the two double-section screws, the two mounting plates are symmetrically distributed on the transverse center line of the high-pressure fracturing manifold sled, two adjusting motors are fixedly connected to one side of the high-pressure fracturing manifold sled, and output ends of the two adjusting motors are fixedly connected with the corresponding double-section screws.

As a further scheme of the invention: offer a plurality of mounting grooves on the mounting panel, the equal fixedly connected with damper in bottom center of every mounting groove, the inside both ends symmetry of damper is provided with damping slider, be provided with damping spring between two damping slider, two damping slider outside ends all rotate and are connected with the connecting rod, and two connecting rods all run through the damper setting, two connecting rods keep away from damper one end and all rotate and be connected with the movable block, the equal sliding connection in top of two movable blocks has the connecting seat, two connecting seat tops cooperation are connected with the positioning seat, positioning seat slidable mounting is in the mounting groove, install the fixed cassette on the positioning seat.

As a further scheme of the invention: the fixed clamping seat comprises an upper clamping seat and a lower clamping seat, the upper clamping seat is hinged with the lower clamping seat, the opening ends of the upper clamping seat and the lower clamping seat are respectively provided with a connecting table, and the two connecting tables are fixed through bolts.

As a further scheme of the invention: the two groups of high-pressure fracturing manifolds comprise high-pressure main pipes, a plurality of outlet pipes are symmetrically arranged on two sides of each high-pressure main pipe, a plurality of outlet pipes are connected with first connecting pipes, plug valves are arranged on the outer sides of the first connecting pipes, and one-way valves are arranged on the outer sides of the plug valves.

As a further scheme of the invention: the butt joint devices are arranged between the outlet pipes on the inner sides of the two groups of high-pressure main pipes, the first butt joint discs are fixedly connected to the outlet pipes corresponding to the inner sides of the high-pressure main pipes, the second butt joint discs are fixedly connected to the outlet pipes corresponding to the inner sides of the other group of high-pressure main pipes, and the first butt joint discs and the second butt joint discs are communicated with the corresponding outlet pipes.

As a further scheme of the invention: the outer side end of the first butt joint disc is provided with a butt joint clamping table, the outer side end of the second butt joint disc is provided with a butt joint clamping groove, a sealing gasket is arranged in the butt joint clamping groove, and the butt joint clamping table is matched with the butt joint clamping groove.

As a further scheme of the invention: sealing grooves are symmetrically formed in the butt joint surfaces of the first butt joint disc and the second butt joint disc, and sealing rings are installed in a matched mode.

The invention has the beneficial effects that:

the motor is adjusted to drive the mounting plates to be close to or far away from each other, the distance between two high-pressure fracturing manifolds is adjusted to enable the docking accuracy to be guaranteed through mechanical docking, docking is simpler and more convenient, labor is saved, the first docking tray and the second docking tray can be rapidly docked through the clamping connection of the clamping connection inclined plate and the docking chute, docking efficiency is improved, the docking can be achieved without screwing bolts or screwing threads, and docking steps are simplified and easier.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of a connection structure between a carrier plate and a high-pressure fracturing manifold in the present invention;

FIG. 3 is a schematic top view of a high pressure fracturing manifold of the present invention;

FIG. 4 is a schematic diagram of a high pressure fracturing manifold skid and high pressure fracturing manifold connection in accordance with the present invention;

FIG. 5 is a schematic diagram of a connection structure between a mounting plate and a fixing clip seat according to the present invention;

FIG. 6 is a schematic view of the overall structure of the docking device of the present invention;

FIG. 7 is a schematic view of the positions of the clamping inclined plate and the butt chute in the invention;

fig. 8 is a schematic view of a docking structure of a first docking tray and a second docking tray according to the present invention.

