CN108516407B

CN108516407B - Prevent rubber tube mount and around tub device of mount of hydraulic pressure rubber tube damage

Info

Publication number: CN108516407B
Application number: CN201810559674.3A
Authority: CN
Inventors: 苏文
Original assignee: Maanshan Feida Bellows Manufacturing Co ltd
Current assignee: Maanshan Feida Bellows Manufacturing Co ltd
Priority date: 2018-06-02
Filing date: 2018-06-02
Publication date: 2023-06-06
Anticipated expiration: 2038-06-02
Also published as: CN108516407A

Abstract

The invention relates to the technical field of hydraulic rubber tube production equipment, in particular to a rubber tube fixing frame capable of preventing a hydraulic rubber tube from being damaged and a tube winding device of the fixing frame. The invention aims to solve the technical problem that a hydraulic rubber tube wound on the inner side of a fixing frame is easy to deform and damage. In order to solve the technical problems, the invention provides a rubber tube fixing frame capable of preventing a hydraulic rubber tube from being damaged and a tube winding device of the fixing frame, which comprises a base, wherein a fixing rod, two hydraulic telescopic columns and an arc-shaped positioning plate are fixedly connected to the top of the base from left to right, the tops of the two hydraulic telescopic columns are fixedly connected through a square movable plate, and a rotary bearing device is arranged at the top of the square movable plate. This prevent rubber tube mount and around tub device of mount that hydraulic pressure rubber tube damaged makes the hydraulic pressure rubber tube can twine from the outside of support column according to people's predetermined thinking automatically, and utilizes the backup pad on the support column to make the hydraulic pressure rubber tube receive the power diminish, guarantees that hydraulic pressure rubber tube can not warp the damage.

Description

Prevent rubber tube mount and around tub device of mount of hydraulic pressure rubber tube damage

Technical Field

The invention relates to the technical field of hydraulic rubber tube production equipment, in particular to a rubber tube fixing frame capable of preventing a hydraulic rubber tube from being damaged and a tube winding device of the fixing frame.

Background

The hydraulic rubber tube mainly comprises a liquid-resistant synthetic rubber inner rubber layer, a middle rubber layer, a plurality of reinforcing layers and a weather-resistant synthetic rubber outer rubber layer.

The inner adhesive layer has the functions of enabling the conveying medium to bear pressure, protecting steel wires or wire fibers from being corroded, the outer adhesive layer protects the reinforcing layer from being damaged, the reinforcing layer is made of framework materials, the service pressure of the rubber tube is guaranteed, and the quality of the hydraulic rubber tube is heavy due to the fact that materials in the hydraulic rubber tube are more.

The applicant has observed that the current hydraulic rubber pipe is wound on the fixing frame layer by layer after the hydraulic rubber pipe is processed and produced, and when the current hydraulic rubber pipe is wound, the current hydraulic rubber pipe is wound on the fixing frame layer by layer, and when the current hydraulic rubber pipe is wound on the inner side, the rear hydraulic rubber pipe is wound outside the hydraulic rubber pipe wound on the inner side again after the hydraulic rubber pipe is wound on the inner side, and the winding mode ensures that the inner side hydraulic rubber pipe can not only bear the winding force of the external hydraulic rubber pipe, but also bear the gravity of the external hydraulic rubber pipe, so that the extrusion force born by the inner side hydraulic rubber pipe is larger, and if jolt and the like are encountered in the transportation process, the deformation or damage of the inner side hydraulic rubber pipe can be easily caused, so the applicant proposes the fixing frame capable of reducing the extrusion force born by the hydraulic rubber pipe and the pipe winding device of the fixing frame.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides a rubber tube fixing frame for preventing a hydraulic rubber tube from being damaged and a tube winding device of the fixing frame, and solves the problem that the hydraulic rubber tube wound on the inner side of the fixing frame is easy to deform and damage.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a prevent rubber tube mount and around tub device of mount that hydraulic pressure rubber tube damaged, includes the base, the top of base from left to right fixedly connected with dead lever, two hydraulic telescoping columns and arc locating plate respectively, two the top of hydraulic telescoping column is through square fly leaf fixed connection, the top of square fly leaf is provided with rotates and bears the weight of the device, the top of arc locating plate and the top of dead lever pass through footstock fixed connection, the inner chamber of footstock is connected with first axis of rotation through the bearing rotation, the bottom welding of first axis of rotation has the revolving plate, the bottom fixedly connected with two first reference columns of revolving plate, the bottom of revolving plate is provided with rubber tube fixing device, the top fixedly connected with second axis of rotation of first axis of rotation, the top of footstock is provided with kinetic energy and produces transmission device and time-limited positioner, the left side of footstock is provided with the rubber tube lane device.

