CN114643613A

CN114643613A - Easily maintain reform transform polypropylene power cable protection pipe conveying mechanism

Info

Publication number: CN114643613A
Application number: CN202210541750.4A
Authority: CN
Inventors: 张国华; 何俞辉; 吴永华; 郝静辉
Original assignee: Nantong Daming Molding Technology Co ltd
Current assignee: Nantong Huachuan Plastic Co.,Ltd.
Priority date: 2022-05-19
Filing date: 2022-05-19
Publication date: 2022-06-21
Anticipated expiration: 2042-05-19
Also published as: CN114643613B

Abstract

The invention relates to the technical field of corrugated pipes, in particular to an easy-maintenance modified polypropylene power cable protection pipe conveying mechanism which comprises a cutting mechanism and a conveying mechanism arranged on one side of the cutting mechanism, wherein the conveying mechanism comprises a first conveying part, a second conveying part and a labeling part arranged between the first conveying part and the second conveying part, the first conveying part comprises a conveying frame and a transmission roller rotatably arranged on the conveying frame, the second conveying part comprises a first support, a second support rotatably arranged on the first support and a driving roller rotatably arranged on the second support, a recovery box is arranged below the first support, and a collecting box is arranged at the end of conveying of the first support.

Description

Easily maintain reform transform polypropylene power cable protection pipe conveying mechanism

Technical Field

The invention relates to the technical field of corrugated pipes, in particular to an easily maintained and reshaped polypropylene power cable protection pipe conveying mechanism.

Background

The corrugated pipe is a tubular elastic sensitive element formed by connecting foldable corrugated sheets along the folding and stretching direction, and mainly comprises a rubber plastic corrugated pipe, a metal pipe opening rubber corrugated pipe and a stainless steel corrugated pipe. The corrugated pipe is a pipe with a spiral groove on the outer wall, and the outer wall of the corrugated pipe is similar to threads and is mainly used for connecting a pipeline and a pipeline or connecting the pipeline and a connecting piece. The bellows is when using, in order to detect the flow in the bellows, need punch on the bellows, then the installation manometer, but the degree of difficulty of punching on the bellows is great, and punches the completion back, because the bellows is the tubulose, can leave the protrusion on the bellows inner wall, and some bits in addition remain on the inner wall. Meanwhile, the end face of the corrugated pipe is not flat, and the corrugated pipe and the connecting piece are not installed in place when the corrugated pipe is connected with the connecting piece.

The bellows is after processing is accomplished, and a bit of bellows need paste the mark, and a bit of bellows need not paste the mark, consequently need classify the recovery to the bellows, adopts artifical classification mode to retrieve at present, greatly reduced production efficiency.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome one of the technical problems in the prior art, the invention provides an easy-maintenance modified polypropylene power cable protection pipe conveying mechanism, which comprises,

the automatic labeling machine comprises a cutting mechanism and a conveying mechanism arranged on one side of the cutting mechanism, wherein the conveying mechanism comprises a first conveying part, a second conveying part and a labeling part arranged between the first conveying part and the second conveying part,

the first conveying part comprises a conveying frame and a driving roller which is rotatably arranged on the conveying frame, the second conveying part comprises a first bracket, a second bracket which is rotatably arranged on the first bracket and a driving roller which is rotatably arranged on the second bracket, and,

a recovery box is arranged below the first bracket, a collecting box is arranged at the end of the first bracket, wherein,

after the corrugated pipe is cut by the cutting mechanism, when the corrugated pipe needs to be labeled, the corrugated pipe is conveyed to the labeling part by the first conveying part to be labeled, and the second support on the second conveying part rotates towards the ground direction so as to convey the corrugated pipe after labeling to the collecting box;

when the corrugated pipe does not need to be labeled, the corrugated pipe is conveyed to the labeling part by the first conveying part, and the second support on the second conveying part rotates towards the direction far away from the ground so as to convey the corrugated pipe to the recycling box.

Furthermore, gears are fixedly connected with one ends of the driving roller and the transmission roller, a second motor is fixed on the conveying frame and the second bracket, the output end of the second motor is fixedly connected with a screw rod, wherein,

the screw rod is meshed with the gear to drive the driving roller and the driving roller to rotate.

Further, the second bracket is rotatably arranged on the first bracket through a hinge shaft.

