CN112728290A

CN112728290A - Portable pipeline water pressure check out test set

Info

Publication number: CN112728290A
Application number: CN202110070232.4A
Authority: CN
Inventors: 王伟玉
Original assignee: Shanghai Helmets Office Supplies Co ltd
Current assignee: Shanghai Helmets Office Supplies Co ltd
Priority date: 2021-01-19
Filing date: 2021-01-19
Publication date: 2021-04-30

Abstract

The invention relates to the relevant field of water pressure detection, in particular to a movable pipeline water pressure detection device which comprises a water delivery cavity, wherein the water delivery cavity is arranged in a wall body, a detection device for fixing and detecting an outer pipeline is arranged in the water delivery cavity, the detection device comprises a plurality of fixing plates fixedly connected with the upper side end wall of the water delivery cavity, inner pipelines are fixedly connected with the fixing plates, the blockage and icing conditions in a water pipe can be judged by detecting the water pressure at the two ends of each section of water pipe, when the water pipe is blocked, the water pipe can be driven to vibrate left and right, and the blockage in the water pipe is shaken off, so that the water pipe can work normally, and when the water pipe is iced, each section of water pipe can be heated in sequence, so that the ice in the water pipe is dissolved as early as possible for users to use, and further effectively dredge the pipeline; the whole course adopts machinery to dredge the pipeline, does not need manual participation, can work in the narrow space that the user is inconvenient to observe, and provides great convenience for the user.

Description

Portable pipeline water pressure check out test set

Technical Field

The invention relates to the field related to water pressure detection, in particular to a movable pipeline water pressure detection device.

Background

The water pressure detection is used for measuring burst pressure and pressure-resistant time of various types of pipe fittings and is widely applied to the fields of production, development and research of various hoses, such as quality detection units, various vehicle part manufacturing units, product quality detection stations, scientific research institutes and the like.

The household water pipe is often blocked in the using process, the blocked pipeline is difficult to clean, in addition, the pipeline is often frozen under the condition of low temperature in winter, the normal use of the pipeline is influenced, equipment capable of dredging the pipeline after the pipeline is frozen and blocked is absent at present, and the movable pipeline water pressure detection equipment is the movable pipeline water pressure detection equipment.

Disclosure of Invention

The invention aims to provide a movable pipeline water pressure detection device which can overcome the defects in the prior art, so that the practicability of the device is improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a movable pipeline water pressure detection device comprises a water delivery cavity, wherein the water delivery cavity is arranged in a wall body, a detection device for fixing and detecting an outer pipeline is arranged in the water delivery cavity, the detection device comprises a plurality of fixed plates fixedly connected to the upper side end wall of the water delivery cavity, inner pipelines are fixedly connected to the fixed plates, the outer pipeline is arranged between the inner pipelines on the left side and the right side in a sliding connection mode, a water pressure detector for detecting water pressure is fixedly connected to the inner end wall of the inner pipeline, a machine body is arranged in the water delivery cavity in a sliding connection mode, a left moving cavity and a right moving cavity are arranged in the left end wall and the right end wall of the machine body in a downward opening mode and in an outward direction, a moving device for driving the machine body to slide left and right is arranged in the moving cavities, the moving device can drive the machine body to sequentially slide below the outer pipeline, and is convenient for dredging the pipeline in the outer pipeline, a working cavity penetrating through the left end wall and the right end wall of the machine body is arranged in the end wall of the upper side of the machine body, a first transmission cavity is arranged in the bottom wall of the working cavity with an upward opening, a vibrating device for driving the machine body to vibrate is arranged in the first transmission cavity, the vibrating device comprises a bidirectional cam which is rotatably arranged in the first transmission cavity, when the outer pipeline is blocked, the bidirectional cam can intermittently drive a rotating ring fixedly connected with the outer pipeline to move left and right, the rotating ring can drive the outer pipeline to vibrate left and right, so that pipeline blocking objects in the outer pipeline are shaken and dispersed, a heating cavity is arranged in the bottom wall of the working cavity, a heating device for heating the outer pipeline is arranged in the heating cavity, the heating device comprises a heating plate which can be vertically arranged in the heating cavity, when the inner pipeline of the outer pipeline is frozen, the heating device can drive the heating plate to upwards contact with the lower side end wall of the outer pipeline, heat is generated in the heating plate and heats the outer pipeline, ice in the outer pipeline is melted at an accelerated speed, and therefore the outer pipeline is dredged, and finally the mobile pipeline water pressure detection equipment is designed.