Preferably, the rotation bearing device comprises a rotation plate, the rotation plate is rotationally connected to the top of the square movable plate through a bearing seat, two second positioning columns are welded to the top of the rotation plate, two supporting plates are welded to four sides of the bottom of the rotation plate, one side corresponding to each supporting plate is provided with a third rotation shaft, a roller is rotationally connected to the outer portion of the third rotation shaft through a bearing, and the outer wall of the roller is attached to the top of the square movable plate.

When the rotating plate starts to rotate, the rollers simultaneously carry out the rollers, and the rollers are utilized to support the rotating plate.

Preferably, the rubber tube fixing device comprises a top plate, two grooves are formed in the top of the top plate, two first positioning columns at the bottom of the rotating plate are inserted into the two grooves in the top of the top plate respectively, the bottom of the top plate is fixedly connected with a bottom plate through a support column, two grooves are formed in the bottom of the bottom plate, two second positioning columns at the top of the rotating plate are inserted into the two grooves in the bottom of the bottom plate respectively, two circles of support plates are welded on the outer wall of the support column, and the two circles of support plates are symmetrically distributed outside the support column.

Placing the bottom plate of rubber tube positioner bottom at the top of rotating plate, making the recess of bottom plate correspond with the second reference column at rotating plate top, rotating the rotating plate, making the recess at roof top correspond with the first reference column at rotating plate bottom, then controlling the flexible post of hydraulic pressure and working, making the flexible post of hydraulic pressure drive rotating plate and rubber tube positioner upwards move, making the first reference column of rotating plate bottom peg graft in the recess at roof top, the distance between every two backup pads and the diameter looks adaptation of hydraulic pressure rubber tube, the distance between roof to the backup pad and the backup pad all with the diameter looks adaptation of hydraulic pressure rubber tube to the diameter between bottom plate, and the length of backup pad is seven times of hydraulic pressure rubber tube diameter.

Preferably, the kinetic energy generating and transmitting device comprises a gear motor, the gear motor is fixedly connected to the top of the footstock, a first tooth-missing gear and a second tooth-missing gear are fixedly sleeved on the outer wall of an output shaft of the gear motor from top to bottom respectively, a first transmission gear is meshed with the outer wall of the second tooth-missing gear, the first transmission gear is fixedly sleeved on the outer part of the second rotating shaft, and a semi-annular sleeve is welded at the bottom of the second tooth-missing gear.

Preferably, the tooth length of the first tooth-missing gear is one eighth of the circumference of the first tooth-missing gear, the tooth length of the second tooth-missing gear is seven eighth of the circumference of the second tooth-missing gear, the length of the semi-annular sleeve is one eighth of the circumference of the second tooth-missing gear, and one eighth of the diameter of the second tooth-missing gear is equal to the diameter of the first transmission gear.

Like this, when gear motor drives the second and lacks tooth gear and rotate one round, can make first drive gear drive second axis of rotation revolve circle, and the second axis of rotation can stop to rotate one end time after revolving the circle, when the tooth of second lacks tooth gear again with first drive gear contact, can drive first drive gear and second axis of rotation and continue to rotate, can drive rubber tube fixing device and rotate when the second axis of rotation rotates, make the outside of hydraulic hose winding at the support column.

Preferably, the time-limiting positioning device comprises a first fixed plate and a second fixed plate, wherein the first fixed plate and the second fixed plate are fixedly connected to the top of the footstock, the top of the second fixed plate is fixedly connected with a third fixed plate, the bottom of the third fixed plate is fixedly connected with a connecting block through a first fixed sleeve, the bottom of the connecting block is fixedly connected to the top of the first fixed plate through a second fixed sleeve, the left side of the third fixed plate is fixedly connected with a third fixed sleeve, the first fixed sleeve, the second fixed sleeve and the inner part of the third fixed sleeve are respectively movably sleeved with a single-inclined-surface movable plate, a non-inclined-surface movable plate and a double-inclined-surface movable plate, the inclined surface of the bottom of the double-inclined-surface movable plate is attached to the inclined surface of the single-inclined-surface movable plate, one end of the single-inclined-surface movable plate, which is far away from the inclined surface, is fixedly connected with an arc friction plate through an arc connecting rod, the bottom of the non-inclined-surface movable plate is fixedly connected with a support plate, and the right side of the non-inclined-surface movable plate is fixedly connected with a support plate through a compression spring, and the left side of the first side of the spring is fixedly connected with the left side of the spring.

