CN211965762U - Steel wire rope cutting and clamping combined device - Google Patents

Abstract

The utility model discloses a steel wire rope cutting and clamping combined device, which is provided with a rotating shaft, wherein a cutting clamping support plate, a cutting clamping plate and a clamping plate are arranged on the rotating shaft in a penetrating way, the cutting clamping support plate, the cutting plate, the clamping plate and a rotating shaft suspension sleeve are arranged, and are connected in series by bolts, the cutting clamping plate and the rotating shaft fixing sleeve are arranged without being connected by bolts, the cutting clamping plate is clamped between the cutting plate and the clamping plate, radial notches are arranged on corresponding positions of the cutting clamping support plate, the cutting clamping plate and the clamping plate, and the steel wire rope is placed in the notches; the steel wire rope is cut by cutting the cutting edge between the clamping plate and the cut-off plate gap, and the steel wire rope is clamped by cutting the chamfer angle between the clamping plate and the clamping plate gap. The device can also be additionally provided with a correcting plate for correcting the steel wire rope and a pulling assembly for tensioning the steel wire rope. The utility model is suitable for a wire rope is cutting off, pressing from both sides tight, correction, taut automated production at the weaving in-process.

Description

Steel wire rope cutting and clamping combined device

Technical Field

The utility model relates to a wire rope field especially indicates a have and cut off, press from both sides tightly, correct, taut multi-functional device such as stainless steel wire rope.

Background

Common steel wire ropes include carbon steel wire ropes and stainless steel wire ropes. The stainless steel wire rope has the advantages of good high-temperature resistance, good fatigue resistance, excellent breaking tension, long service life, durability, attractiveness, corrosion resistance and the like, and is widely applied to industries such as coal, petroleum, metallurgy, chemical industry, ships, bridges, electric power, rubber, military industry, tourism, water conservancy, light industry and the like.

However, in the process of weaving the wire rope, most devices related to the cutting, clamping, correcting, tensioning and other functions of the stainless steel wire rope cannot be well met due to the strong tensile and fracture resistance of the stainless steel wire rope, the devices for realizing the functions are single, only one or two functions can be realized, the structure is complex, the stainless steel wire rope is particularly not suitable for an automatic production line, and along with the development of the modern industry, the use devices with multiple comprehensive functions are urgently required to be researched and developed.

SUMMERY OF THE UTILITY MODEL

For solving among the prior art mostly relate to stainless steel wire rope cut off, press from both sides the device function singleness of function such as tight, the structure is complicated, is not applicable to automation line scheduling problem very much, the utility model provides a have and cut off, press from both sides tight stainless steel wire rope composite set.

In order to solve the technical problem, the utility model provides a technical scheme as follows: a steel wire rope cutting and clamping combined device comprises a mounting plate, wherein a bearing assembly is mounted at the top of one end of the mounting plate, and a cutting and clamping support plate is mounted at the top of the other end of the mounting plate;

the rotating shaft is arranged in the bearing assembly and the cutting clamping support plate in a penetrating mode, and is driven to rotate by the rotating shaft driving assembly;

the rotating shaft is sleeved at one end of the cutting clamping support plate, and is also sequentially sleeved with a cutting plate, a cutting clamping plate and a clamping plate, wherein,

the cutting clamping support plate, the cutting plate, the clamping plate and the rotating shaft are sleeved in a hanging manner and are connected in series through bolts, and the bolts are locked outside the cutting clamping support plate through springs and nuts; the cutting clamping plate and the rotating shaft are fixedly sleeved and are not connected through the bolt; the cutting clamping plate is clamped between the cutting plate and the clamping plate;

radial notches are formed in the corresponding positions of the cutting clamping support plate, the cutting clamping plate and the clamping plate, and a steel wire rope is placed in the notches;

cutting edges are correspondingly arranged between the cutting clamping plate and the notch on the opposite side of the cutting plate in the vertical direction;

and chamfers are correspondingly arranged between the cutting clamping plate and the notches at the opposite sides of the clamping plate in an up-down manner.

Further, the mounting plate is driven by a guide rail sliding table driving assembly to perform linear movement.

