阅读说明：本技术 一种多条剪切机专用卷取机架移动装置 (Special coiling rack moving device for multiple shearing machines ) 是由 许志强 于 2019-09-06 设计创作，主要内容包括：一种多条剪切机专用卷取机架移动装置,包括机架、机架柱脚、底导轨、侧导轨、导轮、滚轮、滚轮传动齿轮、减速电机、电机齿轮、电机齿轮支架、电机齿轮轴、传动轴、传动轴中心齿轮、传动轴侧齿轮、锁紧杆、锁紧装置、液压杆、伸缩杆套、液压杆连接柱、定位连接柱、锁紧件；实现滚轮与底导轨滚动设置；实现滚轮传动齿轮与滚轮同轴转动；减速电机设置于机架底槽内,传动轴中心齿轮与电机齿轮相互啮合,实现减速电机与传动轴的传动；传动轴侧齿轮与滚轮传动齿轮相互捏合实现传动；锁紧装置设置于机架底槽的两侧。本发明将卷取机架设计为可移动形式,提升了卷取机的灵活性,提高了生产效率,且锁紧装置可对机架进行精确定位。(A special reeling rack moving device for a multi-strip shearing machine comprises a rack, a rack column foot, a bottom guide rail, a side guide rail, a guide wheel, a roller transmission gear, a speed reducing motor, a motor gear bracket, a motor gear shaft, a transmission shaft central gear, a transmission shaft side gear, a locking rod, a locking device, a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece; the rolling arrangement of the roller and the bottom guide rail is realized; the transmission gear of the roller and the roller rotate coaxially; the speed reducing motor is arranged in the bottom groove of the rack, and the central gear of the transmission shaft is meshed with the motor gear, so that the transmission of the speed reducing motor and the transmission shaft is realized; the transmission shaft side gear and the roller transmission gear are mutually kneaded to realize transmission; the locking devices are arranged on two sides of the bottom groove of the frame. The invention designs the coiler frame into a movable form, improves the flexibility of the coiler, improves the production efficiency, and can accurately position the frame by the locking device.)

1. A special reeling rack moving device for a multi-strip shearing machine is characterized by comprising a rack, rack column feet, a bottom guide rail, a side guide rail, a guide wheel, a roller transmission gear, a speed reducing motor, a motor gear bracket, a motor gear shaft, a transmission shaft central gear, a transmission shaft side gear, a locking rod, a locking device, a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece;

the stand column bases are arranged on two sides of the bottom end of the stand and symmetrically arranged in parallel, and the stand column base on each side is fixedly connected with the stand to form an integrated structure; the bottom guide rail is arranged at the bottom side of the stand column base and is arranged in the same direction with the stand column base, and the bottom guide rail is fixedly connected with the ground through a fastener; the side guide rail is arranged on one side of the bottom guide rail and is fixedly connected with the bottom guide rail; the guide wheel is arranged on one side of the bottom end of the stand column base, is embedded into the stand column base and is transversely arranged, two sides of the guide wheel are in rotation with the stand column base through bearings, and the guide wheel is in contact with the inner side wall of the side guide rail and is in rolling arrangement with the side guide rail; the roller is arranged at the bottom side of the stand column base, embedded into the stand column base and vertically arranged, two sides of the roller are rotated with the stand column base through bearings, the bottom end of the roller is clamped at the outer side of the bottom guide rail, and the roller and the bottom guide rail are arranged in a rolling manner; the roller transmission gear is arranged on the inner side wall of the stand column base and is coaxially arranged with the roller, and one end of the roller transmission gear is fixed with the axis of the roller, so that the roller transmission gear and the roller rotate coaxially;