The semi-annular sleeve is positioned at the bottom of the other side of the side, without teeth, of the second tooth-missing gear, when the position, without teeth, of the second tooth-missing gear corresponds to the first transmission gear, the bottom of the semi-annular sleeve is contacted with the double-inclined-plane movable plate, the double-inclined-plane movable plate is utilized to push the semi-inclined-plane movable plate to move rightwards, the semi-inclined-plane movable plate drives the non-inclined-plane movable plate to move rightwards, the compression spring is enabled to deform, the arc friction plate is enabled to be separated from the first rotating shaft, the first rotating shaft can be enabled to rotate very easily, when the position, with teeth, of the second tooth-missing gear is contacted with the first transmission gear, the bottom of the semi-annular sleeve is separated from the double-inclined-plane movable plate, and the non-inclined-plane movable plate simultaneously moves leftwards by utilizing force generated by compression spring deformation, the double-inclined-plane movable plate is enabled to move upwards, the non-inclined-plane movable plate drives the arc friction plate to move leftwards, the arc friction plate is enabled to contact with the first rotating shaft, and the first rotating shaft is enabled to be fixed.

Preferably, the rubber tube diversion device comprises a first rotating shaft, the first rotating shaft is rotationally connected to the left side of the footstock through a bearing, a second transmission gear is fixedly connected to the top of the first rotating shaft, the outer wall of the second transmission gear is meshed with the outer wall of the first tooth-lacking gear, a threaded rod is welded to the bottom of the first rotating shaft, a second rotating shaft is welded to the bottom of the threaded rod, the bottom of the second rotating shaft is rotationally connected to the top of the base through a bearing seat, a nut is sleeved on an external thread of the threaded rod, a circular ring sleeve is welded to the right side of the nut, the circular ring sleeve is movably sleeved on the outer portion of the fixing rod, and a rubber tube sleeve is fixedly connected to the back of the circular ring sleeve.

Preferably, the diameter of the second transmission gear is equal to one sixteenth of the diameter of the first tooth-missing gear.

When one side of the toothless tooth of the second toothless gear just corresponds to the first transmission gear, one side of the toothless tooth of the first toothless gear just contacts with the second transmission gear, so when the first transmission gear does not rotate, the second transmission gear starts to rotate, when one side of the toothless tooth of the second toothless gear just contacts with the first transmission gear, one side of the toothless tooth of the first toothless gear just corresponds to the second transmission gear, thus when the first transmission gear rotates, the second transmission gear does not rotate, and the part of the toothless tooth of the first toothless gear can drive the second transmission gear to rotate for two circles, thereby driving the first rotating shaft and the threaded rod to rotate for two circles, when the threaded rod rotates for two circles, the distance that the nut can move is equal to the diameter of the hydraulic rubber tube plus the thickness of the supporting plate, so when the second rotating shaft does not drive the rubber tube positioning device to rotate, the nut can drive the rubber tube sleeve to move downwards for one end distance, the distance is equal to the diameter of the hydraulic rubber tube plus the thickness of the supporting plate, and when the rubber tube fixing device rotates again, the hydraulic rubber tube is wound at one position.

The invention provides a hose fixing frame for preventing a hydraulic hose from being damaged and a hose winding device of the fixing frame, which have the following beneficial effects:

(1) The rubber tube fixing frame capable of preventing the hydraulic rubber tube from being damaged and the tube winding device of the fixing frame are arranged, the rotating bearing device can fix the rubber tube fixing device, and the rotating bearing device can drive the rubber tube fixing device to rotate when fixing the rubber tube fixing device.

(2) The rubber tube fixing frame and the tube winding device of the fixing frame can fix the hydraulic rubber tube in a layered mode, so that the hydraulic rubber tube can only receive winding force of the external hydraulic rubber tube, cannot bear gravity of the external hydraulic rubber tube, reduce force received by the hydraulic rubber tube, and ensure that the hydraulic rubber tube cannot be deformed and damaged.

(3) The kinetic energy generating and transmitting device can enable the first transmission gear and the second transmission gear to rotate in a time interval, so that the pipe winding device can sequentially wind the hydraulic rubber pipe.

(4) The rubber tube fixing frame capable of preventing the hydraulic rubber tube from being damaged and the tube winding device of the fixing frame can change the winding position of the hydraulic rubber tube, so that the hydraulic rubber tube can be wound according to the thought of people.

(5) The rubber tube fixing frame capable of preventing the hydraulic rubber tube from being damaged and the tube winding device of the fixing frame can limit the first rotating shaft in the rubber tube diversion device by the time limiting positioning device, so that the number of turns of the first rotating shaft is more accurate.

(6) The rubber tube fixing frame capable of preventing the hydraulic rubber tube from being damaged and the tube winding device of the fixing frame can improve the supporting force on the rotating plate by the idler wheels, so that the rotating plate cannot shake in the rotating process, and the whole tube winding device is more stable in working.