The guide rail sliding table driving assembly comprises a guide rail, a guide rail sliding table and a first air cylinder, the guide rail sliding table is arranged on the guide rail in a sliding mode, and the mounting plate is mounted at the top of the guide rail sliding table; a piston rod mounting panel is erect to guide rail one end, and the piston rod of a cylinder is fixed on the piston rod mounting panel, and the cylinder body of a cylinder is fixed mounting panel bottom.

Furthermore, a first correcting plate and a second correcting plate are sequentially sleeved on the rotating shaft and close to the outer side of the clamping plate; radial notches are formed in the corresponding mounting positions of the first straightening plate and the second straightening plate; the first straightening plate is sleeved on the rotating shaft in a hanging mode and connected through the bolt; the second straightening plate is fixedly sleeved on the rotating shaft and is not connected with the rotating shaft through the bolt, and the steel wire rope is pressed when the second straightening plate rotates.

Still further, a top portion of the leveling plate has a platform surface.

Still further, the opening degree of the notch of the second correcting plate is larger than that of the notch of the cutting and clamping plate.

Furthermore, the rotating shaft driving assembly comprises a second cylinder fixing mounting plate, a connecting rod, a fisheye-shaped connecting piece, a second cylinder and a second cylinder movable mounting plate; no. two cylinder fixed mounting boards are installed on the mounting panel, the connecting rod is radially connected on the rotation axis, fisheye type connecting piece one end articulates on the connecting rod, other end fixed connection the piston rod of No. two cylinders, the cylinder body terminal surface department fixed mounting of No. two cylinders No. two cylinder movable mounting boards, No. two cylinder movable mounting boards with No. two cylinder fixed mounting boards are articulated.

Further, the rotating shaft driving component is a handle and is radially connected to the rotating shaft.

Further, the rotating shaft driving assembly comprises a motor and a coupling, and the motor and the coupling are coaxially connected to the end of the rotating shaft.

Further, the chamfer is a 45 ° chamfer.

Compared with the prior art, the utility model discloses a device with cut off, press from both sides tight stainless steel wire rope has solved most cutting off, the clamping device function singleness that relates to stainless steel wire rope, and the structure is more complicated, is not suitable for the problem of automation line very much. On the basis of the cutting and clamping device, a correcting and tensioning device can be added, the cutting, clamping, correcting and tensioning operations can be carried out simultaneously, and several functional operations can be selected, so that the structure is good, the assembly and disassembly are convenient, particularly in the cutting and clamping combined structure, the cutting and clamping are carried out synchronously, and the end of the steel wire rope is also grasped while the cutting is carried out; after clamping, the straightness can be corrected by the correcting plate continuously, so that the steel wire rope is ensured not to be bent; the two sets of devices start the tensioning assemblies at two ends of the steel wire rope simultaneously, and can tension the steel wire rope in a back direction at the same time, so that the steel wire rope is further straightened and has certain tensioning force.

Drawings

FIG. 1 is a schematic structural view of a device in embodiment 1 of the present invention, which realizes cutting, clamping, straightening and tensioning functions;

FIG. 2 is a schematic view of a second cylinder assembly structure and installation;

FIG. 3 is an enlarged view of the cutting and clamping assembly shown at A in FIG. 1;

FIG. 4-1 is a schematic view showing the position of the cutting plate and the cutting edge of the clamping plate;

FIG. 4-2 is a schematic view of the cutting plate and the cutting clamping plate cutting the steel wire rope;

FIG. 5-1 is a schematic view of the cutting of the clamping plate and the chamfering of the clamping plate;

FIG. 5-2 is a schematic view of cutting off the clamping plate and clamping the clamping plate to clamp the bending steel wire rope;

FIG. 6 is a schematic view of the rotation of the second cutting clamping plate and the second straightening plate when the steel wire rope is put on;

FIG. 7 is a schematic view of a steel wire rope being cut and bent;

FIG. 8 is a schematic structural view of the device of embodiment 2, which realizes the functions of cutting, clamping and tensioning;

FIG. 9 is a schematic structural view of the device of embodiment 3, which realizes the functions of cutting and clamping;

FIG. 10 is a schematic structural view of the device of example 4, which realizes the functions of cutting, clamping and correcting, and rotates a rotating shaft through a second cylinder assembly;

FIG. 11 is a schematic structural view of the device of example 5, which realizes the functions of cutting, clamping and correcting and rotates a rotating shaft through a handle.