Furthermore, limiting parts are arranged on two sides of the first support to limit the rotation angle of the second support.

Further, a stroke cylinder is rotatably connected to the first bracket, wherein,

and the piston of the stroke cylinder is rotatably arranged on the second bracket so as to drive the second bracket to rotate.

Further, the labeling part comprises an unwinding roller, a winding roller, a stripping plate and a labeling disc, a labeling opening is arranged on the labeling disc, wherein,

the unreeling roller is suitable for conveying the label roller to the stripping plate, the stripping plate is suitable for stripping the bottom film of the label, the label is conveyed to the labeling opening, and the reeling roller is suitable for recycling the stripped bottom film.

Furthermore, a direction roller rotates on the labeling disc, wherein,

and the direction roller is in transmission connection with the motor III.

Further, the cutting mechanism comprises an installation part, and the installation part comprises an installation frame, an installation hole formed in the installation frame, a driving part arranged on the installation frame and a rotating shaft in transmission connection with the driving part;

the inner cutter comprises a cutter frame fixedly arranged on the rotating shaft and a blade set spirally arranged on the cutter frame;

the outer cutter comprises a cutter head movably arranged on the rotating shaft, a cutter head arranged on the outer side of the cutter head in a sliding mode and a limiting block fixedly arranged on the inner wall of the cutter head, a long groove matched with the limiting block is formed in the rotating shaft, a first spring is fixed in the long groove, the other end of the first spring abuts against the cutter head, and the outer cutter is located on one side, away from the mounting hole, of the inner cutter;

the locking part comprises a locking pin fixed on the driving part, and the locking pin is suitable for locking the cutter head on the cutter head;

a drilling portion located on the mounting bracket; wherein, the first and the second end of the pipe are connected with each other,

the corrugated pipe is spirally sleeved on the inner cutter, the mounting hole extends towards the inner cutter, and the drilling part is used for drilling the outer wall of the corrugated pipe;

the rotating shaft drives the inner cutter and the outer cutter to both perform spiral feeding motion to the corrugated pipe, so that the inner cutter can clean the inner wall of the corrugated pipe after drilling is completed;

when one surface of the outer cutter, which is close to the inner cutter, is positioned on the side surface of the mounting hole, the cutter head is separated from the locking pin, so that the corrugated pipe is punctured by the cutter head, the rotating shaft continues to perform spiral feeding motion, the inner cutter continues to clean the inner wall of the corrugated pipe, and the outer cutter rotates to cut off the end surface of the corrugated pipe.

Further, the driving part comprises a first motor fixed on the mounting frame, an inner ring in sliding connection with the output end of the first motor, an outer ring sleeved on the inner ring, a transmission rod fixedly connected with the outer ring, and,

two ends of the inner ring are provided with limiting rings to limit the sliding stroke of the outer ring, wherein,

the transmission rod is in transmission connection with the linear cylinder;

the rotating shaft is fixed on the inner ring.

Furthermore, the blade group comprises a plurality of arc-shaped blocks which are arranged on the knife rest in a protruding mode and cutting edges arranged at two ends of each arc-shaped block, the arc-shaped blocks are made of flexible materials, and cleaning brushes are arranged on the surfaces of the arc-shaped blocks; wherein the content of the first and second substances,

the arc-shaped block is spirally arranged on the tool rest.

Has the advantages that: 1. the invention relates to a conveying mechanism of an easily maintained and reshaped polypropylene power cable protection tube, which realizes the classified recovery of corrugated tubes by the rotation of a second support on a second conveying part, namely when the corrugated tubes need to be labeled, the corrugated tubes are conveyed to a labeling part by the first conveying part for labeling, and the second support on the second conveying part rotates towards the ground direction to convey the corrugated tubes after labeling to a collecting box; when the corrugated pipe does not need to be labeled, the corrugated pipe is conveyed to the labeling part by the first conveying part, and the second support on the second conveying part rotates towards the direction far away from the ground so as to convey the corrugated pipe to the recycling box.

2. According to the invention, the inner cutter is arranged to open the corrugated pipe, i.e. the corrugated pipe is tensioned, so that the corrugated pipe can be conveniently drilled; the inner cutter is provided with a cutting edge, so that burrs in the inner corrugated pipe after machining are conveniently removed; the inner knife is also provided with a cleaning brush for removing impurities in the corrugated pipe.