Further, detection device include the outer pipeline about both ends with fixed connection's the first spring that is equipped with between the fixed plate, the opening is equipped with first smooth chamber downwards in the fixed plate downside end wall, fixed connection's on the first smooth chamber roof is equipped with first electromagnetic switch, sliding connection's in the first smooth chamber is equipped with first slide bar, first slide bar lower extreme fixed connection be equipped with first ejector pad, first ejector pad with fixed connection's between the fixed plate downside end wall is equipped with the second spring, fixed connection's on the first slide bar upside end wall be equipped with first magnet.

Furthermore, the moving device comprises a second transmission cavity arranged at the lower side of the heating cavity, a first rotating shaft is arranged between the left moving cavity and the second transmission cavity in a rotating and sliding connection mode, the first rotating shaft is fixedly connected with a first bevel gear in the moving cavity, a second rotating shaft is arranged between the moving cavity and the second transmission cavity on the right side in a rotating and sliding connection mode, a second bevel gear is fixedly connected in the moving cavity, a third rotating shaft is arranged on the rear side end wall of the moving cavity in a rotating and connecting mode, a moving wheel and a third bevel gear are fixedly connected on the third rotating shaft, the third bevel gears on the left side and the right side are respectively meshed with the second bevel gear and the first bevel gear, the lower end of the moving wheel is in contact with the water delivery cavity, and a first shaft sleeve is arranged in the second transmission cavity, the left opening of the inner end wall of the left side of the first shaft sleeve is provided with a third transmission cavity, the end wall of the third transmission cavity is fixedly connected with a first spline sleeve, the right side of the third transmission cavity is provided with a fourth transmission cavity, the fourth transmission cavity is internally provided with a first sliding block in a sliding connection manner, a third spring is fixedly connected between the first sliding block and the right end wall of the fourth transmission cavity, the outer end wall of the first shaft sleeve is provided with a second shaft sleeve in a sliding connection manner, a connecting rod is fixedly connected between the second shaft sleeve and the first sliding block, the fourth bevel gear is fixedly connected with a fourth bevel gear, and a spring seat is rotationally connected with the right end wall of the third transmission cavity, the spring holder with fixed connection between the first spur gear is equipped with the fourth spring, be equipped with the fifth transmission chamber in the first axle sleeve right side end wall, fixed connection's the second spline cover that is equipped with on the fifth transmission chamber end wall, the second pivot is in fifth transmission intracavity fixed connection be equipped with the spline wheel of second spline cover splined connection, fixed connection's on the first axle sleeve is equipped with the third spur gear, fixed connection's in the second transmission chamber right side end wall is equipped with the motor, motor left end power connection be equipped with the motor shaft, fixed connection be equipped with on the motor shaft with third spur gear meshed fourth spur gear.

Furthermore, the vibrating device comprises a left sixth transmission cavity and a right sixth transmission cavity which are arranged in the bottom wall of the working cavity and provided with upward and outward openings, a seventh transmission cavity is arranged on the inner side of the sixth transmission cavity, a second slide rod is arranged between the seventh transmission cavity and the sixth transmission cavity in a sliding connection manner, a second push block is fixedly connected in the sixth transmission cavity and provided with a second push block, a fifth spring is fixedly connected between the second push block and the inner side end wall of the sixth transmission cavity, a first rack is fixedly connected on the lower side end wall of the second slide rod in the seventh transmission cavity, a fourth rotating shaft is rotatably connected on the rear side end wall of the seventh transmission cavity, a fifth bevel gear and a fifth straight gear are fixedly connected on the fourth rotating shaft, the fifth straight gear is meshed with the first rack, a second sliding cavity is arranged on the lower side of the seventh transmission cavity, a fifth rotating shaft is arranged between the second sliding cavity and the seventh transmission cavity in a rotating connection manner, the fifth rotating shaft is fixedly connected in the seventh transmission cavity and provided with a sixth bevel gear meshed with the fifth bevel gear, the fifth rotating shaft is fixedly connected in the second sliding cavity and provided with a sixth straight gear, the first rotating shaft and the second rotating shaft are arranged in the second sliding cavity in a rotating connection manner and provided with a second sliding block which is symmetrical left and right, the upper end of the second sliding block is fixedly connected with a second rack meshed with the sixth straight gear, the right side of the second sliding cavity on the left side is provided with an eighth transmission cavity, the eighth transmission cavity is rotatably connected with the first transmission cavity and provided with a sixth rotating shaft, the sixth rotating shaft is fixedly connected in the eighth transmission cavity and provided with a seventh bevel gear, and an upward opening is arranged in the end wall on the upper side of the sixth rotating shaft, fixed connection is equipped with second electromagnetic switch on the sliding shaft diapire, sliding connection's in the sliding shaft is equipped with the third slide bar, third slide bar lower extreme fixed connection be equipped with the second magnet, third slide bar upper end fixed connection be equipped with the bidirectional cam, the bidirectional cam with fixed connection is equipped with the sixth spring between the side end wall on the sixth pivot, the second transmission chamber with rotate between the eighth transmission chamber and be equipped with the seventh pivot, the seventh pivot is in fixed connection is equipped with in the second sliding chamber with seventh bevel gear meshed's eighth bevel gear, the seventh pivot is in second transmission intracavity fixed connection be equipped with the seventh straight-tooth gear.

