CN215045087U

CN215045087U - Prestress wire packaging structure

Info

Publication number: CN215045087U
Application number: CN202120865975.6U
Authority: CN
Inventors: 韩瑞峰; 任瑞祥; 景凯; 王志刚; 李晓东; 王贺; 张强; 暴睿; 张宝林; 刘永其
Original assignee: Shanxi Construction Engineering Group Co Ltd
Current assignee: Shanxi Construction Engineering Group Co Ltd
Priority date: 2021-04-26
Filing date: 2021-04-26
Publication date: 2021-12-07
Anticipated expiration: 2031-04-26

Abstract

The utility model discloses a prestressed steel strand packaging structure, which comprises an installation body, an F block, a first rack, a connection block group, an installation block, a second rack, a connection plate, a first output motor, a second output motor and an adjusting device, wherein the installation body is internally provided with a first installation groove, the right side of the F block is provided with a second chute in a penetrating way, the left side of the first rack is provided with a first installation groove left side inner wall extending to the outer wall of the left side of the installation body, the bottom of the connection block group is fixedly connected with the left side of the top end of the first rack through a first chute, a second chute and a third chute, the left side of the installation block is provided with a fourth chute in a penetrating way, the prestressed steel strand packaging structure is provided with the F block and the installation block, thus, the relative friction and the supporting force are conveniently provided in the operation process of the first rack and the second rack, and the suspension state of the first rack and the second rack is avoided after the installation, therefore, normal operation of the first rack and the second rack is influenced, and relative adjustment of the whole equipment is also influenced.

Description

Prestress wire packaging structure

Technical Field

The utility model relates to a stress steel strand wires technical field specifically is a prestressed steel strand wires packaging structure.

Background

The prestressed steel strand is a stranded steel cable consisting of 2, 3, 7 or 19 high-strength steel wires, is subjected to stress relief treatment, is suitable for prestressed concrete or similar purposes, is mainly characterized by high strength and good relaxation performance, and is found through mass search that the typical sensor processing prestressed steel strand packaging structure in the prior art is CN207129436U published, the prestressed steel strand packaging structure comprises a base plate, a cover plate, a reinforcing cap, a first fixing ring, a protective layer and a second fixing ring, a base block is fixed on the lower end face of the base plate, the cover plate is mutually connected with the base plate through a connecting column, the connecting column penetrates through a connecting hole and extends to the reinforcing cap, a carrying hole is formed in the inner side of the cover plate, the fixing groove is mutually connected with the protective layer through the first fixing ring, a steel strand body is installed on the inner side of the protective layer, and the second fixing ring is mutually connected with the protective layer through another rubber block, and a clamping ring is fixed on the outer side of the protective sleeve. In the above-mentioned case, use the stopper can prevent that the steel strand wires body from rocking in this packaging structure, the fixed slot is used for fixing first solid fixed ring and the solid fixed ring of second, and the solid fixed ring of second can cooperate first solid fixed ring's use, carries out better fixed to the steel strand wires body.

In conclusion, the whole equipment is adjusted and processed through manual work to current prestress wire packaging structure, so not only increases prestress wire package time but also reduces whole work efficiency to current prestress wire packaging structure can't come corresponding regulation according to prestress wire size, thereby causes to need a plurality of prestress wire packaging structure to pack and handles, so not only increases equipment purchasing cost but also causes the too much and causes the trouble condition of seeking equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's weak point, a prestressing force steel strand wires packaging structure is provided, in order to solve above-mentioned background art and propose all through manual adjusting whole equipment and handle, not only increase prestressing force steel strand wires packing time like this and still reduce whole work efficiency, and current prestressing force steel strand wires packaging structure can't come corresponding regulation according to prestressing force steel strand wires size, thereby cause and need a plurality of prestressing force steel strand wires packaging structure to pack the processing, not only increase equipment purchasing cost like this and still cause equipment purchasing too much and cause the trouble problem of seeking equipment.

