CN211655580U - Multifunctional dragon rotary type threading machine - Google Patents

Abstract

The utility model discloses a multi-functional flood dragon rotation type threading machine, including the casing, be located the casing inside and with casing fixed connection's mount still include with mount swing joint's core device, with the transmission that core device connects, transmission include with core device connects the first drive mechanism that makes the wire remove, makes core device pivoted second drive mechanism, the utility model discloses first drive mechanism and second drive mechanism's setting makes core device can rotate again when making the wire pass, and the wire can rotate again when advancing promptly, can be applicable to the pipeline of multiple different grade type, reaches the purpose of threading and mediation, and application scope pipe, work efficiency is high.

Description

Multifunctional dragon rotary type threading machine

Technical Field

The utility model relates to a wear the wire device, concretely relates to multi-functional flood dragon rotation type threading machine.

Background

At present, when threading is carried out on engineering pipelines, building walls and the like, most of the threading is carried out manually, the efficiency is low, the labor intensity is very high, when the threading is carried out manually at high altitude, resistance can be met sometimes in the threading process, the manual labor is too large, the threading is possibly broken, safety accidents are caused, some existing threading machines are complex in structure and inconvenient to carry, threading holes need to be continuously adjusted when different threading is carried out, the operation is complex, and in the prior art, threading machines are also arranged, for example, a Chinese patent with application number of 2016208325237 discloses a novel threading machine which comprises a machine shell (6) and a control switch arranged on the machine shell (6); the two ends of the shell (6) are provided with wire conduits, a machine core (9) is arranged in the shell, and a driving device is arranged at the lower part of the shell (6) and connected with the machine core (9); the conduit comprises a first conduit (5) and a second conduit (14) which are respectively arranged at two ends of the machine shell (6); one end of the first wire conduit (5) and one end of the second wire conduit (14) are respectively connected with one end of the end part of the machine core (9), the other end of the first wire conduit is respectively connected with one end of the machine shell (6), the threading machine can enable the wire to penetrate through a straight line pipeline, but when the diameter of the pipeline is small, the angle of the pipeline is small or continuous curves occur, the threading machine cannot drive the wire to penetrate through the pipeline, manual threading is still needed, operation is complex, and working efficiency is low.

Therefore, it is a problem worthy of research to provide a multifunctional dragon rotary threading machine with high working efficiency, wherein the lead can be threaded through various types of pipelines.

Disclosure of Invention

Not enough to above-mentioned prior art, the utility model aims at providing a multi-functional flood dragon rotation type threading machine suitable for polytype pipeline threading.

The purpose of the utility model is realized like this:

the utility model provides a multi-functional flood dragon rotation type threading machine, includes the casing, is located the casing inside and with casing fixed connection's mount, still include with mount swing joint's core device, with the transmission that the core device is connected, transmission include with the core device connect make the wire remove first drive mechanism, make core device pivoted second drive mechanism.

First drive mechanism includes the motor, is connected with the pivot of motor main shaft, is located main epaxial first gear, is located second gear on the core, the second gear with core device fixed connection, the worm is established to the one end of main shaft, the top and the below of worm are equipped with respectively rather than first turbine and the second turbine of normal running fit, first turbine with all be equipped with the gear piece on the second turbine, the main shaft with be equipped with the through-hole that makes the wire pass in the pivot.

The second transmission mechanism comprises a first clutch gear meshed with the fifth gear, a clutch shaft fixedly connected with the first clutch gear, a clutch fork sleeved on the clutch shaft and capable of sliding along the clutch shaft, and a second clutch gear used for shifting the second clutch gear to move along the clutch shaft, the rotating shaft, the main shaft and the clutch shaft are connected with the supporting plate through bearings, and the supporting plate is fixedly connected with the shell.

The second transmission mechanism further comprises a positioning mechanism for positioning the clutch shifting fork, the positioning mechanism comprises a shifting fork key in sliding fit with the shell, a fixing plate located below the shifting fork key and a groove body used for placing the clutch shifting fork and fixedly connected with the second clutch gear, a placing groove is formed in the upper surface of the fixing plate, a spring and a positioning bead located at the top of the spring are arranged in the placing groove, and a fixing rod connected with the clutch shifting fork through a pin shaft is arranged on the lower surface of the shifting fork key and matched with a groove.

The movement device comprises a movement shell, a line pressing mechanism and an adjusting mechanism, wherein the line pressing mechanism is positioned in the movement shell, the adjusting mechanism is used for adjusting the line pressing mechanism, the line pressing mechanism comprises a line pressing wheel mechanism and a transmission gear meshed with the line pressing wheel mechanism, and the line pressing wheel mechanism and the transmission gear are alternately distributed.