Further, heating device includes two ninth transmission chambeies of the left and right sides that heating chamber downside was equipped with, ninth transmission chamber with rotate between the heating chamber being equipped with the screw thread axle of connecting, the screw thread axle is in ninth transmission intracavity fixed connection's the first belt pulley that is equipped with, the screw thread axle is in heating chamber internal thread connection's the thread bush that is equipped with, the thread bush upper end is rotated and is connected and is equipped with the hot plate, what rotate to connect on the side end wall of second transmission chamber is equipped with the eighth pivot, fixed connection is equipped with second belt pulley and ninth bevel gear in the eighth pivot, the second belt pulley with there is belt drive to connect on the first belt pulley.

The invention has the beneficial effects that: a portable pipeline water pressure check out test set, can judge the blocking and icing situation in the water pipe by detecting the water pressure of both ends of each section of water pipe, when the water pipe is blocked, can drive the water pipe to shake from side to side, make the blocking thing in the water pipe shake and disperse, thus make the water pipe work normally, when icing in the water pipe, can heat each section of water pipe sequentially, make the ice in the water pipe open as early as possible, for users to use, thus dredge the pipeline effectively; the whole course adopts machinery to dredge the pipeline, does not need manual participation, can work in the narrow space that the user is inconvenient to observe, and provides great convenience for the user.

Drawings

For ease of illustration, the invention is described in detail by the following specific examples and figures.

Fig. 1 is a schematic overall structure diagram of a mobile pipeline water pressure detection device according to the present invention;

FIG. 2 is an enlarged view of the structure at "A" in FIG. 1;

FIG. 3 is an enlarged view of the structure at "B" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" of FIG. 1;

FIG. 5 is a schematic view of the structure in the direction "D-D" of FIG. 2;

FIG. 6 is a schematic view of the structure in the direction "E-E" of FIG. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1 to 6, for the sake of convenience of description, the following orientations are now defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a movable pipeline water pressure detection device, which is mainly applied to pipeline water pressure detection, and the invention is further explained by combining the attached drawings of the invention.

The invention relates to a movable pipeline water pressure detection device, which comprises a water delivery cavity 10, wherein the water delivery cavity 10 is arranged in a wall body, a detection device 991 for fixing and detecting an outer pipeline 12 is arranged in the water delivery cavity 10, the detection device 991 comprises a plurality of fixed plates 11 fixedly connected with the upper side end wall of the water delivery cavity 10, inner pipelines 14 are fixedly connected with the fixed plates 11, the outer pipeline 12 is arranged between the inner pipelines 14 on the left side and the right side in a sliding connection manner, a water pressure detector 49 for detecting water pressure is fixedly connected in the end wall of the inner pipeline 14, a machine body 85 is arranged in the water delivery cavity 10 in a sliding connection manner, a left movable cavity 27 and a right movable cavity 27 are arranged in the left end wall and the right end wall of the machine body 85 in a downward and outward manner, a moving device 992 for driving the machine body 85 to slide left and right is arranged in the movable cavity 27, the moving device 992 can drive the machine body 85 to sequentially slide below the outer pipeline 12, it is convenient the organism 85 is right pipeline in the outer pipeline 12 is dredged, be equipped with in the side end wall on organism 85 and run through the working chamber 86 of end wall about the organism 85, the ascending first transmission chamber 53 that is equipped with of opening in the working chamber 86 diapire, be equipped with in the first transmission chamber 53 and be used for driving vibrating device 993 of organism 85 vibration, vibrating device 993 includes rotatable two-way cam 52 that is equipped with in the first transmission chamber 53, when taking place to block up in the outer pipeline 12, but two-way cam 52 intermittent type nature drive the swivel ring 51 that fixed connection was equipped with on the outer pipeline 12 controls, swivel ring 51 can drive outer pipeline 12 controls the vibration, thereby makes the pipeline blockage in the outer pipeline 12 is shaken and is scattered, be equipped with heating chamber 19 in the working chamber 86 diapire, be equipped with in the heating chamber 19 and be used for heating device 994 of outer pipeline 12, the heating device 994 comprises a heating plate 22 which can be arranged in the heating cavity 19 up and down, when the pipeline in the outer pipeline 12 is frozen, the heating device 994 can drive the heating plate 22 to move upwards and contact with the lower side end wall of the outer pipeline 12, heat is generated in the heating plate 22 and heats the outer pipeline 12, so that ice in the outer pipeline 12 is melted at an accelerated speed, the outer pipeline 12 is dredged, and finally the mobile pipeline water pressure detection equipment is realized.