the center of the bottom end of the rack is of a groove-shaped structure to form a rack bottom groove; the speed reducing motor is arranged in the bottom groove of the rack and is arranged in a vertical direction with the column foot of the rack, and the speed reducing motor is fixedly connected with the bottom surface of the rack through a fastener; the motor gear is arranged in the center of the bottom groove of the rack and is perpendicular to the speed reducing motor; the motor gear bracket is arranged on one side of the motor gear and is vertically and fixedly connected with the rack; the motor gear shaft is arranged on two sides of the motor gear, the motor gear shaft and the speed reducing motor are fixed on one side to coaxially rotate, and the motor shaft on one side extends into the motor gear bracket and rotates with the motor gear bracket through a bearing; the transmission shaft is transversely arranged at the bottom side of the rack, two sides of the transmission shaft respectively extend into the rack column feet at two sides, and the transmission shaft at each side rotates with the rack column feet through a bearing; the transmission shaft central gear is arranged in the center of the transmission shaft and is fixedly connected with the transmission shaft, and the transmission shaft central gear is meshed with the motor gear to realize the transmission of the speed reduction motor and the transmission shaft; the transmission shaft side gears are arranged on two sides of the transmission shaft respectively and symmetrically, each transmission shaft side gear is fixedly connected with the transmission shaft to form an integral structure, and the transmission shaft side gears and the roller transmission gears are mutually kneaded to realize transmission;

two side edges of the bottom groove of the rack are in a cavity-shaped structure to form a locking rod cavity; one end of the locking rod is arranged in the locking rod cavity, the locking rod and the locking rod cavity are arranged in a sliding mode, and one end of the locking rod cavity is sealed through a sealing ring; the number of the locking devices is two, the locking devices are arranged on two sides of the bottom groove of the rack and are symmetrically arranged, each locking device comprises a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece, and the hydraulic rod is embedded in the top surface of the bottom groove of the rack, is vertically arranged and is fixedly connected with the rack; the telescopic rod sleeve is embedded in the top surface of the bottom groove of the rack and fixed with the rack, the bottom end of the hydraulic rod penetrates through the telescopic rod sleeve and extends out of the bottom groove of the rack, and the hydraulic rod and the telescopic rod sleeve are arranged in a sliding manner; the hydraulic rod connecting column is arranged at the bottom end of the hydraulic rod and is fixedly connected with the hydraulic rod to form an integrated structure; the positioning connecting column is arranged on one side of the hydraulic rod and is vertically and fixedly connected with the top surface of the bottom groove of the frame to form an integrated structure; every locking device's retaining member quantity is two, set up respectively in the both sides of hydraulic stem spliced pole, the one end of retaining member pass through the axle with the hydraulic stem spliced pole is realized rotating, the one end of retaining member pass through the axle with the location spliced pole is realized rotating, the one end of retaining member pass through the axle with the both sides of check lock pole are realized rotating.

2. The coiler frame moving device for a plurality of shears according to claim 1, wherein the cross section of the bottom rail is in a convex structure, and the width of the roller is greater than the width of the top surface of the bottom rail.

3. The special coiler frame moving device for the plurality of shears according to claims 1 and 2, wherein the cross section of the side rail is in an inverted L-shaped structure, and the top side wall of the side rail is in an inclined plane structure; the bottom end of the side guide rail is fixed with the side face of the bottom guide rail in a welding mode, and the top end of the guide rail is arranged with the side face of the stand column base in a sliding mode.

4. The device of claim 1, wherein the shaft is disposed at a position that is oblique to the roller.

5. The coiler frame moving device for a plurality of shears according to claim 1, wherein the diameter of the drive shaft central gear is adapted to the diameter of the motor gear, and the width of the drive shaft central gear is slightly larger than the width of the motor gear.

6. The coiler frame moving device for use with a plurality of shears according to claim 1, wherein the drive shaft side gear has a diameter slightly larger than the roller drive gear and a width slightly larger than the roller drive gear.

7. The special coiler frame moving device for the plurality of shears according to claim 1, wherein the number of the locking rod cavities is two, and the locking rod cavities are symmetrically arranged on two sides of the bottom groove of the frame; each locking rod cavity is perpendicular to the motor gear; every the locking lever cavity is cylindric structure, the locking lever cavity intussuseption is filled with lubricating oil.

8. The special coiler frame moving device for the plurality of shears according to claims 1 and 7, wherein the locking rod is of a round rod-shaped structure, the length of the locking rod is greater than the depth of the cavity of the locking rod, and the diameter of the locking rod is matched with the inner diameter of the cavity of the locking rod; one end of the locking rod is of a conical head-shaped structure and is of a flat structure with a narrow front part and a wide rear part.

9. The special coiler frame moving device for the plurality of shears according to claim 1, wherein the telescopic rod sleeve is of a cylindrical structure, and the inner diameter of the telescopic rod sleeve is matched with the outer diameter of the hydraulic rod; the top side of the telescopic rod sleeve is of a turnover structure and is clamped with the rack.

