CN113442082B - Pipeline installation equipment for constructional engineering and application method thereof - Google Patents

Abstract

The invention discloses a pipeline installation device for construction engineering and a use method thereof, comprising a machine body, wherein the machine body is provided with a first space with an upward opening, a clamping mechanism for pipeline connection is arranged in the first space, the clamping mechanism comprises a first hydraulic cylinder fixedly arranged on the rear side wall of the first space, and an electromagnetic slideway is fixedly arranged at the telescopic end of the first hydraulic cylinder. The invention can effectively connect two pipelines, ensures the flatness of the connecting ports of the pipelines, thereby avoiding the connection dislocation caused by the uneven positions of the connecting ports during connection, so that the pipeline is in dripping leakage, the waste cost is greatly increased, the connection dislocation of the pipelines is prevented, the center alignment rate of the two pipelines is greatly increased, the water loss of the concrete of the connecting ports of the pipelines is greatly reduced, and the quality of the concrete is reduced.

Description

Pipeline installation equipment for constructional engineering and application method thereof

Technical Field

The invention relates to the field of building, in particular to a pipeline installation device and a pipeline installation method for building engineering.

Background

The construction engineering is an engineering entity formed by the construction of various auxiliary facilities and the installation activities of lines, pipelines and equipment matched with the construction engineering, but the installation of the construction engineering pipelines still has more problems at present, wherein the transportation of concrete is obvious;

the concrete conveying pipe is through the delivery pump with the position that needs of concrete transportation, because the transfer line is longer, consequently, in the in-process that carries out the concrete transportation of longer distance, need splice multistage transfer line in proper order, thereby form the concrete conveying pipeline of longer distance, transfer line is the stereoplasm pipeline, in the in-process that carries out being connected between adjacent pipeline and the pipeline, traditional all utilize the retaining member to connect, this also causes two connecting tube to produce the dislocation very easily, thereby make the junction take place to drip and leak and make concrete moisture loss, cause concrete quality to descend, and the roughness of pipeline connector department can't be guaranteed to current junction equipment, thereby make the gap between junction and the connecting member, thereby take place to drip and leak, make waste cost improve greatly.

Disclosure of Invention

The invention aims to provide a pipeline installation device for constructional engineering and a use method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the pipeline installation equipment for the building engineering and the application method thereof comprise a machine body, wherein a first space with an upward opening is arranged in the machine body, a clamping mechanism for pipeline connection is arranged in the first space, the clamping mechanism comprises a first hydraulic cylinder fixedly arranged on the rear side wall of the first space, an electromagnetic slideway is fixedly arranged at the telescopic end of the first hydraulic cylinder, the electromagnetic slideway is in sliding connection with the lower side wall of the first space, a locking motor is fixedly arranged at the front end surface of the electromagnetic slideway, a locking rotating shaft is fixedly arranged at the output end of the locking motor, an electromagnetic slider is sleeved on the locking rotating shaft, the electromagnetic slider is in sliding connection with the front end surface of the electromagnetic slideway, a power turntable is fixedly sleeved on the locking rotating shaft, four abutting cylinders are fixedly arranged on the upper end surface of the power turntable, the four abutting cylinders are distributed equidistantly, a connecting rotating shaft is arranged on the lower side of the locking rotating shaft, a universal joint is connected between the connecting rotating shaft and the locking rotating shaft, a magnetic force impact lock is fixedly arranged on the lower end surface of the connecting rotating shaft, the left side wall and the right side wall of the first space are respectively communicated with a hydraulic space, a hydraulic ram is respectively arranged in the two space, a compression block is correspondingly arranged in the right side of the first space and corresponds to each hydraulic ram respectively, a compression block is respectively arranged in the corresponding space, each compression block is respectively arranged in the right side of the first space, and the compression block is correspondingly arranged in the corresponding space, each compression block is respectively, and the compression block respectively runs through the two hydraulic ram respectively, and the compression block respectively has a compression block respectively, and the compression block respectively has a compression block, and each compression block is respectively. Every striking slide bar rear end face has set firmly respectively and has connected the slide, every connect the slide respectively with the correspondence extrusion piece rear end face sliding connection, every connect the slide up end and set firmly the butt piece respectively, every be equipped with open-ended butt space in the butt piece respectively, the lateral wall runs through the intercommunication has the space of running through about the first space, first space left and right sides with first space central line is provided with the second space respectively as the symmetry center, every be equipped with respectively in the second space and be used for the abluent desilting mechanism of concrete pipeline interface, every be equipped with respectively in the desilting mechanism and be used for the moist humidification subassembly of pipeline surface.