In the figure: 1-a guide rail, 2-a guide rail sliding table, 3-a mounting plate, 4-a piston rod mounting plate, 5-a cylinder, 6-a bearing assembly, 7-a cylinder fixing mounting plate, 8-a rotating shaft, 9-a fixing ring, 10-a connecting rod, 11-a fisheye type connecting piece, 12-a cylinder, 13-a cylinder movable mounting plate, 14-a cutting clamping support plate, 15-a cutting plate, 16-a cutting clamping plate, 17-a clamping plate, 18-a correction plate I, 19-a correction plate II, 20-a bolt, 21-a spring, 22-a nut and 23-a handle.

Detailed Description

The following detailed description is to be read with reference to the drawings and the specific embodiments.

The utility model provides a device with wire rope cuts off, presss from both sides tightly, corrects, taut function, through the reasonable combination of several kinds of functional structure, the function both can be correlated with each other but also relatively independent, can realize simultaneously on same platform device cutting off, pressing from both sides tightly, correcting, taut etc. operation to wire rope, also can select wherein several kinds of function combination operations, also can be a certain independent operation. Several examples are provided below:

example 1

In embodiment 1, there is provided a device structure capable of comprehensively realizing all functions of cutting, clamping, straightening, and tensioning.

As shown in fig. 1, the device comprises a guide rail 1 fixedly installed on a base body, a guide rail sliding table 2 is installed on the guide rail 1, the guide rail sliding table 2 can slide linearly on the guide rail 1, a relatively long installation plate 3 is fixedly installed at the top of the guide rail sliding table 2, and the guide rail sliding table 2 and the installation plate 3 can be regarded as a whole. A piston rod mounting panel 4 is fixed to 1 one end of guide rail, and the piston rod of a cylinder 5 is fixed on piston rod mounting panel 4, and the cylinder body of a cylinder 5 is fixed in mounting panel 3 bottom, and when cylinder 5 during operation, because the reaction of power, the piston rod is motionless, and the cylinder body removes, and then drives mounting panel 3 and guide rail slip table 2 and slide. The advantages of the design are as follows: firstly, the number of fixed supporting parts of the cylinder can be reduced; secondly, the installation space of the air cylinder is saved; and thirdly, the air cylinder and the guide rail sliding table can be detached together when the air cylinder is not used.

Preferably, the first air cylinder 5 is selected to be a finger-type air cylinder, which is convenient to operate manually.

Further, as the alternative scheme, the combination of a cylinder and the guide rail, the guide rail sliding table and the mounting plate can be replaced by the combination of a motor, a lead screw, the guide rail sliding table and the mounting plate, the motor and the lead screw drive the guide rail sliding table, the combination of a hand-operated gear, a rack and the guide rail, the guide rail sliding table and the mounting plate can also be replaced by the combination of the hand-operated gear, the rack and the guide rail, the guide rail sliding table and the mounting. The assembly capable of driving the guide rail sliding table and the mounting plate to move is generally called as a guide rail sliding table driving assembly.

And a bearing assembly 6 and a second air cylinder assembly are arranged at the top of the mounting plate 3 corresponding to the position of the guide rail sliding table 2. The bearing assembly 6 comprises a bearing seat and a bearing, and the two groups are provided; the second cylinder component comprises a second cylinder fixing mounting plate 7, a connecting rod 10, a fisheye-shaped connecting piece 11, a second cylinder 12 and a second cylinder movable mounting plate 13, and as shown in figure 2, the second cylinder fixing mounting plate 7 is directly mounted on the mounting plate 3.

Install bearing assembly 6 and No. two cylinder fixed mounting plates 7 above guide rail slip table 2, the benefit of this position can have the support of guide rail slip table 2 and guide rail 1 and base member, and bearing capacity is strong. The rotating shaft 8 is installed in the bearing to form a hinge joint; the rotating shaft 8 is sleeved with a fixing ring 9, the position of the fixing ring 9 on the rotating shaft is determined in advance and then is tightly pressed by a jackscrew, and the fixing ring 9 rotates along with the rotating shaft 8. The fixing ring 9 is radially provided with a hole, the hole is fixedly connected with a connecting rod 10, the other end of the connecting rod 10 is hinged with one end of a fisheye-shaped connecting piece 11, and the other end of the fisheye-shaped connecting piece 11 is connected with a piston rod of a second cylinder 12. A second cylinder movable mounting plate 13 is fixed on the end face of the second cylinder 12, and the second cylinder movable mounting plate 13 is hinged to the second cylinder fixed mounting plate 7 so as to adapt to angle changes of the connecting rod 10, the fisheye-shaped connecting piece 11, the piston rod and the like caused by rotation of the rotating shaft 8.