10. The special coiler frame moving device for the plurality of shears according to claim 1, wherein the locking member is of a 7-shaped structure, the hydraulic rod connecting column is rotatably connected with the top end of the locking member, the positioning connecting column is rotatably connected with the corner of the locking member, and the locking rod is rotatably connected with the bottom end of the locking member.

Technical Field

The invention relates to the field of aluminum foil processing, in particular to a special coiler frame moving device for a plurality of shearing machines.

Background

The coiler is a steel rolling workshop auxiliary device for coiling the hot-rolled or cold-rolled steel into a reel shape, and is arranged behind a finished product stand on a hot strip steel continuous rolling mill (hot continuous rolling unit), a cold strip steel continuous rolling mill and a wire rod rolling mill; the single-stand reversible cold-strip rolling mill is arranged in front of and behind the rolling mill. In addition, it is also installed in various finishing units such as continuous pickling line, slitting, annealing, coating, etc. The recoiling machine is applied to various industries, and the steel plate recoiling machine in the metallurgical industry is most representative, and the driving is from electric power and fluid. The types of winding machines are various and can be classified into three types according to their uses and constructions, a winding machine with a tension reel, a roll winding machine, a wire rod, and a small-sized steel winding machine.

The coiling machine needs to unload and transfer the coiling block after finishing the coiling process, in the prior coiling machine equipment technology, the equipment is usually set to be a fixed form, a roller transfer trolley is needed to convey the coiling block to the coiling block of the coiling machine, and the coiled coiling block is unloaded to the transfer trolley for transfer. The transfer trolley used in the transfer process is flexible to use, but the transfer trolley needs to move repeatedly when the winding drum is unloaded each time, so that the unloading efficiency of the coiling machine is low, and meanwhile, the automatic production degree of the production line is low, so that the production efficiency of the production line is low. There is a need for a device that can move the frame of the coiler, so that the reeled reel can be unloaded on the reel transfer production line through the moving support of the frame, and the reel can be transferred through the transfer device, instead of using a transfer vehicle.

Disclosure of Invention

In order to solve the existing problems, the invention discloses a special coiler frame moving device for a plurality of shearing machines, which has the following specific technical scheme: a special reeling rack moving device for a multi-strip shearing machine comprises a rack, a rack column foot, a bottom guide rail, a side guide rail, a guide wheel, a roller transmission gear, a speed reducing motor, a motor gear bracket, a motor gear shaft, a transmission shaft central gear, a transmission shaft side gear, a locking rod, a locking device, a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece;

the stand column bases are arranged on two sides of the bottom end of the stand and symmetrically arranged in parallel, and the stand column base on each side is fixedly connected with the stand to form an integrated structure; the bottom guide rail is arranged at the bottom side of the stand column base and is arranged in the same direction with the stand column base, and the bottom guide rail is fixedly connected with the ground through a fastener; the side guide rail is arranged on one side of the bottom guide rail and is fixedly connected with the bottom guide rail; the guide wheel is arranged on one side of the bottom end of the stand column base, is embedded into the stand column base and is transversely arranged, two sides of the guide wheel are in rotation with the stand column base through bearings, and the guide wheel is in contact with the inner side wall of the side guide rail and is in rolling arrangement with the side guide rail; the roller is arranged at the bottom side of the stand column base, embedded into the stand column base and vertically arranged, two sides of the roller are rotated with the stand column base through bearings, the bottom end of the roller is clamped at the outer side of the bottom guide rail, and the roller and the bottom guide rail are arranged in a rolling manner; the roller transmission gear is arranged on the inner side wall of the stand column base and is coaxially arranged with the roller, and one end of the roller transmission gear is fixed with the axis of the roller, so that the roller transmission gear and the roller rotate coaxially;