Preferably, each mud removing mechanism comprises a cleaning box body rotatably connected and installed on the side wall of each second space far away from the central line direction of the machine body, two T-shaped sliding blocks are respectively fixedly arranged on the end face of each cleaning box body far away from the central line direction of the machine body, the corresponding two T-shaped sliding blocks are respectively distributed symmetrically up and down, each T-shaped sliding block is respectively connected with the corresponding side wall of the second space in a sliding manner, a first flow passage penetrating left and right is respectively arranged in each cleaning box body, each first flow passage is in a horn shape, each first flow passage is communicated with the penetrating space, the upper side wall and the lower side wall of each first flow passage are respectively communicated with a brushing space, the side wall of each brushing space far away from the central line direction of the corresponding first flow passage is respectively connected with a fixed cylinder in a sliding manner, a fixed cylinder cavity is respectively arranged in each fixed cylinder, a brushing fixed block is respectively and fixedly arranged on the end surface of each fixed cylinder in the direction close to the central line of the first flow channel, a return spring is connected between each brushing fixed block and the corresponding side wall of the brushing space in the direction far away from the central line of the first flow channel, a brushing block is respectively and slidingly connected on the end surface of each brushing fixed block in the direction close to the central line of the first flow channel, a hard brush is respectively arranged on the end surface of each brushing block in the direction close to the central line of the first flow channel, a sliding connecting rod is respectively and fixedly arranged on the end surface of each brushing block in the direction far away from the central line of the first flow channel, each sliding connecting rod penetrates into a solid column cavity respectively, each sliding connecting rod is respectively and slidingly connected with the corresponding brushing fixed block, and other springs are connected between each sliding connecting rod and the inner side wall of the corresponding solid column cavity respectively, and a third space is respectively arranged on one side of each brushing space, which is far away from the direction of the central line of the first flow channel, a brushing slide rod is respectively and slidably connected with the side wall of each third space, which is far away from the direction of the central line of the machine body, and each brushing slide rod is respectively and fixedly connected with the corresponding sliding connecting rod.

Preferably, each second space is close to the side wall of the machine body in the direction of the central line, each fluctuation block is annular, and each fluctuation block is close to the corresponding cleaning box body end face, is respectively in a fluctuation corrugated shape and can be abutted against the corresponding brushing sliding rod.

Preferably, each humidifying component comprises a second flow passage arranged on one side, far away from the central line direction of the machine body, of each scrubbing space, each second flow passage is far away from the corresponding side wall, in the central line direction, of the corresponding first flow passage, each second flow passage is respectively communicated with an inclined flow passage, each inclined flow passage is respectively fixedly provided with a water storage block, each water storage block is respectively provided with a water storage space, each water storage space is respectively communicated with the corresponding second flow passage, and each water storage space is respectively provided with a water injection switch opening.

Preferably, each upper side wall of the abutting space is in an arc wave shape, and each upper side wall of the abutting space can be respectively connected with the corresponding abutting cylinder in a sliding manner.

Preferably, each lower side wall of the second space is in an inverted triangle inclined shape, two lower side walls of the second space are respectively communicated with a collecting space, a movable base is arranged on the lower side of the machine body, a hydraulic press is connected between the upper end face of the movable base and the lower end face of the machine body, and four driving wheels are arranged on the lower end face of the movable base.

Preferably, each cleaning box body is fixedly sleeved with a driven gear, each second space upper side is provided with a power space, each power space is far away from the side wall of the machine body in the direction of the central line, a power motor is fixedly arranged on each power motor output end, a power rotating shaft is fixedly sleeved with a power gear, and each power gear is meshed with the corresponding second space.

In addition, the invention also provides a pipeline installation device for construction engineering and a use method thereof, comprising the following steps:

s1: and driving the movable base to a position where the pipeline is required to be connected, adjusting the hydraulic press to enable the machine body to be located at a proper height, adding water into each water storage space, and simultaneously placing the cross fastener into the first space. 0014] S2: starting two power motors, wherein the starting rotating speed of each power motor is 100r/min and gradually increases to 250r/min, and two pipelines to be connected are inserted into the penetrating space.