In order to achieve the above object, the utility model provides a following technical scheme: a prestressed steel strand packaging structure comprises an installation body, an F block, a first rack, a connecting block group, an installation block, a second rack, a connecting plate, a first output motor, a second output motor and an adjusting device, wherein a first mounting groove is formed in the installation body, a first sliding groove is formed in the top end of the installation body, a second sliding groove is formed in the right side of the F block in a penetrating mode, a third sliding groove is formed in the top end of the F block, the third sliding groove is in through connection with the second sliding groove, the left side of the first rack penetrates through the second sliding groove, the left side of the first rack extends to the left side of the F block, the bottom of the F block is fixed to the left side of the inner portion of the installation body through the first mounting groove, the left side of the first rack penetrates through the left inner wall of the first mounting groove and extends to the outer wall of the left side of the installation body, and the bottom of the connecting block group penetrates through the first sliding groove, the second sliding groove and the third sliding groove to be fixedly connected with the left side of the top end of the first rack, a fourth sliding groove penetrates through the left side of the mounting block, a fifth sliding groove is formed in the top end of the mounting block, and the fifth sliding groove is in through connection with the fourth sliding groove;

the right side of the second rack penetrates through a fourth chute and extends to the right side of the installation block, the installation block is fixed on the right side in the installation body through a first installation groove, the right side of the second rack penetrates through the right side inner wall of the first installation groove and extends to the right side outer wall of the installation body, the bottom of the connection block group penetrates through the first chute, a fifth chute and the fourth chute and is fixedly connected with the right side of the top end of the second rack, the bottom of the connection plate is fixed with a movable wheel through an installation column, the top end of the connection plate is fixedly connected with the bottom of the installation body, the output end of the first output motor penetrates through the upper part of the left side of the cover plate and extends to the upper part of the right side of the cover plate, the output end of the first output motor is fixed with a first gear, the output end of the second output motor penetrates through the lower part of the left side of the cover plate and extends to the lower part of the right side of the cover plate, the second output motor is fixed with a second gear, the cover plate wraps the first installation groove and is fixed right in front of the installation body, the first gear and the second gear are meshed with the first rack and the second rack, and the first output motor and the second output motor are electrically connected with the controller through electric wires;

and the adjusting device is used for adjusting the overall height and is arranged above the top end of the connecting block group.

Preferably, the adjusting device comprises a mounting frame, a sixth chute, a clamping block, a rubber pad, a ball nut, a sliding sleeve, a sliding plate, a second mounting groove, a limiting rod, a limiting groove, a pull ring, a fiber band, a hook, a screw rod and a rotating motor, wherein the sixth chute is formed in the right side of the mounting frame in a penetrating manner, the bottom of the mounting frame is fixed at the top end of the connecting block group, the rubber pad is fixedly embedded in the right side of the clamping block, the left side of the clamping block is fixedly connected with the lower part of the right side of the mounting frame and the right side of the connecting block group, the sliding sleeve is fixedly welded right in front of the ball nut, the bottom of the sliding plate is provided with the second mounting groove, the top end of the limiting rod is provided with the limiting groove, the bottom of the pull ring is fixedly provided with the hook, the pull ring penetrates through the limiting rod and is movably connected with the limiting groove, two sides of the limiting rod are fixed on two sides of the inner wall of the second mounting groove, two sides of the sliding plate penetrate through the sliding sleeve and two sides of the mounting frame, the lead screw bottom runs through installing frame top outer wall and ball nut and extends inside the installing frame, and lead screw bottom and the inside bottom swivelling joint of installing frame, lead screw top and rotating electrical machines output fixed connection, the rotating electrical machines is fixed in the installing frame top through hex bolts, and the rotating electrical machines passes through electric wire and controller electric connection.

Preferably, the highest point of the F block is higher than that of the mounting block by 2-4 cm.

Preferably, the first output motor, the first gear and the first rack form a rotary moving mechanism, and the rotary moving distance of the rotary moving mechanism is 10-50 cm.

Preferably, the connection shape of the ball nut and the sliding sleeve is in a cross shape.

Preferably, the rotating motor, the screw rod, the ball nut and the sliding sleeve form a lifting mechanism, and the lifting distance range of the lifting mechanism is 5-55 cm.