(7) The rubber tube fixing frame capable of preventing the hydraulic rubber tube from being damaged and the tube winding device of the fixing frame can support the hydraulic rubber tube in a layered mode, the force born by the hydraulic rubber tube is reduced, and the gap between the supporting plates enables the hydraulic rubber tube to be more convenient when the position of the hydraulic rubber tube is changed.

(8) The hose fixing frame capable of preventing the hydraulic hose from being damaged and the hose winding device of the fixing frame can automatically fix and release the first rotating shaft by utilizing the semi-annular sleeve, so that the whole hose winding device is more intelligent in working.

(9) The hydraulic telescopic column, the first positioning column and the second positioning column are utilized to be matched with grooves on the upper top plate and the bottom plate, so that the fixing of the rubber tube fixing device can be conveniently completed.

(10) The hydraulic rubber pipe can be automatically wound from the outside of the support column according to the preset ideas of people, and the force applied to the hydraulic rubber pipe is reduced by utilizing the support plate on the support column, so that the hydraulic rubber pipe is prevented from being deformed and damaged.

Drawings

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

FIG. 2 is a schematic front view of the rotary carrier of FIG. 1 according to the present invention;

FIG. 3 is a schematic elevational view of the hose fixing apparatus of FIG. 1 according to the present invention;

FIG. 4 is a schematic top view of the support column of FIG. 3 according to the present invention;

FIG. 5 is a schematic top view of the first hypoid gear of FIG. 1 according to the present invention;

FIG. 6 is a schematic top view of the second hypoid gear of FIG. 1 according to the present invention;

fig. 7 is an enlarged schematic view of a portion of fig. 1 according to the present invention.