S3: after the two second hydraulic cylinders are started to extend and compress, the first hydraulic cylinder is started to push out the electromagnetic slide way, so that the electromagnetic slide way is abutted to the cross fastener.

S4: and starting the locking motor, wherein the starting rotating speed of the locking motor is 90r/min, and when the electromagnetic sliding block starts to move downwards, the rotating speed of the locking motor is 30r/min, and the locking motor is closed after locking.

S4: and closing the two power motors.

In summary, the invention has the beneficial effects that:

1. The invention can effectively connect two pipelines, ensures the smoothness of the pipeline connection port without ensuring the smoothness of the pipeline connection port, thereby avoiding connection dislocation caused by uneven connection port position during connection, causing pipeline to drip and greatly improving waste cost.

2. The pipeline connecting port is vibrated when two pipelines are locked, so that the periphery of the pipeline is knocked while the two pipelines are locked, the pipeline connection is more compact, the dislocation of the pipeline connection is prevented, the center alignment rate of the two pipelines is greatly improved, the quality of the pipeline connection is effectively improved, the water loss of concrete of the pipeline connecting port is greatly reduced, and the quality of the concrete is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the invention, and that other drawings can be obtained from these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a front view in full section of a pipe installation apparatus for construction engineering and a method of using the same according to the present invention;

FIG. 2 is a schematic cross-sectional view of the structure of FIG. 1 at A-A in accordance with the present invention;

FIG. 3 is an enlarged schematic view of a portion of the invention at B in FIG. 1;

Fig. 4 is an enlarged partial schematic view of fig. 1 at C in accordance with the present invention.

The index marks in the drawings are as follows: 10. a body; 11. a power motor; 12. a power rotating shaft; 13. a power space; 14. a power gear; 15. a second space; 16. a driven gear; 17. cleaning the box body; 18. a first flow passage; 19. penetrating the space; 20. a collection space; 21. a hydraulic press; 22. a second hydraulic cylinder; 23. a hydraulic space; 24. striking the slide bar; 25. a slide bar space; 26. a traffic space; 27. a first space; 28. locking a motor; 29. locking the rotating shaft; 30. an electromagnetic slide block; 31. a universal joint; 32. the connecting rotating shaft; 33. a magnetic lock; 34. an electromagnetic slideway; 35. a first hydraulic cylinder; 36. a power turntable; 37. abutting the cylinder; 38. an abutting space; 39. an abutment block; 0. the connecting slide plate; 41. a third space; 42. washing the sliding rod; 43. a wave block; 44. a sliding connecting rod; 45. a column fixing cavity; 46. a fixed cylinder; 47. a washing space; 48. a brushing fixed block; 49. a brushing block; 50. a second flow passage; 51. obliquely circulating; 52. a water storage block; 53. a water storage space; 54. a T-shaped slider; 55. extruding a block; 56. the base is moved.

Detailed Description

All of the features disclosed in this specification, or all of the steps in a method or process disclosed, may be combined in any combination, except for mutually exclusive features and/or steps.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise. That is, each feature is one example only of a generic series of equivalent or similar features, unless expressly stated otherwise.