Compared with the prior art, the beneficial effects of the utility model are that: the pre-stressed steel strand packaging structure comprises a pre-stressed steel strand,

(1) the device is provided with a first output motor and a second output motor, the first output motor and the second output motor drive the first gear and the second gear to move so as to adjust the distance of the connecting block groups in the relative direction, the whole device is prevented from being packaged manually, and meanwhile, the first gear and the second gear drive the connecting block groups to move relatively so as to adjust the packaging diameter of the whole prestressed steel strand, so that the prestressed steel strands with different diameters can be packaged conveniently, and the situation that equipment purchasing cost is increased and equipment searching is troublesome due to excessive equipment purchasing is avoided;

(2) the movable wheels are arranged, so that the whole equipment can be conveniently moved through the movable wheels, the situation that the whole equipment and the prestressed steel strand are inclined and fall off due to uneven stress in the manual moving process caused by the fact that the whole equipment and the prestressed steel strand need to be manually moved to corresponding positions after the whole prestressed steel strand is packaged is avoided, the labor cost is increased, the whole equipment and the prestressed steel strand are sequentially easily damaged, and the prestressed steel strand cannot be normally delivered;

(3) the adjusting device is arranged, the rotary motor drives the screw rod to move so as to adjust the top height of the sliding plate and the prestressed steel strand, the prestressed steel strand is convenient to package and process, and is in friction contact with the two sides of the prestressed steel strand through the rubber pad, so that the situation that the prestressed steel strand does not shake or wholly incline in the moving process of the whole equipment is guaranteed, the stability and the balance of the packaged prestressed steel strand are sequentially increased, the prestressed steel strand is packaged and processed through the fiber belt, the situation that scratches and scratches are caused on the surface of the prestressed steel strand by adopting other materials is avoided, and the surface appearance of the prestressed steel strand is sequentially influenced;

(4) the F block and the mounting block are arranged, so that relative friction and supporting force are conveniently provided for the first rack and the second rack in the operation process, the first rack and the second rack are prevented from being in a suspended state after being mounted, normal operation of the first rack and the second rack is influenced, and relative adjustment of the whole equipment is also influenced.

Drawings

Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of the front cross-sectional structure of the installation body of the present invention;

FIG. 3 is a schematic top view of the cover plate of the present invention;

FIG. 4 is a schematic structural view of the adjusting device of the present invention;

fig. 5 is the structural schematic diagram of the ball nut and the sliding sleeve of the present invention.