Preferably, the second cylinder 12 is selected to be a thin-walled cylinder and is light in weight.

Further, as an alternative scheme, the second cylinder assembly comprises a second cylinder fixing mounting plate 7, a connecting rod 10, a fisheye-shaped connecting piece 11, a second cylinder 12 and a second cylinder movable mounting plate 13, all of which can be removed and not used, a handle is radially connected to the fixing ring 9 or the rotating shaft 8 instead, the rotating shaft is manually operated to rotate, or a coupler and a motor are coaxially connected to the end of the rotating shaft instead, and the rotating shaft is driven to rotate by the motor. Any component that drives the rotation shaft 8 to rotate is collectively referred to as a rotation shaft drive component.

At the shaft end of the rotating shaft 8, a cutting clamping assembly is mounted. As shown in fig. 3, the cutting clamp assembly includes a cutting clamp support plate 14, a cutting plate 15, a cutting clamp plate 16, a clamp plate 17, a leveling plate one 18, a leveling plate two 19, a bolt 20, a spring 21, and a nut 22.

A cutting clamping support plate 14 is fixed on one end of the mounting plate 3 and serves as a support connecting piece of the cutting clamping assembly; the cutting and clamping support plate 14, the cutting plate 15, the cutting and clamping plate 16, the clamping plate 17, the first correcting plate 18 and the second correcting plate 19 are sequentially arranged on the rotating shaft 8 in a penetrating mode, the second correcting plate 19 is located at the outermost end of the shaft, and all other components are clamped between the cutting and clamping support plate 14 and the second correcting plate 19.

The cutting clamping support plate 14, the cutting plate 15, the clamping plate 17 and the first correcting plate 18 are sleeved on the rotating shaft 8 in a hanging mode, the peripheries of the cutting clamping support plate, the cutting clamping support plate and the first correcting plate are connected into a whole in series through bolts 20, the outer side of the cutting clamping support plate 14 is locked through a spring 21 and a nut 22, and the purpose is to adjust the pre-tightening force on the cutting clamping plate 16 through the spring; the cutting clamp support plate 14, the cutting plate 15, the clamp plate 17 and the first straightening plate 18 are connected in series by a plurality of bolts 20 and cannot rotate along with the rotating shaft 8.

The cutting clamping plate 16, the second straightening plate 19 and the rotating shaft 8 are fixedly sleeved, and are not connected with the cutting clamping support plate 14, the cutting plate 15, the clamping plate 17 and the first straightening plate 18 through bolts 20, so that the cutting clamping support plate, the cutting plate 15, the clamping plate 17 and the first straightening plate 18 can rotate along with the rotating shaft 8.

Radial notches are formed in corresponding mounting positions of the cutting clamping support plate 14, the cutting plate 15, the cutting clamping plate 16, the clamping plate 17, the first straightening plate 18 and the second straightening plate 19 and are used for placing steel wire ropes.

And, as shown in fig. 4-1, 4-2, the cutting plate 15 has a cutting plate edge a on the lower edge of the notch on the opposite side to the cutting clamping plate 16; the cutting clamping plate 16 is provided with a cutting clamping plate cutting edge A' on the upper edge of the notch on the opposite side of the cutting plate 15; the cutting clamping plate 16 cuts the stainless steel wire rope in a relative motion with the cutting plate 15, and the condition is suitable for the clockwise rotation condition of the rotating shaft 8.

Or conversely, the cutting plate 15 has a cutting plate blade on the upper edge of the notch on the opposite side to the cutting clamping plate 16; the cutting clamping plate 16 is provided with a cutting clamping plate blade on the lower edge of the notch at the opposite side of the cutting plate 15; this applies to the case of a counterclockwise rotation of the rotary shaft 8. The purpose of the blade is to cut the wire rope.