3. According to the invention, the rotating shaft is provided with the water spray nozzle, and the water spray nozzle cleans the inner wall of the corrugated pipe.

4. According to the corrugated pipe cutting machine, the outer cutter is arranged, when the outer cutter advances along with the inner cutter, the spring pushes the outer cutter to move forward along with the inner cutter, when the outer cutter is located on the side face of the mounting hole, the cutter head on the outer cutter is separated from the locking pin, the cutter head extends out to puncture the corrugated pipe, at the moment, the rotating shaft continues to perform spiral feeding movement forward, but the outer cutter pushes the spring and performs rotating movement simultaneously due to the fact that the cutter head abuts against the side face of the mounting hole, and therefore the corrugated pipe is cut off to form a flat end face.

Drawings

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

FIG. 2 is a schematic view of a second conveying section according to the present invention;

FIG. 3 is a schematic view of the structure of the gears on the driving roller and the driving roller according to the present invention;

FIG. 4 is a schematic view of a labeling part according to the present invention;

FIG. 5 is a schematic view of a cutting mechanism according to the present invention;

FIG. 6 is a first view of the inner and outer cutters in accordance with the present invention;

FIG. 7 is a second view of the outer blade and the inner blade of the present invention in a mated condition;

FIG. 8 is a schematic view of the inner ring structure of the present invention;

FIG. 9 is a schematic view of an outer ring structure of the present invention;

FIG. 10 is a first schematic view of the outer blade configuration of the present invention;

FIG. 11 is a second schematic view of the outer blade structure of the present invention;

FIG. 12 is a schematic view of the inner blade of the present invention;

in the figure:

100. the cutting tool comprises a mounting part, 110, a mounting frame, 111, a mounting hole, 120, a driving part, 121, a first motor, 122, an inner ring, 123, an outer ring, 124, a transmission rod, 125, a limiting ring, 126, a guide groove, 130, a rotating shaft, 131, a water spray opening, 132, a long strip groove, 133, a first spring, 140, an inner cutter, 141, a cutter frame, 142, a blade group, 143, an arc-shaped block, 144, a cutting edge, 150, an outer cutter, 151, a cutter disc, 152, a cutter head, 153, a limiting block, 154, a sliding groove, 155, a second spring, 156 and a locking hole;

200. a locking portion 210, a locking pin;

300. the label pasting machine comprises a conveying mechanism, 310, a first conveying part, 311, a conveying frame, 312, a driving roller, 313, a gear, 314, a screw rod, 320, a second conveying part, 321, a first support, 322, a second support, 323, a driving roller, 324, a hinge shaft, 325, a limiting piece, 326, a stroke air cylinder, 330, a labeling part, 331, a labeling disc, 332, an unwinding roller, 333, a winding roller, 334, a stripping plate, 335, a labeling port, 336, a direction roller, 337 and a motor III.

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic may be included in at least one implementation of the invention. In the description of the present invention, it is to be understood that the terms "upper", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be taken as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. Moreover, the terms "first," "second," and the like are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein.

Example one

As shown in fig. 1 to 12, an easy-to-maintain modified polypropylene power cable protection tube conveying mechanism 300 comprises a cutting mechanism and a conveying mechanism 300 arranged on one side of the cutting mechanism, wherein the conveying mechanism 300 comprises a first conveying part 310, a second conveying part 320 and a labeling part 330 arranged between the first conveying part 310 and the second conveying part 320,

the first conveying part 310 includes a conveying frame 311 and a driving roller 312 rotatably provided on the conveying frame 311, the second conveying part 320 includes a first support 321, a second support 322 rotatably provided on the first support 321, and a driving roller 323 rotatably provided on the second support 322, and,

a recovery box is arranged below the first support 321, a collection box is arranged at the end of the first support 321, wherein,

after the corrugated pipe is cut by the cutting mechanism, when the corrugated pipe needs to be labeled, the first conveying part 310 conveys the corrugated pipe to the labeling part 330 for labeling, and the second support 322 on the second conveying part 320 rotates towards the ground direction to convey the labeled corrugated pipe to the collection box;

when the corrugated pipe does not need to be labeled, the first conveying part 310 conveys the corrugated pipe to the labeling part 330, and the second support 322 on the second conveying part 320 rotates in a direction away from the ground, so as to convey the corrugated pipe to a recycling bin.

