CN219357877U - Cable end production equipment - Google Patents

Abstract

The utility model belongs to the technical field of inhaul cables, and provides inhaul cable end production equipment which comprises a die casting mechanism, a stamping mechanism and a moving mechanism, wherein the moving mechanism comprises a moving die, a locating pin is arranged on the moving die, a first locating hole is formed in the lower die corresponding to the locating pin, a containing groove matched with the inhaul cable end is formed in the moving die, an ejection cylinder is used for ejecting the inhaul cable end after die casting into the containing groove from the lower die, a second locating hole is formed in the lower die corresponding to the locating pin, a stamping hole is formed in the moving die corresponding to a stamping rod, the stamping hole is communicated with the containing groove, and the stamping cylinder is used for driving the stamping rod to punch the inhaul cable end from the containing groove through the stamping hole and out of a punching repair hole. Compared with the prior art, the utility model has the advantages that: the die-casting molding inhaul cable end is taken out and then accurately placed in the punching die for removing the material handle and burrs, the rejection rate and the reject ratio of inhaul cable production are reduced, and the production efficiency of products is improved.

Description

Cable end production equipment

Technical Field

The utility model belongs to the technical field of inhaul cables, and particularly relates to inhaul cable end production equipment.

Background

The inhaul cable can also be called a steel wire rope, has a simple structure, is flexible and convenient to use, and is widely applied to brake cables, door and window push-pull cables, accelerator cables, coat hanger lifting ropes, brake cables of motorcycle battery cars and the like, and is arranged between a driving piece and a driven piece. The structure of the inhaul cable generally comprises a cable core and a cable sleeve, wherein the cable core is of an elongated metal structure, a plurality of steel wires can be twisted into one strand or a single strand of steel wires or steel sheets, the material can be stainless steel or common steel, the length of the cable sleeve is determined according to application occasions, the cable sleeve is wrapped outside the cable core, the two ends of the cable core are die-cast with ends, and when the cable core is installed, the cable core is fixed between a driving piece and a driven piece through the ends, and the ends can be provided with different shapes according to the structures on the driving piece and the driven piece.

The end of the inhaul cable is generally obtained through zinc alloy die casting, after die casting, a material handle and burrs exist on a product, the material handle and the burrs must be removed to obtain a qualified product, the material handle and the burrs are processed through a punch at present, the product is placed in a lower die of a punching die, the punch is controlled to work, the end is separated from the material handle, and the burrs on the end are removed. The die-casting molding is carried out to the punch press processing and removes the material handle, the burr needs take out the cable end from the die-casting station, afterwards remove the cable end, then put into punch press mould with the cable end, in the prior art, remove the die-casting molding cable end, utilize the cable line that removes to press from both sides tight cable end department to take out, remove and place the cable end after the die-casting molding in the punch press mould of deburring, carry out material handle and burr excision, because press from both sides the core that indicates the cylinder clamp is the cable end, or one end presss from both sides the core, the other end presss from both sides the material handle, in press from both sides indicate the cylinder and remove the in-process, very easily make the die-casting end take place the change, so press from both sides indicate the cylinder and can not guarantee in the mould that the cable end is placed on the deburring machine accurately, the phenomenon that the structure of cable end is stamped damage and burring and material handle are incomplete when the burring and the material handle often appears, the rejection rate of product is high, the production efficiency of product is low, the superiority of automation equipment cannot be embodied.

Disclosure of Invention

The utility model aims to solve the technical problem of providing the production equipment for the end of the inhaul cable, which can accurately place the end of the inhaul cable formed by die casting in a punching die for removing a material handle and burrs after being taken out, reduce the rejection rate and the reject rate of inhaul cable production, improve the production efficiency of products and embody the superiority of automatic equipment.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a cable end production facility, include: the die-casting mechanism comprises a die-casting lower die and an ejection cylinder, wherein a lower forming groove for die-casting forming the end head of the inhaul cable is arranged on the die-casting lower die, a plurality of ejection rods are arranged on the ejection cylinder corresponding to the shape of the end head of the inhaul cable, ejection holes are formed on the die-casting lower die corresponding to the ejection rods, and the ejection holes are communicated with the lower forming groove;