And, as shown in fig. 5-1, 5-2, the clamping plate 17 has a straight chamfer or a round chamfer B on the lower edge of the notch on the opposite side to the cutting clamping plate 16; the cutting and clamping plate 16 is provided with a straight chamfer or a round chamfer B' on the upper edge of the notch at the opposite side of the clamping plate 17; the relative movement of the cutting clamping plate 16 and the clamping plate 17 clamps the stainless steel wire rope and bends the stainless steel wire rope, and the condition is suitable for the clockwise rotation condition of the rotating shaft 8.

Or conversely, the clamping plate 17 has a straight or rounded chamfer on the upper edge of the notch on the opposite side to the cutting-off clamping plate 16; the cutting and clamping plate 16 is provided with a straight chamfer or a round chamfer on the lower edge of the notch at the opposite side of the clamping plate 17; this applies to the clockwise rotation of the rotating shaft 8. The purpose of setting up the chamfer is to avoid centre gripping wire rope dynamics too big, damages the wire rope surface.

The above straight chamfer or round chamfer is preferably 45 °.

Further, the notch on the opposite side of the cutting jaw 16 from the jaw 17 may be chamfered at the edge of the notch not used for clamping and bending, so as to prevent damage to the wire rope when the cutting jaw 16 rotates.

Similarly, the edge of the notch on the opposite side of the first straightening plate 18 of the clamping plate 17 can be chamfered to prevent damage to the steel wire rope.

The first correcting plate 18 and the second correcting plate 19 are used for correcting the straightness of the steel wire rope after the steel wire rope is cut, clamped and bent, and preventing the steel wire rope from being distorted and deformed in the bending process. Further, a platform C is provided on the top of the first leveling plate 18, as shown in fig. 6, for increasing the supporting area for the wire rope, and also for preventing the second leveling plate 19 from being excessively reversed.

Still further, the notch opening of the second correcting plate 19 is larger than that of other parts, especially larger than that of the cutting and clamping plate 16, so that when the cutting and clamping plate 16 rotates excessively to press the bent steel wire rope, the second correcting plate 19 can just press the steel wire rope.

The cutting and clamping plate 16 and the second correcting plate 19 are driven to rotate through the rotating shaft 8, the stainless steel wire rope placed in the notch of the cutting and clamping device is cut and clamped, and the end of the wire rope is bent.

The opening angles of the notches of the cutting clamping support plate 14, the cutting plate 15, the cutting clamping plate 16, the clamping plate 17, the first straightening plate 18 and the second straightening plate 19 are consistent at the beginning of work, a steel wire rope is placed in the notch, then the rotating shaft 8 is pushed to rotate through the second cylinder 12 or the handle, the cutting clamping support plate 14 rotates to cut the steel wire rope, the steel wire rope further rotates to clamp and bend the end of the steel wire rope by 90 degrees, the length of the bent end part is just the width of the cutting clamping support plate 14, and the first straightening plate 18 and the second straightening plate 19 synchronously correct the straightness of the steel wire rope; then, the first air cylinder 5 is started, the mounting plate 3 is pulled outwards, and the steel wire rope is tensioned. Two ends of the preset steel wire rope with the cutting length are respectively provided with the same device, and the two ends are cut off and tensioned simultaneously, so that the straightening of a steel wire rope with a certain length can be realized.

The method of use of example 1 is as follows:

1. the device is respectively arranged at two ends of a section of stainless steel wire rope with the length larger than the preset cutting length, firstly, a second air cylinder 12 is used for driving a rotating shaft 8 to rotate through a fisheye-shaped connecting piece 11, a connecting rod 10 and a fixing ring 9, and driving a cutting clamping plate 16 and a correcting plate two 19 to rotate, so that the gaps of the cutting clamping plate 16 and the correcting plate two 19 are consistent with the gap of a cutting clamping supporting plate 14;

2. placing stainless steel wire ropes in corresponding notches of the installed second straightening plate 19, the installed first straightening plate 18, the installed clamping plate 17, the installed cutting and clamping plate 16, the installed cutting and clamping plate 15 and the installed cutting and clamping support plate 14;

3. a second cylinder 12 is used for driving a rotating shaft 8 to rotate through a fisheye-shaped connecting piece 11, a connecting rod 10 and a fixing ring 9, so as to drive a cutting clamping plate 16 and a correcting plate II 19 to rotate, and a stainless steel wire rope is cut through the cutting clamping plate blade and the cutting plate blade;

4. then, the cutting and clamping plate 16 is rotated to a certain angle, the stainless steel wire rope is bent to 90 degrees, and the end of the stainless steel wire rope is clamped between the cutting and clamping plate 16 and the clamping plate 17;

5. and then the clamping plate 16 is continuously rotated and cut to a certain angle, and the stainless steel wire rope is straightened by the straightening plate II 19 and the straightening plate I18.