The cutting mechanism comprises: a mounting portion 100, an inner blade 140, an outer blade 150, a locking portion 200, and a drill portion. The mounting portion 100 is adapted to mount the inner blade 140, the outer blade 150, the locking portion 200, the boring portion, and the bellows. The drilling portion is adapted to drill the bellows sidewall after the bellows is secured to the mounting portion 100. The inner cutter 140 is adapted to be inserted into the bellows after the bellows is perforated, to polish and clean the inner wall of the bellows. The outer knife 150 is adapted to cut the end wall of the bellows after the inner knife 140 has sanded and cleaned the bellows. The locking portion 200 is adapted to control the position of the outer knife 150 for bellows cutting. With respect to the above components, a detailed description is given below.

Mounting part 100

The installation department 100 is the main part of this device, and installation department 100 can regard as the mounting base of other each parts, and in this device course of operation, installation department 100 can provide reliable support for each part to guarantee the job stabilization nature of device. In addition, the mounting portion 100 can provide a driving force for the device to ensure the orderly working process of the device.

The structure of the mounting portion 100 will be described in detail below, and the mounting portion 100 includes: a mounting bracket 110, a mounting hole 111, a driving part 120, and a rotation shaft 130. The mounting bracket 110 is a main body of the mounting part 100, and the inner blade 140, the outer blade 150, the locking part 200, the drilling part, and the bellows are directly or indirectly mounted on the mounting bracket 110. The mounting hole 111 is located at one end of the mounting bracket 110, and the mounting hole 111 is axially parallel to a horizontal plane. The driving part 120 is disposed on the mounting bracket 110, and the driving part 120 is fixedly connected to the mounting bracket 110, a gap is formed between the driving part 120 and the mounting hole 111, and an output shaft of the driving part 120 faces the mounting hole 111, so that the mounting bracket 110 can provide stable support for the driving part 120. The driving part 120 can drive the inner knife 140 and the outer knife 150 to rotate and slide, thereby realizing the process of drilling, cleaning and cutting off the corrugated pipe. The outer end of the rotating shaft 130 is fixed to the output shaft of the driving part 120, and the rotating shaft 130 is axially and coaxially disposed with the mounting hole 111. The rotation shaft 130 can be driven by the driving part 120 to be close to or far from the mounting hole 111, and the rotation shaft 130 can also be driven by the driving part 120 to rotate around the shaft. Therefore, the rotation shaft 130 performs a composite motion of axial rotation and axial sliding, i.e., a screw feeding motion, by the driving part 120. In the present embodiment, the corrugation on the corrugated tube is spiral, and in the process that the driving portion 120 drives the rotating shaft 130 to perform spiral feeding, the feeding amount of the rotating shaft 130 along with the rotation is matched with the corrugation on the corrugated tube.

The structure of the driving part 120 is described in detail below, and the driving part 120 includes a first motor 121 fixed on the mounting bracket 110, an inner ring 122 slidably connected to an output shaft of the first motor 121, an outer ring 123 sleeved on the inner ring 122, and a transmission rod 124 fixedly connected to the outer ring 123. The first motor 121 is a power source for axially rotating the rotating shaft 130, and the first motor 121 is located at an end of the rotating shaft 130 far from the mounting hole 111. The output shaft of the first motor 121 faces the mounting hole 111, and the output shaft of the first motor 121 is coaxially arranged with the mounting hole 111. The inner ring 122 is cylindrical, and the inner ring 122 is hollow. The inner ring 122 and the output shaft of the first motor 121 are coaxially arranged, the output shaft of the first motor 121 can be inserted into the inner ring 122, the locking pin 210 is fixed on the output shaft of the first motor 121, and the inner wall of the inner ring 122 is provided with a guide groove 126 matched with the locking pin 210, so that the inner ring 122 can slide along the length direction of the output shaft of the first motor 121, and meanwhile, the first motor 121 can drive the inner ring 122 to rotate; the end wall of the inner ring 122 near one end of the mounting hole 111 is fixedly connected to the rotating shaft 130. In this way, when the inner ring 122 slides along the output shaft of the first motor 121, the rotating shaft 130 can synchronously move close to or away from the mounting hole 111 under the driving of the inner ring 122. One end of the transmission rod 124 is fixed on the outer ring 123, and the other end is fixedly connected with the linear cylinder piston rod, so that when the piston rod works, the transmission rod 124 can be driven to drive the outer ring 123 to horizontally slide along the outer wall of the inner ring 122. The two ends of the inner ring 122 are provided with the limiting rings 125, the diameter of the limiting rings 125 is larger than that of the inner ring 122, so that the limiting rings 125 protrude out of the outer walls of the two ends of the inner ring 122, the limiting rings 125 can abut against the outer ring 123, the inner ring 122 can drive the outer ring 123 to move, and the outer ring 123 is prevented from sliding out of the two ends of the inner ring 122 and being separated from the inner ring 122. Through the arrangement, when the outer ring 123 slides along the transmission rod 124 to abut against the limiting ring 125 on one side, the outer ring 123 can drive the outer ring 123 to approach or leave the mounting hole 111 along the output shaft of the first motor 121, and drive the rotating shaft 130 to approach or leave the mounting hole 111 synchronously.