the stamping mechanism comprises a main stamping cylinder, an auxiliary stamping cylinder, a stamping upper die and a stamping lower die, wherein the upper end of the stamping upper die is connected with a stamping connecting plate, the stamping connecting plate is respectively connected with piston rods of the main stamping cylinder and the auxiliary stamping cylinder, the piston rods of the main stamping cylinder and the auxiliary stamping cylinder respectively and independently control the stamping connecting plate, at least one stamping rod is arranged on the stamping upper die, and a stamping repair hole matched with the shape of the end of a inhaul cable is arranged on the stamping lower die;

the moving mechanism comprises a driving piece, a moving arm and a moving die, wherein the driving piece is connected with the moving arm, the moving arm is connected with the moving die, two positioning pins are arranged on the moving die, two first positioning holes are formed in the corresponding positioning pins on the lower die, a containing groove matched with the shape of the end of a guy cable is formed in the moving die, an ejection cylinder is used for ejecting the end of the guy cable after die casting from the lower die to the containing groove of the moving die, two second positioning holes are formed in the corresponding positioning pins on the lower die, a punching hole is formed in the corresponding punching rod on the moving die, the punching hole is communicated with the containing groove, a piston rod of the auxiliary punching cylinder is used for driving the punching rod of the upper die to push the end of the guy cable out of the containing groove through the punching hole, the piston rod of the main punching cylinder is used for driving the end of the upper die to move from the lower die through the punching connecting plate, so that the end of the guy cable is driven to move continuously from the lower die to the lower die or the reciprocating die is driven to move away from the moving die through the reciprocating die and the moving die.

Compared with the prior art, the utility model has the advantages that: after die casting of the cable end on the die casting mechanism is completed, the cable end is molded in a lower molding groove of the die casting lower die, the driving piece is used for driving the movable arm to enable the movable die to move towards one side of the die casting lower die, when the movable die moves to the position right above the die casting lower die, the driving piece drives the movable die to move towards one side close to the die casting lower die through the movable arm, two positioning pins of the movable die are inserted into two first positioning holes on the die casting lower die, complete adaptation of a containing groove of the movable die and a lower molding groove of the die casting lower die is ensured, then an ejector cylinder is used for driving an ejector rod to move along one side of the ejector hole on the die casting lower die close to the lower molding groove, and the cable end in the lower molding groove is accurately ejected into the containing groove on the movable die, so that the cable end is stably and accurately placed in the containing groove of the movable die. And then the driving piece drives the movable die to move towards one side close to the stamping lower die through the movable arm, when the movable die moves to the position right above the stamping lower die, the driving piece drives the movable die to move towards one side close to the stamping lower die through the movable arm, so that two positioning pins of the movable die are inserted into two second positioning holes on the stamping lower die, the accommodating groove in the movable die is ensured to be completely matched with the stamping hole in the stamping lower die, then the stamping rod of the stamping upper die is driven by the piston rod of the auxiliary stamping cylinder through the stamping connecting plate, the end head of the inhaul cable is accurately pushed out of the stamping hole of the stamping lower die from the accommodating groove of the movable die, and then the piston rod of the main stamping cylinder drives the stamping rod of the stamping lower die to continuously move through the stamping connecting plate, so that the end head of the inhaul cable is stamped out of the stamping hole of the stamping lower die. Because the punching hole on the punching lower die is matched with the shape of the cable end, the cable end is accurately pushed out of the punching hole of the punching lower die from the accommodating groove of the movable die by utilizing the piston rod of the auxiliary punching cylinder, the cable end can be accurately aligned with the punching hole, the piston rod of the main punching cylinder is used for punching the cable end out of the punching hole, the cable end is subjected to material removal handle and burr removal, the structure and the shape of the cable end are not damaged in the punching process, the material handle and the redundant burrs on the cable end are completely removed in the punching process, and the punching hole on the movable die can be used for protecting the bending of the punching rod of the punching upper die in the punching process. Therefore, the production equipment of the cable end, disclosed by the utility model, can be used for accurately taking out the cable end formed by die casting and accurately placing the cable end in a trimming die for removing the material handle and burrs, so that the rejection rate and the reject rate of cable production are reduced, the production efficiency of products is improved, and the stability and the reliability of a machine are improved.

In the production equipment of the inhaul cable end, the movable die is provided with the fixed block, the die casting mechanism is arranged on one side of the die casting lower die, a fixed cylinder and a fixed plate are arranged on one side of the die casting lower die, one end of a telescopic rod of the fixed cylinder is connected with the fixed plate, and the fixed cylinder is used for driving the fixed plate to compress the fixed block. When two positioning columns of the movable die are inserted into two first positioning holes of the die-casting lower die, the fixed cylinder drives the fixed plate to move towards one side close to the movable die, so that the fixed plate is tightly pressed on the fixed block on the movable die, and the movable die is prevented from moving in the push-out process of the end head of the inhaul cable. After the end head of the inhaul cable is ejected into the accommodating groove on the movable die, the fixed cylinder drives the fixed plate to move away from one side of the movable die, so that the movable die is pressed and fixed, and the movable die is convenient to move.