The invention will now be described in detail with reference to fig. 1-4, wherein for convenience of description, the orientations described below are now defined as follows: the vertical, horizontal, vertical, front-to-back directions described below are the same as the vertical, horizontal, vertical, and horizontal directions of the view of fig. 1. Fig. 1 is a front view of the device of the present invention, and the direction of fig. 1 is the same as the vertical, horizontal, vertical, front-to-back, horizontal, and horizontal directions of the device of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is provided: a pipeline installation device for construction engineering and a using method thereof, the pipeline installation device comprises a machine body 10, a first space 27 with an upward opening is arranged in the machine body 10, a clamping mechanism for pipeline connection is arranged in the first space 27, the clamping mechanism comprises a first hydraulic cylinder 35 fixedly arranged on the rear side wall of the first space 27, an electromagnetic slide 34 is fixedly arranged at the telescopic end of the first hydraulic cylinder 35, the electromagnetic slide 34 is in sliding connection with the lower side wall of the first space 27, a locking motor 28 is fixedly arranged on the front end surface of the electromagnetic slide 34, a locking rotating shaft 29 is fixedly arranged at the output end of the locking motor 28, an electromagnetic slide 30 is sleeved on the locking rotating shaft 29, the electromagnetic slide 30 is in sliding connection with the front end surface of the electromagnetic slide 34, a power turntable 36 is fixedly sleeved on the locking rotating shaft 29, four abutting cylinders 37 are distributed at equal intervals, a connecting rotating shaft 32 is arranged on the lower side of the locking rotating shaft 29, a universal joint 31 is connected between the connecting rotating shaft 32 and the locking rotating shaft 29, a magnetic force impact block 32 is fixedly arranged on the lower end surface of the connecting rotating shaft 32, a hydraulic ram 25 is fixedly arranged in the right side wall of the space 25, a hydraulic ram 25 is respectively arranged in the corresponding to the two spaces 25, a hydraulic ram 25 is respectively arranged in the two spaces 25 respectively, a hydraulic ram 25 is respectively and is respectively extended in the two spaces 25, a corresponding space 25, a hydraulic ram 25 is respectively, and a hydraulic ram 25 is respectively extended in the two spaces 25, and a space 25 is respectively extended, and a space is respectively extended, compression springs are connected between the upper end face of each impact sliding rod 24 and the upper side wall of the corresponding sliding rod space 25, a connecting sliding plate 40 is fixedly arranged on the rear end face of each impact sliding rod 24, each connecting sliding plate 40 is slidably connected with the rear end face of the corresponding extrusion block 55, an abutting block 39 is fixedly arranged on the upper end face of each connecting sliding plate 40, an open abutting space 38 is respectively arranged in each abutting block 39, the left side wall and the right side wall of the first space 27 are communicated with each other in a penetrating mode, a second space 15 is respectively arranged on the left side and the right side of the first space 27 by taking the central line of the first space 27 as a symmetrical center, a mud removing mechanism for cleaning a concrete pipeline interface is respectively arranged in each second space 15, and a humidifying component for wetting the pipeline surface is respectively arranged in each mud removing mechanism.

In addition, in one embodiment, each mud removing mechanism comprises a cleaning box body 17 rotatably connected to a side wall of each second space 15 in a direction away from a central line of the machine body 10, two T-shaped sliding blocks 54 are respectively and fixedly arranged on end surfaces of each cleaning box body 17 in a direction away from the central line of the machine body 10, the two corresponding T-shaped sliding blocks 54 are respectively and vertically symmetrically distributed, each T-shaped sliding block 54 is respectively and slidingly connected with a side wall of the corresponding second space 15, a first flow passage 18 penetrating left and right is respectively arranged in each cleaning box body 17, each first flow passage 18 is in a horn shape, each first flow passage 18 is communicated with the penetrating space 19, a brushing space 47 is respectively communicated with upper and lower side walls of each first flow passage 18, a fixed cylinder 46 is respectively and slidingly connected with a side wall of each brushing space 47 in a direction away from the central line of the corresponding first flow passage 18, a fixed column cavity 45 is respectively arranged in each fixed column 46, a brushing fixed block 48 is respectively and fixedly arranged on the end surface of each fixed column 46 in the direction close to the central line of the first flow channel 8, a return spring is respectively connected between each brushing fixed block 48 and the corresponding side wall of the brushing space 47 in the direction away from the central line of the first flow channel 18, a brushing block 49 is respectively and slidingly connected on the end surface of each brushing fixed block 8 in the direction close to the central line of the first flow channel 18, a hard brush is respectively arranged on the end surface of each brushing block 49 in the direction close to the central line of the first flow channel 18, a sliding connecting rod 44 is respectively and fixedly arranged on the end surface of each brushing block 49 in the direction away from the central line of the first flow channel 18, each sliding connecting rod 44 respectively penetrates into the fixed column cavity 45, each sliding connecting rod 44 is respectively connected with the corresponding brushing fixed block 48 in a sliding way, and each sliding connecting rod 44 is respectively connected with the corresponding brushing fixed block

And other springs are connected between the inner side walls of the corresponding solid column cavities 45, a third space 41 is respectively arranged on one side, away from the central line direction of the first runner 18, of each brushing space 47, a brushing sliding rod 42 is respectively and slidably connected on the side wall, away from the central line direction of the machine body 10, of each third space 41, and each brushing sliding rod 42 is respectively and fixedly connected with the corresponding sliding connecting rod 44.

In addition, in one embodiment, each of the second spaces 15 is fixedly provided with a wave block 43 near a side wall of the machine body 10 in a central line direction, each wave block 43 is in a ring shape, and each wave block 43 near an end surface of the corresponding cleaning box 17 is provided in a wave shape and can be abutted against the corresponding brushing sliding rod 42.

