CN113638253B - Processing equipment for steel wire rope rigging - Google Patents

Abstract

The invention relates to the technical field of processing of steel wire ropes, in particular to processing equipment for steel wire ropes, which comprises a machine base, a top seat and a pressing seat, wherein the base is arranged on the machine base, the top seat is movably arranged on the base, the pressing seat is arranged on the opposite surface of the top seat and the opposite surface of the base, and the processing equipment further comprises: the power modules are arranged between the base and the top seat in a plurality of groups and used for adjusting the distance between the base and the top seat; the material conveying box is movably arranged on one side of the pressing seat; the guide box is movably arranged on one side of the pressing seat away from the material conveying box; the feeding unit is arranged in the feeding runner; the monitoring system is arranged in the feed back runner, and controls the power module to work when the length of the steel wire rope entering the feed back runner reaches a set threshold value; the automation degree of the whole working process is high, the labor intensity of workers is reduced, the processing and production speed of the steel wire rope rigging is increased, and the processing period is shortened.

Description

Processing equipment for steel wire rope rigging

Technical Field

The invention relates to the technical field of processing of steel wire rope rigging, in particular to processing equipment for steel wire rope rigging.

Background

The steel wire rope rigging is a rope which is processed by taking a steel wire rope as a raw material and is mainly used for hoisting, traction, tensioning and bearing, is called as a steel wire rope rigging, has the characteristics of high strength, light dead weight, stable work, difficulty in sudden whole root breaking and the like, and is widely applied to the industries of steel, chemical engineering, transportation, ports and the like.

In the process of processing the steel wire rope rigging, the steel wire rope needs to penetrate through the rope pressing sleeve to form a ring body for connection of the hook or the hanging ring, and the rope pressing sleeve is subjected to compression molding processing through compression processing equipment, so that the steel wire rope is fixed.

Traditional suppression processing equipment simple structure needs two staff to cooperate the auxiliary work each other, and one staff is responsible for wire rope's traction, and another staff need be very low to the installation of pressing the rope cover and link or couple assembly work, and degree of automation has increased staff's intensity of labour.

Disclosure of Invention

The present invention is directed to a processing apparatus for a steel cable rigging, so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a processing equipment for wire rope rigging, includes frame, base, footstock and suppression seat, the base sets up on the frame, and the footstock activity sets up on the base to, all be equipped with the suppression seat on the opposite face of footstock and base, still include:

the power modules are arranged between the base and the top seat in a plurality of groups and used for adjusting the distance between the base and the top seat;

the material conveying box is movably arranged on one side of the pressing seat, and a feeding runner and a return runner are arranged in the material conveying box;

the guide box is movably arranged on one side of the pressing seat, which is far away from the material conveying box, a guide flow channel for guiding the steel wire rope is arranged in the guide box, and the guide flow channel and the feeding flow channel can be opened for discharging the steel wire rope;

the feeding unit is arranged in the feeding runner and used for drawing the steel wire rope to move in the feeding runner; and

the monitoring system is arranged in the feed back runner and used for monitoring the length of the steel wire rope entering the feed back runner, and when the length of the steel wire rope entering the feed back runner reaches a set threshold value, the monitoring system controls the power module to work; wherein

The monitoring system at least comprises:

the monitoring seat is movably arranged in the feed back flow passage;

the winding wheel is movably arranged on the monitoring seat and is in sliding fit with the feed back runner; and

and the measuring module is connected with the winding wheel and used for measuring the moving distance of the monitoring seat.

The application further adopts the technical scheme that: the material conveying box comprises an upper box body and a lower box body;

go up the box and be connected with footstock and base through the telescopic link respectively with lower box, the stiff end and the equal elastic connection of base and footstock of telescopic link, the feed back runner sets up in last box, goes up the regional pan feeding runner that constitutes between box and the lower box.

The application further adopts the technical scheme that: the guide box comprises a first side box and a second side box;

the first side case and the second side case are movably arranged on the base, a guide flow channel is formed in an area between the first side case and the second side case, a through window for the hanging ring to enter is further arranged between the first side case and the second side case, in addition, the first side case and the second side case are connected with the power module through the transmission module, and the distance between the first side case and the second side case can be adjusted through the transmission module when the power module works.