In the production equipment of the guy cable end, the movable mould is provided with the locking hole, the locking hole is communicated with the accommodating groove, the movable arm is provided with the locking cylinder, one end of the telescopic rod of the locking cylinder is connected with the locking block, and the locking block is matched with the locking hole. After the push-out cylinder pushes out the cable end to the accommodating groove of the movable die, the locking cylinder drives the locking block to move along the locking hole on the movable die towards the cable end close to the accommodating groove, so that the locking block is abutted against one side of the cable end material handle in the accommodating groove, the movable die is prevented from falling out or relatively moving from the accommodating groove of the movable die in the moving process, and the accuracy of the position of the cable end is ensured.

In the production equipment of the inhaul cable end, the driving mechanism comprises a sliding block, a guide rail, a first moving cylinder and a second moving cylinder, a piston rod of the first moving cylinder is connected with the sliding block, the sliding block is slidably connected to the guide rail, the setting direction of the guide rail is parallel to the plane where the die-casting lower die is located, one end of the sliding block is connected with the second moving cylinder, one end of a telescopic rod of the second moving cylinder is connected with the moving arm, and the telescopic direction of the telescopic rod of the second moving cylinder is perpendicular to the plane where the die-casting lower die is located. The first movable cylinder drives the sliding block to slide along the guide rail, so that the movable mold is driven to move left and right between the die-casting lower mold and the stamping lower mold, the second movable cylinder drives the movable mold to move up and down in the direction close to or far away from the die-casting lower mold and the stamping lower mold, the positioning pin of the movable mold can be inserted into the first positioning hole of the die-casting lower mold or far away from the first positioning hole of the die-casting lower mold, and the positioning pin of the movable mold can be inserted into the first positioning hole of the stamping lower mold or far away from the first positioning hole of the stamping lower mold.

In the above-mentioned cable end production facility, die casting mechanism still includes die casting upper die, die casting jar, the piston rod of die casting jar with die casting upper die's one end links to each other, be equipped with the last shaping groove of die casting shaping cable end on the die casting upper die. The die-casting upper die is used for die-casting the end of the molding inhaul cable with the die-casting lower die, and the die-casting cylinder is used for driving the die-casting upper die to die-mould and open the die.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of the overall structure of an embodiment of the present utility model;

FIG. 3 is a schematic view of a portion of the structure of an embodiment of the present utility model;

FIG. 4 is a bottom view of a moving mold according to one embodiment of the present utility model;

FIG. 5 is a side view of a moving mold according to one embodiment of the present utility model;

FIG. 6 is a front view of a moving mold according to one embodiment of the present utility model;

FIG. 7 is a front view of a cable end of one embodiment of the present utility model;

fig. 8 is a bottom view of a cable head according to one embodiment of the present utility model.

In the figure, 1, a lower die is die-cast; 2. an ejection cylinder; 3. a lower molding groove; 4. an ejector rod; 5. an ejection hole; 6. a main punching cylinder; 7. stamping an upper die; 8. stamping a lower die; 9. punching a rod; 10. punching a hole; 11. moving the arm; 12. moving the mold; 13. a positioning pin; 14. a first positioning hole; 15. a receiving groove; 16. a second positioning hole; 17. punching a hole; 18. a fixed block; 19. an upper molding groove; 20. a fixed cylinder; 21. a fixing plate; 22. a locking hole; 23. a locking cylinder; 24. a locking block; 25. a slide block; 26. a guide rail; 27. a first moving cylinder; 28. a second moving cylinder; 29. a guy cable end; 30. die casting an upper die; 31. a die casting cylinder; 32. an auxiliary stamping cylinder; 33. and (5) stamping the connecting plate.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments.

