CN112282012A - Water sucking machine capable of automatically detecting cable channel - Google Patents

Abstract

The invention discloses a water suction machine for automatically detecting a cable channel, which comprises the cable channel, wherein a channel cavity with an upward opening is arranged in the cable channel, a cable pipe is fixedly arranged on the lower inner wall of the channel cavity, a machine body is arranged in the channel cavity, a detection mechanism and a water suction mechanism are arranged on the lower end surface of the machine body, a rotating cavity with an opening facing away from the center direction of the machine body is arranged on the left end surface and the right end surface of the machine body, a power mechanism is arranged in the rotating cavity, the water suction mechanism comprises a driven telescopic rod which is fixedly arranged on the lower end surface of the machine body and can be stretched up and down, the water suction machine has a simple structure and is convenient to operate, when the accumulated water exists in the cable channel, the automatic detection in the cable channel can be completed through mechanical transmission, when the accumulated water detection device automatically stops moving, the accumulated water can be, when the accumulated water is cleaned, the device can continue to work, so that the workload of workers is reduced.

Description

Water sucking machine capable of automatically detecting cable channel

Technical Field

The invention relates to the related field of electric power construction, in particular to a water suction machine for automatically detecting a cable channel.

Background

Lay the cable and need use the cable canal to lay, if there is ponding in the cable canal will influence the life of cable, and the space in the cable is narrow and small moreover, is difficult to carry out the cleaning work in the cable canal.

At the present stage, it is the manual work that all operates to detect the cable canal and clear up the cable canal, not only has the loaded down with trivial details phenomenon of detection cable canal and clearance cable canal process, but also can consume a large amount of physical power of worker, increases worker's work load.

Disclosure of Invention

The invention aims to solve the technical problem of providing a water suction machine for automatically detecting a cable channel, which solves the problems that the cable channel cannot be automatically detected and cannot be automatically cleaned and the like, and increases the functions of automatically detecting the cable channel and automatically cleaning the cable channel.

The invention is realized by the following technical scheme.

The invention relates to a water sucking machine for automatically detecting a cable channel, which comprises the cable channel, wherein a channel cavity with an upward opening is arranged in the cable channel, a cable pipe is fixedly arranged on the lower inner wall of the channel cavity, a machine body is arranged in the channel cavity, a detection mechanism and a water sucking mechanism are arranged on the lower end surface of the machine body, a rotating cavity with an opening facing away from the center direction of the machine body is arranged on the left end surface and the right end surface of the machine body, a power mechanism is arranged in the rotating cavity, the water sucking mechanism comprises a driven telescopic rod which is fixedly arranged on the lower end surface of the machine body and can be stretched up and down, a driven cavity is arranged in the driven telescopic rod, the upper inner wall and the lower inner wall of the driven cavity are fixedly connected through a driven pull rope, a telescopic water sucking pipe which vertically penetrates through the driven, the lower end of the water suction pipe is fixedly connected with a filter block, the upper end of the water suction pipe is fixedly connected with a gas pipe, the gas pipe is communicated with the water suction pipe, the left end of the gas pipe is provided with a water storage cavity, the upper inner wall of the water storage cavity is provided with a linkage cavity, a linkage block is connected in the linkage cavity in a sliding way, a linkage spring fixedly connected with the left end of the linkage block is fixedly connected on the left inner wall of the linkage cavity, the right end of the linkage block is fixedly connected with the other ends of the active pull rope and the passive pull rope, the upper inner wall of the linkage cavity is provided with a limiting cavity, the inner wall of the limiting cavity is fixedly connected with an electromagnetic element, the limiting cavity is connected with a limiting block in a sliding way, a limiting spring fixedly connected with the right end of the limiting block is fixedly connected on the right inner wall of the limiting cavity, the right end of the limiting block is fixedly connected with a moving pull rope and a braking pull rope, and the left end of the electromagnetic element is fixedly connected with two electrified wires.