The application further adopts the technical scheme that: the power module comprises a movable column, a fixed column, a first piston and a second piston;

the movable column is movably arranged on the fixed column, the movable column and the fixed column are connected between the base and the top seat, the second piston is movably arranged in the fixed column and connected with the movable column, a first piston is further arranged in the movable column, the first piston is movably arranged in a driving cavity formed in the fixed column, and the first piston is connected with the transmission module.

This application still further technical scheme: the transmission module comprises a push rod, a third piston, a buffer seat, a connecting rod and a driving box;

the push rod is movably arranged on the fixed column and is respectively connected with the first side box and the second side box, the driving box is arranged on the fixed column and is communicated with the driving cavity, a transmission medium is filled between the driving box and the driving cavity, the third piston is movably arranged in the driving box and is elastically connected with the driving box and the driving cavity, the buffer seat is movably arranged on the push rod and is connected with the push rod through an elastic piece, and the buffer seat is movably connected with the third piston through a connecting rod.

This application still further technical scheme: the feeding unit comprises a power element, a rotary disc and a plurality of feeding heads;

the feeding heads are movably arranged on the rotary disc and are elastically connected with the rotary disc, and the steel wire rope is positioned on a moving path of the feeding heads.

This application still further technical scheme: the measuring module comprises a flexible piece, a contact base, a group of conducting rings and a locking piece;

the utility model discloses a flexible power transmission device, including support seat, winding wheel, flexible piece, conducting ring, lock piece, support seat, flexible piece is located the flexible piece, flexible piece is located on the flexible piece.

The application adopts a further technical scheme that: the processing equipment also comprises a hanging ring conveying unit which is movably arranged on the base and used for installing the hanging ring and conveying the hanging ring into the guide flow channel.

The application adopts a further technical scheme that: the suspension loop conveying unit comprises a feeding seat, a gear, a rack and a rotating wheel;

the rotating wheel is movably arranged on the first side box or the second side box, the rotating wheel extends into the guide flow channel and is positioned on a moving path of the steel wire rope, the rack is movably arranged on the base and is elastically connected with the base, the gear is connected with the rotating wheel and is meshed with the rack, the feeding seat is arranged on the rack, and the through window is positioned on the moving path of the feeding seat.

The application adopts a further technical scheme that: and a valve unit is arranged in the through window and used for controlling the opening and closing of the through window, and the valve unit is connected with the hanging ring conveying unit.

Compared with the prior art, the technical scheme provided by the embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, the feeding unit is arranged to replace a manual pulling mode, the steel wire rope is pulled to sequentially pass through the feeding runner, the rope pressing sleeve, the guiding runner and the rope pressing sleeve and finally reach the position of the material return runner, meanwhile, the length of the steel wire rope entering the material return runner is measured in real time through the monitoring system, when the reserved length of the steel wire rope meets the processing requirement, the monitoring system controls the power module to automatically press the rope pressing sleeve, the automation degree of the whole working process is high, only one worker needs to manually operate, the traditional mode that two workers mutually assist and cooperate is broken away, the labor intensity of the workers is reduced, the processing and production speed of the steel wire rope rigging is increased, and the processing period is shortened.

Drawings

FIG. 1 is a schematic structural view of a processing apparatus for a wire rope rigging according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic structural view at A of the apparatus for processing a wire rope rigging according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic structural view at B of the processing apparatus for a wire rope rigging according to the embodiment of the present invention;

FIG. 4 is an enlarged schematic structural view at C of the apparatus for processing a wire rope rigging according to an embodiment of the present invention;

FIG. 5 is a side view of a guide box in a processing apparatus for a wire rope rigging according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a transmission module in a machining apparatus for a wire rope rigging according to an embodiment of the present invention;

FIG. 7 is a schematic structural view of a valve unit in the manufacturing apparatus for a wireline rigging according to an embodiment of the present invention;

fig. 8 is a schematic structural view of a first side box in the processing equipment for the steel wire rope sling according to the embodiment of the invention.