Inner cutter 140

The inner blade 140 is fixed to one end of the rotary shaft 130 near the mounting hole 111, and the inner blade 140 passes through the mounting hole 111 in a longitudinal direction. The bellows can the overcoat at interior sword 140 outer wall to fix a position through interior sword 140 outer wall and mounting hole 111 inner wall, in order to realize the location to the bellows at the bellows in-process of punching, when punching, can take the mode of artifical assistance-localization real-time to prevent that the bellows from rotating along with interior sword 140. After the bellows is perforated, the inner cutter 140 can clean the inner wall of the bellows.

The structure of the inner blade 140 will be described in detail below, and the inner blade 140 includes a blade holder 141 fixedly disposed on the rotating shaft 130 and a blade group 142 spirally disposed on the blade holder 141. The knife rest 141 external diameter corresponds with the bellows internal diameter, and knife rest 141 includes a disc and fixes the arc post in the disc both sides, and the arc post sets up relatively at knife rest 141's terminal surface, and arc post outer wall and disc inner wall parallel and level, and the arc post is perpendicular with the disc terminal surface, and the arc post sets up the disc and keeps away from axis of rotation 130 one end, and the disc keeps away from axis of rotation 130 one end and axis of rotation 130 fixed connection. When the rotating shaft 130 performs the spiral feeding motion, the tool holder 141 can be driven to perform the spiral feeding motion synchronously. The blade set 142 includes a plurality of arc blocks 143 protruding from the blade holder 141 and cutting edges 144 provided at both ends of the arc blocks 143. The arc-shaped block 143 is spirally arranged on the tool holder 141, and the arc-shaped block 143 is matched with the corrugated lines on the inner wall of the corrugated pipe. When the corrugated pipe is installed, the corrugated pipe can be screwed to the outer wall of the tool holder 141 along the arc-shaped blocks 143, so that the corrugated pipe is positioned in the gap between the tool holder 141 and the installation hole 111. After the corrugated pipe installed on the outer wall of the tool rest 141 is punched by the drilling part, the rotating shaft 130 can drive the tool rest 141 to move in a spiral feeding mode, so that the arc-shaped block 143 is close to a punching part along lines in the corrugated pipe, burrs of the punching part can be removed by the cutting edges 144 on two sides of the arc-shaped block 143, and the inner wall of the corrugated pipe is guaranteed to be smooth.

In order to remove burrs in the corrugated pipe, the residual waste in the corrugated pipe is cleaned. The material of arc piece 143 is flexible material, and the surface of arc piece 143 is equipped with the cleaning brush, is connected with the water inlet on the spacing ring 125 simultaneously, is close to knife rest 141 one end lateral wall on the axis of rotation 130 and has seted up water jet 131, water inlet and water jet 131 intercommunication. After the corrugated pipe side wall is punched, the rotating shaft 130 can spray water to the inner wall of the corrugated pipe through the water spray nozzle 131, meanwhile, the rotating shaft 130 drives the tool rest 141 to perform spiral feeding motion to one side of the mounting hole 111 so as to be close to a punching part, and burrs at the punching part can be removed by the cutting edges 144 on two sides of the arc-shaped block 143. After the corrugated pipe is machined, when the tool holder 141 is reset, the waste is pushed out of the threaded pipe by the tool holder 141.