the center of the bottom end of the rack is of a groove-shaped structure to form a rack bottom groove; the speed reducing motor is arranged in the bottom groove of the rack and is arranged in a vertical direction with the column foot of the rack, and the speed reducing motor is fixedly connected with the bottom surface of the rack through a fastener; the motor gear is arranged in the center of the bottom groove of the rack and is perpendicular to the speed reducing motor; the motor gear bracket is arranged on one side of the motor gear and is vertically and fixedly connected with the rack; the motor gear shaft is arranged on two sides of the motor gear, the motor gear shaft and the speed reducing motor are fixed on one side to coaxially rotate, and the motor shaft on one side extends into the motor gear bracket and rotates with the motor gear bracket through a bearing; the transmission shaft is transversely arranged at the bottom side of the rack, two sides of the transmission shaft respectively extend into the rack column feet at two sides, and the transmission shaft at each side rotates with the rack column feet through a bearing; the transmission shaft central gear is arranged in the center of the transmission shaft and is fixedly connected with the transmission shaft, and the transmission shaft central gear is meshed with the motor gear to realize the transmission of the speed reduction motor and the transmission shaft; the transmission shaft side gears are arranged on two sides of the transmission shaft respectively and symmetrically, each transmission shaft side gear is fixedly connected with the transmission shaft to form an integral structure, and the transmission shaft side gears and the roller transmission gears are mutually kneaded to realize transmission;

two side edges of the bottom groove of the rack are in a cavity-shaped structure to form a locking rod cavity; one end of the locking rod is arranged in the locking rod cavity, the locking rod and the locking rod cavity are arranged in a sliding mode, and one end of the locking rod cavity is sealed through a sealing ring; the number of the locking devices is two, the locking devices are arranged on two sides of the bottom groove of the rack and are symmetrically arranged, each locking device comprises a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece, and the hydraulic rod is embedded in the top surface of the bottom groove of the rack, is vertically arranged and is fixedly connected with the rack; the telescopic rod sleeve is embedded in the top surface of the bottom groove of the rack and fixed with the rack, the bottom end of the hydraulic rod penetrates through the telescopic rod sleeve and extends out of the bottom groove of the rack, and the hydraulic rod and the telescopic rod sleeve are arranged in a sliding manner; the hydraulic rod connecting column is arranged at the bottom end of the hydraulic rod and is fixedly connected with the hydraulic rod to form an integrated structure; the positioning connecting column is arranged on one side of the hydraulic rod and is vertically and fixedly connected with the top surface of the bottom groove of the frame to form an integrated structure; every locking device's retaining member quantity is two, set up respectively in the both sides of hydraulic stem spliced pole, the one end of retaining member pass through the axle with the hydraulic stem spliced pole is realized rotating, the one end of retaining member pass through the axle with the location spliced pole is realized rotating, the one end of retaining member pass through the axle with the both sides of check lock pole are realized rotating.

Furthermore, the cross section of the bottom guide rail is of a convex structure, and the width of the roller is greater than that of the top surface of the bottom guide rail.

Furthermore, the cross section of the side guide rail is of an inverted L-shaped structure, and the side wall of the top end of the side guide rail is of an inclined plane structure; the bottom end of the side guide rail is fixed with the side face of the bottom guide rail in a welding mode, and the top end of the guide rail is arranged with the side face of the stand column base in a sliding mode.

Furthermore, the position that the transmission shaft set up and the position that the gyro wheel set up are the slant setting.

Furthermore, the diameter of the transmission shaft central gear is matched with that of the motor gear, and the width of the transmission shaft central gear is slightly larger than that of the motor gear.

Furthermore, the diameter of the transmission shaft side gear is slightly larger than that of the roller transmission gear, and the width of the transmission shaft side gear is slightly larger than that of the roller transmission gear.

Furthermore, the number of the locking rod cavities is two, and the locking rod cavities are symmetrically arranged on two sides of the bottom groove of the rack; each locking rod cavity is perpendicular to the motor gear; every the locking lever cavity is cylindric structure, the locking lever cavity intussuseption is filled with lubricating oil.

Furthermore, the locking rod is of a round rod-shaped structure, the length of the locking rod is greater than the depth of the locking rod cavity, and the diameter of the locking rod is matched with the inner diameter of the locking rod cavity; one end of the locking rod is of a conical head-shaped structure and is of a flat structure with a narrow front part and a wide rear part.

Furthermore, the telescopic rod sleeve is of a cylindrical structure, and the inner diameter of the telescopic rod sleeve is matched with the outer diameter of the hydraulic rod; the top side of the telescopic rod sleeve is of a turnover structure and is clamped with the rack.