The reference numerals in the schematic drawings illustrate:

1-machine base, 2-base, 3-material conveying box, 31-upper box, 32-lower box, 33-material feeding channel, 34-material returning channel, 4-feeding unit, 41-stepping motor, 42-rotary table, 43-feeding head, 5-telescopic rod, 6-pressing seat, 7-monitoring system, 71-monitoring seat, 72-winding wheel, 73-nylon rope, 74-lantern ring, 75-fixing rod, 76-conducting ring, 77-contact seat, 8-guiding box, 81-first side box, 82-second side box, 83-guiding channel, 84-through window, 9-valve unit, 91-driving rod, 92-valve plate, 10-power module, 1001-movable column, 1002-fixed column, fixed column, 1003-first piston, 1004-drive chamber, 1005-second piston, 11-transmission module, 111-push rod, 112-connecting rod, 113-buffer seat, 114-spring, 115-drive box, 116-third piston, 12-feeding seat, 13-rack, 14-rotating wheel, 15-gear and 16-top seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments of the present invention, belong to the protection scope of the present invention, and the present invention is further described with reference to the embodiments below.

Referring to fig. 1 to 8, in an embodiment of the present application, a processing apparatus for a steel cable rigging includes a base 1, a base 2, a top seat 16, and a pressing seat 6, where the base 2 is disposed on the base 1, the top seat 16 is movably disposed on the base 2, and the pressing seat 6 is disposed on opposite surfaces of the top seat 16 and the base 2, and further includes:

the power modules 10 are arranged between the base 2 and the top seat 16 in a plurality of groups and used for adjusting the distance between the base 2 and the top seat 16;

the conveying box 3 is movably arranged on one side of the pressing seat 6, and a feeding runner 33 and a return runner 34 are arranged in the conveying box 3;

the guide box 8 is movably arranged on one side, away from the material conveying box 3, of the pressing seat 6, a guide runner 83 for guiding the steel wire ropes is arranged in the guide box 8, and the guide runner 83 and the feeding runner 33 can be opened to discharge the steel wire ropes;

the feeding unit 4 is arranged in the feeding runner 33 and used for drawing the steel wire rope to move in the feeding runner 33; and

the monitoring system 7 is arranged in the return flow channel 34 and used for monitoring the length of the steel wire rope entering the return flow channel 34, and when the length of the steel wire rope entering the return flow channel 34 reaches a set threshold value, the monitoring system 7 controls the power module 10 to work; wherein

The monitoring system 7 comprises at least:

the monitoring seat 71 is movably arranged in the feed back flow passage 34;

the winding wheel 72 is movably arranged on the monitoring seat 71 and is in sliding fit with the feed back runner 34; and

and the measuring module is connected with the winding wheel 72 and is used for measuring the moving distance of the monitoring seat 71.

It should be particularly noted that the power module 10 may be a linear motor or an electric cylinder, in this embodiment, the power module 10 is preferably a hydraulic cylinder structure, and the hydraulic cylinder structure is not specifically limited herein.

In the present embodiment, the delivery box 3 includes an upper box 31 and a lower box 32;

go up box 31 and lower box 32 and be connected with footstock 16 and base 2 through telescopic link 5 respectively, the stiff end of telescopic link 5 and the equal elastic connection of base 2 and footstock 16, feed back runner 34 sets up in last box 31, and the region between last box 31 and the lower box 32 constitutes pan feeding runner 33.

In practical application, the rope pressing sleeve is placed between the pressing seats 6, the position of the rope pressing sleeve is fixed through the pressing seats 6, then, the steel wire rope extends into the feeding runner 33, the steel wire rope is pulled to move in the feeding runner 33 through the action of the feeding unit 4, when the steel wire rope penetrates through the rope pressing sleeve and enters the guide runner 83, the direction of the free end of the steel wire rope is changed and penetrates through the rope pressing sleeve again to enter the material returning runner 34 until the steel wire rope meets the monitoring seat 71 and drives the monitoring seat 71 to move rightwards along the material returning runner 34 in the direction shown in figure 2, in the process, under the action of friction resistance between the winding wheel 72 and the material returning runner 34, the winding wheel 72 is driven to rotate, the number of rotation turns of the winding wheel 72 is measured through the measuring module to obtain the length of the steel wire rope entering the material returning runner 34, and when the length of the steel wire rope entering the material returning runner 34 reaches a set threshold value, measuring module control power module 10 work, drive footstock 16 and push down, suppress the processing to pressing the rope cover, thereby to wire rope's fixed work, after the suppression is accomplished, shift up through power module 10 control footstock 16, at this in-process, pan feeding runner 33 and direction runner 83 are all opened, the work of taking out of the rigging of conveniently processing completion, whole work process automation degree is high, only need a staff manual operation can, break away from the mode of two traditional staff mutual assistance cooperation work, staff's intensity of labour has been reduced, and the processing production speed of wire rope rigging has still been improved, processing cycle has been shortened.