In the figure: 1. a vehicle body; 10. a lifting cavity; 11. lifting the hydraulic telescopic rod; 12. a carrying plate; 121. a sliding groove; 122. a moving motor; 123. moving the screw; 2. high pressure fracturing manifold sled; 21. a slide block; 22. a butt joint adjusting groove; 23. a double-section screw; 24. a mounting plate; 241. a mounting groove; 242. a damper box; 243. a damping slide block; 244. a damping spring; 245. a connecting rod; 246. a moving block; 247. a connecting seat; 248. a positioning seat; 6. a fixing clamping seat; 25. adjusting a motor; 3. high pressure frac manifold; 31. a high pressure main pipe; 32. a first connection pipe; 33. a plug valve; 34. a one-way valve; 4. a connecting bent pipe; 5. a docking device; 51. a first docking plate; 511. a butt-joint chute; 52. a second docking plate; 521. installing a chute; 522. the sloping plate is clamped; 523. a moving column; 524. a moving chute; 53. a fixing ring; 54. a moving ring; 7. a seal ring; 8. and a sealing gasket.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-8, the vehicle-mounted high-pressure fracturing manifold capable of being quickly abutted is movably mounted on a vehicle body 1, the angle is changed during use conveniently, the vehicle-mounted high-pressure fracturing manifold is conveniently abutted to external equipment, a lifting cavity 10 is formed in a carriage at the rear part of the vehicle body 1, a lifting hydraulic telescopic rod 11 is rotatably mounted at one end inside the lifting cavity 10, a turnover groove is further formed in the carriage at the rear part of the vehicle body 1, the turnover groove is located at the top of the lifting cavity 10 and is mutually communicated, a bearing plate 12 is rotatably mounted at one end of the turnover groove, the bottom of the bearing plate 12, close to one end of the lifting cavity 10, is rotatably connected with the telescopic end of the lifting hydraulic telescopic rod 11, the bearing plate 12 is driven to lift and fall on the carriage at the rear part of the vehicle body 1 through the telescopic driving of the lifting hydraulic telescopic rod 11, the use convenience of the vehicle-mounted high-pressure fracturing manifold is further guaranteed, and the angle is convenient to be connected with ground equipment.

As shown in fig. 1 and 4, the top of the bearing plate 12 is provided with a high-pressure fracturing manifold sled 2, the top of the high-pressure fracturing manifold sled 2 is provided with two groups of high-pressure fracturing manifolds 3, the two groups of high-pressure fracturing manifolds 3 are distributed in a central symmetry manner, a plurality of docking devices 5 are arranged between the two groups of high-pressure fracturing manifolds 3, the two groups of high-pressure fracturing manifolds 3 dock when needed, and the two groups of high-pressure fracturing manifolds are combined to work, wherein one end of one group of high-pressure fracturing manifolds 3 is connected with a connecting bent pipe 4 for conveying fracturing fluid.

As shown in fig. 2, the sliding groove 121 is formed in the middle of the top of the bearing plate 12, two motor mounting grooves are formed in one side of the sliding groove 121, two sides of the sliding groove 121 are symmetrically and rotatably connected with the moving screw rods 123, the moving screw rods 123 are fixedly mounted in the two motor mounting grooves, the output ends of the two moving motor 122 are fixedly connected with the corresponding moving screw rods 123, the two sliding blocks 21 are symmetrically arranged on the two sides of the bottom of the high-pressure fracturing manifold sled 2, the two sliding blocks 21 are in threaded connection with the moving screw rods 123, each sliding block 21 is in threaded connection with the two moving screw rods 123, the two moving screw rods 123 are driven to rotate through the two moving motor 122, the high-pressure fracturing manifold sled 2 is driven to slide back and forth on the bearing plate 12, the butt joint angle and distance between the high-pressure fracturing manifold sled and external equipment are adjusted, and further operation is facilitated.

As shown in FIG. 3, the structure of the high-pressure fracturing manifold sled 2 is shown, the top of the high-pressure fracturing manifold sled 2 is provided with a butt joint adjusting groove 22, two sides of the butt joint adjusting groove 22 are symmetrically provided with double-section screws 23, two ends of the two double-section screws 23 are provided with opposite threads, two mounting plates 24 are connected with the two double-section screws 23 in a threaded manner, the two mounting plates 24 are symmetrically distributed about the transverse center line of the high-pressure fracturing manifold sled 2, each mounting plate 24 is connected with the two double-section screws 23 in a threaded manner, but the two mounting plates 24 are arranged at different ends of the double-section screws 23, meanwhile, one side of the high-pressure fracturing manifold sled 2 is fixedly connected with two adjusting motors 25, the output ends of the two adjusting motors 25 are fixedly connected with the corresponding double-section screws 23, the mounting plates 24 are driven to be close to or far away from each other by the adjusting motors 25, and the distance between the two high-pressure fracturing manifolds 3 is adjusted conveniently.