6. The cylinder body pushes the guide rail sliding table 2 backwards to move outwards along the guide rail to a certain distance to strain the stainless steel wire rope by driving the first cylinder 5 to compress the cylinder piston rod (the piston rod is in an extension position in an initial state).

7. After the tensioning work is finished, the cylinder piston rod is stretched through the driving force of the first cylinder 5, and the cylinder body pulls the guide rail sliding table 2 to move inwards along the guide rail to a certain distance to loosen the stainless steel wire rope.

8. And then a second air cylinder 12 is used for driving the rotating shaft 8 to rotate reversely through the fisheye-shaped connecting piece 11, the connecting rod 10 and the fixing ring 9, driving the cutting clamping plate 16 and the correcting plate 19 to rotate, enabling the notches of the cutting clamping plate 16 and the correcting plate 19 to be consistent with the notch of the cutting clamping supporting plate 14, and loosening the stainless steel wire rope.

Example 2

In embodiment 2, a structure of a device for cutting, clamping and tensioning is provided, as shown in fig. 7.

The difference between the embodiment 2 and the embodiment 1 is that the first correcting plate 18 and the second correcting plate 19 are removed, and a cutting clamp support plate 14, a cutting plate 15, a cutting clamp plate 16, a clamping plate 17, a bolt 20, a spring 21 and a nut 22 are mounted at the end of a rotating shaft in a cutting clamp assembly.

Method of use referring to example 1, the cutting clamping support plate 14 mounts the cutting plate 15, the cutting clamping plate 16, the clamping plate 17, the spring 21 and the nut 22 by a plurality of bolts, which do not move with the rotation shaft; the pre-tightening force of the clamping and cutting clamping plate 16 between the cutting plate 15 and the clamping plate 17 is adjusted through a spring 21; the cutting and clamping plate 16 is driven to rotate through the rotating shaft 8, and the stainless steel wire rope placed in the cutting and clamping gap is cut off and clamped; the stainless steel wire rope is then tensioned by a first cylinder 5.

Example 3

In embodiment 3, a device structure that realizes only cutting and clamping is provided.

Embodiment 3 differs from embodiment 1 in that the guide rail 1, the guide rail sliding table 2 and the first air cylinder 5 are removed, the mounting plate 3 and the cutting and clamping support plate 14 are reserved, the bearing assembly and the second air cylinder assembly are directly mounted on the mounting plate 3, and the cutting and clamping assembly is provided with the cutting and clamping support plate 14, the cutting plate 15, the cutting and clamping plate 16 and the clamping plate 17 at the shaft end of a rotating shaft and is locked by a bolt 20, a spring 21 and a nut 22.

Example 4

In example 4, a device structure for cutting, clamping, and straightening is provided.

Embodiment 4 differs from embodiment 1 in that the guide rail 1, the guide rail slide table 2, the first cylinder 5 are removed, the mounting plate 3 and the cutting clamp support plate 14 are retained, the bearing assembly and the second cylinder assembly are directly mounted on the mounting plate 3, and the rotary shaft end of the cutting clamp assembly is provided with the cutting clamp support plate 14, the cutting plate 15, the cutting clamp plate 16, the clamp plate 17, the first straightening plate 18, the second straightening plate 19, the bolt 20, the spring 21 and the nut 22.

Example 5

In example 5, a device structure for achieving cutting, clamping, straightening, and tensioning is provided.

The difference between the embodiment 5 and the embodiment 1 is that a second cylinder fixing mounting plate 7, a connecting rod 10, a fisheye-shaped connecting piece 11, a second cylinder 12 and a second cylinder movable mounting plate 13 are removed, a handle 23 is directly connected to a fixing ring 9, and a rotating shaft 8 is manually operated to rotate; a cutting clamping assembly is provided with a cutting clamping support plate 14, a cutting plate 15, a cutting clamping plate 16, a clamping plate 17, a first correcting plate 18, a second correcting plate 19, a bolt 20, a spring 21 and a nut 22 at the shaft end of a rotating shaft.