In the figure: a base, 2 fixed bars, 3 hydraulic telescoping columns, 4 arc positioning plates, 5 square movable plates, 6 rotary bearing devices, 601 rotary plates, 602 second positioning columns, 603 supporting plates, 604 third rotary shafts, 605 rollers, 7 footboards, 8 first rotary shafts, 9 rotary plates, 10 rubber tube fixing devices, 1001 top plates, 1002 supporting plates, 1003 bottom plates, 1004 supporting plates, 11 second rotary shafts, 12 kinetic energy generating transmission devices, 1201 gear reduction motors, 1202 first gear missing gears, 1203 second gear missing gears, 1204 first transmission gears, 1205 semi-annular sleeves, 13 time-limited positioning devices, 1301 first fixed plates, 1302 second fixed plates, 1303 third fixed plates, 1304 first fixed sleeves, 1305 connecting blocks, 1306 second fixed sleeves, 1307 third fixed sleeves, 1308 single-bevel movable plates, 1309 non-bevel movable plates, 1310 double-bevel movable plates, 1311 arc connecting rods, 1312 arc friction plates, 1313 supporting plates, 1314 compression springs, 14 lane changing devices, 1401 first rotary shafts, 1402 second transmission gears, 1403, 1405 second rotary shafts, 1405, 1407 sleeves, 1406 round-shaped rubber tubes, and 15 positioning columns.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides a technical solution: the utility model provides a prevent rubber tube mount and around tub device of mount that hydraulic hose damaged, including base 1, the top of base 1 from left to right is fixedly connected with dead lever 2 respectively, two hydraulic telescoping posts 3 and arc locating plate 4, square fly leaf 5 fixed connection is passed through at the top of two hydraulic telescoping posts 3, the top of square fly leaf 5 is provided with and rotates carrier 6, rotate carrier 6 and include rotatory board 601, rotatory board 601 passes through the bearing frame and rotates the top of connecting at square fly leaf 5, the top welding of rotatory board 601 has two second locating posts 602, two fagging 603 have all been welded to four sides of rotatory board 601 bottom, one side that every two fagging 603 correspond is through third axis of rotation 604, the outside of third axis of rotation 604 is connected with gyro wheel 605 through the bearing rotation, the outer wall of gyro wheel 605 is laminated with the top of square fly leaf 5 mutually, when rotatory board 601 begins to rotate, the roller 605 supports the rotating plate 601 by the roller 605, the rotating bearing device 6 can fix the rubber tube fixing device 10 and simultaneously drive the bearing device 6 to rotate the rubber tube fixing device 10, the roller 605 can improve the supporting force of the rotating plate 601, the rotating plate 601 can not shake in the rotating process, thus the whole tube winding device is more stable in working, the top of the arc-shaped positioning plate 4 and the top of the fixed rod 2 are fixedly connected through the top seat 7, the inner cavity of the top seat 7 is rotationally connected with the first rotating shaft 8 through a bearing, the bottom of the first rotating shaft 8 is welded with the rotating plate 9, the bottom of the rotating plate 9 is fixedly connected with two first positioning posts 15, the bottom of the rotating plate 9 is provided with the rubber tube fixing device 10 and the rubber tube fixing device 10, comprises a top plate 1001, two grooves are formed in the top of the top plate 1001, two first positioning columns 15 at the bottom of a rotating plate 9 are respectively inserted into the two grooves at the top of the top plate 1001, the bottom of the top plate 1001 is fixedly connected with a bottom plate 1003 through a support column 1002, two grooves are formed in the bottom of the bottom plate 1003, two second positioning columns 602 at the top of the rotating plate 601 are respectively inserted into the two grooves at the bottom of the bottom plate 1003, two circles of support plates 1004 are welded on the outer wall of the support column 1002, the two circles of support plates 1004 are symmetrically distributed outside the support column 1002, the bottom plate 1003 at the bottom of a rubber tube positioning device 10 is placed at the top of the rotating plate 601, the grooves at the top of the bottom plate 1003 correspond to the second positioning columns 602 at the top of the rotating plate 601, the rotating plate 601 is rotated, the grooves at the top of the top plate 1001 correspond to the first positioning columns 15 at the bottom of the rotating plate 9, then the hydraulic telescopic columns 3 are controlled to work, the hydraulic telescopic column 3 drives the rotating plate 601 and the rubber tube positioning device 10 to move upwards, the first positioning column 15 at the bottom of the rotating plate 9 is inserted into the groove at the top of the top plate 1001, the distance between every two supporting plates 1004 is matched with the diameter of the hydraulic rubber tube, the distance between the top plate 1001 and the supporting plates 1004 and the distance between the supporting plates 1004 and the bottom plate 1003 are matched with the diameter of the hydraulic rubber tube, the length of the supporting plates 1004 is seven times of the diameter of the hydraulic rubber tube, the rubber tube fixing device 10 can fix the hydraulic rubber tube in a layering manner, the hydraulic rubber tube only can bear the winding force of the external hydraulic rubber tube, the gravity of the external hydraulic rubber tube can not be borne, the force borne by the hydraulic rubber tube is reduced, the hydraulic rubber tube is not deformed and damaged, the supporting plates 1004 on the supporting columns 1002 can support the hydraulic rubber tube in a layering manner, the force borne by the hydraulic rubber tube is reduced, the gap between the supporting plates 1004 makes the hydraulic rubber tube more convenient when changing position, the hydraulic telescopic column 3, the first positioning column 15 and the second positioning column 602 are matched with the grooves on the upper top plate 1001 and the bottom plate 1003, the fixing of the rubber tube fixing device 10 can be conveniently completed, the top of the first rotating shaft 8 is fixedly connected with the second rotating shaft 11, the top of the top seat 7 is provided with the kinetic energy generating and transmitting device 12 and the time-limiting positioning device 13, the kinetic energy generating and transmitting device 12 comprises a gear motor 1201, the gear motor 1201 is fixedly connected with the top of the top seat 7, the outer wall of the output shaft of the gear motor 1201 is fixedly sleeved with a first gear lacking gear 1202 and a second gear lacking gear 1203 respectively from top to bottom, the outer wall of the second gear lacking gear 1203 is meshed with a first transmission gear 1204, the first transmission gear 1204 is fixedly sleeved outside the second rotating shaft 11, the bottom of the second gear lacking gear 1203 is welded with a semi-ring sleeve 1205, the length of the teeth of the first gear segment 1202 is one eighth of the circumference of the first gear segment 1202, the length of the teeth of the second gear segment 1203 is seven eighth of the circumference of the second gear segment 1203, the length of the semi-annular sleeve 1205 is one eighth of the circumference of the second gear segment 1203, and one eighth of the diameter of the second gear segment 1203 is equal to the diameter of the first transmission gear 1204, so that when the gear motor 1201 drives the second gear segment 1203 to rotate for one circle, the first transmission gear 1204 drives the