The line pressing mechanism is provided with at least two groups, and the transmission gear is provided with at least one.

The wire pressing wheel mechanism comprises an upper wire pressing wheel and a lower wire pressing wheel located below the upper wire pressing wheel, the upper wire pressing wheel is meshed with a gear piece of the first turbine, the lower wire pressing wheel is meshed with a gear piece of the second turbine, the lower wire pressing wheel is meshed with the transmission gear, and the upper wire pressing wheel and the lower wire pressing wheel respectively comprise a gear, a roller connected with the gear through a bearing and bearing seats located at two ends of the bearing.

The movement shell comprises a first blocking plate, a second blocking plate positioned on the left side of the first blocking plate, a first baffle and a second baffle, wherein the first baffle and the second baffle are fixedly connected with the left side face of the first blocking plate and the right side face of the second blocking plate, the first baffle is positioned in front of the second baffle, a conduit is arranged on the second blocking plate, the conduit passes through a bearing and is movably connected with the fixing frame, the main shaft penetrates through the first blocking plate, and the second gear is fixed with the right side face of the first blocking plate.

The adjusting mechanism comprises a sliding block connected with the upper wire pressing wheel through a bearing seat, a pressing plate fixedly connected with the top of the sliding block, a supporting block fixedly connected with the first baffle and the second baffle and positioned below the pressing plate, and an adjusting screw in threaded connection with the top of the supporting block.

The front side face and the rear side face of the sliding block are inserted into the reserved holes of the first baffle and the second baffle through connecting rods, and the lower wire pressing wheel and the transmission gear are fixedly connected with the first baffle and the second baffle through bearing seats.

The utility model has the advantages that: the utility model discloses first drive mechanism and second drive mechanism's setting makes the core device can rotate again when making the wire pass, and the wire can rotate again when advancing promptly, can be applicable to the pipeline of multiple different grade type, reaches the purpose of threading and mediation, and application scope pipe, work efficiency is high.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a top view of FIG. 2;

FIG. 4 is an enlarged schematic view of portion A;

in the figure: the mechanism comprises a shell 1, a fixed frame 2, a movement device 3, a first transmission mechanism 4, a second transmission mechanism 5, a first gear 6, a second gear 7, a spindle 8, a motor 9, a rotating shaft 10, a supporting plate 11, a clutch shaft 12, a first clutch gear 13, a second clutch gear 14, a clutch fork 15, a first blocking plate 16, a second blocking plate 17, a worm 18, a first turbine 19, a second turbine 20, an upper wire pressing wheel 21, a lower wire pressing wheel 22, a transmission gear 23, a sliding block 24, a pressing plate 25, a supporting block 26, an adjusting screw 27, a wire guide 28, a fixed rod 29, a first blocking plate 31, a second blocking plate 32, a groove body 33, a fixed plate 34, a placement groove 35, a positioning ball 36, a fork key 37 and a groove 38.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1:

as shown in fig. 1-3, a multi-functional flood dragon rotation type threading machine, including casing 1, be located 1 inside of casing and with 1 fixed connection's of casing mount 2 is equipped with the battery in the casing 1, still include with 2 swing joint's of mount core device 3, with the transmission that core device 3 is connected, the battery is connected with transmission, provides the power for transmission, transmission include with core device 3 connect make the wire remove first drive mechanism 4, make core device 3 pivoted second drive mechanism 5. The first transmission mechanism 4 comprises a motor 9, a spindle 8 connected with a rotating shaft 10 of the motor 9, a first gear 6 positioned on the spindle 8, and a second gear 7 positioned on the movement device 3, wherein the second gear 7 is fixedly connected with the movement device 3, the first gear 6 is sleeved on the outer surface of the spindle 8 and is fixed with the spindle 8, the spindle 8 rotates to drive the first gear 6 to rotate, the second gear 7 and the first gear 6 are coaxial, the motor 9 is provided with a switch for controlling the forward rotation or reverse rotation of the motor and is used for enabling a lead to advance or reverse, one end of the spindle 10 is provided with a worm 18, a first turbine 19 and a second turbine 20 which are in rotating fit with the worm 18 are respectively arranged above and below the worm 18, the first turbine 19 and the second turbine 20 are both provided with gear plates, the spindle 8 and the rotating shaft 10 are provided with through holes for enabling the lead to pass through, and the second transmission mechanism 5 enables the movement device 3 to integrally rotate, the second transmission mechanism 5 comprises a first clutch gear 13 engaged with a second gear 7, a clutch shaft 12 fixedly connected with the first clutch gear 13, a second clutch gear 14 sleeved on the clutch shaft 12 and capable of sliding along the clutch shaft, and a clutch fork 15 for shifting the second clutch gear 14 to move along the clutch shaft 13, wherein the rotating shaft 10, the spindle 9 and the clutch shaft 13 are all connected with a support plate 29 through bearings, the support plate 29 is fixedly connected with the housing 1, when the included angle of a threading pipeline is small or the curve is large, the second clutch gear 14 is shifted leftwards by the clutch fork 15, so that the second clutch gear 14 is engaged with the first gear 6, the clutch shaft 12 and the second clutch gear 14 rotate synchronously, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is engaged with the second gear 7, and the second gear 7 rotates, second gear 7 drives core device 3 and wholly rotates, it is rotatory when advancing to make the wire, be convenient for through multiple pipeline, and easy operation, application range is wide, when the pipeline that the wire passes through is the straight pipeline, need not carry out device 3 and rotate, stir second clutch gear 14 with clutch shift fork 15 right, make second clutch gear 14 keep away from with fourth gear 10, then separation and reunion axle 12 stall, this first clutch gear 13 stall, this second gear 7 stall, this core device 3 stall, the wire advances or the back leg under core device 3's effect, thereby pass through the pipeline.