Beneficially, detection device 991 includes outer pipe 12 about both ends and fixed connection's the first spring 13 that is equipped with between fixed plate 11, the opening is decurrent in the lower side end wall of fixed plate 11 is equipped with first smooth chamber 50, fixed connection's on the first smooth chamber 50 roof is equipped with first electromagnetic switch 48, sliding connection's in first smooth chamber 50 is equipped with first slide bar 16, first slide bar 16 lower extreme fixed connection's be equipped with first ejector pad 15, first ejector pad 15 with fixed connection's between the lower side end wall of fixed plate 11 is equipped with second spring 88, fixed connection's be equipped with first magnet 47 on the upper side end wall of first slide bar 16.

Advantageously, the moving device 992 comprises a second transmission chamber 39 arranged at the lower side of the heating chamber 19, a first rotating shaft 38 is arranged between the moving chamber 27 and the second transmission chamber 39 at the left side in a rotating and sliding connection manner, the first rotating shaft 38 is fixedly connected with a first bevel gear 89 arranged in the moving chamber 27, a second rotating shaft 40 is arranged between the moving chamber 27 and the second transmission chamber 39 at the right side in a rotating and sliding connection manner, the second rotating shaft 40 is fixedly connected with a second bevel gear 29 arranged in the moving chamber 27, a third rotating shaft 87 is arranged on the rear end wall of the moving chamber 27 in a rotating connection manner, a moving wheel 28 and a third bevel gear 90 are arranged on the third rotating shaft 87 in a fixed connection manner, the third bevel gears 90 at the left side and the right side are respectively engaged with the second bevel gear 29 and the first bevel gear 89, the lower end of the moving wheel 28 is in contact with the water delivery chamber 10, the inner side of the second transmission cavity 39 is provided with a first shaft sleeve 91, the left opening of the left end wall of the first shaft sleeve 91 is provided with a third transmission cavity 78, the end wall of the third transmission cavity 78 is fixedly connected with a first spline sleeve 77, the first transmission cavity 78 is internally fixedly connected with a first straight gear 76 in splined connection with the first spline sleeve 77, the first transmission cavity 38 is internally fixedly connected with a second straight gear 75 in the second transmission cavity 39, the right side of the third transmission cavity 78 is provided with a fourth transmission cavity 83, the fourth transmission cavity 83 is internally and slidably connected with a first sliding block 81, the first sliding block 81 is fixedly connected with the right end wall of the fourth transmission cavity 83, the outer end wall of the first shaft sleeve 91 is provided with a second shaft sleeve 73, the second shaft sleeve 73 is fixedly connected with the first sliding block 81 and is provided with a connecting rod 84, the fourth bevel gear 72 is fixedly connected with the fourth bevel gear 72, a spring seat 80 is rotatably connected with the right end wall of the third transmission cavity 78, a fourth spring 79 is fixedly connected between the spring seat 80 and the first straight gear 76, a fifth transmission cavity 70 is arranged in the end wall of the right side of the first shaft sleeve 91, a second spline sleeve 69 is fixedly connected to the end wall of the fifth transmission cavity 70, the second rotating shaft 40 is fixedly connected in the fifth transmission cavity 70 and is provided with a spline wheel 68 in spline connection with the second spline sleeve 69, a third straight gear 71 is fixedly connected on the first shaft sleeve 91, a motor 65 is fixedly connected in the end wall of the right side of the second transmission cavity 39, the left end of the motor 65 is provided with a motor shaft 66 in a power connection mode, and the motor shaft 66 is fixedly connected with a fourth straight gear 67 meshed with the third straight gear 71.