second transmission gear 11 to rotate for 7 circles, and the second transmission gear 11 stops rotating for one time after rotating for 7 circles, when the teeth of the second gear segment 1203 are contacted with the first transmission gear 1204 again, the first transmission gear 1204 and the second transmission gear 11 are driven to continue rotating, when the second transmission gear 11 rotates, the rubber tube fixing device 10 is driven to rotate, the hydraulic rubber tube is wound outside the support column 1002, the kinetic energy generating and transmitting device 12 can enable the first transmission gear 1204 and the second transmission gear 1402 to rotate in time intervals, so that the tube winding device can sequentially wind the hydraulic rubber tube, the time limiting and positioning device 13 comprises a first fixing plate 1301 and a second fixing plate 1302, the first fixing plate 1301 and the second fixing plate 1302 are fixedly connected to the top of the top seat 7, the top of the second fixing plate 1302 is fixedly connected with a third fixing plate 1303, the bottom of the third fixing plate 1303 is fixedly connected with a connecting block 1305 through a first fixing sleeve 1304, the bottom of the connecting block 1305 is fixedly connected to the top of the first fixing plate 1301 through a second fixing sleeve 1306, the left side of the third fixing plate 1303 is fixedly connected with a third fixing sleeve 1307, the interiors of the first fixing sleeve 1304, the second fixing sleeve 1306 and the third fixing sleeve 1307 are respectively and movably sleeved with a single-slope movable plate 1308, a non-slope movable plate 1309 and a double-slope movable plate 1310, the inclined plane at the bottom of the double-inclined-plane movable plate 1310 is attached to the inclined plane of the single-inclined-plane movable plate 1308, one end of the single-inclined-plane movable plate 1308 away from the inclined plane is fixedly connected with the right end of the non-inclined-plane movable plate 1309 through an arc-shaped connecting rod 1311, one end of the non-inclined-plane movable plate 1309 away from the arc-shaped connecting rod 1311 is fixedly connected with an arc-shaped friction plate 1312, the bottom of the non-inclined-plane movable plate 1309 is fixedly connected with a support plate 1313, the right side of the support plate 1313 is fixedly connected with the left side of the first fixed plate 1301 through a compression spring 1314, the semi-annular sleeve 1205 is positioned at the bottom of the other side of the second tooth-missing gear 1203, which is not provided with teeth, so that when the position of the second tooth-missing gear 1203 is corresponding to the first transmission gear 1204, the bottom of the semi-annular sleeve 1205 is contacted with the double-inclined-plane movable plate 1310, the semi-inclined-plane movable plate 1308 is pushed to move rightwards by the double-inclined-plane movable plate 1310, the semi-inclined movable plate 1308 drives the non-inclined movable plate 1309 to move rightwards, the arc-shaped friction plate 1312 moves rightwards, the compression spring 1314 is deformed, the arc-shaped friction plate 1312 is separated from the first rotating shaft 1401, the first rotating shaft 1401 can rotate easily, when the position of the second tooth-missing gear 1203 with teeth contacts with the first transmission gear 1204, the bottom of the semi-annular sleeve 1205 is separated from the double-inclined movable plate 1310, the single-inclined movable plate 1308 and the non-inclined movable plate 1309 simultaneously move leftwards by the force generated by the deformation of the compression spring 1314, the double-inclined movable plate 1310 moves upwards, the non-inclined movable plate 1309 drives the arc-shaped friction plate 1312 to move leftwards, the arc-shaped friction plate 1312 contacts with the first rotating shaft 1401, the first rotating shaft 1401 is fixed, the time limiting positioning device 13 can limit the first rotating shaft 1401 in the rubber pipe diversion device 14, the rubber tube diversion device 14 is arranged on the left side of the top seat 7, the rubber tube diversion device 14 comprises a first rotating shaft 1401, the fixing and the releasing of the first rotating shaft 1401 can be automatically completed by utilizing a semi-annular sleeve 1205, the whole tube winding device is more intelligent in working, the first rotating shaft 1401 is rotationally connected on the left side of the top seat 7 through a bearing, the top of the first rotating shaft 1401 is fixedly connected with a second transmission gear 1402, the outer wall of the second transmission gear 1402 is meshed with the outer wall of the first tooth-lacking gear 1202, a threaded rod 1403 is welded at the bottom of the first rotating shaft 1401, a second rotating shaft 1404 is welded at the bottom of the threaded rod 1403, the bottom of the second rotating shaft 1404 is rotationally connected at the top of the base 1 through a bearing seat, a nut 1405 is sleeved outside the threaded rod 1403, a circular sleeve 1406 is welded on the right side of the nut 1405, the circular sleeve 1406 is movably sleeved outside a fixed rod 2, the back of the circular sleeve 1406 is fixedly connected with a rubber tube 1407, the diameter of the second transmission gear 1402 is equal to one sixteenth of the diameter of the first gear with missing teeth 1202, when one side without teeth of the second gear with missing teeth 1203 just corresponds to the first transmission gear 1204, the side with teeth of the first gear with missing teeth 1202 just contacts with the second transmission gear 1402, thus when the first transmission gear 1204 does not rotate, the second transmission gear 1402 starts to rotate, when one side with teeth of the second gear with missing teeth 1203 just contacts with the first transmission gear 1204, the side without teeth of the first gear with missing teeth 1202 just corresponds to the second transmission gear 1402, thus when the first transmission gear 1204 rotates, the second transmission gear 1402 does not rotate, and the part with teeth of the first gear with missing teeth 1202 can drive the second transmission gear 1402 to rotate for two circles, thereby driving the first rotating shaft 1401 and the threaded rod 1403 to rotate for two circles, when the threaded rod 1403 rotates for two times, the distance that the nut 1405 can move is equal to the diameter of the hydraulic rubber tube plus the thickness of the supporting plate 1004, so when the second rotating shaft 11 does not drive the rubber tube positioning device 10 to rotate, the nut 1405 can drive the rubber tube sleeve 1407 to move downwards by one end distance which is equal to the diameter of the hydraulic rubber tube plus the thickness of the supporting plate 1004, when the rubber tube fixing device 10 rotates again, the hydraulic rubber tube can be wound at one position, the rubber tube diversion device 14 can change the winding position of the hydraulic rubber tube, the hydraulic rubber tube can be wound according to the idea of people, and the hydraulic rubber tube can be automatically wound from the outside of the supporting column 1002 according to the preset idea of people through the rotating bearing device 6, the rubber tube fixing device 10, the kinetic energy generating and transmitting device 12, the time limiting and the rubber tube diversion device 14, and the supporting plate 1004 on the supporting column 1002 is utilized to reduce the force applied to the hydraulic rubber tube, so that the hydraulic rubber tube is ensured not to be deformed and damaged.