The second transmission mechanism 5 further comprises a positioning mechanism for positioning the clutch shift fork, the positioning mechanism comprises a shift fork key 37 in sliding fit with the shell 1, a fixing plate 34 positioned below the shift fork key 37 and a groove body 33 used for placing the clutch shift fork 15 and fixedly connected with the second clutch gear 14, the groove body 33 is sleeved on the clutch shaft 12 and rotates around the clutch shaft 12, the clutch shift fork 15 is placed in the groove body 33, the upper surface of the shell 1 is provided with a hole for sliding the shift fork key left and right, the front end surface and the rear end surface of the shift fork key 37 are in sliding fit with the hole, the upper surface of the fixing plate 34 is provided with a placing groove 35, a spring and a positioning bead 36 positioned at the top of the spring are arranged in the placing groove 35, the lower surface of the shift fork key 37 is provided with a groove 38 matched with the positioning bead 36 and a fixing rod 29 connected with the clutch shift fork 15 through a, the two grooves 38 are arranged with two downward openings, the two grooves 38 are respectively a first groove on the left side and a second groove on the right side, the fixing rod 29 is arranged between the two grooves 38, the fixing rod 29 is arranged in front of a connecting line of the two grooves, the fixing rod 29 is arranged in front of the fixing plate 34, the fixing plate 34 is fixedly connected with the supporting plate 11, the fixing plate 34 is provided with two placing grooves 35 which are respectively a first placing groove 35 on the left side and a second placing groove on the right side, the bottom of the spring is fixedly connected with the bottom of the placing groove 35, the top of the spring is fixed with the positioning bead 36, the positioning bead 36 is arranged in the placing groove 35, and a part of the positioning bead 36 is exposed out of the placing groove 35, when the second clutch gear 14 is required to be meshed with the first gear 6, the shifting fork key 37 is pushed to move leftwards, the fixing rod 29 drives the clutch shifting fork 15 to move leftwards, the clutch fork 15 is fixed, the second clutch gear 14 is meshed with the second gear 7, the clutch shaft 12 and the second clutch gear 14 synchronously rotate, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is meshed with the second gear 7, the second gear 7 rotates, the second gear 7 drives the whole movement device 3 to rotate, the lead can rotate while advancing, the lead can conveniently pass through various pipelines, the operation is simple, the use range is wide, when the pipeline through which the lead passes is a straight pipeline, the device 3 does not need to rotate, the fork key 37 is pushed to move rightwards, the fixing rod 29 drives the clutch fork 15 to move rightwards, at the moment, the first groove is matched with the positioning ball positioned in the first placing groove, the clutch fork 15 is fixed, the second clutch gear 14 is far away from the first gear 6, the clutch shaft 12 stops rotating, and the first clutch gear 13 stops rotating, the second gear 7 stops rotating, the movement device 3 stops rotating, and the wire advances or moves backward under the action of the movement device 3, thereby passing through the pipe.