Further, the power mechanism comprises two rotating shafts which are positioned on the lower inner walls of the two rotating cavities and are respectively and rotatably connected with an upward extending rotating shaft, the upper inner wall of the rotating cavity is provided with a transmission cavity, the two rotating shafts are respectively and fixedly connected with a rotating wheel and a rotating bevel gear, the two rotating wheels are in friction connection with the inner wall of the channel cavity, the left inner wall and the right inner wall of the transmission cavity are rotatably provided with a transmission shaft, the transmission shaft is fixedly connected with two transmission bevel gears which are respectively meshed with the two rotating bevel gears, the transmission shaft is in key connection with a moving bevel gear, the upper inner wall of the transmission cavity is provided with a moving cavity with a downward opening, the moving cavity is internally and slidably connected with a moving block, the left inner wall of the moving cavity is fixedly connected with a moving spring fixedly connected with the left end of the moving block, the movable block is internally provided with a moving groove with a downward opening, the movable bevel gear is in sliding connection with the moving groove, the lower inner wall of the transmission cavity is provided with a power cavity with an upward opening, the lower inner wall of the power cavity is fixedly connected with a power motor, the upper end of the power motor is in power connection with a power shaft, the power shaft is fixedly connected with a power bevel gear and a power cam, and the power bevel gear can be meshed with the movable bevel gear.

Further, the detection mechanism comprises a telescopic active telescopic block fixedly connected with the lower end face of the machine body, an active cavity is arranged in the active telescopic block, the upper inner wall and the lower inner wall of the active cavity are fixedly connected by an active spring, the lower inner wall of the active cavity is fixedly connected with the other end of the active pull rope, the lower end face of the active telescopic block is fixedly connected with a detection block, two detection cavities with downward openings are arranged on the lower end face of the detection block, the upper inner wall of the detection cavity is fixedly connected with a conductor block, the upper ends of the two conductor blocks are fixedly connected with the other ends of the electrified wires, a communication cavity with an upward opening is arranged on the upper inner wall of the active cavity, an inflating pipe is fixedly arranged on the left inner wall of the power cavity, a pipeline cavity penetrating through the inflating pipe from left to right is arranged in the inflating pipe, and a, pipeline intracavity sliding connection has the piece of inflating, fixed plate right-hand member fixedly connected with the spring of inflating of the piece left end fixed connection of inflating, be equipped with on the inner wall under the pipeline chamber with the one-way entering of power intracavity air admission valve in the pipeline intracavity, be equipped with on the fixed plate with the one-way entering of fixed plate right side air the left pneumatic valve of fixed plate, be equipped with the gas storage chamber on the inner wall of pipeline chamber left side, the gas storage chamber with intercommunication chamber intercommunication, be equipped with on the inner wall under the gas storage chamber the other end of gas-supply pipe, be equipped with the braking chamber of opening left on the gas-supply pipe right side inner wall, braking intracavity sliding connection has the brake block, on the braking chamber right side inner wall fixedly connected with brake block right-hand member fixed connection's brake spring, brake block right.

Furthermore, the two electrifying wires can magnetize the work of the electromagnetic element after being connected, the electromagnetic element can attract the limiting block after being magnetized, the elastic force of the linkage spring is greater than the sum of the elastic force of the driving spring and the elastic force of the driven spring, and the water storage cavity is ventilated with the outside.

The invention has the beneficial effects that: the device is simple in structure and convenient and fast to operate, when accumulated water exists in the cable channel to be detected, automatic detection in the cable channel can be completed through mechanical transmission, when the device automatically stops moving when the accumulated water is detected, the accumulated water is automatically collected through the mechanical transmission, and after the accumulated water is cleaned, the device can continuously work, so that the workload of workers is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

fig. 5 is an enlarged schematic structural diagram at D in fig. 1 according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: 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.

Combine accompanying drawings 1-5 a water sucking machine of automated inspection cable canal, including cable canal 10, be equipped with ascending channel chamber 11 of opening in the cable canal 10, the fixed cable duct 12 that is equipped with on the inner wall under channel chamber 11, establish organism 13 in the channel chamber 11, be equipped with detection mechanism 70 and water absorption mechanism 68 on the terminal surface under organism 13, it keeps away from to be equipped with the opening orientation on the terminal surface about organism 13 the rotation chamber 14 of organism 13 central direction, be equipped with power unit 69 in the rotation chamber 14, water absorption mechanism 68 is including being located fixed flexible passive telescopic link 49 from top to bottom that is equipped with on the terminal surface under organism 13, be equipped with passive chamber 50 in passive telescopic link 49, by passive spring 51 fixed connection between the inner wall about passive chamber 50, fixedly connected with passive stay cord 52 on the inner wall under passive chamber 50, be equipped with and run through from top to bottom in the passive telescopic link 49 and its fixed connection's telescopic suction The water pipe 53, the lower end of the water suction pipe 53 is fixedly connected with the filter block 54, the upper end of the water suction pipe 53 is fixedly connected with the gas pipe 55, the gas pipe 55 is communicated with the water suction pipe 53, the left end of the gas pipe 55 is provided with a water storage cavity 67, the upper inner wall upside of the water storage cavity 67 is provided with a linkage cavity 64, the linkage cavity 64 is internally and slidably connected with a linkage block 65, the left inner wall of the linkage cavity 64 is fixedly connected with a linkage spring 66 fixedly connected with the left end of the linkage block 65, the right end of the linkage block 65 is fixedly connected with the other end of the active pull rope 44 and the passive pull rope 52, the upper inner wall of the linkage cavity 64 is provided with a limiting cavity 60, the inner wall of the limiting cavity 60 is fixedly connected with an electromagnetic element 61, the limiting cavity 60 is internally and slidably connected with a limiting block 62, the right inner wall of the limiting cavity 60, the right end of the limiting block 62 is fixedly connected with a moving pull rope 25 and a braking pull rope 59, and the left end of the electromagnetic element 61 is fixedly connected with two electrified wires 48.