As shown in fig. 1 to 6, the present utility model provides a cable end 29 production apparatus, comprising: the die-casting mechanism comprises a die-casting lower die 1 and an ejection cylinder 2, wherein a lower forming groove 3 for die-casting a cable end 29 is formed in the die-casting lower die 1, a plurality of ejection rods 4 are arranged on the ejection cylinder 2 corresponding to the cable end 29 in shape, ejection holes 5 are formed in the die-casting lower die 1 corresponding to the ejection rods 4, and the ejection holes 5 are communicated with the lower forming groove 3;

the punching mechanism comprises a main punching cylinder 6, an auxiliary punching cylinder 32, a punching upper die 7 and a punching lower die 8, wherein the upper end of the punching upper die 7 is connected with a punching connecting plate 33, the punching connecting plate 33 is respectively connected with piston rods of the main punching cylinder 6 and the auxiliary punching cylinder 32, the piston rods of the main punching cylinder 6 and the auxiliary punching cylinder 32 respectively and independently control the punching connecting plate 33, at least one punching rod 9 is arranged on the punching upper die 7, and a punching repair hole 10 matched with the shape of a guy cable end 29 is arranged on the punching lower die 8;

the moving mechanism comprises a driving piece, a moving arm 11 and a moving die 12, wherein the driving piece is connected with the moving arm 11, the moving arm 11 is connected with the moving die 12, two positioning pins 13 are arranged on the moving die 12, two first positioning holes 14 are arranged on the lower die 1 corresponding to the positioning pins 13, a containing groove 15 matched with the cable end 29 in shape is arranged on the moving die 12, an ejection cylinder 2 is used for ejecting the cable end 29 after die casting into the containing groove 15 of the moving die 12 from the lower die 1, two second positioning holes 16 are arranged on the lower die 8 corresponding to the positioning pins 13, a punching hole 17 is arranged on the moving die 12 corresponding to the punching rod 9, the punching hole 17 is communicated with the containing groove 15, a piston rod of an auxiliary punching cylinder 32 is used for driving the punching rod 9 of the upper die 7 to push out the cable end 29 from the containing groove 15 into a punching hole 10 of the lower die 8 through the punching hole 17, the main punching cylinder 6 drives the punching rod 9 of the upper die 7 to continuously move through the punching connecting plate 33, so that the end 29 is pushed out of the lower die 8 from the lower die 8 to the lower die 8 or the lower die 8 is driven by the driving piece to move towards the lower die 1 or the lower die 11 to move away from the moving die 11 through the reciprocating die 1.

After die casting of the cable end 29 on the die casting mechanism is completed, the cable end 29 is molded in the lower molding groove 3 of the die casting lower die 1, the driving piece drives the movable arm 11 to enable the movable die 12 to move towards one side of the die casting lower die 1, when the movable die 12 moves to the position right above the die casting lower die 1, the driving piece drives the movable die 12 to move towards one side close to the die casting lower die 1 through the movable arm 11, two positioning pins 13 of the movable die 12 are inserted into two first positioning holes 14 on the die casting lower die 1, the accommodating groove 15 of the movable die 12 is guaranteed to be completely matched with the lower molding groove 3 of the die casting lower die 1, then the ejector rod 4 is driven by the ejector cylinder 2 to move along one side, close to the lower molding groove 3, of the ejector rod 4 in the die casting lower molding groove 3 is accurately ejected into the accommodating groove 15 on the movable die 12, and the cable end 29 is stably and accurately placed in the accommodating groove 15 of the movable die 12. Then the driving piece drives the movable die 12 to move towards the side close to the punching die 8 through the movable arm 11, when the movable die 12 moves to the position right above the punching die 8, the driving piece drives the movable die 12 to move towards the side close to the punching die 8 through the movable arm 11, so that two positioning pins 13 of the movable die 12 are inserted into two second positioning holes 16 on the punching die 8, the accommodating groove 15 in the movable die 12 is guaranteed to be completely matched with the punching hole 10 in the punching die 8, then a piston rod of the auxiliary punching cylinder 32 is utilized to drive the punching rod 9 of the punching die 7 through the punching connecting plate 33, the guy cable end 29 is accurately pushed out of the punching hole 10 of the punching die 8 from the accommodating groove 15 of the movable die 12 through the punching hole 17 on the movable die 12, and then a piston rod of the main punching cylinder 6 drives the punching rod 9 of the punching die 7 to continuously move through the punching connecting plate 33, so that the guy cable end 29 is punched out of the punching hole 10 of the punching die 8. Because the punching hole 10 on the punching lower die 8 is matched with the shape of the cable end 29, the cable end 29 is accurately pushed out of the accommodating groove 15 of the movable die 12 into the punching hole 10 of the punching lower die 8 by utilizing the piston rod of the auxiliary punching cylinder 32, the cable end 29 can be ensured to be accurately aligned with the punching hole 10, the piston rod of the main punching cylinder 6 is used for punching the cable end 29 out of the punching hole 10, the material handle and burrs of the cable end 29 are removed, the structure and the shape of the cable end 29 are not damaged in the punching process, the material handle and redundant burrs on the cable end 29 are not completely removed in the punching process, and the punching hole 10 on the movable die 12 can protect the bending of the punching rod 9 of the punching upper die 7 in the punching process. Therefore, the production equipment of the guy cable end 29 of the utility model realizes that the guy cable end 29 formed by die casting is accurately taken out and then accurately placed in the punching die for removing the material handle and the burrs, reduces the rejection rate and the reject ratio of guy cable production, improves the production efficiency of products, and improves the stability and the reliability of machines.