Working principle: firstly, placing a rubber tube fixing device 10 on a rotary bearing device 6, then starting a hydraulic telescopic device 3, enabling the rotary bearing device 6 to drive the rubber tube fixing device 10 to move upwards, fixing the rubber tube fixing device 10 by utilizing the rotary bearing device 6 and a rotary plate 9, enabling a formed hydraulic rubber tube to pass through a rubber tube sleeve 1407, enabling the center position of the corresponding side of a top plate 1001 and an uppermost supporting plate 1004 to correspond to the position of the rubber tube sleeve 1407, enabling one end of the hydraulic rubber tube to be clamped between the two supporting plates 1004, and finally starting a speed reducing motor 1201; when the output shaft of the gear motor 1201 drives the first and second gear-

missing gears

1202 and 1203 to rotate clockwise, the side of the gear-missing gear 1203 with teeth contacts with the first transmission gear 1204, the side of the gear-missing gear 1202 without teeth corresponds to the second transmission gear 1402, after the first and second gear-

missing gears

1202 and 1203 rotate by eight-th of a turn, the second gear-missing gear 1203 drives the first transmission gear 1204 to rotate by seven turns, so that the hydraulic rubber tube winds up the support column 1002 by seven turns, at the same time, the side of the gear-missing gear 1203 without teeth rotates to correspond to the first transmission gear 1204, the side of the gear-missing gear 1202 with teeth rotates to contact with the second transmission gear 1402, the output shaft of the gear motor 1201 continuously drives the first and second gear-

missing gears

1202 and 1203 to rotate clockwise, until the side of the second missing tooth gear 1203 with teeth contacts the first transmission gear 1204, the hose fixing device 10 will not continue to rotate without power source, the arc friction plate 1312 will be separated from the first rotation shaft 1401 due to the force, the first rotation shaft 1401 will be rotated two times counterclockwise by the second transmission gear 1402, the threaded rod 1403 will be rotated two times counterclockwise, the threaded rod 1403 will rotate two times counterclockwise, the nut 1405 will move downward by a distance corresponding to the diameter of the hydraulic hose plus the thickness of the support plate 1004, so that when the side of the second missing tooth gear 1203 with teeth contacts the first transmission gear 1204 again, the hydraulic hose will be replaced to a position between the two support plates 1004 for winding, and then the operation is repeated.

Claims

1. The utility model provides a prevent rubber tube mount and around tub device of mount of hydraulic pressure rubber tube damage, includes base (1), its characterized in that: the top of base (1) from left to right fixedly connected with dead lever (2), two hydraulic telescoping columns (3) and arc locating plate (4) respectively, two the top of hydraulic telescoping column (3) is through square fly leaf (5) fixed connection, the top of square fly leaf (5) is provided with rotates bears device (6), the top of arc locating plate (4) and the top of dead lever (2) are through footstock (7) fixed connection, the inner chamber of footstock (7) is connected with first axis of rotation (8) through the bearing rotation, the bottom welding of first axis of rotation (8) has rotating plate (9), the bottom fixedly connected with two first reference columns (15) of rotating plate (9), the bottom of rotating plate (9) is provided with rubber tube fixing device (10), the top fixedly connected with second axis of rotation (11) of rotating plate (8), the top of footstock (7) is provided with kinetic energy and produces transmission device (12) and limit locating device (13), the left side of footstock (7) is provided with lane device (14);