Referring to fig. 1, 5, 6 and 8, as another preferred embodiment of the present application, the guide box 8 includes a first side box 81 and a second side box 82;

the first side box 81 and the second side box 82 are movably arranged on the base 2, a guide flow channel 83 is formed in an area between the first side box 81 and the second side box 82, a through window 84 for a hanging ring to enter is further arranged between the first side box 81 and the second side box 82, in addition, the first side box 81 and the second side box 82 are connected with the power module 10 through the transmission module 11, and the distance between the first side box 81 and the second side box 82 can be adjusted through the transmission module 11 when the power module 10 works.

In a particular case of the present embodiment, the power module 10 comprises a movable column 1001, a fixed column 1002, a first piston 1003 and a second piston 1005;

the movable column 1001 is movably arranged on the fixed column 1002, the movable column 1001 and the fixed column 1002 are connected between the base 2 and the top base 16, the second piston 1005 is movably arranged in the fixed column 1002 and connected with the movable column 1001, a first piston 1003 is further arranged in the movable column 1001, the first piston 1003 is movably arranged in a driving cavity 1004 formed in the fixed column 1002, and the first piston 1003 is connected with the transmission module 11.

In another specific case of the present embodiment, the transmission module 11 includes a push rod 111, a third piston 116, a cushion seat 113, a connecting rod 112, and a driving box 115;

the push rod 111 is movably arranged on the fixed column 1002 and is respectively connected with the first side box 81 and the second side box 82, the driving box 115 is arranged on the fixed column 1002 and is communicated with the driving cavity 1004, a transmission medium is filled between the driving box 115 and the driving cavity 1004, the third piston 116 is movably arranged in the driving box 115 and is elastically connected with the driving box 115, the buffer seat 113 is movably arranged on the push rod 111 and is connected with the push rod 111 through an elastic piece, and the buffer seat 113 is movably connected with the third piston 116 through a connecting rod 112.

It should be specifically noted that the elastic member may be a spring 114, a spring plate, or an elastic steel plate, in this embodiment, the elastic member is preferably the spring 114, the spring 114 is connected between the buffer seat 113 and the push rod 111, and the specific type of the spring 114 is not specifically limited herein.

The transmission medium may be, but is not limited to, a gas or a liquid.

Of course, the transmission module 11 in this embodiment is not limited to the above-mentioned alternative mechanical structure, and may also adopt a manner that an infrared distance measuring sensor/laser distance measuring sensor is matched with a linear motor or an electric cylinder, for example, the infrared distance measuring sensor measures the distance between the base 2 and the top seat 16, and when the power module 10 drives the top seat 16 to move relative to the base 2, the infrared distance measuring sensor controls the linear motor to work to adjust the distance between the first side box 81 and the second side box 82, which is not limited in this respect.

In practical application, by arranging the through window 84, the hanging ring can penetrate through the through window 84 and extend into the guide flow channel 83 when the steel wire rope enters the guide flow channel 83, the hanging ring penetrates through the hanging ring and the direction of the free end of the steel wire rope is changed, when the machining work of the rigging is completed, the movable column 1001 moves upwards along the fixed column 1002 in the direction shown in fig. 6 according to the working principle of the hydraulic cylinder, at the moment, under the action of the transmission medium between the first piston 1003 and the third piston 116, the third piston 116 is driven to move downwards along the driving box 115 in the direction shown in fig. 6, under the action of the connecting rod 112, the push rod 111 is driven to move towards the outer side of the machine base 1, the distance between the first side box 81 and the second measurement is increased, the guide flow channel 83 is opened, and the subsequent material taking work is facilitated.