The movement device 3 comprises a movement shell and a line pressing mechanism positioned in the second clutch gear 14 of the movement shell 3, the line pressing mechanism comprises a line pressing wheel mechanism and a transmission gear 23 meshed with the line pressing wheel mechanism, and the line pressing wheel mechanism and the transmission gear 23 are alternately distributed. The wire pressing mechanisms are four in number, the transmission gears 23 are three in number, stress points of the wires are many, and the phenomenon of slipping is avoided. The wire pressing wheel mechanism comprises an upper wire pressing wheel 21 and a lower wire pressing wheel 22 positioned below the upper wire pressing wheel 21, a wire passes through the upper wire pressing wheel 21 and the lower wire pressing wheel 22, the upper wire pressing wheel 21 is meshed with a gear piece of the first turbine 19, the lower wire pressing wheel 22 is meshed with a gear piece of the second turbine 20, the lower wire pressing wheel 22 is meshed with the transmission gear 23, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 respectively comprise a gear, an idler wheel connected with the gear through a bearing and bearing seats positioned at two ends of the bearing, the gear and the idler wheel can be detachably, fixedly and coaxially connected or integrally cast, the motor 9 rotates, the spindle 10 drives the spindle 8 to rotate, the spindle 8 drives the first gear 6 to rotate, the spindle 9 drives the worm 18 to rotate, and the worm 18 is matched with the first turbine 19 and the second turbine 20 to rotate, the gear piece of the first turbine 19 is meshed with the upper wire pressing wheel 21 to rotate, the gear piece of the second turbine 20 is meshed with the lower wire pressing wheel 22 to rotate, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 drive the wire to move leftwards or rightwards, so that the wire penetrates through the pipeline, the transmission gear 23 is meshed with the lower wire pressing wheel 22, the transmission gear drives the next wire pressing wheel mechanism to rotate, and therefore the wire is input into the pipeline, and the wire penetrates through the pipeline.

The movement shell comprises a first blocking plate 16, a second blocking plate 17 positioned on the left side of the first blocking plate 16, a first baffle 31 and a second baffle 32 fixedly connected with the left side surface of the first blocking plate 16 and the right side surface of the second blocking plate 17, wherein the first baffle 31 is positioned in front of the second baffle 32, the first blocking plate 16 is fixedly connected with the first baffle 31 and the second baffle 32 through welding or bolt components, the second blocking plate 17 is fixedly connected with the first baffle 31 and the second baffle 32 through welding or bolt components, a conduit 28 is arranged on the second blocking plate 17, the conduit 28 passes through the second blocking plate 17 and is fixed with the second blocking plate 17, the conduit 28 is movably connected with the fixing frame 2 through a bearing, namely, when the movement device 3 rotates, the fixing frame 2 does not rotate, the fixing frame 2 is used for supporting the movement device 3, the main shaft 9 passes through the first blocking plate 16, the second gear 7 is fixed with the right side surface of the first blocking plate 16, through holes for leading wires to pass through are formed in the central axes of the main shaft 9 and the worm 18, and the wires enter from the right end of the main shaft 9 and then enter a pipeline needing to pass through after passing through the worm 18, the wire pressing wheel mechanism and the wire guide pipe 28 in sequence.

When the device needs to work, the motor 9 is rotated in the forward direction through a switch, the rotating shaft 10 of the motor 9 drives the main shaft 8 to rotate, the main shaft 8 drives the worm 18 to rotate, the worm 18 is matched with the first turbine 19 and the second turbine 20 to rotate, a gear piece of the first turbine 19 is meshed with the upper wire pressing wheel 21 to rotate, a gear piece of the second turbine 20 is meshed with the lower wire pressing wheel 22 to rotate, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 drive a wire to move leftwards or rightwards, so that the wire passes through a pipeline, the transmission gear 23 is meshed with the lower wire pressing wheel 22 to drive the next wire pressing wheel mechanism to rotate, so that the wire is input into the pipeline, the wire passes through the pipeline, when the wire needs to retreat, the rotating direction of the motor 9 is opposite, the wire retreats are realized, when an included angle of the threading pipeline is small or more, the second clutch gear 14, the second clutch gear 14 is meshed with the first gear 6, the clutch shaft 12 and the second clutch gear 14 synchronously rotate, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is meshed with the second gear 7, the second gear 7 rotates, the second gear 7 drives the core device 3 to integrally rotate, so that the lead rotates while advancing, various pipelines can be conveniently passed through, the operation is simple, the application range is wide, when the pipeline through which the wire passes is a straight pipeline, the device 3 does not need to be rotated, the clutch shifting fork 15 is used for shifting the second clutch gear 14 rightwards to enable the second clutch gear 14 to be far away from the first gear 6, the rotation of the clutch shaft 12 is stopped, the first clutch gear 13 is stopped, the second gear 7 is stopped, this movement device 3 stops rotating and the wire advances or rears under the action of the movement device 3, passing through the duct.