Further, the retaining member is "7" font structure, the hydraulic stem spliced pole is rotated with the top of retaining member and is connected, the corner of location spliced pole and retaining member rotates to be connected, the lock bar rotates with the bottom of retaining member to be connected.

Further, the fastener is one or more of a hose clamp, a rivet, an expansion screw, a bolt, a nut, a screw and a self-tapping screw.

The structural principle of the invention is as follows:

when the coiling rack needs to move after coiling is finished, a speed reducing motor is started, the speed reducing motor drives a motor gear shaft and a motor gear to rotate, the speed reducing motor is meshed with the motor gear to drive a transmission shaft central gear to rotate, the transmission shaft and a transmission shaft side gear are driven to rotate, a roller transmission gear meshed with the transmission shaft side gear rotates to drive a roller to coaxially rotate, and the rack starts to move along the direction of a bottom guide rail; the guide wheel and the side guide rail rotate to further assist the roller to stably run along the direction of the bottom guide rail.

And after the coiling machine frame reaches the designated position, the speed reducing motor is turned off, and the roller stops rotating. The hydraulic stem of both sides is started simultaneously this moment, and the hydraulic stem extends downwards to outside stretching out the telescopic link cover, the hydraulic stem spliced pole drives the retaining member top and pushes down, and relative rotation takes place with location spliced pole department to the retaining member, and the retaining member bottom rotates with the check lock lever, drives the check lock lever and takes out from the check lock lever cavity outside, and the cone portion part card of check lock lever carries out spacing fixed with motor gear in motor gear's both sides, and mobile device is in the lock state of dying, and the gyro wheel keeps static.

The invention has the beneficial effects that:

the bottom end of the frame of the coiling machine is designed into a movable structure, the frame can move transversely through the transmission fit of the speed reducing motor and the transmission shafts and the fit of the rollers, the guide wheels and the guide rails, the moving process is stable, and the phenomenon of deviating from the guide rails is avoided; the use flexibility of coiling machine obtains promoting, and the coiling machine accessible is removed and is used with the direct cooperation of reel transfer device, abandons to use the transportation dolly to carry out the loading and unloading process to the reel, has promoted the production efficiency of device, improves the degree of automation of production line.

According to the invention, the locking device is arranged on the moving device of the reeling frame, the fixed limiting effect on the roller can be realized by starting the locking device, the roller is kept in a static state, the device can be stably and accurately stopped at a proper position, and the accuracy of unloading the reel by the device is improved; the locking device can realize the automatic locking function by starting and stopping the hydraulic rod, and the control principle and the operation mode are simple.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention at the roller.

FIG. 2 is a schematic view, partially in section, of the guide wheel of the present invention.

Fig. 3 is a schematic cross-sectional side view at the side rail of the present invention.

Fig. 4 is a schematic structural view of the locking device of the present invention.

List of reference numerals: the device comprises a rack 1, a rack bottom groove 1-1, a locking rod cavity 1-2, a rack column foot 2, a bottom guide rail 3, a side guide rail 4, a guide wheel 5, a roller 6, a roller transmission gear 7, a speed reducing motor 8, a motor gear 9, a motor gear bracket 10, a motor gear shaft 11, a transmission shaft 12, a transmission shaft central gear 13, a transmission shaft side gear 14, a locking rod 15, a locking device 16, a hydraulic rod 16-1, a telescopic rod sleeve 16-2, a hydraulic rod connecting column 16-3, a positioning connecting column 16-4 and a locking piece 16-5.

Detailed Description

In order to make the technical scheme of the invention clearer and clearer, the invention is further described with reference to the accompanying drawings, and any scheme obtained by carrying out equivalent replacement and conventional reasoning on the technical characteristics of the technical scheme of the invention falls into the protection scope of the invention. The fixed connection, the fixed arrangement and the fixed structure mentioned in the embodiment are known technologies known to those skilled in the art, such as gluing, welding, screwing, bolt-nut connection, riveting and the like.