Further, a fixed block 18 is arranged on the moving die 12, a fixed cylinder 20 and a fixed plate 21 are arranged on one side of the die-casting lower die 1 of the die-casting mechanism, one end of a telescopic rod of the fixed cylinder 20 is connected with the fixed plate 21, and the fixed cylinder 20 is used for driving the fixed plate 21 to compress the fixed block 18. When the two positioning posts of the movable die 12 are inserted into the two first positioning holes 14 of the die-casting lower die 1, the fixed cylinder 20 drives the fixed plate 21 to move towards the side close to the movable die 12, so that the fixed plate 21 is pressed on the fixed block 18 on the movable die 12, and the movable die 12 is prevented from moving in the ejection process of the guy cable end 29. After the guy cable end 29 is ejected into the accommodating groove 15 on the movable die 12, the fixed cylinder 20 drives the fixed plate 21 to move away from one side of the movable die 12, so that the movable die 12 is pressed and fixed, and the movable die 12 is convenient to move.

Further, a locking hole 22 is formed in the movable die 12, the locking hole 22 is communicated with the accommodating groove 15, a locking cylinder 23 is arranged on the movable arm 11, one end of a telescopic rod of the locking cylinder 23 is connected with a locking block 24, and the locking block 24 is matched with the locking hole 22. After the push-out cylinder 2 pushes out the cable end 29 into the accommodating groove 15 of the movable die 12, the locking cylinder 23 drives the locking block 24 to move along the locking hole 22 on the movable die 12 towards the cable end 29 close to the accommodating groove 15, so that the locking block 24 is abutted against one side of the cable end 29 material handle in the accommodating groove 15, the cable end 29 is prevented from falling out of the accommodating groove 15 of the movable die 12 or moving relatively in the moving process of the movable die 12, and the accuracy of the position of the cable end 29 is ensured.

Further, the driving mechanism comprises a sliding block 25, a guide rail 26, a first moving cylinder 27 and a second moving cylinder 28, a piston rod of the first moving cylinder 27 is connected with the sliding block 25, the sliding block 25 is slidably connected on the guide rail 26, the setting direction of the guide rail 26 is parallel to the plane where the lower die 1 and the lower die 8 are located, one end of the sliding block 25 is connected with the second moving cylinder 28, one end of a telescopic rod of the second moving cylinder 28 is connected with the moving arm 11, and the telescopic direction of the telescopic rod of the second moving cylinder 28 is perpendicular to the plane where the lower die 1 and the lower die 8 are located. The first moving cylinder 27 drives the sliding block 25 to slide along the guide rail 26, so that the moving die 12 is driven to move left and right between the die casting lower die 1 and the stamping lower die 8, and the second moving cylinder 28 drives the moving die 12 to move up and down in a direction approaching to or separating from the die casting lower die 1 and the stamping lower die 8, so that the positioning pin 13 of the moving die 12 can be inserted into the first positioning hole 14 of the die casting lower die 1 or the first positioning hole 14 separating from the die casting lower die 1, and the positioning pin 13 of the moving die 12 can be inserted into the first positioning hole 14 of the stamping lower die 8 or the first positioning hole 14 separating from the stamping lower die 8.

Further, the die casting mechanism further comprises a die casting upper die 30 and a die casting cylinder 31, a piston rod of the die casting cylinder 31 is connected with one end of the die casting upper die 30, and an upper forming groove 19 for die casting the cable end 29 is formed in the die casting upper die 30. The upper die 30 is used for die-casting and molding the cable end 29 with the lower die 1, and the die-casting cylinder 31 is used for driving the upper die 30 to die-casting and die-opening.

The specific embodiments described herein are offered by way of example only. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions thereof without departing from the scope of the utility model as defined.