In the figure: 1. the mounting body, 2, a first mounting groove, 3, a first sliding groove, 4, an F block, 5, a second sliding groove, 6, a third sliding groove, 7, a first rack, 8, a connecting block group, 9, a mounting block, 10, a fourth sliding groove, 11, a fifth sliding groove, 12, a second rack, 13, a connecting plate, 14, a movable wheel, 15, a first output motor, 16, a cover plate, 17, a first gear, 18, a second output motor, 19, a second gear, 20, an adjusting device, 2001, a mounting frame, 2002, a sixth sliding groove, 2003, a fixture block, 2004, a rubber pad, 2005, a ball nut, 2006, a sliding sleeve, 2007, a sliding plate, 2008, a second mounting groove, 2009, a limiting rod, 2010, a limiting groove, 2011, a pull ring, 2012, a fiber band, 2013, a hook, 2014, a lead screw, 2015, a rotating motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a prestressed steel strand packaging structure is disclosed, as shown in FIG. 1, FIG. 2 and FIG. 3, a first mounting groove 2 is arranged inside a mounting body 1, a first chute 3 is arranged at the top end of the mounting body 1, a second chute 5 is arranged through the right side of an F block 4, a third chute 6 is arranged at the top end of the F block 4, the third chute 6 is communicated with the second chute 5, the left side of a first rack 7 penetrates through the second chute 5, the left side of the first rack 7 extends to the left side of the F block 4, the bottom of the F block 4 is fixed at the left side inside the mounting body 1 through the first mounting groove 2, the left side of the first rack 7 penetrates through the left side inner wall of the first mounting groove 2 and extends to the left side outer wall of the mounting body 1, the bottom of a connecting block group 8 penetrates through the first chute 3, the second chute 5 and the third chute 6 and is fixedly connected with the left side of the top end of the first rack 7, a fourth chute 10 is arranged through the left side of a mounting block 9, and a fifth chute 11 is arranged at the top end of the mounting block 9, the fifth chute 11 is communicated with the fourth chute 10, the right side of the second rack 12 penetrates through the fourth chute 10 and extends to the right side of the mounting block 9, the mounting block 9 is fixed at the right side in the mounting body 1 through the first mounting groove 2, the highest point of the F block 4 is higher than the highest point of the mounting block 9 by 2-4cm, so that the first rack 7 and the second rack 12 can be conveniently subjected to staggered mounting treatment, the condition that the first rack 7 and the second rack 12 collide with each other in the running process is avoided, the connecting block group 8 cannot move relatively in sequence, the relative distance between the connecting block groups 8 cannot be adjusted, the prestressed steel strands with different diameters cannot be packaged and fixed, the overall equipment replacement and maintenance cost is increased, the condition that the highest point of the F block 4 is higher than the mounting block 9 by 4cm is avoided, and the first rack 7 and the second rack 12 are subjected to staggered running treatment in the running process, the right side of a second rack 12 penetrates through the right inner wall of a first mounting groove 2 and extends to the right outer wall of a mounting body 1, the bottom of a connecting block group 8 penetrates through a first sliding groove 3, a fifth sliding groove 11 and a fourth sliding groove 10 and is fixedly connected with the right side of the top end of the second rack 12, the bottom of a connecting plate 13 is fixedly connected with the top of the mounting body 1 through a mounting column, the top end of the connecting plate 13 is fixedly connected with the bottom of the mounting body 1, the output end of a first output motor 15 penetrates through the left side of a cover plate 16 and extends above the right side of the cover plate 16, the output end of the first output motor 15 is fixed with a first gear 17, the output end of a second output motor 18 penetrates through the left side of the cover plate 16 and extends below the right side of the cover plate 16, the output end of the second output motor 18 is fixed with a second gear 19, the cover plate 16 wraps up the first mounting groove 2 and is fixed right in front of the mounting body 1, and the first gear 17 and the second gear 19 are both meshed with the first rack 7 and the second rack 12, the first output motor 15, the first gear 17 and the first rack 7 form a rotary moving mechanism, the rotary moving distance range of the rotary moving mechanism is 10-50cm, the first output motor 15 drives the first gear 17 to move so as to adjust the relative direction distance of the connecting block group 8, thereby avoiding the whole equipment from manually packaging the prestressed steel strands, and the first gear 17 drives the connecting block group 8 to move relatively so as to adjust the packaging diameter of the whole prestressed steel strands, thereby facilitating the packaging of the prestressed steel strands with different diameters, avoiding the situations that the equipment purchasing cost is increased, the equipment purchasing is excessive and the equipment searching trouble is caused, and the maximum moving interval distance of the whole rotary moving mechanism is 40cm, when the steel strand is in the maximum moving distance, the clamping block 2003 is in relative contact with the steel strand, so that the steel strand with the small diameter can be conveniently packed.