Referring to fig. 1-3, as another preferred embodiment of the present application, the feeding unit 4 includes a power element, a turntable 42, and a plurality of feeding heads 43;

the rotary table 42 and the power element are movably arranged in the upper box body 31 and the lower box body 32, the power element is connected with the rotary table 42, the plurality of feeding heads 43 are movably arranged on the rotary table 42 and are elastically connected with each other, and the steel wire rope is positioned on a moving path of the feeding heads 43.

It should be specifically noted that the power element may be a stepping motor 41 or a servo motor, in this embodiment, the power element is preferably a stepping motor 41, an output end of the stepping motor 41 is connected to the turntable 42, and as for the model of the stepping motor 41, no specific limitation is made herein.

When stretching into pan feeding runner 33 with wire rope in, rotate through step motor 41 and drive carousel 42 and rotate, because wire rope is twisted together each other by a plurality of steel wire and forms, its surface has a plurality of slot to supply pay-off head 43 to stretch into, under the conflict effect between pay-off head 43 and the wire rope surface, drives wire rope and removes in whole device, need not the manual work of staff and involves.

Referring to fig. 1, fig. 2 and fig. 4, as another preferred embodiment of the present application, the measuring module includes a flexible member, a contact base 77, a set of conductive rings 76 and a locking member;

support and touch seat 77 activity and set up on last box 31 and both elastic connection, soft piece is connected on wind-up wheel 72, and soft piece runs through to touch seat 77 and stretches out certain surplus, all is provided with on last box 31 and the conflict seat 77 conducting ring 76, the lock piece sets up on soft piece, and conflict seat 77 is located the removal route of lock piece.

It should be noted that the flexible member may be a rubber belt or a nylon rope 73, and in this embodiment, the flexible member is preferably the nylon rope 73, which is not limited in this respect.

Specifically, the locking member includes a collar 74 and a fixing rod 75, the collar 74 is slidably sleeved on the nylon rope 73, the fixing rod 75 is movably disposed in the collar 74 and is in threaded engagement with the collar 74, and the nylon rope 73 is disposed on a moving path of the fixing rod 75.

When the free end of wire rope gets into in feed back runner 34 and meets with the control seat, drive the control seat and remove, at this moment, under the frictional resistance effect between feed back runner 34 and rolling wheel 72, drive rolling wheel 72 and rotate and carry out rolling work to nylon rope 73, lantern ring 74 on nylon rope 73 meets with conflict seat 77 and drives when touching seat 77 and removing, meet between the conducting ring 76, trigger power module 10 work and carry out the compression moulding and handle, and through setting up dead lever 75 and lantern ring 74 screw-thread fit, make the position of lantern ring 74 on nylon rope 73 adjustable, indirectly satisfy the processing requirement of the reservation length of the wire rope free end on the different riggings.

Referring to fig. 1, 5 and 8, as another preferred embodiment of the present application, the processing equipment further includes a hanging ring conveying unit movably disposed on the machine base 1, for mounting the hanging ring and conveying the hanging ring into the guide runner 83.

In a specific case of this embodiment, the suspension loop conveying unit comprises a feeding seat 12, a gear 15, a rack 13 and a rotating wheel 14;

the rotating wheel 14 is movably arranged on the first side box 81 or the second side box 82, the rotating wheel 14 extends into the guide flow channel 83 and is positioned on a moving path of the steel wire rope, the rack 13 is movably arranged on the machine base 1 and is elastically connected with the machine base, the gear 15 is connected with the rotating wheel 14 and is meshed with the rack 13, the feeding base 12 is arranged on the rack 13, and the through window 84 is positioned on the moving path of the feeding base 12.

In another specific case of this embodiment, a valve unit 9 is disposed in the through window 84 for controlling the opening and closing of the through window 84, and the valve unit 9 is connected to the suspension loop conveying unit.

It should be specifically noted that the valve unit 9 includes a driving rod 91 and a valve plate 92, the valve plate 92 is movably disposed in the through window 84 and elastically connected to the first side box 81, and both ends of the driving rod 91 are respectively hinged to the valve plate 92 and the feeding base 12, however, the valve unit 9 in this embodiment is not limited to the above-mentioned mechanical structure, and may also be a manner of directly adjusting the position of the valve plate 92 by a linear motor or an electric cylinder, and is not limited in this respect.

