CN111682485A - Vibration damper with self-locking anti-skidding structure and machining process thereof - Google Patents

Abstract

The invention discloses an anti-vibration hammer with a self-locking anti-skid structure and a processing technology thereof, belonging to the technical field of anti-vibration hammers and comprising a lead screw and a hammer head which are wound by a plurality of strands of steel twisted wires, wherein two ends of a wire harness of the lead screw are respectively inserted into and fixed on the hammer head, and a profile wire clamp is connected on the lead screw; processing out the arc groove that is used for the centre gripping cable on the relative surface of punch holder and lower plate, centre gripping cable between two upper and lower arc grooves, the lower plate revolutes the round pin rotation, and form the opening that supplies the cable to advance between the punch holder, when punch holder and lower plate opening to the maximum distance, the cable can get into, accomplish the centre gripping in the arc groove about inserting the cable, the swivel nut meshes with the screw rod mutually and is used for the auto-lock, utilize rotatory screw rod to shorten the distance between lower plate and the punch holder, the meshing through screw rod and swivel nut lets its length of locking promote to some extent, accomplish anti-skidding through the auto-lock, and the whole assembly of locking mechanism and lower locking mechanism need not traditional bolt and nut and separates, avoid assembling at the high altitude and need carry extra accessory.

Description

Vibration damper with self-locking anti-skidding structure and machining process thereof

Technical Field

The invention relates to the technical field of damper, in particular to a damper with a self-locking anti-skidding structure and a processing technology thereof.

Background

The application range of the vibration damper is wide, the vibration damper is required to be used in the construction of a plurality of power projects, the vibration damper can fix a cable to prevent the cable from shaking in the air, the working effect of the cable is ensured, part of the vibration damper can be used for preventing the cable from being bent on site, the service life of the vibration damper can be prolonged, and the construction cost is reduced, but at present, the position of a plurality of vibration dampers cannot be adjusted during installation in the use process, the application range of the vibration damper is reduced, when power equipment under some complex conditions is installed, the vibration damper is arranged on a high-voltage wire to be not beneficial to the personal safety of operators, an air transmission line can vibrate under the effects of wind, hail, rain and snow, and the like, so that the power accidents such as fatigue and breakage of the line, strand breakage and the like are caused, and the vibration energy of the overhead line can be effectively consumed by additionally arranging the vibration damper at the appointed distance position, the amplitude of the overhead line is limited, so that the fatigue phenomenon is avoided, but the vibration damper cannot play a vibration-proof role due to loosening, slipping and displacement caused by various reasons after installation, and can wear a wire during repeated displacement and oscillation, so that the operation safety of a power transmission line is directly threatened.

Application number publication CN201820932782.6 damper self-lock device, and two-way ratchet suit cover establishes in the double-screw bolt outside of screw rod upper end, the up end swing joint of nut spare have direction regulating switch, and direction regulating switch locates the rear side of two-way ratchet suit, owing to need increase extra nut spare, lead to the burden of assembly to increase, operating personnel when the installation, need carry the bolt and the nut of installation stockbridge damper, touch electrified part very easily, arouse to electrocute danger.

Disclosure of Invention

The invention aims to provide a damper with a self-locking anti-skidding structure and a processing technology thereof, wherein a threaded sleeve is meshed with a screw rod for self-locking, the distance between a lower clamping plate and an upper clamping plate is shortened by rotating the screw rod, the locking length of the damper is improved by meshing the screw rod and the threaded sleeve, anti-skidding is completed by self-locking, and the integral assembly of a locking mechanism and a lower locking mechanism does not need to be separated by a traditional bolt and a nut, so that the problem of carrying extra assembly in high-altitude assembly is avoided, and the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: the damper with the self-locking anti-skidding structure comprises a lead screw and a hammer head, wherein a plurality of strands of steel twisted wires are wound on the lead screw;

the lower clamping plate in the profile wire clamp rotates around the upper clamping plate, the front ends of the lower clamping plate and the upper clamping plate are connected with a self-locking device used for skid resistance, and the lower clamping plate and the upper clamping plate reduce the distance between the lower clamping plate and the upper clamping plate through the self-locking device to clamp a cable.

Further, the section bar fastener includes mainboard, punch holder, lower plate and commentaries on classics round pin, and the bottom mounting of mainboard is on the middle part of lead screw, fixed vertically punch holder on the top border of mainboard, and the commentaries on classics round pin of symmetry is inserted at the junction both ends of mainboard and punch holder, and the both ends cover of lower plate is in the outside of changeing the round pin, and the relative arc groove that is used for the centre gripping cable of processing out on the surface of punch holder and lower plate, and the lower plate revolutes the round pin rotation, and the opening that supplies the cable to advance forms between the punch holder.