Claims (5)

1. A cable end production facility, characterized by includes:

the die-casting mechanism comprises a die-casting lower die (1) and an ejection cylinder (2), wherein a lower forming groove (3) for die-casting forming a guy cable end is formed in the die-casting lower die (1), a plurality of ejection rods (4) are arranged on the ejection cylinder (2) corresponding to the guy cable end in shape, ejection holes (5) are formed in the die-casting lower die (1) corresponding to the ejection rods (4), and the ejection holes (5) are communicated with the lower forming groove (3);

the stamping mechanism comprises a main stamping cylinder (6), an auxiliary stamping cylinder (32), a stamping upper die (7) and a stamping lower die (8), wherein the upper end of the stamping upper die (7) is connected with a stamping connecting plate (33), the stamping connecting plate (33) is respectively connected with piston rods of the main stamping cylinder (6) and the auxiliary stamping cylinder (32), the piston rods of the main stamping cylinder (6) and the auxiliary stamping cylinder (32) are respectively and independently controlled to be respectively connected with the stamping connecting plate (33), at least one stamping rod (9) is arranged on the stamping upper die (7), and a stamping repair hole (10) matched with the end shape of a inhaul cable is arranged on the stamping lower die (8);

the moving mechanism comprises a driving piece, a moving arm (11) and a moving die (12), wherein the driving piece is connected with the moving arm (11), the moving arm (11) is connected with the moving die (12), two locating pins (13) are arranged on the moving die (12), two first locating holes (14) are arranged on the lower die (1) corresponding to the locating pins (13), a containing groove (15) matched with the shape of a guy cable end is arranged on the moving die (12), the ejection cylinder (2) is used for ejecting the guy cable end after die casting from the inside of the lower die (1) to the containing groove (15) of the moving die (12), two second locating holes (16) are arranged on the lower die (8) corresponding to the locating pins (13), a punching hole (17) is arranged on the lower die (12) corresponding to the punching rod (9), the punching hole (17) is communicated with the containing groove (15), the auxiliary punching cylinder (32) is used for pushing out the guy cable end (9) from the lower die (8) to the containing groove (15) through the punching hole (33) of the lower die (8), the piston rod of the main stamping cylinder (6) drives the stamping rod (9) of the stamping upper die (7) to move continuously through the stamping connecting plate (33), so that the end of a guy cable is pushed out of the stamping hole (10) of the stamping lower die (8), and the driving piece is used for driving the moving die (12) to move back and forth between the die casting lower die (1) and the stamping lower die (8) through the moving arm (11) and driving the moving die (12) to move back and forth in the direction close to or far away from the die casting lower die (1) and the stamping lower die (8).

2. The inhaul cable end production device according to claim 1, wherein a fixed block (18) is arranged on the movable die (12), a fixed cylinder (20) and a fixed plate (21) are arranged on one side of the die-casting lower die (1) through the die-casting mechanism, one end of a telescopic rod of the fixed cylinder (20) is connected with the fixed plate (21), and the fixed cylinder (20) is used for driving the fixed plate (21) to press the fixed block (18).

3. The guy cable end production device according to claim 1, wherein the moving die (12) is provided with a locking hole (22), the locking hole (22) is communicated with the accommodating groove (15), the moving arm (11) is provided with a locking cylinder (23), one end of a telescopic rod of the locking cylinder (23) is connected with a locking block (24), and the locking block (24) is matched with the locking hole (22).

4. A cable end production device according to claim 1, 2 or 3, wherein the driving member comprises a sliding block (25), a guide rail (26), a first moving cylinder (27) and a second moving cylinder (28), a piston rod of the first moving cylinder (27) is connected with the sliding block (25), the sliding block (25) is slidably connected to the guide rail (26), a setting direction of the guide rail (26) is parallel to a plane line where the lower die (1) and the lower die (8) are located, one end of the sliding block (25) is connected with the second moving cylinder (28), one end of a telescopic rod of the second moving cylinder (28) is connected with the moving arm (11), and a telescopic direction of the telescopic rod of the second moving cylinder (28) is perpendicular to a plane where the lower die (1) and the lower die (8) are located.

5. The production equipment of the cable end according to claim 4, wherein the die-casting mechanism further comprises a die-casting upper die (30) and a die-casting cylinder (31), a piston rod of the die-casting cylinder (31) is connected with one end of the die-casting upper die (30), and an upper forming groove (19) for die-casting the cable end is formed in the die-casting upper die (30).