As shown in fig. 3 and 5, a plurality of mounting slots 241 are further formed in the mounting plate 24, the bottom center of each mounting slot 241 is fixedly connected with a damper box 242, two damping sliders 243 are symmetrically arranged at two ends of the inside of the damper box 242, the two damping sliders 243 are slidably connected with the damper box 242, damping springs 244 are arranged between the two damping sliders 243, vibration transmitted by the two damping sliders 243 is relieved through the damping springs 244, the outer side ends of the two damping sliders 243 are rotatably connected with a connecting rod 245, the connecting rod 245 is arranged through the damper box 242, the through slots on the damper box 242 can ensure that the connecting rod 245 moves fully, the other ends of the two connecting rods 245 are rotatably connected with a moving block 246, the tops of the two moving blocks 246 are slidably provided with a connecting seat 247, the tops of the two connecting seats 247 are matched with a positioning seat 248, the positioning seat 248 is slidably mounted in the mounting slot 241, a fixing clamping seat 6 is arranged on the positioning seat 248, the fixing clamping seat 6 comprises an upper clamping seat and a lower clamping seat, the upper clamping seat is connected with the lower clamping seat through a hinge, the upper clamping seat is connected with the lower clamping seat through the hinge, the upper clamping seat is connected with the lower clamping seat, the lower clamping seat through the clamping seat, the upper clamping seat is connected with the lower clamping seat through the fixing seat, the upper clamping seat 3, the high pressure crack is further, the high pressure is prevented from being influenced by the high pressure, the high pressure crack, the vibration is further, the high pressure is prevented from being generated by the high pressure, and the shock is prevented from being transmitted to the high pressure, and the shock is well 3, and is further, the shock is prevented by the shock is prevented from the shock.

The high-pressure fracturing manifold 3 is further as shown in fig. 4, the high-pressure fracturing manifold 3 comprises a high-pressure main pipe 31, a plurality of outlet pipes are symmetrically arranged on two sides of the high-pressure main pipe 31, a plurality of outlet pipes facing to the outer side are all connected with a first connecting pipe 32, a plug valve 33 is arranged on the outer side of the first connecting pipe 32, a one-way valve 34 is arranged on the outer side of the plug valve 33, a butt joint device 5 is connected between a plurality of outlet pipes on the opposite sides of the two high-pressure main pipes 31 in a matched mode, and the two high-pressure fracturing manifolds 3 are connected together rapidly through the butt joint device 5 to perform matched operation.