The special reeling rack moving device for the multiple shearing machines comprises a rack, a rack column foot, a bottom guide rail, a side guide rail, a guide wheel, a roller transmission gear, a speed reducing motor, a motor gear bracket, a motor gear shaft, a transmission shaft central gear, a transmission shaft side gear, a locking rod, a locking device, a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece, wherein the rack column foot is arranged on the rack;

the stand column bases are arranged on two sides of the bottom end of the stand and symmetrically arranged in parallel, and the stand column base on each side is fixedly connected with the stand to form an integrated structure; the bottom guide rail is arranged at the bottom side of the stand column base and is arranged in the same direction with the stand column base, and the bottom guide rail is fixedly connected with the ground through a fastener; the side guide rail is arranged on one side of the bottom guide rail and is fixedly connected with the bottom guide rail; the guide wheel is arranged on one side of the bottom end of the stand column base, is embedded into the stand column base and is transversely arranged, two sides of the guide wheel are in rotation with the stand column base through bearings, and the guide wheel is in contact with the inner side wall of the side guide rail and is in rolling arrangement with the side guide rail; the roller is arranged at the bottom side of the stand column base, embedded into the stand column base and vertically arranged, two sides of the roller are rotated with the stand column base through bearings, the bottom end of the roller is clamped at the outer side of the bottom guide rail, and the roller and the bottom guide rail are arranged in a rolling manner; the roller transmission gear is arranged on the inner side wall of the stand column base and is coaxially arranged with the roller, and one end of the roller transmission gear is fixed with the axis of the roller, so that the roller transmission gear and the roller rotate coaxially;

the center of the bottom end of the rack is of a groove-shaped structure to form a rack bottom groove; the speed reducing motor is arranged in the bottom groove of the rack and is arranged in a vertical direction with the column foot of the rack, and the speed reducing motor is fixedly connected with the bottom surface of the rack through a fastener; the motor gear is arranged in the center of the bottom groove of the rack and is perpendicular to the speed reducing motor; the motor gear bracket is arranged on one side of the motor gear and is vertically and fixedly connected with the rack; the motor gear shaft is arranged on two sides of the motor gear, the motor gear shaft and the speed reducing motor are fixed on one side to coaxially rotate, and the motor shaft on one side extends into the motor gear bracket and rotates with the motor gear bracket through a bearing; the transmission shaft is transversely arranged at the bottom side of the rack, two sides of the transmission shaft respectively extend into the rack column feet at two sides, and the transmission shaft at each side rotates with the rack column feet through a bearing; the transmission shaft central gear is arranged in the center of the transmission shaft and is fixedly connected with the transmission shaft, and the transmission shaft central gear is meshed with the motor gear to realize the transmission of the speed reduction motor and the transmission shaft; the transmission shaft side gears are arranged on two sides of the transmission shaft respectively and symmetrically, each transmission shaft side gear is fixedly connected with the transmission shaft to form an integral structure, and the transmission shaft side gears and the roller transmission gears are mutually kneaded to realize transmission;

two side edges of the bottom groove of the rack are in a cavity-shaped structure to form a locking rod cavity; one end of the locking rod is arranged in the locking rod cavity, the locking rod and the locking rod cavity are arranged in a sliding mode, and one end of the locking rod cavity is sealed through a sealing ring; the number of the locking devices is two, the locking devices are arranged on two sides of the bottom groove of the rack and are symmetrically arranged, each locking device comprises a hydraulic rod, a telescopic rod sleeve, a hydraulic rod connecting column, a positioning connecting column and a locking piece, and the hydraulic rod is embedded in the top surface of the bottom groove of the rack, is vertically arranged and is fixedly connected with the rack; the telescopic rod sleeve is embedded in the top surface of the bottom groove of the rack and fixed with the rack, the bottom end of the hydraulic rod penetrates through the telescopic rod sleeve and extends out of the bottom groove of the rack, and the hydraulic rod and the telescopic rod sleeve are arranged in a sliding manner; the hydraulic rod connecting column is arranged at the bottom end of the hydraulic rod and is fixedly connected with the hydraulic rod to form an integrated structure; the positioning connecting column is arranged on one side of the hydraulic rod and is vertically and fixedly connected with the top surface of the bottom groove of the frame to form an integrated structure; every locking device's retaining member quantity is two, set up respectively in the both sides of hydraulic stem spliced pole, the one end of retaining member pass through the axle with the hydraulic stem spliced pole is realized rotating, the one end of retaining member pass through the axle with the location spliced pole is realized rotating, the one end of retaining member pass through the axle with the both sides of check lock pole are realized rotating.