Beneficially, the vibration device 993 includes two left and right sixth transmission cavities 17 with upward and outward openings in the bottom wall of the working cavity 86, a seventh transmission cavity 25 is disposed inside the sixth transmission cavity 17, a second slide rod 24 is disposed between the seventh transmission cavity 25 and the sixth transmission cavity 17 in a sliding connection manner, the second slide rod 24 is disposed inside the sixth transmission cavity 17 and fixedly connected to a second push block 18, a fifth spring 44 is disposed between the second push block 18 and the end wall inside the sixth transmission cavity 17 in a sliding connection manner, the second slide rod 24 is disposed inside the seventh transmission cavity 25 and fixedly connected to a lower end wall thereof and provided with a first rack 45, a fourth rotation shaft 61 is rotatably connected to a rear end wall of the seventh transmission cavity 25, a fifth bevel gear 59 and a fifth spur gear 60 are disposed on the fourth rotation shaft 61, the fifth spur gear 60 is engaged with the first rack 45, a second sliding cavity 33 is arranged on the lower side of the seventh transmission cavity 25, a fifth rotating shaft 26 is arranged between the second sliding cavity 33 and the seventh transmission cavity 25 in a rotating connection manner, the fifth rotating shaft 26 is fixedly connected in the seventh transmission cavity 25 and is provided with a sixth bevel gear 46 meshed with a fifth bevel gear 59, the fifth rotating shaft 26 is fixedly connected in the second sliding cavity 33 and is provided with a sixth straight gear 31, the first rotating shaft 38 and the second rotating shaft 40 are arranged in the second sliding cavity 33 in a rotating connection manner and are provided with a left second sliding block 30 and a right second sliding block 30 which are symmetrical, the upper end of the second sliding block 30 is fixedly connected and is provided with a second rack 32 meshed with the sixth straight gear 31, the right side of the second sliding cavity 33 on the left side is provided with an eighth transmission cavity 34, a sixth rotating shaft 92 is arranged between the eighth transmission cavity 34 and the first transmission cavity 53 in a rotating connection manner, and a seventh bevel gear 35 is fixedly connected in the eighth transmission cavity 34 by the sixth rotating shaft 92, the opening upwards is equipped with the slide shaft 58 in the side end wall of sixth pivot 92 upside, fixed connection is equipped with second electromagnetic switch 57 on the slide shaft 58 diapire, sliding connection's in slide shaft 58 is equipped with third slide bar 55, third slide bar 55 lower extreme fixed connection is equipped with second magnet 56, third slide bar 55 upper end fixed connection be equipped with two-way cam 52, two-way cam 52 with fixed connection is equipped with sixth spring 54 between the side end wall of sixth pivot 92 upside, second transmission chamber 39 with rotate between the eighth transmission chamber 34 and be equipped with seventh pivot 37, seventh pivot 37 be in fixed connection be equipped with in the second slide chamber 33 with seventh bevel gear 35 meshed eighth bevel gear 36, seventh pivot 37 be in fixed connection be equipped with seventh straight-tooth gear 74 in the second transmission chamber 39.

Beneficially, heating device 994 includes two ninth transmission chamber 41 about heating chamber 19 downside is equipped with, ninth transmission chamber 41 with rotate between the heating chamber 19 and be equipped with screw thread shaft 21 of connection, screw thread shaft 21 is in fixed connection is equipped with first belt pulley 42 in the ninth transmission chamber 41, screw thread shaft 21 is in heating chamber 19 internal thread connection be equipped with thread bush 20, the upper end of thread bush 20 is rotated and is connected and be equipped with hot plate 22, be equipped with eighth pivot 63 on the side end wall of second transmission chamber 39, fixed connection is equipped with second belt pulley 62 and ninth bevel gear 64 on the eighth pivot 63, second belt pulley 62 with there is belt 43 drive connection on the first belt pulley 42.

The following describes in detail the use steps of a mobile pipeline water pressure detection device in the present disclosure with reference to fig. 1 to 6:

initially, the second electromagnetic switch 57 is turned on, the second electromagnetic switch 57 attracts the second magnet 56, and the sixth spring 54 is compressed.

The motor 65 is started, the motor 65 drives the motor shaft 66 to rotate, the motor shaft 66 drives the fourth spur gear 67 to rotate, the fourth spur gear 67 drives the third spur gear 71 to rotate, the third spur gear 71 drives the first shaft sleeve 91 to rotate, the first shaft sleeve 91 drives the second spline sleeve 69 and the first spline sleeve 77 to rotate, the second spline sleeve 69 drives the spline wheel 68 to rotate, the spline wheel 68 drives the second rotating shaft 40 to rotate, the second rotating shaft 40 drives the second bevel gear 29 to rotate, meanwhile, the first spline sleeve 77 drives the first spur gear 76 to rotate, the first spur gear 76 drives the first rotating shaft 38 to rotate, the first rotating shaft 38 drives the first bevel gear 89 to rotate, and the first bevel gear 89 and the second bevel gear 29 drive the third bevel gear 90 to rotate, the third bevel gear 90 drives the third rotating shaft 87 to rotate, the third rotating shaft 87 drives the moving wheel 28 to rotate, and the moving wheel 28 drives the machine body 85 to slide leftwards to a position right below the outer pipeline 12.