the rotating bearing device (6) comprises a rotating plate (601), the rotating plate (601) is rotationally connected to the top of the square movable plate (5) through a bearing seat, two second positioning columns (602) are welded to the top of the rotating plate (601), two supporting plates (603) are welded to four sides of the bottom of the rotating plate (601), one side corresponding to each two supporting plates (603) is provided with a third rotating shaft (604), the outer part of the third rotating shaft (604) is rotationally connected with a roller (605) through a bearing, and the outer wall of the roller (605) is attached to the top of the square movable plate (5);

the rubber tube fixing device (10) comprises a top plate (1001), two grooves are formed in the top of the top plate (1001), two first positioning columns (15) at the bottom of the rotating plate (9) are respectively inserted into the two grooves in the top of the top plate (1001), the bottom of the top plate (1001) is fixedly connected with a bottom plate (1003) through a support column (1002), two grooves are formed in the bottom of the bottom plate (1003), two second positioning columns (602) at the top of the rotating plate (601) are respectively inserted into the two grooves in the bottom of the bottom plate (1003), two circles of support plates (1004) are welded on the outer walls of the support column (1002), and the two circles of support plates (1004) are symmetrically distributed outside the support column (1002);

the kinetic energy generation and transmission device (12) comprises a gear motor (1201), the gear motor (1201) is fixedly connected to the top of a footstock (7), a first tooth-lacking gear (1202) and a second tooth-lacking gear (1203) are fixedly sleeved on the outer wall of an output shaft of the gear motor (1201) from top to bottom respectively, a first transmission gear (1204) is meshed with the outer wall of the second tooth-lacking gear (1203), the first transmission gear (1204) is fixedly sleeved on the outer part of a second rotating shaft (11), and a semi-annular sleeve (1205) is welded at the bottom of the second tooth-lacking gear (1203);

the tooth length of the first tooth-missing gear (1202) is one eighth of the circumference of the first tooth-missing gear (1202), the tooth length of the second tooth-missing gear (1203) is seven eighth of the circumference of the second tooth-missing gear (1203), the length of the semi-annular sleeve (1205) is one eighth of the circumference of the second tooth-missing gear (1203), and one eighth of the diameter of the second tooth-missing gear (1203) is equal to the diameter of the first transmission gear (1204);

the time-limited positioning device (13) comprises a first fixing plate (1301) and a second fixing plate (1302), the first fixing plate (1301) and the second fixing plate (1302) are fixedly connected to the top of a top seat (7), a third fixing plate (1303) is fixedly connected to the top of the second fixing plate (1302), a connecting block (1305) is fixedly connected to the bottom of the third fixing plate (1303) through a first fixing sleeve (1304), the bottom of the connecting block (1305) is fixedly connected to the top of the first fixing plate (1301) through a second fixing sleeve (1306), a third fixing sleeve (1307) is fixedly connected to the left side of the third fixing plate (1303), a single inclined surface movable plate (1308), a non-inclined surface movable plate (1309) and a double inclined surface movable plate (1310) are movably sleeved in the first fixing sleeve (1304), the inclined surface of the bottom of the double inclined surface movable plate (1310) is attached to the inclined surface movable plate (1308), one end of the connecting rod (1309) is far away from the inclined surface of the arc-shaped movable plate (1301) through a connecting rod (1309), the bottom of the inclined-plane-free movable plate (1309) is fixedly connected with a support plate (1313), and the right side of the support plate (1313) is fixedly connected with the left side of the first fixed plate (1301) through a compression spring (1314);

the rubber pipe diversion device (14) comprises a first rotating shaft (1401), the first rotating shaft (1401) is rotationally connected to the left side of a footstock (7) through a bearing, a second transmission gear (1402) is fixedly connected to the top of the first rotating shaft (1401), the outer wall of the second transmission gear (1402) is meshed with the outer wall of a first tooth-lacking gear (1202), a threaded rod (1403) is welded to the bottom of the first rotating shaft (1401), a second rotating shaft (1404) is welded to the bottom of the threaded rod (1403), the bottom of the second rotating shaft (1404) is rotationally connected to the top of a base (1) through a bearing seat, a nut (1405) is sleeved on the external thread of the threaded rod (1403), a circular ring sleeve (1406) is movably sleeved on the outer portion of a fixed rod (2), and a rubber pipe (1407) is fixedly connected to the back of the circular ring sleeve (1406).

2. The hose fixing frame for preventing hydraulic hose damage and a hose winding device of the fixing frame according to claim 1, wherein: the diameter of the second transmission gear (1402) is equal to one sixteenth of the diameter of the first tooth-lacking gear (1202).