In practical application, the hanging ring is installed on the feeding seat 12, when the steel wire rope enters the guide flow channel 83, the rotating wheel 14 and the gear 15 are driven to rotate under the action of frictional resistance between the surface of the steel wire rope and the rotating wheel 14, and under the meshing action between the gear 15 and the rack 13, the rack 13 and the feeding seat 12 move to the right in the direction shown in fig. 1, so that the hanging ring on the feeding seat 12 is input into the guide flow channel 83 to be assembled with the steel wire rope, and the automation degree of the whole device is further improved.

It should be particularly noted that all the elastic connections referred to in this application may be replaced by elastic sheets, elastic steel plates or elastic rubber structures, and an optimal structure may be selected according to actual situations, which is not specifically limited herein.

The working principle of the application is as follows:

the rope pressing sleeve is placed between the pressing seats 6, the hanging ring is installed on the feeding seat 12, the position of the rope pressing sleeve is fixed through the pressing seats 6, then, the steel wire rope extends into the feeding runner 33, the rotating disc 42 is driven to rotate through the rotation of the stepping motor 41, the steel wire rope is formed by mutually twisting a plurality of steel wires, a plurality of grooves are formed in the surface of the steel wire rope, the feeding head 43 extends into the steel wire rope, the steel wire rope is driven to move in the whole device under the interference effect between the feeding head 43 and the surface of the steel wire rope, the manual pulling of workers is not needed, when the steel wire rope penetrates through the rope pressing sleeve and enters the guide runner 83, the rotating wheel 14 and the gear 15 are driven to rotate under the friction resistance effect between the surface of the steel wire rope and the rotating wheel 14, under the meshing effect between the gear 15 and the rack 13, the rack 13 and the feeding seat 12 move in the direction shown in figure 1, and then the hanging ring on the feeding seat 12 is input into the guide runner 83 to be assembled with the steel wire rope, the direction of the free end of the steel wire rope is changed and the steel wire rope passes through the pressing rope sleeve again to enter the material returning flow channel 34, until the steel wire rope meets the monitoring seat 71 and drives the monitoring seat 71 to move rightwards along the material returning flow channel 34 as shown in fig. 2, in the process, under the action of frictional resistance between the material returning flow channel 34 and the winding wheel 72, the winding wheel 72 is driven to rotate to wind the nylon rope 73, when the lantern ring 74 on the nylon rope 73 meets the abutting seat 77 and drives the abutting seat 77 to move, the conducting rings 76 meet, the power module 10 is triggered to work to perform compression molding treatment, and through the arrangement of the fixing rod 75 and the threaded matching of the lantern ring 74, the position of the lantern ring 74 on the nylon rope 73 is adjustable, the processing requirement of the reserved length of the free end of the steel wire rope on different riggings is indirectly met, when the power module 10 works, the top seat 16 is driven to press the rope sleeve, therefore, the steel wire rope is fixed, after pressing is completed, the movable column 1001 moves upwards along the fixed column 1002 in the direction shown in fig. 6, at the moment, the third piston 116 is driven to move downwards along the driving box 115 in the direction shown in fig. 6 under the action of a transmission medium between the first piston 1003 and the third piston 116, the push rod 111 is driven to move towards the outer side of the machine base 1 under the action of the connecting rod 112, the distance between the first side box 81 and the second measurement is increased, the guide flow channel 83 and the feeding flow channel 33 are opened, subsequent material taking work is facilitated, the automation degree of the whole work process is high, only one worker needs to manually operate, the traditional mode that two workers mutually assist and cooperate is broken away, the labor intensity of the workers is reduced, the processing and production speed of the steel wire rope rigging is improved, and the processing period is shortened.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The utility model provides a processing equipment for wire rope rigging, includes frame, base, footstock and suppression seat, the base sets up on the frame, and the footstock activity sets up on the base to, all be equipped with the suppression seat on the opposite face of footstock and base, its characterized in that still includes:

the power modules are arranged between the base and the top seat in a plurality of groups and used for adjusting the distance between the base and the top seat;

the material conveying box is movably arranged on one side of the pressing seat, and a feeding runner and a return runner are arranged in the material conveying box;

the guide box is movably arranged on one side of the pressing seat, which is far away from the material conveying box, a guide flow channel for guiding the steel wire rope is arranged in the guide box, and the guide flow channel and the feeding flow channel can be opened for discharging the steel wire rope;

the feeding unit is arranged in the feeding runner and used for drawing the steel wire rope to move in the feeding runner; and

the monitoring system is arranged in the feed back runner and used for monitoring the length of the steel wire rope entering the feed back runner, and when the length of the steel wire rope entering the feed back runner reaches a set threshold value, the monitoring system controls the power module to work; wherein