As shown in fig. 4 and 5, an adjusting device 20 for adjusting the overall height is installed above the top end of the connecting block group 8, and the adjusting device 20 includes a mounting frame 2001, a sixth sliding groove 2002, a fixture 2003, a rubber pad 2004, a ball nut 2005, a sliding sleeve 2006, a sliding plate 2007, a second mounting groove 2008, a limiting rod 2009, a limiting groove 2010, a pull ring 2011, a fiber band 2012, a hook 2013, a screw 2014 and a rotating motor 2015, the sixth sliding groove 2002 is formed on the right side of the mounting frame 2001 in a penetrating manner, the bottom of the mounting frame 2001 is fixed at the top end of the connecting block group 8, the rubber pad 2004 is fixed on the right side of the fixture 2003, the left side of the fixture 2003 is fixedly connected with the lower right side of the mounting frame 2001 and the right side of the connecting block group 8, the sliding sleeve 2006 is fixedly welded just in front of the ball nut 2005, the connecting shape of the ball nut 2005 and the sliding sleeve 2006 is in a cross shape, so that the up-and-down adjusting process of the sliding plate 2007 can be conveniently performed, and the up-down and-left-right adjusting process of the sliding plate 2007 can be avoided, therefore, the packing treatment of the prestressed steel strands with different diameters is influenced, the connection shape of the ball nut 2005 and the sliding sleeve 2006 is in a cross shape, so that the simplicity and the practicability of connection between the two prestressed steel strands are reflected, the economical efficiency and the symmetry of the connection between the two are sequentially reflected, the second mounting groove 2008 is formed in the bottom of the sliding plate 2007, the limiting groove 2010 is formed in the top end of the limiting rod 2009, the fiber belt 2012 is fixed at the bottom of the pull ring 2011, the hook 2013 is fixed at the bottom of the fiber belt 2012, the pull ring 2011 penetrates through the limiting rod 2009 and is movably connected with the limiting groove 2010, the two sides of the limiting rod 2009 are fixed at the two sides of the inner wall of the second mounting groove 2008, the sliding plate 2007 penetrates through the sliding sleeve 2006 and the sixth sliding groove 2002 and extends to two sides of the mounting frame 2001, the bottom of the lead screw 2014 penetrates through the outer wall of the mounting frame 2001 and the ball nut 2005 and extends into the mounting frame 2001, and the bottom of the lead screw 2014 is rotatably connected with the bottom end in the mounting frame 2001, the top end of the screw rod 2014 is fixedly connected with the output end of a rotary motor 2015, the rotary motor 2015 is fixed at the top end of the mounting frame 2001 through a hexagon bolt, the rotating motor 2015 is electrically connected with the controller through an electric wire, the rotating motor 2015, the screw 2014, the ball nut 2005 and the sliding sleeve 2006 form a lifting mechanism, the lifting distance of the lifting mechanism ranges from 5cm to 55cm, the lead screw 2014 is driven by the rotary motor 2015 to move so as to adjust the height of the top ends of the sliding plate 2007 and the prestressed steel strands, thereby facilitating the packaging treatment of the prestressed steel strands, and the distance between the moving sections of the integral lifting mechanism is 50cm, when the sliding plate 2007 is in the maximum movement range, the bottom of the sliding plate 2007 contacts the top end of the latch 2003, if the maximum moving interval distance is exceeded, the bottom of the sliding plate 2007 is easily pressed against the top end of the latch 2003, therefore, the sliding plate 2007 is deformed by being pressed and extruded, and the prestressed steel strands cannot be packaged in sequence.