In addition, in one embodiment, each of the humidifying assemblies includes a second flow passage 50 disposed on a side of each of the washing spaces 47 away from a central line direction of the machine body 10, each of the second flow passages 50 is respectively communicated with an inclined flow passage 51 away from a central line direction side wall of the corresponding first flow passage 8, water storage blocks 52 are respectively fixed in each of the inclined flow passages 51, water storage spaces 53 are respectively disposed in each of the water storage blocks 52, each of the water storage spaces 53 is respectively communicated with the corresponding second flow passage 50, and water injection switches are respectively disposed in each of the water storage spaces 53.

In addition, in one embodiment, the upper sidewall of each abutting space 38 is in a circular arc wave shape, and the upper sidewall of each abutting space 38 is slidably connected to the corresponding abutting cylinder 37.

In addition, in one embodiment, the lower side wall of each second space 15 is in an inverted triangle shape, the lower side walls of two second spaces 15 are respectively connected with the collecting space 20, a movable base 56 is disposed at the lower side of the machine body 10, a hydraulic press 21 is connected between the upper end surface of the movable base 56 and the lower end surface of the machine body 10, and four driving wheels are disposed at the lower end surface of the movable base 56.

In addition, in one embodiment, each cleaning box 17 is fixedly sleeved with a driven gear 16, each upper side of the second space 15 is provided with a power space 13, each side wall of the power space 13, which is far away from the central line direction of the machine body 10, is fixedly provided with a power motor 11, an output end of each power motor 11 is fixedly provided with a power rotating shaft 12, each power rotating shaft 12 is fixedly sleeved with a power gear 14, and each power gear 14 is meshed with the corresponding second space 15.

When the concrete pipes are required to be connected, the driving force of the lower end surface of the driving moving base 56 is driven to move to a working area, at the moment, the hydraulic press 21 is regulated to enable the machine body 10 to be located at a normal height, cross fasteners are put into the first space 27 from the upper side wall openings, at the moment, two concrete pipes to be connected are inserted into the penetrating space 19, simultaneously, two power motors 11 are started, so that corresponding power rotating shafts 12 are driven to rotate, corresponding power gears 14 are driven to rotate, corresponding second spaces 15 are driven to rotate, water in each water storage space 53 is sprayed out of corresponding second channels 50 when the water storage space 53 rotates to the upper side, the inserted concrete pipe surfaces are wetted, soil residues remained on the surfaces are wetted, the soil residues are loosened, at the moment, the outer end surfaces of the pipes are abutted to the end surfaces of corresponding brushing blocks 49 close to the central line direction of the first channels 18, simultaneously, the cleaning box body 17 rotates, so that the cleaning block 49 rubs the surface of the pipeline, soil and slag on the surface of the pipeline are cleaned, meanwhile, as the cleaning box body 17 rotates, the corresponding cleaning slide bar 42 is driven to rotate, the corresponding cleaning slide bar 42 slides on the end surface of the corresponding fluctuation block 43, the corresponding cleaning slide bar 42 is driven to reciprocate left and right, the corresponding sliding connecting rod 44 is driven to reciprocate left and right, the corresponding cleaning block 49 is driven to reciprocate left and right, the cleaning of soil and slag on the outer surface of the pipeline is greatly improved, the cleanliness of the pipeline connection port is ensured, the flatness of the pipeline connection port is further ensured, the connection dislocation caused by the uneven connection port position during connection is avoided, the pipeline is enabled to drip, the waste cost is greatly increased, the washed waste water of the concrete slag enters into the collecting space 20 to be collected, at this moment, two pipe connection ports are mutually abutted, at this moment, two second hydraulic cylinders 22 are started, so that two extrusion blocks 55 are pushed to be close to each other, a cross fastener is clamped, at this moment, a first hydraulic cylinder 35 is started, so that an electromagnetic slideway 34 is driven to move forward, the front end face of the electromagnetic slideway 34 is abutted to the cross fastener, at this moment, a locking motor 28 is started, so that a locking rotating shaft 29 is driven to rotate, so that a connecting rotating shaft 32 is driven to rotate, at this moment, the magnetic lock 33 is sucked into the bolt head of the cross fastener to lock the bolt, meanwhile, a power turntable 36 enters into an abutting space 38, so that an abutting cylinder 37 is abutted to the upper side wall of the abutting space 38, and the power turntable 36 is driven to reciprocate up and down, so that a connecting sliding plate 40 is driven to reciprocate up and down, so that a striking sliding rod 24 is driven to reciprocate up and down, so that the lower end face of the striking sliding rod 24 is driven to vibrate the pipe connection ports, so that around the locking is driven, so that pipe connection is more misplaced, pipe connection is prevented, pipe connection is greatly improved, pipe connection quality is greatly, pipe connection center water loss is greatly improved, pipe connection quality is greatly reduced, and pipe connection quality is greatly reduced.