In the above description, for several embodiments of the present invention, the protection scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. The utility model provides a wire rope cuts off, presss from both sides tight composite set which characterized in that:

the cutting and clamping device comprises a mounting plate, wherein a bearing assembly is mounted at the top of one end of the mounting plate, and a cutting and clamping support plate is mounted at the top of the other end of the mounting plate;

the rotating shaft is arranged in the bearing assembly and the cutting clamping support plate in a penetrating mode, and is driven to rotate by the rotating shaft driving assembly;

the rotating shaft is sleeved at one end of the cutting clamping support plate, and is also sequentially sleeved with a cutting plate, a cutting clamping plate and a clamping plate, wherein,

the cutting clamping support plate, the cutting plate, the clamping plate and the rotating shaft are sleeved in a hanging manner and are connected in series through bolts, and the bolts are locked outside the cutting clamping support plate through springs and nuts; the cutting clamping plate and the rotating shaft are fixedly sleeved and are not connected through the bolt; the cutting clamping plate is clamped between the cutting plate and the clamping plate;

radial notches are formed in the corresponding positions of the cutting clamping support plate, the cutting clamping plate and the clamping plate, and a steel wire rope is placed in the notches;

cutting edges are correspondingly arranged between the cutting clamping plate and the notch on the opposite side of the cutting plate in the vertical direction;

and chamfers are correspondingly arranged between the cutting clamping plate and the notches at the opposite sides of the clamping plate in an up-down manner.

2. The steel wire rope cutting and clamping combination device according to claim 1, wherein: the mounting plate is driven by a guide rail sliding table driving assembly to move linearly.

3. The combination steel wire rope cutting and clamping device according to claim 2, wherein: the guide rail sliding table driving assembly comprises a guide rail, a guide rail sliding table and a first air cylinder,

the guide rail sliding table is arranged on the guide rail in a sliding mode, and the mounting plate is mounted at the top of the guide rail sliding table;

a piston rod mounting panel is erect to guide rail one end, and the piston rod of a cylinder is fixed on the piston rod mounting panel, and the cylinder body of a cylinder is fixed mounting panel bottom.

4. The steel wire rope cutting and clamping combination device according to claim 1, wherein: a first correcting plate and a second correcting plate are sequentially sleeved on the rotating shaft and the outer side close to the clamping plate;

radial notches are formed in the corresponding mounting positions of the first straightening plate and the second straightening plate;

the first straightening plate is sleeved on the rotating shaft in a hanging mode and connected through the bolt; the second straightening plate is fixedly sleeved on the rotating shaft and is not connected with the rotating shaft through the bolt, and the steel wire rope is pressed when the second straightening plate rotates.

5. The combination steel wire rope cutting and clamping device according to claim 4, wherein: the top of the correcting plate is provided with a platform surface.

6. The combination steel wire rope cutting and clamping device according to claim 4, wherein: and the opening degree of the gap of the second correcting plate is larger than that of the gap of the cutting and clamping plate.

7. The steel wire rope cutting and clamping combination device according to claim 1, wherein: the rotary shaft driving assembly comprises a second cylinder fixing mounting plate, a connecting rod, a fisheye-shaped connecting piece, a second cylinder and a second cylinder movable mounting plate;

no. two cylinder fixed mounting boards are installed on the mounting panel, the connecting rod is radially connected on the rotation axis, fisheye type connecting piece one end articulates on the connecting rod, other end fixed connection the piston rod of No. two cylinders, the cylinder body terminal surface department fixed mounting of No. two cylinders No. two cylinder movable mounting boards, No. two cylinder movable mounting boards with No. two cylinder fixed mounting boards are articulated.

8. The steel wire rope cutting and clamping combination device according to claim 1, wherein: the rotating shaft driving component is a handle and is radially connected to the rotating shaft.

9. The steel wire rope cutting and clamping combination device according to claim 1, wherein: the rotating shaft driving assembly comprises a motor and a coupler, and is coaxially connected to the shaft end of the rotating shaft.

10. The steel wire rope cutting and clamping combination device according to claim 1, wherein: the chamfer angle is a 45-degree chamfer angle.

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