Example 2:

as shown in fig. 1-3, a multi-functional flood dragon rotation type threading machine, including casing 1, be located 1 inside of casing and with 1 fixed connection's of casing mount 2 is equipped with the battery in the casing 1, still include with 2 swing joint's of mount core device 3, with the transmission that core device 3 is connected, the battery is connected with transmission, provides the power for transmission, transmission include with core device 3 connect make the wire remove first drive mechanism 4, make core device 3 pivoted second drive mechanism 5. The first transmission mechanism 4 comprises a motor 9, a spindle 8 connected with a rotating shaft 10 of the motor 9, a first gear 6 positioned on the spindle 8, and a second gear 7 positioned on the core device 3, wherein the second gear 7 is fixedly connected with the core device 3, the first gear 6 is sleeved on the outer surface of the spindle 8 and is fixed with the spindle 8, the spindle 8 rotates to drive the first gear 6 to rotate, the second gear 7 and the first gear 6 are coaxial, the motor 9 is provided with a switch for controlling the forward rotation or reverse rotation of the motor and is used for enabling a lead to advance or reverse, one end of the spindle 10 is provided with a worm 18, a first turbine 19 and a second turbine 20 which are in rotating fit with the worm 18 are respectively arranged above and below the worm 18, the first turbine 19 and the second turbine 20 are both provided with gear plates, the second transmission mechanism 5 enables the core device 3 to integrally rotate, the spindle 8 and the rotating shaft 10 are provided with through holes for enabling the lead to pass through, the second transmission mechanism 5 comprises a first clutch gear 13 engaged with a second gear 7, a clutch shaft 12 fixedly connected with the first clutch gear 13, a second clutch gear 14 sleeved on the clutch shaft 12 and capable of sliding along the clutch shaft, and a clutch fork 15 for shifting the second clutch gear 14 to move along the clutch shaft 13, wherein the rotating shaft 10, the spindle 9 and the clutch shaft 13 are all connected with a support plate 29 through bearings, the support plate 29 is fixedly connected with the housing 1, when the included angle of a threading pipeline is small or the curve is large, the second clutch gear 14 is shifted leftwards by the clutch fork 15, so that the second clutch gear 14 is engaged with the first gear 6, the clutch shaft 12 and the second clutch gear 14 rotate synchronously, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is engaged with the second gear 7, and the second gear 7 rotates, second gear 7 drives core device 3 and wholly rotates, it is rotatory when advancing to make the wire, be convenient for through multiple pipeline, and easy operation, application range is wide, when the pipeline that the wire passes through is the straight pipeline, need not carry out device 3 and rotate, stir second clutch gear 14 with clutch shift fork 15 right, make second clutch gear 14 keep away from with fourth gear 10, then separation and reunion axle 12 stall, this first clutch gear 13 stall, this second gear 7 stall, this core device 3 stall, the wire advances or the back leg under core device 3's effect, thereby pass through the pipeline.

The second transmission mechanism 5 further comprises a positioning mechanism for positioning the clutch shift fork, the positioning mechanism comprises a shift fork key 37 in sliding fit with the shell 1, a fixing plate 34 positioned below the shift fork key 37 and a groove body 33 used for placing the clutch shift fork 15 and fixedly connected with the second clutch gear 14, the groove body 33 is sleeved on the clutch shaft 12 and rotates around the clutch shaft 12, the clutch shift fork 15 is placed in the groove body 33, the upper surface of the shell 1 is provided with a hole for sliding the shift fork key left and right, the front end surface and the rear end surface of the shift fork key 37 are in sliding fit with the hole, the upper surface of the fixing plate 34 is provided with a placing groove 35, a spring and a positioning bead 36 positioned at the top of the spring are arranged in the placing groove 35, the lower surface of the shift fork key 37 is provided with a groove 38 matched with the positioning bead 36 and a fixing rod 29 connected with the clutch shift fork 15 through a, the two grooves 38 are arranged with two downward openings, the two grooves 38 are respectively a first groove on the left side and a second groove on the right side, the fixing rod 29 is arranged between the two grooves 38, the fixing rod 29 is arranged in front of a connecting line of the two grooves, the fixing rod 29 is arranged in front of the fixing plate 34, the fixing plate 34 is fixedly connected with the supporting plate 11, the fixing plate 34 is provided with two placing grooves 35 which are respectively a first placing groove 35 on the left side and a second placing groove on the right side, the bottom of the spring is fixedly connected with the bottom of the placing groove 35, the top of the spring is fixed with the positioning bead 36, the positioning bead 36 is arranged in the placing groove 35, and a part of the positioning bead 36 is exposed out of the placing groove 35, when the second clutch gear 14 is required to be meshed with the first gear 6, the shifting fork key 37 is pushed to move leftwards, the fixing rod 29 drives the clutch shifting fork 15 to move leftwards, the clutch fork 15 is fixed, the second clutch gear 14 is meshed with the second gear 7, the clutch shaft 12 and the second clutch gear 14 synchronously rotate, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is meshed with the second gear 7, the second gear 7 rotates, the second gear 7 drives the whole movement device 3 to rotate, the lead can rotate while advancing, the lead can conveniently pass through various pipelines, the operation is simple, the use range is wide, when the pipeline through which the lead passes is a straight pipeline, the device 3 does not need to rotate, the fork key 37 is pushed to move rightwards, the fixing rod 29 drives the clutch fork 15 to move rightwards, at the moment, the first groove is matched with the positioning ball positioned in the first placing groove, the clutch fork 15 is fixed, the second clutch gear 14 is far away from the first gear 6, the clutch shaft 12 stops rotating, and the first clutch gear 13 stops rotating, the second gear 7 stops rotating, the movement device 3 stops rotating, and the wire advances or moves backward under the action of the movement device 3, thereby passing through the pipe.