The working principle is as follows: when the prestressed steel strand packaging structure is used, a certain thrust is manually applied to the mounting frame 2001, the mounting frame 2001 drives the connecting block group 8 to move, the connecting block group 8 drives the mounting body 1 to move, the mounting body 1 drives the connecting plate 13 to move in the same direction, the connecting plate 13 drives the movable wheels 14 to move in the same direction, when the whole equipment moves to a corresponding position, a certain tension is manually applied to the mounting frame 2001 again, the movable wheels 14 stop moving, then the prestressed steel strands to be packaged are manually placed at the top end of the mounting body 1, after the prestressed steel strands are placed, the first output motor 15 and the second output motor 18 are manually started through the controller to work, the first output motor 15 drives the first gear 17 to move in the working process, the first gear 17 moves in the relative motion process of the first mounting groove 2, and the first gear 17 drives the first rack 7 to move to the right side in the motion process, the first rack 7 moves in the right side inside the second chute 5 in the moving process, and the first rack 7 moves relative to the F block 4 in the moving process, and simultaneously the first rack 7 drives the connecting block group 8 to move in the same direction in the moving process, the connecting block group 8 moves relative to the first chute 3, the second chute 5 and the third chute 6 in the moving process, the connecting block group 8 drives the mounting frame 2001 to move in the right side in the moving process, the mounting frame 2001 drives the sliding sleeve 2006 to move in the same direction in the moving process, the sliding sleeve 2006 moves in the right side of the sliding plate 2007 in the moving process, the second output motor 18 drives the second gear 19 to move in the working process, the second gear 19 moves relative to the first mounting groove 2 in the moving process, and the second gear 19 drives the second rack 12 to move in the left side in the moving process, the second rack 12 moves in the left side inside the fourth chute 10 in the moving process, and the second rack 12 moves relative to the mounting block 9 in the moving process, meanwhile, the second rack 12 drives the connecting block group 8 to move in the same direction during the movement, the connecting block group 8 drives the mounting frame 2001 to move on the left side during the movement, the mounting frame 2001 drives the sliding sleeve 2006 to move in the same direction during the movement, the sliding sleeve 2006 moves on the left side during the movement, the clamping block 2003 is driven to move in the same direction during the movement of the mounting frame 2001, the clamping block 2003 drives the rubber pad 2004 to move in the same direction during the movement, the first output motor 15 and the second output motor 18 are stopped by the controller when the rubber pad 2004 is in close contact with the two sides of the prestressed steel strand, the rotating motor 2015 is started by the controller sequentially, the screw rod 2014 is driven to move during the operation of the rotating motor 2015, the ball nut 2005 is driven to move downwards during the movement of the screw rod 2014, and the ball nut 2005 drives the sliding sleeve 2006 to move in the same direction, the sliding sleeve 2006 drives the sliding plate 2007 to move in the same direction, when the second installation groove 2008 is in contact with the top end of the prestressed steel strand, the stop controller stops working of the rotating motor 2015, the pull ring 2011 is manually held to apply a certain upward pulling force in sequence, at the moment, the pull ring 2011 is separated from the limiting groove 2010, the pull ring 2011 drives the fiber belt 2012 to move upwards, the fiber belt 2012 drives the hook 2013 to move in the same direction, at the moment, the pull ring 2011 manually applies a left-directional pushing force to the pull ring 2011, the pull ring 2011 moves to the left side of the limiting rod 2009 to stop applying the pushing force after the pull ring 2011 moves a corresponding distance, then the pull ring 2011 is manually loosened, at the moment, the pull ring 2011 moves downwards under the self gravity, the pull ring 2011 drives the fiber belt 2012 to move in the same direction, the fiber belt 2012 drives the hook 2013 to move in the same direction, when the pull ring 2011 is in contact with the limiting groove 2010, at the pull ring 2011 stops moving downwards, and then the hook 2013 is manually held to drive the fiber belt 2012 to wind on two sides above the prestressed steel strand, after the two sides of the prestressed steel strand are wound, the hook 2013 is manually contacted with the limiting groove 2010 again, the steps and the processes are sequentially repeated, the prestressed steel strand is moved to the corresponding position through the integral equipment, and the prestressed steel strand is taken down from the equipment, so that the whole operation is completed, and the content which is not described in detail in the specification belongs to the prior art which is well known by persons skilled in the art.

The terms "central," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings for ease of description, but are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the scope of the invention.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims

1. The utility model provides a prestressing force steel strand wires packaging structure, includes installation body (1), F piece (4), first rack (7), connecting block group (8), installation piece (9), second rack (12), connecting plate (13), first output motor (15), second output motor (18) and adjusting device (20), its characterized in that:

the mounting body (1), a first mounting groove (2) is formed in the mounting body (1), a first sliding groove (3) is formed in the top end of the mounting body (1), a second sliding groove (5) is formed in the right side of the F block (4) in a penetrating mode, a third sliding groove (6) is formed in the top end of the F block (4), the third sliding groove (6) is connected with the second sliding groove (5) in a penetrating mode, the left side of the first rack (7) penetrates through the second sliding groove (5), the left side of the first rack (7) extends to the left side of the F block (4), the bottom of the F block (4) is fixed to the left side in the mounting body (1) through the first mounting groove (2), the inner wall of the left side of the first mounting groove (2) extends to the outer wall of the left side of the mounting body (1), the bottom of the connecting block group (8) penetrates through the first sliding groove (3), the second sliding groove (5) and the third sliding groove (6) to be fixedly connected with the left side of the top end of the first rack (7), a fourth sliding chute (10) penetrates through the left side of the mounting block (9), a fifth sliding chute (11) is formed in the top end of the mounting block (9), and the fifth sliding chute (11) is in through connection with the fourth sliding chute (10);