Outer cutter 150

The outer cutter 150 is positioned between the inner ring 122 and the inner cutter 140, and the outer cutter 150 is slidably disposed on the rotating shaft 130. When the outer cutter 150 is screwed with the rotating shaft 130 to be engaged with the end wall of the mounting hole 111 near the end of the inner ring 122, the outer passage can cut off the end wall of the corrugated pipe.

The structure of the outer cutter 150 is described in detail below, and the outer cutter 150 includes a cutter head 151 movably disposed on the rotating shaft 130, a cutter head 152 slidably disposed on the outer side of the cutter head 151, and a stopper 153 fixedly disposed on the inner wall of the cutter head 151. The cutter head 151 is annular, and the outer diameter of the cutter head 151 corresponds to the inner diameter of the bellows. Be equipped with the rectangular groove 132 with the adaptation of stopper 153 on the axis of rotation 130, the length direction in rectangular groove 132 is parallel with axis of rotation 130 length direction, and the length in rectangular groove 132 width and stopper 153 is the same, and stopper 153 can slide along rectangular groove 132 length direction to drive blade disc 151 along axis of rotation 130 endwise slip. A first spring 133 is fixed in the long groove 132, the other end of the first spring 133 is arranged against the cutter disc 151, and the outer knife 150 is positioned on one side of the inner knife 140 far away from the mounting hole 111. When the cutter disc 151 slides along the rotating shaft 130 to abut against the end wall of the mounting hole 111, the first limiting block 153 compresses the first spring 133 along the long groove 132, so that the horizontal position of the cutter disc 151 is driven to be kept abutting against the mounting hole 111, and when the rotating shaft 130 is reset, the first spring 133 can push the first limiting block 153 to return to the initial position. The side wall of the outer knife 150 is provided with a sliding groove 154, the cutting head 152 is slid in the sliding groove 154, the cutting edge of the cutting head 152 is arranged outwards in the radial direction, and the cutting head 152 is telescopically arranged in the sliding groove 154, specifically, an elastic mechanism is further arranged in the sliding groove 154, the elastic mechanism is a second spring 155, one end of the second spring 155 is fixed in the sliding groove 154, and the other end of the second spring is fixedly connected with the cutting head 152. When the second spring 155 is in a natural length, the second spring 155 can push the cutter head 152 to extend out of the outer wall of the cutter disc 151, and when the second spring 155 is compressed, the second spring 155 can drive the cutter head 152 to retract into the outer wall of the cutter disc 151. When the cutter disc 151 is located at the initial position, the second spring 155 is in a contracted state; when one surface of the outer cutter 150 close to the inner cutter 140 is positioned on the side surface of the mounting hole 111, the second spring 155 pushes the cutter head 152 to extend out of the outer wall of the cutter disc 151, so that the cutter head 152 pokes the corrugated pipe, the rotating shaft 130 continues to perform spiral feeding movement, at the moment, the first spring 133 is compressed by the limiting block 153, the horizontal position of the cutter disc 151 is driven to keep abutting against the mounting hole 111, the axial position of the cutter disc 151 is fixed, and the cutter disc 151 only performs axial rotation, so that the cutter head 152 cuts off the outer wall of the corrugated pipe.

Locking part 200

The locking portion 200 can control the extension and retraction of the cutter head 152 of the outer cutter 150, and more specifically, the locking portion 200 can control the cutter head 152 to extend out of the side wall of the cutter head 151 when the cutter head 151 horizontally slides against the end wall of the mounting hole 111.

In order to achieve the above effect, the cutter disc 151 is provided with a locking hole 156, the locking portion 200 further includes a locking pin 210 fixed on the driving portion 120, the locking pin 210 is fixed on an output shaft of the first motor 121, the inner ring 122 is provided with a guide groove 126 adapted to the locking pin 210, the locking pin 210 passes through the guide groove 126 and is fixed on the output shaft of the first motor 121, the locking pin 210 is adapted to lock the cutter head 152 on the cutter disc 151, so that the inner ring 122 can move along the length direction of the locking pin 210, and the output shaft of the first motor 121 can drive the inner ring 122 to rotate. Insertion of the locking pin 210 into the locking hole 156 compresses the bit 152 such that the bit 152 is constrained within the sliding channel 154. When the side of the outer blade 150 adjacent to the inner blade 140 is located at the side of the mounting hole 111, the cutter head 152 is disengaged from the locking pin 210, so that the cutter head 152 punctures the bellows.