The movement device 3 comprises a movement shell and a line pressing mechanism positioned in the second clutch gear 14 of the movement shell 3, the line pressing mechanism comprises a line pressing wheel mechanism and a transmission gear 23 meshed with the line pressing wheel mechanism, and the line pressing wheel mechanism and the transmission gear 23 are alternately distributed. The wire pressing mechanisms are four in number, the transmission gears 23 are three in number, stress points of the wires are many, and the phenomenon of slipping is avoided. The wire pressing wheel mechanism comprises an upper wire pressing wheel 21 and a lower wire pressing wheel 22 positioned below the upper wire pressing wheel 21, a wire passes through the upper wire pressing wheel 21 and the lower wire pressing wheel 22, the upper wire pressing wheel 21 is meshed with a gear piece of the first turbine 19, the lower wire pressing wheel 22 is meshed with a gear piece of the second turbine 20, the lower wire pressing wheel 22 is meshed with the transmission gear 23, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 respectively comprise a gear, an idler wheel connected with the gear through a bearing and bearing seats positioned at two ends of the bearing, the gear and the idler wheel can be detachably, fixedly and coaxially connected or integrally cast, the motor 9 rotates, the spindle 10 drives the spindle 8 to rotate, the spindle 8 drives the first gear 6 to rotate, the spindle 9 drives the worm 18 to rotate, and the worm 18 is matched with the first turbine 19 and the second turbine 20 to rotate, the gear piece of the first turbine 19 is meshed with the upper wire pressing wheel 21 to rotate, the gear piece of the second turbine 20 is meshed with the lower wire pressing wheel 22 to rotate, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 drive the wire to move leftwards or rightwards, so that the wire penetrates through the pipeline, the transmission gear 23 is meshed with the lower wire pressing wheel 22, the transmission gear drives the next wire pressing wheel mechanism to rotate, and therefore the wire is input into the pipeline, and the wire penetrates through the pipeline.

The movement shell comprises a first blocking plate 16, a second blocking plate 17 positioned on the left side of the first blocking plate 16, a first baffle 31 and a second baffle 32 fixedly connected with the left side surface of the first blocking plate 16 and the right side surface of the second blocking plate 17, wherein the first baffle 31 is positioned in front of the second baffle 32, the first blocking plate 16 is fixedly connected with the first baffle 31 and the second baffle 32 through welding or bolt components, the second blocking plate 17 is fixedly connected with the first baffle 31 and the second baffle 32 through welding or bolt components, a conduit 28 is arranged on the second blocking plate 17, the conduit 28 passes through the second blocking plate 17 and is fixed with the second blocking plate 17, the conduit 28 is movably connected with the fixing frame 2 through a bearing, namely, when the movement device 3 rotates, the fixing frame 2 does not rotate, the fixing frame 2 is used for supporting the movement device 3, the main shaft 9 passes through the first blocking plate 16, the second gear 7 is fixed with the right side surface of the first blocking plate 16, through holes for leading wires to pass through are formed in the central axes of the main shaft 9 and the worm 18, and the wires enter from the right end of the main shaft 9 and then enter a pipeline needing to pass through after passing through the worm 18, the wire pressing wheel mechanism and the wire guide pipe 28 in sequence.

When the device needs to work, the motor 9 is rotated in the forward direction through a switch, the rotating shaft 10 of the motor 9 drives the main shaft 8 to rotate, the main shaft 8 drives the worm 18 to rotate, the worm 18 is matched with the first turbine 19 and the second turbine 20 to rotate, a gear piece of the first turbine 19 is meshed with the upper wire pressing wheel 21 to rotate, a gear piece of the second turbine 20 is meshed with the lower wire pressing wheel 22 to rotate, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 drive a wire to move leftwards or rightwards, so that the wire passes through a pipeline, the transmission gear 23 is meshed with the lower wire pressing wheel 22 to drive the next wire pressing wheel mechanism to rotate, so that the wire is input into the pipeline, the wire passes through the pipeline, when the wire needs to retreat, the rotating direction of the motor 9 is opposite, the wire retreats are realized, when an included angle of the threading pipeline is small or more, the second clutch gear 14, the second clutch gear 14 is meshed with the first gear 6, the clutch shaft 12 and the second clutch gear 14 synchronously rotate, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is meshed with the second gear 7, the second gear 7 rotates, the second gear 7 drives the core device 3 to integrally rotate, so that the lead rotates while advancing, various pipelines can be conveniently passed through, the operation is simple, the application range is wide, when the pipeline through which the wire passes is a straight pipeline, the device 3 does not need to be rotated, the clutch shifting fork 15 is used for shifting the second clutch gear 14 rightwards to enable the second clutch gear 14 to be far away from the first gear 6, the rotation of the clutch shaft 12 is stopped, the first clutch gear 13 is stopped, the second gear 7 is stopped, this movement device 3 stops rotating and the wire advances or rears under the action of the movement device 3, passing through the duct.