The water pressure detector 49 detects the water pressure in the inner pipe 14, when the water pressure in the inner pipe 14 is low, the inner pipe 14 can control the first electromagnetic switch 48 to be turned on, the first electromagnetic switch 48 repels the first magnet 47 and drives the first magnet 47 to move downward, the first magnet 47 drives the first sliding rod 16 to move downward, and the first sliding rod 16 drives the first push block 15 to move downward.

When the outer pipeline 12 is blocked, the first pushing block 15 on the left side moves downwards, the first pushing block 15 drives the second pushing block 18 on the left side to move rightwards, the second pushing block 18 drives the second sliding rod 24 to move rightwards, the second sliding rod 24 drives the first rack 45 to move rightwards, the first rack 45 drives the fifth straight gear 60 to rotate, the fifth straight gear 60 drives the fourth rotating shaft 61 to rotate, the fourth rotating shaft 61 drives the fifth bevel gear 59 to rotate, the fifth bevel gear 59 drives the sixth bevel gear 46 to rotate, the sixth bevel gear 46 drives the fifth rotating shaft 26 to rotate, the fifth rotating shaft 26 drives the second rack 32 to move rightwards, the second sliding block 30 drives the first rotating shaft 38 to move rightwards, and the first rotating shaft 38 drives the first bevel gear 89 to move rightwards, The second spur gear 75 and the fourth spring 79 move rightwards, the fourth spring 79 drives the spring seat 80 to move rightwards, the spring seat 80 drives the first shaft sleeve 91 to move rightwards, the first shaft sleeve 91 drives the second spline sleeve 69 to move rightwards, the second spline sleeve 69 is separated from the spline wheel 68, the spline wheel 68 is contacted with the left end wall of the fifth transmission cavity 70, then the fourth spring 79 compresses, meanwhile, the second spur gear 75 is meshed with the seventh spur gear 74, the first bevel gear 89 is separated from the third bevel gear 90, the second spur gear 75 drives the seventh spur gear 74 to rotate, the seventh spur gear 74 drives the seventh rotating shaft 37 to rotate, the seventh rotating shaft 37 drives the eighth bevel gear 36 to rotate, and the eighth bevel gear 36 drives the seventh bevel gear 35 to rotate, the seventh bevel gear 35 drives the sixth rotating shaft 92 to rotate, the sixth rotating shaft 92 drives the third sliding rod 55 to rotate, the third sliding rod 55 drives the bidirectional cam 52 to rotate, the second electromagnetic switch 57 is turned off, the sixth spring 54 pushes the bidirectional cam 52 to move upwards, the bidirectional cam 52 intermittently contacts with the rotating ring 51, the bidirectional cam 52 drives the rotating ring 51 to move leftwards, the rotating ring 51 drives the outer pipe 12 to move leftwards, the first spring 13 pushes the outer pipe 12 to move rightwards to return to the initial position after the bidirectional cam 52 and the rotating ring 51 are disengaged, the outer pipe 12 vibrates and enables blockages in the outer pipe 12 to be scattered, and after dredging is completed, the water pressure detected by the water pressure detector 49 is normal and controls the first electromagnetic switch 48 to be turned off, the second spring 88 pulls the first pushing block 15 to move back to the initial position, the fifth spring 44 pushes the second pushing block 18 to slide leftward, the second pushing block 18 drives the left second sliding block 30 to slide leftward, the first bevel gear 89 and the third bevel gear 90 are in contact again, and the machine body 85 continues to move leftward.

When the outer pipe 12 is frozen, the first push blocks 15 on the left and right sides move downward at the same time, the second push block 18 moves toward the side close to each other, the second slide blocks 30 on the left and right sides slide rightward, the second slide block 30 on the right side drives the second rotating shaft 40 to move rightward, the second rotating shaft 40 drives the second bevel gear 29 to move rightward, the second bevel gear 29 is separated from the third bevel gear 90, the first shaft sleeve 91 drives the third spring 82 to move rightward, the third spring 82 drives the first slide block 81 to move rightward, the first slide block 81 drives the connecting rod 84 to move rightward, the connecting rod 84 drives the second shaft sleeve 73 to move rightward, the second shaft sleeve 73 drives the fourth bevel gear 72 to move rightward, the fourth bevel gear 72 is engaged with the ninth bevel gear 64, and the first shaft sleeve 91 drives the second shaft sleeve 73 to rotate, the second shaft sleeve 73 drives the fourth bevel gear 72 to rotate, the fourth bevel gear 72 drives the ninth bevel gear 64 to rotate, the ninth bevel gear 64 drives the second belt pulley 62 to rotate, the second belt pulley 62 drives the belt 43 to transmit, the belt 43 drives the first belt pulley 42 to rotate, the first belt pulley 42 drives the threaded shaft 21 to rotate, due to the fact that friction between the threaded sleeve 20 and the heating plate 22 is large, the threaded shaft 21 drives the threaded sleeve 20 to move upwards, the threaded sleeve 20 drives the heating plate 22 to move upwards, after the heating plate 22 is in contact with the outer pipeline 12, the threaded shaft 21 drives the threaded sleeve 20 to rotate, friction between the threaded sleeve 20 and the heating plate 22 generates heat, the heating plate 22 heats the outer pipeline 12 and accelerates melting of ice in the outer pipeline 12, finally, the movable pipeline water pressure detection equipment is realized.