Drilling portion

The drilling portion is located on the mounting frame 110, and after the corrugated pipe is fixed to the mounting portion 100, the drilling portion can drill the side wall of the corrugated pipe. When the corrugated pipe is installed, the corrugated pipe is spirally sleeved on the inner cutter 140, and the mounting hole 111 extends towards the inner cutter 140. After the installation is finished, the corrugated pipe is stabilized manually, the corrugated pipe is prevented from rotating along with the inner cutter 140, and the outer wall of the corrugated pipe is drilled by the drilling part.

Conveying mechanism 300

The conveying mechanism 300 is suitable for labeling and non-labeling the cut corrugated pipes, and then classifying and recycling the corrugated pipes.

The conveying mechanism 300 comprises a first conveying part 310, a second conveying part 320 and a labeling part 330 arranged between the first conveying part 310 and the second conveying part 320, the first conveying part 310 comprises a conveying frame 311 and a driving roller 312 rotatably arranged on the conveying frame 311, the second conveying part 320 comprises a first support 321, a second support 322 rotatably arranged on the first support 321 and a driving roller 323 rotatably arranged on the second support 322, a recycling box is arranged below the first support 321, and a collecting box is arranged at the conveying end of the first support 321.

One end of each of the driving roller 323 and the driving roller 312 is fixedly connected with a gear 313, a second motor is fixed on each of the conveying frame 311 and the second support 322, an output end of the second motor is fixedly connected with a screw 314, and the screw 314 is engaged with the gear 313 to drive the driving roller 323 and the driving roller 312 to rotate. The second motor drives the screw 314 to rotate, and the screw 314 drives the gear 313 to rotate, so that the driving roller 323 and the driving roller 312 rotate.

The second bracket 322 is rotatably disposed on the first bracket 321 by a hinge shaft 324. The first bracket 321 has two sides provided with a limiting member 325 to limit the rotation angle of the second bracket 322. When the second bracket 322 rotates on the first bracket 321, and the second bracket 322 abuts against the stopper 325, the second bracket 322 stops rotating.

In order to drive the second bracket 322 to rotate, a stroke cylinder 326 is rotatably connected to the first bracket 321, wherein a piston of the stroke cylinder 326 is rotatably disposed on the second bracket 322 to drive the second bracket 322 to rotate. The stroke cylinder 326 moves, the stroke cylinder 326 pushes the second support 322 to rotate, and finally classification of the corrugated pipes is achieved, that is, after the corrugated pipes are cut by the cutting mechanism, when the corrugated pipes need to be labeled, the corrugated pipes are conveyed to the labeling part 330 by the first conveying part 310 for labeling, and the second support 322 on the second conveying part 320 rotates towards the ground direction, so that the corrugated pipes after labeling are conveyed to the collecting box; when the corrugated pipe does not need to be labeled, the first conveying part 310 conveys the corrugated pipe to the labeling part 330, and the second support 322 on the second conveying part 320 rotates in a direction away from the ground, so as to convey the corrugated pipe to a recycling bin.

Labeling portion 330 includes unreeling roller 332, wind-up roller 333, peeling plate 334 and pastes mark dish 331, paste and seted up subsides mark mouth 335 on the mark dish 331, wherein, unreeling roller 332 is suitable for carrying the label roller to peeling plate 334, peeling plate 334 is suitable for peeling off the basement membrane of label, and carries the label to pasting mark mouth 335, wind-up roller 333 is suitable for retrieving the basement membrane after will peeling off. The label pasting disc 331 is provided with a direction roller 336 in a rotating mode, wherein the direction roller 336 is in transmission connection with a motor III 337. The label is fixed with a bottom film, the unwinding roller 332 conveys the label to the peeling plate 334, the label and the bottom film are separated at the moment, the label reaches the labeling port 335 under the action of the peeling plate 334, and the bottom film is wound back to the winding roller 333 from above the peeling plate 334 for recycling. When the corrugated tube is conveyed to the labeling port 335 by the first conveying portion 310, the label is attached to the corrugated tube from the labeling port 335. A direction roller 336 is arranged on the labeling plate 331, the direction roller 336 rotates under the action of a motor 337, and the direction roller 336 drives the corrugated pipe on the labeling plate 331 to move. Meanwhile, the label pasting disc 331 can also rotate, so that the corrugated pipe can be transported in different directions. The middle of the label pasting disc 331 is concave, so that the corrugated pipe is convenient to fix and prevented from shaking left and right.