As shown in fig. 6, 7 and 8, the plurality of docking devices 5 each include a first docking plate 51 and a second docking plate 52, the plurality of first docking plates 51 are fixedly connected at corresponding outlet pipes inside the high-pressure fracturing manifold 3 on one side, how many outlet pipes are arranged on one side of the high-pressure fracturing manifold 3, how many docking devices 5 are connected, the plurality of second docking plates 52 are fixedly connected at corresponding outlet pipes inside the high-pressure fracturing manifold 3 on the other side, the first docking plates 51 and the second docking plates 52 are communicated with the corresponding outlet pipes, at the same time, docking clamping tables are arranged at the outer ends of the first docking plates 51, docking clamping grooves are arranged at the outer ends of the second docking plates 52, sealing gaskets 8 are arranged in the docking clamping grooves, the docking clamping tables are matched with the docking clamping grooves, the internal sealing performance is ensured after the first docking plates 51 and the second docking plates 52 are docked, meanwhile, the butt joint surface of the first butt joint disc 51 and the second butt joint disc 52 is symmetrically provided with sealing grooves, the two sealing grooves are matched with each other to be provided with sealing rings 7 for secondary sealing, the tightness of the pipeline after butt joint is further ensured, the outer side end of the first butt joint disc 51 is fixedly sleeved with a fixed ring 53, the inner wall of the first butt joint disc 51 is provided with two butt joint inclined grooves 511, the centers of the two butt joint inclined grooves 511 are symmetrically arranged, the inner wall of the second butt joint disc 52 is provided with two mounting inclined grooves 521, the centers of the two mounting inclined grooves 521 are symmetrically arranged, a clamping inclined plate 522 is slidably arranged in the mounting inclined grooves 521, one side of the bottom end of the clamping inclined plate 522 is connected with a movable column 523, the axial surface of the outer side end of the second butt joint disc 52 is provided with two movable inclined grooves 524, the two movable inclined grooves 524 are communicated with the two mounting inclined grooves 521, the movable columns 523 of the two clamping inclined plates 522 are matched and connected with the movable ring 54 through the corresponding movable inclined grooves 524, the movable ring 54 is located at the outer side of the second butt joint disc 52, a plurality of buckles are arranged on the movable ring 54, a plurality of clamping tables are correspondingly arranged on the fixed ring 53, and along with the movement of the movable ring 54 to be in contact with the fixed ring 53, the positions of the buckles vertically correspond to the clamping tables, so that the buckles can be clamped on the clamping tables, after the first butt joint disc 51 and the second butt joint disc 52 are butted, the movable ring 54 is rotated to drive the two butt joint sloping plates 522 to move into the two butt joint chute 511, when the movable ring 54 is moved to the positions of the buckles corresponding to the clamping tables when the clamping sloping plates 522 are clamped with the butt joint chute 511, the buckles at the rotating positions are clamped on the corresponding clamping tables, the clamping sloping plates 522 are prevented from retreating, the first butt joint disc 51 and the second butt joint disc 52 are further fixed, the first butt joint disc 51 and the second butt joint disc 52 can be quickly butted through the clamping and fixing of the clamping sloping plates 511, and the butt joint efficiency is improved.

The working principle of the invention is as follows:

when two high-pressure fracturing manifolds 3 are required to work cooperatively, firstly, an adjusting motor 25 is started to drive two double-section screws 23 to rotate, two mounting plates 24 are further driven to approach each other, so that the two high-pressure fracturing manifolds 3 which are arranged on the two mounting plates 24 in a rotationally symmetrical mode approach each other, then in the approach process, a plurality of first butt-joint discs 51 and a plurality of second butt-joint discs 52 are mutually butted, when butt-joint clamping tables on the first butt-joint discs 51 and butt-joint clamping grooves on the second butt-joint discs 52 are mutually butted, the adjusting motor 25 is stopped, then a moving ring 54 is rotated to drive a clamping inclined plate 522 to slide into a butt-joint chute 511, the first butt-joint discs 51 and the second butt-joint discs 52 are further fixed, and then a buckle on each butt-joint device 5 is clamped with the clamping tables to finish butt-joint; after the butt joint is completed, the lifting hydraulic telescopic rod 11 is started, the bearing plate 12 is inclined to a required angle, the mobile motor 122 is started in a matched mode, the high-pressure fracturing manifold sled 2 is driven to move to a proper position, and the high-pressure fracturing manifold sled is connected with external fracturing equipment to work.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims (6)

1. The utility model provides a but on-vehicle high pressure fracturing manifold of quick butt joint, includes high pressure fracturing manifold sled (2) that set up on loading board (12) of installing on carriage at automobile body (1) rear portion carriage, and the top of high pressure fracturing manifold sled (2) is provided with two sets of high pressure fracturing manifolds (3), and two sets of high pressure fracturing manifolds (3) central symmetry distribute, and characterized in that is provided with a plurality of interfacing apparatus (5) between two sets of high pressure fracturing manifolds (3);