The foregoing is merely illustrative of specific embodiments of the invention, and the scope of the invention is not limited thereto, but is intended to cover any variations or alternatives not contemplated by the inventors. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims (8)

1. The utility model provides a pipeline installation equipment for building engineering, includes organism (10), its characterized in that: the utility model discloses a hydraulic machine, including organism (10), be equipped with opening ascending first space (27) in organism (10), be equipped with the clamping mechanism that is used for the pipe connection in first space (27), clamping mechanism is including fixed mounting first pneumatic cylinder (35) of first space (27) back lateral wall, first pneumatic cylinder (35) telescopic end has set firmly electromagnetic slide (34), electromagnetic slide (34) with lateral wall sliding connection under first space (27), electromagnetic slide (34) front end face has set firmly locking motor (28), locking motor (28) output has set firmly locking pivot (29), it is equipped with electromagnetic slide (30) to rotate the cover on locking pivot (29), electromagnetic slide (30) with electromagnetic slide (34) front end face sliding connection, fixed cover is equipped with power carousel (36) on locking pivot (29), power carousel (36) upper end face has set firmly four butt cylinder (37) equidistance distributes, locking pivot (29) downside is provided with connection pivot (32), connection pivot (32) have between universal joint (31) and the space (23) have a left end face to connect, the magnetic force is connected between the pivot (32), the two hydraulic spaces (23) are symmetrically distributed left and right with respect to the center line of the first space (27), a second hydraulic cylinder (22) is respectively and fixedly arranged in each hydraulic space (23), a squeezing block (55) is respectively and fixedly arranged on the telescopic short of each second hydraulic cylinder (22), a sliding rod space (25) is respectively arranged in each squeezing block (55), a passing space (26) is respectively arranged on the lower side of each sliding rod space (25), an impact sliding rod (24) is respectively and slidingly connected in each sliding rod space (25), each impact sliding rod (24) respectively and downwards extends to penetrate through the corresponding passing space (26), a compression spring is connected between the upper end face of each impact sliding rod (24) and the corresponding upper side wall of the sliding rod space (25), a connecting sliding plate (40) is respectively and fixedly arranged on the rear end face of each impact sliding rod (24), an upper end face of each connecting sliding plate (40) is respectively and slidingly connected with the corresponding rear end face of the squeezing block (55), an abutting block (39) is respectively and fixedly arranged on the upper end face of each connecting sliding plate (40), a right side wall (39) is respectively and fixedly connected with the corresponding abutting space (19), the left side and the right side of the first space (27) are respectively provided with a second space (15) by taking the central line of the first space (27) as a symmetrical center, each second space (15) is respectively provided with a desilting mechanism for cleaning a concrete pipeline interface, and each desilting mechanism is respectively provided with a humidifying component for wetting the surface of the pipeline.