Furthermore, the self-locking device comprises a locking mechanism and a lower locking mechanism, and the locking mechanism is inserted into the lower locking mechanism to complete self-locking through rotation.

Furthermore, the locking mechanism comprises an upper U-shaped seat, an upper rotating shaft, a sleeve and a rotating rod, wherein the upper U-shaped seat is welded on the edge of the port of the upper clamping plate, the two upper rotating shafts are respectively inserted into bearings on two sides of the upper U-shaped seat, and the middle part of the sleeve is welded on the port between the two upper rotating shafts;

the rotating rod penetrates through the sleeve, two ends of the rotating rod extend to the outside, and the handle and the screw rod are welded to two ports of the rotating rod respectively.

Furthermore, the lower locking mechanism comprises a lower U-shaped seat, lower rotating shafts and screw sleeves, the lower U-shaped seat is welded on the edge of the port of the upper clamping plate, the two lower rotating shafts are respectively inserted into bearings on two sides of the lower U-shaped seat, the middle parts of the screw sleeves are welded on the port between the two lower rotating shafts, the screw sleeves are meshed with the screw rods for self locking, the depth of the screw rods in the screw sleeves is adjusted by rotating the handle, and the distance between the lower clamping plate and the upper clamping plate is controlled.

Furthermore, two ends of the rotating rod are welded with baffle rings, and the baffle rings at the upper and lower positions are respectively movably connected with two end faces of the sleeve.

The invention provides another technical scheme, which comprises a processing technology of a damper with a self-locking anti-skidding structure, and comprises the following steps:

s1: pouring aluminum alloy and mortar into a die to cast a main plate, an upper clamping plate and a lower clamping plate, cooling, placing the main plate in a processing lathe, symmetrically drilling slotted holes for inserting rotary pins at two sides, and welding the rotary pins and two ends of the lower clamping plate through a spot welding machine;

s2: the formed upper U-shaped seat and the lower U-shaped seat are welded on the front ends of the upper clamping plate and the lower clamping plate in an aligning way, slotted holes are drilled on two sides of the upper U-shaped seat and the lower U-shaped seat, the upper rotating shaft and the lower rotating shaft are respectively inserted, and an upper sleeve and a threaded sleeve are welded between the two groups of upper rotating shafts and lower rotating shafts;

s3: the rotating rod is inserted into two ends of the sleeve, two ends of the rotating rod are sleeved into the baffle rings, spot welding is carried out at a position which is 0.5mm away from the sleeve, and a handle and a screw rod are welded on end heads on two sides of the rotating rod through a spot welding machine respectively;

s4: fusing and casting the steel strand into a wound screw rod according to the design size, casting the main plate and the fused steel strand together, riveting the hammer head, coating putty in a concave hole at the end part of the hammer head, and performing surface polishing.

Further, for the slot hole machined by CNC in S1-S2, the inside of the slot hole needs to be ground.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a damper with a self-locking anti-skid structure and a processing technology thereof, arc grooves for clamping cables are processed on the opposite surfaces of an upper clamping plate and a lower clamping plate, the cables are clamped between the upper arc groove and the lower arc groove, the lower clamping plate rotates around a rotating pin, an opening for the cables to enter and exit is formed between the lower clamping plate and the upper clamping plate, the cables can enter when the openings of the upper clamping plate and the lower clamping plate reach the maximum distance, an arc with a gap can be formed when the lower clamping plate rotates around the rotating pin and faces the upper clamping plate, the cables are inserted into the upper arc groove and the lower arc groove to complete clamping, a screw sleeve is meshed with a screw rod for self-locking, a handle rotates to adjust the depth of the screw rod in the screw sleeve, the distance between the lower clamping plate and the upper clamping plate is controlled, the distance between the lower clamping plate and the upper clamping plate is shortened by utilizing the rotating screw rod through canceling a locking structure of a bolt and a nut, the anti-skidding is completed through the auto-lock to accomplish and the centre gripping between the cable, and because the screw rod is connected together between the opening of lower plate and punch holder with the swivel nut, let the cable can not break away from it, and the unit mount of locking mechanism and lower locking mechanism need not traditional bolt and nut and separates, avoids assembling in high altitude and need carry extra accessory.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is an overall top view of the present invention;

FIG. 3 is an enlarged view taken at A of FIG. 2 in accordance with the present invention;

FIG. 4 is a view showing an opened state of the self-locking device according to the present invention;

fig. 5 is a locking state diagram of the self-locking device of the present invention.