Beneficially, the power mechanism 69 includes two rotating shafts 15 extending upward and rotatably connected to the lower inner walls of the two rotating cavities 14, a transmission cavity 17 is disposed on the upper inner wall of the upper rotating cavity 14, two rotating wheels 16 and two rotating bevel gears 18 are fixedly connected to the two rotating shafts 15, the two rotating wheels 16 are in friction connection with the inner wall of the channel cavity 11, transmission shafts 19 are rotatably disposed on the left and right inner walls of the transmission cavity 17, two transmission bevel gears 20 are fixedly connected to the transmission shafts 19, the two transmission bevel gears 20 are respectively engaged with the two rotating bevel gears 18, a moving bevel gear 21 is keyed on the transmission shaft 19, a moving cavity 22 with a downward opening is disposed on the upper inner wall of the transmission cavity 17, a moving block 23 is slidably connected in the moving cavity 22, and a moving spring 24 fixedly connected to the left end of the moving block 23 is fixedly connected to the left inner wall of the moving cavity 22, the left end of the moving block 23 is fixedly connected with the other end of the moving pull rope 25, a moving groove 26 with a downward opening is formed in the moving block 23, the moving bevel gear 21 is connected in the moving groove 26 in a sliding mode, a power cavity 27 with an upward opening is formed in the lower inner wall of the transmission cavity 17, a power motor 28 is fixedly connected to the lower inner wall of the power cavity 27, the upper end of the power motor 28 is connected with a power shaft 29 in a power mode, a power bevel gear 30 and a power cam 31 are fixedly connected to the power shaft 29, and the power bevel gear 30 can be meshed with the moving bevel gear 21.

Beneficially, the detection mechanism 70 includes a telescopic active telescopic block 41 fixedly connected to the lower end surface of the machine body 13, a driving cavity 42 is provided in the active telescopic block 41, the upper and lower inner walls of the driving cavity 42 are fixedly connected by a driving spring 43, the lower inner wall of the driving cavity 42 is fixedly connected to the other end of the driving pull rope 44, the lower end surface of the active telescopic block 41 is fixedly connected to a detection block 45, the lower end surface of the detection block 45 is provided with two detection cavities 46 with downward openings, the upper inner wall of the detection cavity 46 is fixedly connected to a conductor block 47, the upper ends of the two conductor blocks 47 are fixedly connected to the other ends of the two electrifying wires 48, the upper inner wall of the driving cavity 42 is provided with a communication cavity 40 with an upward opening, the left inner wall of the power cavity 27 is fixedly provided with an inflating pipe 32, and the inflating pipe cavity 33 penetrating through the inflating pipe 32 from left, the air pump is characterized in that a fixing plate 34 is fixedly connected in the pipeline cavity 33, an inflating block 35 is connected in the pipeline cavity 33 in a sliding manner, an inflating spring 36 fixedly connected with the left end of the inflating block 35 is fixedly connected at the right end of the fixing plate 34, an air inlet valve 37 for enabling air in the power cavity 27 to enter the pipeline cavity 33 in a one-way manner is arranged on the lower inner wall of the pipeline cavity 33, an air pressure valve 38 for enabling air on the right side of the fixing plate 34 to enter the left side of the fixing plate 34 in a one-way manner is arranged on the fixing plate 34, an air storage cavity 39 is arranged on the left inner wall of the pipeline cavity 33, the air storage cavity 39 is communicated with the communication cavity 40, the other end of the air pipe 55 is arranged on the lower inner wall of the air storage cavity 39, a brake cavity 56 with a leftward opening is arranged on the right inner wall of the air pipe 55, a brake, the other end of the brake cord 59 is fixedly connected to the right end of the brake block 57.