wherein the plurality of butt joint devices (5) comprise a first butt joint disc (51) and a second butt joint disc (52), the plurality of first butt joint discs (51) are arranged on the high-pressure fracturing manifold (3) at one side, the plurality of second butt joint discs (52) are arranged on the high-pressure fracturing manifold (3) at the other side, two butt joint chute (511) are arranged in the inner wall of the first butt joint disc (51), two installation chute (521) are arranged in the inner wall of the second butt joint disc (52), a clamping inclined plate (522) is slidably arranged in the installation chute (521), the two clamping inclined plates (522) are matched with the two butt joint chute (511), the bottom end side of the clamping inclined plate (522) is connected with a movable column (523), the shaft surface of the outer side end of the second butt joint disc (52) is provided with two movable inclined grooves (524), the two movable inclined grooves (524) are communicated with the two mounting inclined grooves (521), the two movable columns (523) are connected with a movable ring (54) in a matched manner through the corresponding movable inclined grooves (524), the outer side end of the first butt joint disc (51) is fixedly sleeved with a fixed ring (53), the movable ring (54) is provided with a plurality of buckles, the fixed ring (53) is provided with a plurality of clamping tables, and the first butt joint disc (51) and the second butt joint disc (52) are fixedly matched with the clamping tables through the buckles;

the high-pressure fracturing manifold sled (2) is characterized in that a butt joint adjusting groove (22) is formed in the top of the high-pressure fracturing manifold sled (2), double-section screws (23) are symmetrically arranged on two sides of the butt joint adjusting groove (22), two mounting plates (24) are connected with the two double-section screws (23) in a matched threaded mode, the two mounting plates (24) are symmetrically distributed with respect to the transverse center line of the high-pressure fracturing manifold sled (2), two adjusting motors (25) are fixedly connected to one side of the high-pressure fracturing manifold sled (2), and the output ends of the two adjusting motors (25) are fixedly connected with the corresponding double-section screws (23);

offer a plurality of mounting grooves (241) on mounting panel (24), the equal fixedly connected with damper box (242) in bottom center of every mounting groove (241), the inside both ends symmetry of damper box (242) is provided with damping slider (243), be provided with damping spring (244) between two damping slider (243), all rotate and be connected with connecting rod (245) in two damping slider (243) outside ends, and two connecting rod (245) all run through damper box (242) setting, two connecting rod (245) keep away from damper box (242) one end all and rotate and be connected with movable block (246), the equal sliding connection in top of two movable block (246) has connecting seat (247), two connecting seat (247) top cooperation are connected with positioning seat (248), positioning seat (248) slidable mounting is in mounting groove (241), install fixed cassette (6) on positioning seat (248).

2. The vehicle-mounted high-pressure fracturing manifold capable of being quickly abutted according to claim 1, wherein the fixed clamping seat (6) comprises an upper clamping seat and a lower clamping seat which are hinged together, connecting tables are arranged at the opening ends of the upper clamping seat and the lower clamping seat, and the two connecting tables are fixed through bolts.

3. The vehicle-mounted high-pressure fracturing manifold capable of being quickly abutted according to claim 1, wherein two groups of high-pressure fracturing manifolds (3) comprise high-pressure main pipes (31), a plurality of outlet pipes are symmetrically arranged on two sides of each high-pressure main pipe (31), a first connecting pipe (32) is connected to each outlet pipe on the outer side, a plug valve (33) is arranged on the outer side of each first connecting pipe (32), and a one-way valve (34) is arranged on the outer side of each plug valve (33).

4. A fast-docking vehicle-mounted high-pressure fracturing manifold according to claim 3, characterized in that a plurality of docking devices (5) are arranged between a plurality of outlet pipes inside two groups of high-pressure main pipes (31), wherein a plurality of first docking plates (51) are fixedly connected to the corresponding outlet pipes inside one group of high-pressure main pipes (31), a plurality of second docking plates (52) are fixedly connected to the corresponding outlet pipes inside the other group of high-pressure main pipes (31), and the first docking plates (51) and the second docking plates (52) are communicated with the corresponding outlet pipes.

5. The vehicle-mounted high-pressure fracturing manifold capable of being quickly docked according to claim 1, wherein a docking clamping table is arranged at the outer side end of the first docking tray (51), a docking clamping groove is arranged at the outer side end of the second docking tray (52), and a sealing gasket (8) is arranged in the docking clamping groove, and the docking clamping table is matched with the docking clamping groove.

6. The vehicle-mounted high-pressure fracturing manifold capable of being quickly abutted according to claim 1, wherein sealing grooves are symmetrically formed in abutting surfaces of the first abutting disc (51) and the second abutting disc (52), and sealing rings (7) are installed in a matched mode.

Images