The working method of the easy-maintenance modified polypropylene power cable protection pipe conveying mechanism 300 comprises the following steps:

s1, arranging a corrugated pipe on the inner knife 140 in a spiral sleeved mode, wherein the corrugated pipe extends out of the mounting hole 111, and the inner knife 140 stretches the corrugated pipe;

s2, drilling the corrugated pipe through the drilling part;

s3, the driving part 120 drives the rotating shaft 130 to move, and the rotating shaft 130 drives the inner cutter 140 and the outer cutter 150 to both perform spiral feeding movement to the corrugated pipe, so that the inner cutter 140 cleans the inner wall of the corrugated pipe after the drilling is completed;

s4, when one surface of the outer blade 150 close to the inner blade 140 is located on the side surface of the mounting hole 111, the blade 152 is separated from the locking pin 210, so that the blade 152 punctures the corrugated tube, the rotating shaft 130 continues to perform a spiral feeding motion, the inner blade 140 continues to clean the inner wall of the corrugated tube, and the outer blade 150 rotates to cut off the end surface of the corrugated tube.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. An easy-maintenance modified polypropylene power cable protection pipe conveying mechanism is characterized by comprising,

the label cutting machine comprises a cutting mechanism and a conveying mechanism arranged on one side of the cutting mechanism, wherein the conveying mechanism comprises a first conveying part, a second conveying part and a labeling part arranged between the first conveying part and the second conveying part,

after the corrugated pipe is cut by the cutting mechanism, when the corrugated pipe needs to be labeled, the first conveying part conveys the corrugated pipe to the labeling part for labeling, and a second support on the second conveying part rotates towards the ground direction so as to convey the corrugated pipe subjected to labeling to the collecting box;

2. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 1,

one end of the driving roller and one end of the transmission roller are both fixedly connected with gears, the conveying frame and the second bracket are both fixedly provided with a second motor, the output end of the second motor is fixedly connected with a screw rod, wherein,

3. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 1,

the second support is rotatably arranged on the first support through a hinged shaft.

4. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 3,

and limiting parts are arranged on two sides of the first support to limit the rotation angle of the second support.

5. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 1,

the first bracket is rotatably connected with a stroke cylinder, wherein,

6. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 1,

the labeling part comprises an unwinding roller, a winding roller, a stripping plate and a labeling disc, a labeling opening is arranged on the labeling disc, wherein,

7. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 6,

the labeling plate is provided with a direction roller in a rotating way, wherein,

and the direction roller is in transmission connection with the motor III.

8. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 1,

the cutting mechanism comprises an installation part, and the installation part comprises an installation frame, an installation hole formed in the installation frame, a driving part arranged on the installation frame and a rotating shaft in transmission connection with the driving part;

a drilling portion located on the mounting bracket; wherein the content of the first and second substances,

9. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 8,

the driving part comprises a first motor fixed on the mounting frame, an inner ring in sliding connection with the output end of the first motor, an outer ring sleeved on the inner ring, a transmission rod fixedly connected with the outer ring, and a second motor fixed on the mounting frame,

two ends of the inner ring are provided with limit rings to limit the sliding stroke of the outer ring, wherein,

the transmission rod is in transmission connection with the linear cylinder;

the rotating shaft is fixed on the inner ring.

10. The easy-to-maintain modified polypropylene power cable protection tube conveying mechanism of claim 9,

the blade group comprises a plurality of arc-shaped blocks which are arranged on the knife rest in a protruding mode and cutting edges arranged at two ends of each arc-shaped block, the arc-shaped blocks are made of flexible materials, and cleaning brushes are arranged on the surfaces of the arc-shaped blocks; wherein the content of the first and second substances,

the arc-shaped block is spirally arranged on the tool rest.