Advantageously, when the two power lines 48 are connected, the electromagnetic element 61 is charged, the electromagnetic element 61 is attracted to the limit block 62 after being charged, the elastic force of the linkage spring 66 is greater than the elastic force of the active spring 43 and the elastic force of the passive spring 51, and the water storage cavity 67 is ventilated with the outside.

In the initial state, the active spring 43 is in a compressed state, and the passive spring 51 is in a compressed state.

When the device works, the power motor 28 is started, the power motor 28 works to drive the power shaft 29 to rotate, the power shaft 29 rotates to drive the power cam 31 and the power bevel gear 30 to rotate, the power cam 31 rotates to enable the inflating block 35 to be pushed leftwards and rightwards, so that the inflating spring 36 is in a compressed and reset circulating state, the inflating and pressurizing are carried out in the air storage cavity 39 under the action of the air inlet valve 37 and the air pressure valve 38, the air storage cavity 39 is connected with the driving cavity 42 through the communicating cavity 40, the inflating and pressurizing are carried out in the driving cavity 42, the driving telescopic block 41 extends downwards, the driving spring 43 resets, the driving pull rope 44 is pulled, the detection block 45 is pushed downwards, the two conductor blocks 47 are in contact with the lower inner wall of the channel cavity 11, the driving pull rope 44 is pulled to enable the linkage block 65 to be pulled rightwards, the linkage spring 66 is pulled, and the driven pull rope 52 is, the driven telescopic rod 49 extends downwards with the water suction pipe 53, the driven spring 51 is reset, the filter block 54 is contacted with the lower inner wall of the channel cavity 11, the power bevel gear 30 rotates to drive the movable bevel gear 21 and the transmission shaft 19 to rotate, the two transmission bevel gears 20 rotate, the two rotation bevel gears 18 rotate, the two rotation shafts 15 and the two rotation wheels 16 rotate, the effect that the device moves back and forth on the inner wall of the channel cavity 11 is achieved, when water exists on the lower inner wall of the channel cavity 11, the two conductor blocks 47 exist in the water, the two conductor blocks 47 are connected, the two electrifying wires 48 are connected, the electromagnetic element 61 starts to work and is magnetized, the electromagnetic element 61 is magnetized and attracted with the limiting block 62, the limiting block 62 moves leftwards, the limiting spring 63 is stretched, and the movable pull rope 25 and the brake pull rope 59 are pulled, the moving rope 25 is pulled to compress the moving spring 24, the moving block 23 is pulled leftwards, the moving bevel gear 21 is moved leftwards and disengaged from the bevel power gear 30, the device stops moving, the brake rope 59 is pulled to compress the brake spring 58, the brake block 57 is pulled rightwards, the air storage cavity 39 discharges air into the water storage cavity 67 through the air conveying pipe 55, the air flow rate and the pressure on the upper side of the water suction pipe 53 are large, water in the channel cavity 11 is discharged into the water storage cavity 67 through the filter block 54 and the water suction pipe 53, the effect of clearing the cable channel is achieved, after clearing is completed, the two conductor blocks 47 are not connected, the two electrified wires 48 are disconnected, the electromagnetic element 61 stops working and is not sucked with the limiting block 62, the limiting block 62 is moved to the initial position, the limiting spring 63, the moving rope 25, the limiting block 47 and the power bevel power gear 30 are disengaged, The braking pull rope 59 is reset, so that the braking block 57 and the braking spring 58 are reset, the gas in the gas storage cavity 39 is not provided with the gas conveying pipe 55 to be discharged, the moving pull rope 25 is reset, the moving block 23 and the moving bevel gear 21 move to the initial position, the moving bevel gear 21 is continuously meshed with the power bevel gear 30, the device continuously moves in the channel cavity 11, and the effects of automatically finding and cleaning the water in the channel cavity 11 are achieved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (4)