In the above manner, a person skilled in the art can make various changes depending on the operation mode within the scope of the present invention.

Claims

1. The utility model provides a portable pipeline water pressure check out test set, includes water delivery chamber, its characterized in that: the water delivery cavity is arranged in a wall body, a detection device for fixing and detecting an outer pipeline is arranged in the water delivery cavity, the detection device comprises a plurality of fixed plates fixedly connected to the upper side end wall of the water delivery cavity, inner pipelines are fixedly connected to the fixed plates, the outer pipeline is arranged between the inner pipelines at the left side and the right side in a sliding connection mode, a water pressure detector for detecting water pressure is fixedly connected to the inner end wall of the inner pipeline, a machine body is arranged in the water delivery cavity in a sliding connection mode, a left moving cavity and a right moving cavity are arranged in the left end wall and the right end wall of the machine body in a downward and outward opening mode, a moving device for driving the machine body to slide left and right is arranged in the moving cavities, the machine body can be driven to sequentially slide below the outer pipeline, the machine body can conveniently dredge the pipelines in the outer pipeline, a working cavity penetrating through the left end wall and the right end wall of the machine body is, a first transmission cavity is arranged in the bottom wall of the working cavity with an upward opening, a vibrating device for driving the machine body to vibrate is arranged in the first transmission cavity, the vibrating device comprises a bidirectional cam which is rotatably arranged in the first transmission cavity, when the outer pipeline is blocked, the bidirectional cam can intermittently drive a rotating ring fixedly connected on the outer pipeline to move left and right, the rotating ring can drive the outer pipeline to vibrate left and right, so that pipeline blocking objects in the outer pipeline are shaken to be scattered, a heating cavity is arranged in the bottom wall of the working cavity, a heating device for heating the outer pipeline is arranged in the heating cavity, the heating device comprises a heating plate which can be arranged in the heating cavity up and down, and when the pipeline in the outer pipeline is frozen, the heating plate can be driven by the heating device to move upwards and contact with the lower side wall of the outer pipeline, the heating plate generates heat and heats the outer pipeline, so that ice in the outer pipeline is melted at an accelerated speed, the outer pipeline is dredged, and finally the mobile pipeline water pressure detection equipment is designed.

2. The mobile pipeline water pressure detecting apparatus as claimed in claim 1, wherein: detection device include the outer pipeline about both ends with fixed connection's the first spring that is equipped with between the fixed plate, the opening is equipped with first smooth chamber downwards in the fixed plate downside end wall, fixed connection's on the first smooth chamber roof is equipped with first electromagnetic switch, sliding connection's in the first smooth chamber is equipped with first slide bar, first slide bar lower extreme fixed connection be equipped with first ejector pad, first ejector pad with fixed connection's between the fixed plate downside end wall be equipped with the second spring, fixed connection's on the first slide bar upside end wall be equipped with first magnet.

3. The mobile pipeline water pressure detecting apparatus as claimed in claim 1, wherein: the moving device comprises a second transmission cavity arranged at the lower side of the heating cavity, a first rotating shaft is arranged between the left moving cavity and the second transmission cavity in a rotating and sliding connection mode, the first rotating shaft is fixedly connected with a first bevel gear in the moving cavity, a second rotating shaft is arranged between the moving cavity and the second transmission cavity on the right side in a rotating and sliding connection mode, the second rotating shaft is fixedly connected with a second bevel gear in the moving cavity, a third rotating shaft is arranged on the rear end wall of the moving cavity in a rotating and connecting mode, a moving wheel and a third bevel gear are fixedly connected with the third rotating shaft, the third bevel gear on the left side and the third bevel gear on the right side are respectively meshed with the second bevel gear and the first bevel gear, the lower end of the moving wheel is in contact with the water delivery cavity, a first shaft sleeve is arranged in the second transmission cavity, and a third transmission cavity is arranged in the left end wall of the first shaft sleeve in an opening mode, the third transmission cavity end wall is fixedly connected with a first spline housing, the first rotating shaft is fixedly connected with a first straight gear in the third transmission cavity and is provided with a first straight gear in spline connection with the first spline housing, the first rotating shaft is fixedly connected with a second straight gear in the second transmission cavity, the right side of the third transmission cavity is provided with a fourth transmission cavity, the fourth transmission cavity is internally provided with a first sliding block in sliding connection, a third spring is fixedly connected between the first sliding block and the right side end wall of the fourth transmission cavity, the outer side end wall of the first shaft housing is provided with a second shaft housing in sliding connection, the second shaft housing is fixedly connected with the first sliding block and is provided with a connecting rod, the fourth bevel gear is fixedly connected with a fourth bevel gear, the right side end wall of the third transmission cavity is provided with a spring seat in rotary connection, and the spring seat is fixedly connected with the first straight gear and is provided with a fourth spring, the improved motor is characterized in that a fifth transmission cavity is formed in the end wall of the right side of the first shaft sleeve, a second spline sleeve is fixedly connected to the end wall of the fifth transmission cavity, a second rotating shaft is fixedly connected to the end wall of the fifth transmission cavity and provided with a spline wheel in spline connection with the second spline sleeve, a third straight gear is fixedly connected to the first shaft sleeve and provided with a motor, the end wall of the right side of the second transmission cavity is internally and fixedly connected with a motor, the motor is connected with the motor shaft at the left end in a power mode, and a fourth straight gear meshed with the third straight gear is fixedly connected to the motor shaft.