the right side of the second rack (12) runs through a fourth chute (10) and extends to the right side of an installation block (9), the installation block (9) is fixed on the inner right side of the installation body (1) through a first installation groove (2), the right side of the second rack (12) runs through the inner wall of the right side of the first installation groove (2) and extends to the outer wall of the right side of the installation body (1), the bottom of the connection block group (8) runs through a first chute (3), a fifth chute (11) and the fourth chute (10) and is fixedly connected with the right side of the top end of the second rack (12), the bottom of the connection plate (13) is fixed with a movable wheel (14) through an installation column, the top end of the connection plate (13) is fixedly connected with the bottom of the installation body (1), the output end of the first output motor (15) runs through the left side of a cover plate (16) and extends to the right side of the cover plate (16), and the output end of the first output motor (15) is fixed with a first gear (17), the output end of the second output motor (18) penetrates through the lower portion of the left side of the cover plate (16) and extends to the lower portion of the right side of the cover plate (16), a second gear (19) is fixed to the output end of the second output motor (18), the cover plate (16) wraps the first mounting groove (2) and is fixed to the right front of the mounting body (1), the first gear (17) and the second gear (19) are meshed with the first rack (7) and the second rack (12) and connected, and the first output motor (15) and the second output motor (18) are electrically connected with the controller through electric wires;

and the adjusting device (20) is used for adjusting the overall height, and the adjusting device (20) is arranged above the top end of the connecting block group (8).

2. The prestressed steel strand packing structure of claim 1, wherein: the adjusting device (20) comprises a mounting frame (2001), a sixth sliding groove (2002), a clamping block (2003), a rubber pad (2004), a ball nut (2005), a sliding sleeve (2006), a sliding plate (2007), a second mounting groove (2008), a limiting rod (2009), a limiting groove (2010), a pull ring (2011), a fiber band (2012), a hook (2013), a screw rod (2014) and a rotating motor (2015), wherein the sixth sliding groove (2002) is formed in the right side of the mounting frame (2001) in a penetrating mode, the bottom of the mounting frame (2001) is fixed to the top end of the connecting block group (8), the rubber pad (2004) is fixedly embedded in the right side of the clamping block (2003), the left side of the clamping block (2003) is fixedly connected with the lower portion of the right side of the mounting frame (2001) and the right side of the connecting block group (8), the sliding sleeve (2006) is fixedly welded to the right side of the ball nut (2005), the second mounting groove (2008) is formed in the bottom of the sliding plate (2007), the top end of the limiting rod (2009) is provided with a limiting groove (2010), the bottom of the pull ring (2011) is fixed with a fiber belt (2012), the bottom of the fiber belt (2012) is fixed with a hook (2013), the pull ring (2011) penetrates through the limiting rod (2009) and is movably connected with the limiting groove (2010), two sides of the limiting rod (2009) are fixed on two sides of the inner wall of the second mounting groove (2008), two sides of the sliding plate (2007) penetrate through the sliding sleeve (2006) and the sixth sliding groove (2002) and extend to two sides of the mounting frame (2001), the bottom of the screw rod (2014) penetrates through the outer wall of the top end of the mounting frame (2001) and the ball nut (2005) and extends into the mounting frame (2001), the bottom of the screw rod (2014) is rotatably connected with the inner bottom end of the mounting frame (2001), the top end of the screw rod (2014) is fixedly connected with the output end of the rotating motor (2015), and the rotating motor (2015) is fixed on the top end of the mounting frame (2001) through a hexagonal bolt, and the rotating motor (2015) is electrically connected with the controller through an electric wire.

3. The prestressed steel strand packing structure of claim 1, wherein: the highest point of the F block (4) is 2-4cm higher than that of the mounting block (9).

4. The prestressed steel strand packing structure of claim 1, wherein: the first output motor (15), the first gear (17) and the first rack (7) form a rotary moving mechanism, and the rotary moving distance range of the rotary moving mechanism is 10-50 cm.

5. The prestressed steel strand packing structure of claim 2, wherein: the ball nut (2005) and the sliding sleeve (2006) are connected in a cross shape.

6. The prestressed steel strand packing structure of claim 2, wherein: the lifting mechanism is composed of a rotary motor (2015), a lead screw (2014), a ball nut (2005) and a sliding sleeve (2006), and the lifting distance range of the lifting mechanism is 5-55 cm.