1. The utility model provides an automatic water sucking machine of detection cable canal, includes cable canal, its characterized in that: the cable channel is internally provided with a channel cavity with an upward opening, the lower inner wall of the channel cavity is fixedly provided with a cable pipe, the channel cavity is internally provided with a machine body, the lower end surface of the machine body is provided with a detection mechanism and a water absorption mechanism, the left and right end surfaces of the machine body are provided with a rotating cavity with an opening facing away from the center direction of the machine body, the rotating cavity is internally provided with a power mechanism, the water absorption mechanism comprises a driven telescopic rod which is fixedly arranged on the lower end surface of the machine body and can stretch up and down, a driven cavity is arranged in the driven telescopic rod, the upper inner wall and the lower inner wall of the driven cavity are fixedly connected by a driven spring, the lower inner wall of the driven cavity is fixedly connected with a driven pull rope, the driven telescopic rod is internally provided with a telescopic water absorption pipe which vertically penetrates through the driven, the gas-supply pipe with the pipe intercommunication that absorbs water, the gas-supply pipe left end is equipped with the water storage chamber, the inner wall upside is equipped with the linkage chamber on the water storage chamber, linkage intracavity sliding connection has the linkage piece, on the inner wall of linkage chamber left side fixedly connected with linkage piece left end fixed connection's linkage spring, linkage piece right-hand member fixedly connected with initiative stay cord with the other end of passive stay cord, be equipped with the restriction chamber on the inner wall of linkage chamber, fixedly connected with electromagnetic element on the restriction intracavity wall, restriction intracavity sliding connection has the restriction piece, on the restriction intracavity right side inner wall fixedly connected with restriction piece right-hand member fixed connection's restriction spring, restriction piece right-hand member fixedly connected with removes stay cord, braking stay cord, two circular telegram lines of electromagnetic element left end fixed connection.

2. The water sucking machine for automatically detecting the cable duct of claim 1, wherein: the power mechanism comprises rotating shafts which are positioned on the lower inner walls of the two rotating cavities and are respectively and rotatably connected with an upward extension, the upper inner wall of the rotating cavity is provided with a transmission cavity at the upper side, the two rotating shafts are respectively and fixedly connected with a rotating wheel and a rotating bevel gear, the two rotating wheels are in friction connection with the inner wall of the channel cavity, the left inner wall and the right inner wall of the transmission cavity are rotatably provided with a transmission shaft, the transmission shaft is fixedly connected with two transmission bevel gears, the two transmission bevel gears are respectively meshed with the two rotating bevel gears, the upper key of the transmission shaft is connected with a moving bevel gear, the upper inner wall of the transmission cavity is provided with a moving cavity with a downward opening, the moving cavity is internally and slidably connected with a moving block, the left inner wall of the moving cavity is fixedly connected with a moving spring, the movable block is internally provided with a moving groove with a downward opening, the movable bevel gear is in sliding connection with the moving groove, the lower inner wall of the transmission cavity is provided with a power cavity with an upward opening, the lower inner wall of the power cavity is fixedly connected with a power motor, the upper end of the power motor is in power connection with a power shaft, the power shaft is fixedly connected with a power bevel gear and a power cam, and the power bevel gear can be meshed with the movable bevel gear.

3. The water sucking machine for automatically detecting the cable duct of claim 2, wherein: the detection mechanism comprises a telescopic active telescopic block fixedly connected with the lower end face of the machine body, an active cavity is arranged in the active telescopic block, the upper inner wall and the lower inner wall of the active cavity are fixedly connected by an active spring, the lower inner wall of the active cavity is fixedly connected with the other end of the active stay cord, the lower end face of the active telescopic block is fixedly connected with a detection block, the lower end face of the detection block is provided with two detection cavities with downward openings, the upper inner wall of the detection cavity is fixedly connected with a conductor block, the upper ends of the two conductor blocks are fixedly connected with the other ends of the two electrifying lines, the upper inner wall of the active cavity is provided with a communicating cavity with an upward opening, the left inner wall of the power cavity is fixedly provided with an inflating pipe, a pipeline cavity which penetrates through the inflating pipe leftwards and rightwards is arranged in the inflating pipe, a fixing plate is fixedly, fixed plate right-hand member fixedly connected with inflate piece left end fixed connection's the spring of inflating, be equipped with on the inner wall under the pipeline chamber with the one-way entering of power intracavity air admission valve in the pipeline chamber, be equipped with on the fixed plate with the one-way entering of fixed plate right side air pressure valve left of fixed plate, be equipped with the gas storage chamber on the inner wall of the left side of pipeline chamber, the gas storage chamber with intercommunication chamber intercommunication, be equipped with on the inner wall under the gas storage chamber the other end of gas-supply pipe, be equipped with the braking chamber left of opening on the gas-supply pipe right side inner wall, braking intracavity sliding connection has the brake block, on the braking chamber right side inner wall fixedly connected with brake block right-hand member fixed connection's brake spring, brake block right-.

4. The water sucking machine for automatically detecting the cable duct of claim 3, wherein: the two electrified wires can magnetize the work of the electromagnetic element after being switched on, the electromagnetic element can attract the limiting block after being magnetized, the elastic force of the linkage spring is greater than the sum of the elastic force of the driving spring and the elastic force of the driven spring, and the water storage cavity is breathable to the outside.

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