The monitoring system at least comprises:

the monitoring seat is movably arranged in the feed back flow passage;

the winding wheel is movably arranged on the monitoring seat and is in sliding fit with the feed back runner; and

and the measuring module is connected with the winding wheel and used for measuring the moving distance of the monitoring seat.

2. The processing apparatus for a wire rope rigging according to claim 1, wherein the delivery box comprises an upper box and a lower box;

go up the box and be connected with footstock and base through the telescopic link respectively with lower box, the stiff end and the equal elastic connection of base and footstock of telescopic link, the feed back runner sets up in last box, goes up the regional pan feeding runner that constitutes between box and the lower box.

3. The tooling apparatus for a wireline rigging according to claim 1, wherein the guide box comprises a first side box and a second side box;

the first side case and the second side case are movably arranged on the base, a guide flow channel is formed in an area between the first side case and the second side case, a through window for the hanging ring to enter is further arranged between the first side case and the second side case, in addition, the first side case and the second side case are connected with the power module through the transmission module, and the distance between the first side case and the second side case can be adjusted through the transmission module when the power module works.

4. The processing apparatus for a wire rope rigging according to claim 3, wherein the power module comprises a movable column, a fixed column, a first piston, and a second piston;

the movable column is movably arranged on the fixed column, the movable column and the fixed column are connected between the base and the top seat, the second piston is movably arranged in the fixed column and connected with the movable column, a first piston is further arranged in the movable column, the first piston is movably arranged in a driving cavity formed in the fixed column, and the first piston is connected with the transmission module.

5. The processing apparatus for a wire rope rigging according to claim 4, wherein the transmission module comprises a push rod, a third piston, a buffer seat, a connecting rod, and a drive housing;

the push rod is movably arranged on the fixed column and is respectively connected with the first side box and the second side box, the driving box is arranged on the fixed column and is communicated with the driving cavity, a transmission medium is filled between the driving box and the driving cavity, the third piston is movably arranged in the driving box and is elastically connected with the driving box and the driving cavity, the buffer seat is movably arranged on the push rod and is connected with the push rod through an elastic piece, and the buffer seat is movably connected with the third piston through a connecting rod.

6. The processing equipment for steel wire rope rigging according to claim 2, wherein the feeding unit comprises a power element, a turntable and a plurality of feeding heads;

the feeding heads are movably arranged on the rotary disc and are elastically connected with the rotary disc, and the steel wire rope is positioned on a moving path of the feeding heads.

7. The machining apparatus for a wire rope rigging according to claim 2, wherein the measurement module comprises a flexible member, a contact block, a set of conductive rings, and a locking member;

the utility model discloses a flexible power transmission device, including support seat, winding wheel, flexible piece, conducting ring, lock piece, support seat, flexible piece is located the flexible piece, flexible piece is located on the flexible piece.

8. The processing equipment for steel wire rope rigging according to claim 3, further comprising a suspension loop conveying unit movably disposed on the machine base for mounting and conveying the suspension loop into the guide runner.

9. The processing apparatus for a wire rope rigging according to claim 8, wherein the bail transfer unit includes a feed block, a gear, a rack, and a wheel;

the rotating wheel is movably arranged on the first side box or the second side box, the rotating wheel extends into the guide flow channel and is positioned on a moving path of the steel wire rope, the rack is movably arranged on the base and is elastically connected with the base, the gear is connected with the rotating wheel and is meshed with the rack, the feeding seat is arranged on the rack, and the through window is positioned on the moving path of the feeding seat.

10. The processing equipment for the steel wire rope sling according to claim 8 or 9, wherein a valve unit is arranged in the through window and used for controlling the opening and closing of the through window, and the valve unit is connected with the suspension loop conveying unit.

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