The adjusting mechanism comprises a sliding block 24 connected with the upper wire pressing wheel 21 through a bearing seat, a pressing plate 25 fixedly connected with the top of the sliding block 24, a supporting block 26 fixedly connected with the first baffle 31 and the second baffle 32 and positioned below the pressing plate 25, and an adjusting screw 27 in threaded connection with the top of the supporting block 26. The front side surface and the rear side surface of the sliding block 24 are inserted into the reserved holes of the first baffle plate 31 and the second baffle plate 32 through connecting rods, the lower wire pressing wheel 22 and the transmission gear 23 are fixedly connected with the first baffle plate 31 and the second baffle plate 32 through bearing seats, because the supporting block 26 is fixed with the pressing plate 25, and the supporting block 26 is fixed with the first baffle plate 31 and the second baffle plate 32, the pressing plate 25 is connected with the first baffle plate 31 and the second baffle plate 32 through the supporting block 26, but when the upper wire pressing wheel 21 needs to be adjusted downwards, the adjusting screw 27 is rotated to move downwards, namely, the top of the adjusting screw 27 is contacted with the pressing plate 25 and extrudes the pressing plate 25 downwards, at the moment, the pressing plate 25 drives the sliding block 24 to move downwards, the sliding block 24 moves downwards in the reserved holes of the first baffle plate 31 and the second baffle plate 32 through the connecting rods, at the moment, the sliding block 24 drives the upper wire pressing wheel 21 to move downwards, and the distance between, the wire is compressed tightly, can be suitable for the wire of different diameters, be equipped with the handle hole at 1 top of casing of adjusting screw 27 corresponding position, be equipped with the lid on the handle hole, the lid can be dismantled, be convenient for make adjusting screw 27 rotate through outside instrument, make when needs adjusting screw 27, can open motor 9, make the motor be in low-speed rotation state, treat that screw 27 rotates when the handle hole, close the motor, can adjusting screw 27, clamp plate 25 can be connected with two sets of or three group last fabric wheels 21, reduce adjusting screw's setting.

When the device needs to work, the motor 9 is rotated in the forward direction through a switch, the rotating shaft 10 of the motor 9 drives the main shaft 8 to rotate, the main shaft 8 drives the worm 18 to rotate, the worm 18 is matched with the first turbine 19 and the second turbine 20 to rotate, a gear piece of the first turbine 19 is meshed with the upper wire pressing wheel 21 to rotate, a gear piece of the second turbine 20 is meshed with the lower wire pressing wheel 22 to rotate, the upper wire pressing wheel 21 and the lower wire pressing wheel 22 drive a wire to move leftwards or rightwards, so that the wire passes through a pipeline, the transmission gear 23 is meshed with the lower wire pressing wheel 22 to drive the next wire pressing wheel mechanism to rotate, so that the wire is input into the pipeline, the wire passes through the pipeline, when the wire needs to retreat, the rotating direction of the motor 9 is opposite, the wire retreats are realized, when an included angle of the threading pipeline is small or more, the second clutch gear 14, the second clutch gear 14 is meshed with the first gear 6, the clutch shaft 12 and the second clutch gear 14 synchronously rotate, the clutch shaft 12 drives the first clutch gear 13 to rotate, the first clutch gear 13 is meshed with the second gear 7, the second gear 7 rotates, the second gear 7 drives the movement device 3 to integrally rotate, so that the lead rotates while advancing, various pipelines can be conveniently passed through, the operation is simple, the application range is wide, when the pipeline through which the wire passes is a straight pipeline, the device 3 does not need to be rotated, the clutch shifting fork 15 is used for shifting the second clutch gear 14 rightwards to enable the second clutch gear 14 to be far away from the first gear 6, the rotation of the clutch shaft 12 is stopped, the first clutch gear 13 is stopped, the second gear 7 is stopped, the movement device 3 stops rotating and the wire advances or rears under the action of the movement device 3, thereby passing through the duct.