In the figure: 1. a screw rod; 2. a hammer head; 3. a profile wire clamp; 31. a main board; 32. an upper splint; 33. a lower splint; 34. rotating the pin; 4. a self-locking device; 41. a locking mechanism; 411. an upper U-shaped seat; 412. an upper rotating shaft; 413. a sleeve; 414. a rotating rod; 42. a lower locking mechanism; 421. a lower U-shaped seat; 422. a lower rotating shaft; 423. a threaded sleeve; 5. an arc groove; 6. a handle; 7. a screw; 8. and (4) a baffle ring.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a damper with a self-locking anti-slip structure includes a screw rod 1 and a hammer head 2 wound by a plurality of strands of steel strands, two ends of a wire harness of the screw rod 1 are respectively inserted into and fixed to the hammer head 2, a profile wire clamp 3 is connected to the screw rod 1, the profile wire clamp 3 is fixed to the screw rod 1, the screw rod 1 and the hammer head 2 are connected into a whole, a lower clamp plate 33 of the profile wire clamp 3 rotates around an upper clamp plate 32, a self-locking device 4 for preventing slipping is connected to the front ends of the lower clamp plate 33 and the upper clamp plate 32, the lower clamp plate 33 and the upper clamp plate 32 reduce the distance between the two through the self-locking device 4 to clamp a cable, and the self-locking device 4 is used for clamping between the lower.

Referring to fig. 2, the profile wire clamp 3 includes a main plate 31, an upper clamp plate 32, a lower clamp plate 33 and a rotating pin 34, wherein the bottom end of the main plate 31 is fixed on the middle portion of the screw rod 1, the vertical upper clamp plate 32 is fixed on the top edge of the main plate 31, two ends of the joint of the main plate 31 and the upper clamp plate 32 are inserted into the symmetrical rotating pins 34, two ends of the lower clamp plate 33 are sleeved on the outer portions of the rotating pins 34, the rotation of the lower clamp plate 33 is realized through the rotating pin 34, the arc grooves 5 for clamping the cables are processed on the opposite surfaces of the upper clamp plate 32 and the lower clamp plate 33, the cables are clamped between the upper arc groove 5 and the lower arc groove 5, the lower clamp plate 33 rotates around the rotating pin 34, an opening for the cables to enter and exit is formed between the lower clamp plate 33 and the upper clamp plate 32, when the upper clamp plate 32 and the lower clamp plate 33 are opened to the maximum distance, the cable can enter, and when the lower clamp plate 33 rotates around the rotating pin 34 to face the direction of the upper clamp plate 32, an arc with a gap can be formed, and the cable is inserted into the upper arc groove 5 and the lower arc groove 5 to complete clamping.

Referring to fig. 3-5, the self-locking device 4 includes a locking mechanism 41 and a lower locking mechanism 42, the locking mechanism 41 is inserted into the lower locking mechanism 42 to complete self-locking through rotation, the locking mechanism 41 includes an upper U-shaped seat 411, an upper rotating shaft 412, a sleeve 413 and a rotating rod 414, the rotating rod 414 passes through the sleeve 413, and both ends of the rotating rod extend to the outside, a handle 6 and a screw 7 are respectively welded on both ports of the rotating rod 414, the rotating rod 414 rotates synchronously through the handle 6 and the screw 7, stop rings 8 are welded on both ends of the rotating rod 414, the stop rings 8 at upper and lower positions are respectively movably connected with both end surfaces of the sleeve 413, the stop rings 8 are arranged at both ends of the rotating rod 414 to limit the rotating rod 414 to rotate in the sleeve 413, the upper U-shaped seat 411 is welded on the edge of the port of the upper clamp plate 32, the two upper rotating shafts 412 are respectively inserted into bearings at both sides of the upper U-shaped seat 411, the upper rotating shaft 412 rotates on the upper U-, the lower locking mechanism 42 comprises a lower U-shaped seat 421, a lower rotating shaft 422 and a threaded sleeve 423, the lower U-shaped seat 421 is welded on the port edge of the upper clamping plate 32, the two lower rotating shafts 422 are respectively inserted into bearings at two sides of the lower U-shaped seat 421, the lower rotating shaft 422 rotates on the lower U-shaped seat 421, the middle part of the threaded sleeve 423 is welded on the port between the two lower rotating shafts 422, the threaded sleeve 423 is meshed with the screw 7 for self-locking, the handle 6 rotates to adjust the depth of the screw 7 in the threaded sleeve 423, the distance between the lower clamping plate 33 and the upper clamping plate 32 is controlled, the locking structure of the bolt and the nut is cancelled, the distance between the lower clamping plate 33 and the upper clamping plate 32 is shortened by using the rotating screw 7, the locked length is increased by the meshing of the screw 7 and the threaded sleeve 423, the anti-slip is completed by self-locking, the clamping between the cable is completed, and the lower clamping plate 33 and the opening of the upper clamping plate 32 are connected together, the cable cannot be separated from the cable, and the integral assembly of the upper locking mechanism 41 and the lower locking mechanism 42 does not need to be separated by a traditional bolt and a nut, so that the requirement of carrying additional accessories during high-altitude assembly is avoided.