4. The mobile pipeline water pressure detecting apparatus as claimed in claim 1, wherein: the vibrating device comprises a left sixth transmission cavity and a right sixth transmission cavity which are provided with upward and outward openings in the bottom wall of the working cavity, a seventh transmission cavity is arranged on the inner side of the sixth transmission cavity, a second slide rod is arranged between the seventh transmission cavity and the sixth transmission cavity in a sliding connection manner, the second slide rod is fixedly connected with a second push block in the sixth transmission cavity, a fifth spring is fixedly connected between the second push block and the inner side end wall of the sixth transmission cavity, a first rack is fixedly connected with the lower side end wall in the seventh transmission cavity by the second slide rod, a fourth rotating shaft is rotatably connected with the rear side end wall of the seventh transmission cavity, a fifth bevel gear and a fifth straight gear are fixedly connected with the fourth rotating shaft, the fifth straight gear is meshed with the first rack, a second sliding cavity is arranged on the lower side of the seventh transmission cavity, a fifth rotating shaft is arranged between the second sliding cavity and the seventh transmission cavity in a rotating connection manner, the fifth rotating shaft is fixedly connected in the seventh transmission cavity and provided with a sixth bevel gear meshed with the fifth bevel gear, the fifth rotating shaft is fixedly connected in the second sliding cavity and provided with a sixth straight gear, the first rotating shaft and the second rotating shaft are arranged in the second sliding cavity in a rotating connection manner and provided with a second sliding block which is symmetrical left and right, the upper end of the second sliding block is fixedly connected with a second rack meshed with the sixth straight gear, the right side of the second sliding cavity on the left side is provided with an eighth transmission cavity, the eighth transmission cavity is rotatably connected with the first transmission cavity and provided with a sixth rotating shaft, the sixth rotating shaft is fixedly connected in the eighth transmission cavity and provided with a seventh bevel gear, and an upward opening is arranged in the end wall on the upper side of the sixth rotating shaft, fixed connection is equipped with second electromagnetic switch on the sliding shaft diapire, sliding connection's in the sliding shaft is equipped with the third slide bar, third slide bar lower extreme fixed connection be equipped with the second magnet, third slide bar upper end fixed connection be equipped with the bidirectional cam, the bidirectional cam with fixed connection is equipped with the sixth spring between the side end wall on the sixth pivot, the second transmission chamber with rotate between the eighth transmission chamber and be equipped with the seventh pivot, the seventh pivot is in fixed connection is equipped with in the second sliding chamber with seventh bevel gear meshed's eighth bevel gear, the seventh pivot is in second transmission intracavity fixed connection be equipped with the seventh straight-tooth gear.

5. The mobile pipeline water pressure detecting apparatus as claimed in claim 1, wherein: heating device includes two ninth transmission chambeies of the left and right sides that heating chamber downside was equipped with, ninth transmission chamber with rotate between the heating chamber being connected be equipped with the screw thread axle, the screw thread axle is in ninth transmission intracavity fixed connection be equipped with first belt pulley, the screw thread axle is in heating chamber internal thread connection be equipped with the thread bush, the thread bush upper end is rotated and is connected be equipped with the hot plate, rotate on the side end wall of second transmission chamber and be equipped with the eighth pivot of connecting, fixed connection be equipped with second belt pulley and ninth bevel gear in the eighth pivot, the second belt pulley with there is belt drive to connect on the first belt pulley.