The utility model discloses first drive mechanism and second drive mechanism's setting makes the core device can rotate again when making the wire pass, and the wire can rotate again when advancing promptly, can be applicable to the pipeline of multiple different grade type, reaches the purpose of threading and mediation, and application scope pipe, work efficiency is high.

Claims (10)

1. The utility model provides a multi-functional flood dragon rotation type threading machine, includes the casing, is located the casing inside and with casing fixed connection's mount, its characterized in that: the transmission device comprises a first transmission mechanism and a second transmission mechanism, wherein the first transmission mechanism is connected with the core device to enable the lead to move, and the second transmission mechanism enables the core device to rotate.

2. The multi-functional flood dragon rotation type threading machine of claim 1, characterized in that: first drive mechanism includes the motor, is connected with the pivot of motor main shaft, is located main epaxial first gear, is located second gear on the core, the second gear with core device fixed connection, the worm is established to the one end of main shaft, the top and the below of worm are equipped with respectively rather than first turbine and the second turbine of normal running fit, first turbine with all be equipped with the gear piece on the second turbine, the main shaft with be equipped with the through-hole that makes the wire pass in the pivot.

3. The multi-functional flood dragon rotation type threading machine of claim 2, characterized in that: the second transmission mechanism comprises a first clutch gear meshed with the second gear, a clutch shaft fixedly connected with the first clutch gear, a clutch fork sleeved on the clutch shaft and capable of being followed by a second clutch gear sliding on the clutch shaft and used for shifting the second clutch gear to move along the clutch shaft, the rotating shaft and the main shaft clutch shaft are connected with the supporting plate through bearings, and the supporting plate is fixedly connected with the shell.

4. The multi-functional flood dragon rotation type threading machine of claim 3, characterized in that: the second transmission mechanism further comprises a positioning mechanism for positioning the clutch shifting fork, the positioning mechanism comprises a shifting fork key in sliding fit with the shell, a fixing plate located below the shifting fork key and a groove body used for placing the clutch shifting fork and fixedly connected with the second clutch gear, a placing groove is formed in the upper surface of the fixing plate, a spring and a positioning bead located at the top of the spring are arranged in the placing groove, and a fixing rod connected with the clutch shifting fork through a pin shaft is arranged on the lower surface of the shifting fork key and matched with a groove.

5. The multi-functional flood dragon rotation type threading machine of claim 3, characterized in that: the movement device comprises a movement shell, a line pressing mechanism and an adjusting mechanism, wherein the line pressing mechanism is positioned in the movement shell, the adjusting mechanism is used for adjusting the line pressing mechanism, the line pressing mechanism comprises a line pressing wheel mechanism and a transmission gear meshed with the line pressing wheel mechanism, and the line pressing wheel mechanism and the transmission gear are alternately distributed.

6. The multi-functional flood dragon rotation type threading machine of claim 5, characterized in that: the line pressing mechanism is provided with at least two groups, and the transmission gear is provided with at least one.

7. The multi-functional flood dragon rotation type threading machine of claim 6, characterized in that: the wire pressing wheel mechanism comprises an upper wire pressing wheel and a lower wire pressing wheel located below the upper wire pressing wheel, the upper wire pressing wheel is meshed with a gear piece of the first turbine, the lower wire pressing wheel is meshed with a gear piece of the second turbine, the lower wire pressing wheel is meshed with the transmission gear, and the upper wire pressing wheel and the lower wire pressing wheel respectively comprise a gear, a roller connected with the gear through a bearing and bearing seats located at two ends of the bearing.

8. The multi-functional flood dragon rotation type threading machine of claim 7, characterized in that: the movement shell comprises a first blocking plate, a second blocking plate positioned on the left side of the first blocking plate, a first baffle and a second baffle, wherein the first baffle and the second baffle are fixedly connected with the left side face of the first blocking plate and the right side face of the second blocking plate, the first baffle is positioned in front of the second baffle, a conduit is arranged on the second blocking plate, the conduit passes through a bearing and is movably connected with the fixing frame, the main shaft penetrates through the first blocking plate, and the second gear is fixed with the right side face of the first blocking plate.

9. The multi-functional flood dragon rotation type threading machine of claim 8, characterized in that: the adjusting mechanism comprises a sliding block connected with the upper wire pressing wheel through a bearing seat, a pressing plate fixedly connected with the top of the sliding block, a supporting block fixedly connected with the first baffle and the second baffle and positioned below the pressing plate, and an adjusting screw in threaded connection with the top of the supporting block.

10. The multi-functional flood dragon rotation type threading machine of claim 9, characterized in that: the front side face and the rear side face of the sliding block are inserted into the reserved holes of the first baffle and the second baffle through connecting rods, and the lower wire pressing wheel and the transmission gear are fixedly connected with the first baffle and the second baffle through bearing seats.

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