In order to better show the processing flow of the damper with the self-locking anti-slip structure, the embodiment now provides a processing technology of the damper with the self-locking anti-slip structure, which includes the following steps:

the method comprises the following steps: pouring aluminum alloy and mortar into a die casting main plate 31, an upper clamping plate 32 and a lower clamping plate 33, cooling, placing the main plate 31 in a processing lathe, symmetrically drilling slotted holes for inserting rotating pins 34 at two sides, and welding the rotating pins 34 and two ends of the lower clamping plate 33 through spot welding machines;

step two: the formed upper U-shaped seat 411 and the lower U-shaped seat 421 are welded on the front ends of the upper clamping plate 32 and the lower clamping plate 33 in an aligning way, slotted holes are drilled on two sides of the upper U-shaped seat 411 and the lower U-shaped seat 421, the upper rotating shaft 412 and the lower rotating shaft 422 are respectively inserted, an upper sleeve 413 and a threaded sleeve 423 are welded between two groups of the upper rotating shaft 412 and the lower rotating shaft 422 respectively, and the interiors of the slotted holes need to be polished through the CNC machined slotted holes;

step three: the rotating rod 414 is inserted into two ends of the sleeve 413, two ends of the rotating rod are sleeved into the baffle rings 8, spot welding is carried out at a position 0.5mm away from the sleeve 413, and a handle 6 and a screw 7 are respectively welded on two side ends of the rotating rod 414 by a spot welding machine;

step four: fusing and casting the steel strand into a wound screw rod 1 according to the design size, casting the main plate 31 and the fused steel strand together, riveting the hammer head 2, coating atomic ash in a concave hole at the end part of the hammer head 2, and performing surface polishing.

In conclusion; the utility model relates to a damper with self-locking and anti-skid structure and a processing technique thereof, arc grooves 5 for clamping cables are processed on the opposite surfaces of an upper clamping plate 32 and a lower clamping plate 33, the cables are clamped between the upper arc groove 5 and the lower arc groove 5, the lower clamping plate 33 rotates around a rotating pin 34, an opening for the cables to enter and exit is formed between the lower clamping plate 33 and the upper clamping plate 32, when the openings of the upper clamping plate 32 and the lower clamping plate 33 reach the maximum distance, the cables can enter, when the lower clamping plate 33 rotates around the rotating pin 34 and faces the direction of the upper clamping plate 32, an arc with a gap can be formed, the cables are inserted into the upper arc groove 5 and the lower arc groove 5 to complete clamping, a threaded sleeve 423 is meshed with a screw rod 7 for self-locking, the handle 6 rotates to adjust the depth of the screw rod 7 in the threaded sleeve 423, the distance between the lower clamping plate 33 and the upper clamping plate 32 is controlled, by canceling the locking structure of, the length of the locking mechanism is improved by the meshing of the screw rod 7 and the threaded sleeve 423, the anti-skidding is achieved through self-locking, so that the clamping between the cable is achieved, the cable cannot be separated from the opening of the lower clamping plate 33 and the opening of the upper clamping plate 32 due to the fact that the screw rod 7 and the threaded sleeve 423 are connected together, the integral assembly of the upper locking mechanism 41 and the lower locking mechanism 42 does not need to be separated through a traditional bolt and a nut, and the need of carrying extra accessories during high-altitude assembly is avoided.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The utility model provides an antivibration hammer with auto-lock antiskid structure, its characterized in that includes winding lead screw (1) and tup (2) of stranded steel hank silk, its characterized in that: two ends of a wire harness of the screw rod (1) are respectively inserted into the hammer heads (2) and fixed, and the screw rod (1) is connected with a profile wire clamp (3);

a lower clamping plate (33) in the profile wire clamp (3) rotates around an upper clamping plate (32), a self-locking device (4) used for preventing skidding is connected to the front ends of the lower clamping plate (33) and the upper clamping plate (32), and the distance between the lower clamping plate (33) and the upper clamping plate (32) is shortened through the self-locking device (4) to clamp a cable.