2. A pipe installation apparatus for construction engineering according to claim 1, wherein: each mud removing mechanism comprises a cleaning box body (17) which is rotationally connected and installed on the side wall of each second space (15) far away from the central line direction of the machine body (10), two T-shaped sliding blocks (54) are respectively and fixedly arranged on the end face of each cleaning box body (17) far away from the central line direction of the machine body (10), the corresponding two T-shaped sliding blocks (54) are respectively and symmetrically distributed up and down, each T-shaped sliding block (54) is respectively and slidingly connected with the corresponding side wall of the second space (15), a first flow passage (18) penetrating left and right is respectively arranged in each cleaning box body (17), each first flow passage (18) is in a horn shape, each first flow passage (18) is communicated with the penetrating space (19), the upper side wall and the lower side wall of each first flow passage (18) are respectively communicated with a space (47), the side wall of each brushing space (47) far away from the central line direction of the corresponding first flow passage (18) is respectively and slidingly connected with a fixed cylinder (46), each brushing space (46) is respectively and fixedly arranged in the fixed cylinder (46) near each fixed cylinder (46), a return spring is connected between each brushing fixed block (48) and the side wall of the corresponding brushing space (47) far away from the central line direction of the first flow channel (18), a brushing block (49) is connected between each brushing fixed block (48) and the end face of the corresponding brushing fixed block (18) in the central line direction in a sliding manner, a hard brush is respectively arranged on the end face of each brushing block (49) near the central line direction of the first flow channel (18), a sliding connecting rod (44) is respectively fixed on the end face of each brushing block (49) far away from the central line direction of the first flow channel (18), each sliding connecting rod (44) respectively penetrates into a fixed column cavity (45), each sliding connecting rod (44) is respectively connected with the corresponding brushing fixed block (48) in a sliding manner, other springs are respectively connected between each sliding connecting rod (44) and the inner side wall of the corresponding fixed column cavity (45), a third space (41) is respectively arranged on one side of each brushing space (47) far away from the central line direction of the first flow channel (18), and each sliding connecting rod (42) is respectively connected with each sliding rod (42) in a sliding manner.

3. A pipe installation apparatus for construction engineering according to claim 2, wherein: each second space (15) is close to the side wall of the machine body (10) in the direction of the central line, a fluctuation block (43) is fixedly arranged on the side wall of the machine body (10), each fluctuation block (43) is annular, and each fluctuation block (43) is close to the end face of the corresponding cleaning box body (17) and is in a fluctuation corrugated shape and can be abutted against the corresponding brushing sliding rod (42).

4. A pipe installation apparatus for construction engineering according to claim 2, wherein: each humidifying component comprises a second flow passage (50) arranged on one side of each brushing space (47) far away from the central line direction of the machine body (10), each second flow passage (50) is far away from the corresponding first flow passage (18), the side walls of the central line direction are respectively communicated with an inclined flow passage (51), water storage blocks (52) are respectively fixedly arranged in each inclined flow passage (51), water storage spaces (53) are respectively arranged in each water storage block (52), each water storage space (53) is respectively communicated with the corresponding second flow passage (50), and water injection openings are respectively arranged in each water storage space (53).

5. A pipe installation apparatus for construction engineering according to claim 1, wherein: the upper side wall of each abutting space (38) is in an arc wavy shape, and the upper side wall of each abutting space (38) can be respectively connected with the corresponding abutting cylinder (37) in a sliding mode.

6. A pipe installation apparatus for construction according to claim 4, wherein: every lateral wall is down triangle slope form respectively under second space (15), two lateral wall communicates respectively under second space (15) has collection space (20), organism (10) downside is provided with removal base (56), remove base (56) up end with be connected with hydraulic press (21) under organism (10) between the terminal surface, the terminal surface is provided with four drive wheels under removal base (56).

7. A pipe installation apparatus for construction according to claim 6, wherein: every fixed cover is equipped with driven gear (16) on cleaning box (17) respectively, every second space (15) upside is provided with power space (13) respectively, every power space (13) are kept away from organism (10) central line direction lateral wall has set firmly power motor (11) respectively, every power motor (11) output has set firmly power pivot (12) respectively, every fixed cover is equipped with power gear (14) on power pivot (12) respectively, every power gear (14) respectively with the meshing of corresponding second space (15).

8. The method of using a pipe installation apparatus for construction engineering according to claim 7, wherein: the method comprises the following steps:

S1: driving the movable base (56) to a position where a pipeline is required to be connected, adjusting the hydraulic press (21) to enable the machine body (10) to be at a proper height, adding water into each water storage space (53) and simultaneously placing a cross fastener into the first space (27);

S2: starting two power motors (11), wherein the starting rotating speed of each power motor (11) is 100r/min and gradually increases to 250r/min, and inserting two pipelines to be connected into the penetrating space (19);

S3: after the two second hydraulic cylinders (22) are started to extend and compress, the first hydraulic cylinder (35) is started to push out the electromagnetic slide way (34), so that the electromagnetic slide way (34) is abutted to the cross fastener;

S4: starting the locking motor (28), wherein the rotating speed of the locking motor (28) is 90r/min, and when the electromagnetic sliding block (30) starts to move downwards, the rotating speed of the locking motor (28) is 30r/min, and the locking motor (28) is closed after locking;

S5: the two power motors (11) are turned off.