Furthermore, the cross section of the bottom guide rail is of a convex structure, and the width of the roller is greater than that of the top surface of the bottom guide rail.

Furthermore, the cross section of the side guide rail is of an inverted L-shaped structure, and the side wall of the top end of the side guide rail is of an inclined plane structure; the bottom end of the side guide rail is fixed with the side face of the bottom guide rail in a welding mode, and the top end of the guide rail is arranged with the side face of the stand column base in a sliding mode.

Furthermore, the position that the transmission shaft set up and the position that the gyro wheel set up are the slant setting.

Furthermore, the diameter of the transmission shaft central gear is matched with that of the motor gear, and the width of the transmission shaft central gear is slightly larger than that of the motor gear.

Furthermore, the diameter of the transmission shaft side gear is slightly larger than that of the roller transmission gear, and the width of the transmission shaft side gear is slightly larger than that of the roller transmission gear.

Furthermore, the number of the locking rod cavities is two, and the locking rod cavities are symmetrically arranged on two sides of the bottom groove of the rack; each locking rod cavity is perpendicular to the motor gear; every the locking lever cavity is cylindric structure, the locking lever cavity intussuseption is filled with lubricating oil.

Furthermore, the locking rod is of a round rod-shaped structure, the length of the locking rod is greater than the depth of the locking rod cavity, and the diameter of the locking rod is matched with the inner diameter of the locking rod cavity; one end of the locking rod is of a conical head-shaped structure and is of a flat structure with a narrow front part and a wide rear part.

Furthermore, the telescopic rod sleeve is of a cylindrical structure, and the inner diameter of the telescopic rod sleeve is matched with the outer diameter of the hydraulic rod; the top side of the telescopic rod sleeve is of a turnover structure and is clamped with the rack.

Further, the retaining member is "7" font structure, the hydraulic stem spliced pole is rotated with the top of retaining member and is connected, the corner of location spliced pole and retaining member rotates to be connected, the lock bar rotates with the bottom of retaining member to be connected.

Further, the fastener is one or more of a hose clamp, a rivet, an expansion screw, a bolt, a nut, a screw and a self-tapping screw.

The structural principle of the invention is as follows:

when the coiling rack needs to move after coiling is finished, a speed reducing motor is started, the speed reducing motor drives a motor gear shaft and a motor gear to rotate, the speed reducing motor is meshed with the motor gear to drive a transmission shaft central gear to rotate, the transmission shaft and a transmission shaft side gear are driven to rotate, a roller transmission gear meshed with the transmission shaft side gear rotates to drive a roller to coaxially rotate, and the rack starts to move along the direction of a bottom guide rail; the guide wheel and the side guide rail rotate to further assist the roller to stably run along the direction of the bottom guide rail.

And after the coiling machine frame reaches the designated position, the speed reducing motor is turned off, and the roller stops rotating. The hydraulic stem of both sides is started simultaneously this moment, and the hydraulic stem extends downwards to outside stretching out the telescopic link cover, the hydraulic stem spliced pole drives the retaining member top and pushes down, and relative rotation takes place with location spliced pole department to the retaining member, and the retaining member bottom rotates with the check lock lever, drives the check lock lever and takes out from the check lock lever cavity outside, and the cone portion part card of check lock lever carries out spacing fixed with motor gear in motor gear's both sides, and mobile device is in the lock state of dying, and the gyro wheel keeps static.

The invention has the beneficial effects that:

the bottom end of the frame of the coiling machine is designed into a movable structure, the frame can move transversely through the transmission fit of the speed reducing motor and the transmission shafts and the fit of the rollers, the guide wheels and the guide rails, the moving process is stable, and the phenomenon of deviating from the guide rails is avoided; the use flexibility of coiling machine obtains promoting, and the coiling machine accessible is removed and is used with the direct cooperation of reel transfer device, abandons to use the transportation dolly to carry out the loading and unloading process to the reel, has promoted the production efficiency of device, improves the degree of automation of production line.

According to the invention, the locking device is arranged on the moving device of the reeling frame, the fixed limiting effect on the roller can be realized by starting the locking device, the roller is kept in a static state, the device can be stably and accurately stopped at a proper position, and the accuracy of unloading the reel by the device is improved; the locking device can realize the automatic locking function by starting and stopping the hydraulic rod, and the control principle and the operation mode are simple.