2. The damper with the self-locking anti-slip structure is characterized in that the profile wire clamp (3) comprises a main plate (31), an upper clamping plate (32), a lower clamping plate (33) and a rotating pin (34), the bottom end of the main plate (31) is fixed to the middle of the screw rod (1), the vertical upper clamping plate (32) is fixed to the top end edge of the main plate (31), the symmetrical rotating pin (34) is inserted into two ends of the joint of the main plate (31) and the upper clamping plate (32), two ends of the lower clamping plate (33) are sleeved outside the rotating pin (34), arc grooves (5) used for clamping cables are machined in the surfaces, opposite to the upper clamping plate (32) and the lower clamping plate (33), the lower clamping plate (33) rotates around the rotating pin (34), and an opening for the cables to enter and exit is formed between the lower clamping plate (32).

3. The damper with the self-locking anti-slip structure according to claim 1, wherein the self-locking device (4) comprises a locking mechanism (41) and a lower locking mechanism (42), and the locking mechanism (41) is inserted into the lower locking mechanism (42) to complete self-locking through rotation.

4. The damper with the self-locking anti-slip structure according to claim 3, wherein the locking mechanism (41) comprises an upper U-shaped seat (411), an upper rotating shaft (412), a sleeve (413) and a rotating rod (414), the upper U-shaped seat (411) is welded on the port edge of the upper clamping plate (32), the two upper rotating shafts (412) are respectively inserted into bearings at two sides of the upper U-shaped seat (411), and the middle part of the sleeve (413) is welded on the port between the two upper rotating shafts (412);

the rotating rod (414) penetrates through the sleeve (413), two ends of the rotating rod extend to the outside, and a handle (6) and a screw rod (7) are welded on two ports of the rotating rod (414) respectively.

5. The damper with the self-locking anti-slip structure according to claim 3, wherein the lower locking mechanism (42) comprises a lower U-shaped seat (421), a lower rotating shaft (422) and a threaded sleeve (423), the lower U-shaped seat (421) is welded on the port edge of the upper clamping plate (32), the two lower rotating shafts (422) are respectively inserted into bearings at two sides of the lower U-shaped seat (421), the middle part of the threaded sleeve (423) is welded on the port between the two lower rotating shafts (422), the threaded sleeve (423) is meshed with the screw (7) for self-locking, and the handle (6) rotates to adjust the depth of the screw (7) in the threaded sleeve (423) to control the distance between the lower clamping plate (33) and the upper clamping plate (32).

6. The damper with the self-locking anti-slip structure according to claim 4, wherein the two ends of the rotating rod (414) are welded with baffle rings (8), and the baffle rings (8) at the upper and lower positions are respectively movably connected with the two end faces of the sleeve (413).

7. The machining process of the damper with the self-locking anti-slip structure according to claims 1 to 5 is characterized by comprising the following steps of:

s1: pouring aluminum alloy and mortar into a mold to cast a main plate (31), an upper clamping plate (32) and a lower clamping plate (33), cooling, placing the main plate (31) in a processing lathe, symmetrically drilling slotted holes for inserting rotary pins (34) at two sides, and welding the rotary pins (34) and two ends of the lower clamping plate (33) through a spot welding machine;

s2: the formed upper U-shaped seat (411) and the lower U-shaped seat (421) are welded on the front ends of the upper clamping plate (32) and the lower clamping plate (33) in an aligning way, slotted holes are drilled on two sides of the upper U-shaped seat (411) and the lower U-shaped seat (421), the upper rotating shaft (412) and the lower rotating shaft (422) are respectively inserted, and an upper sleeve (413) and a threaded sleeve (423) are welded between the two groups of upper rotating shaft (412) and lower rotating shaft (422);

s3: the rotating rod (414) is inserted into two ends of the sleeve (413), two ends of the rotating rod are sleeved into the baffle rings (8), spot welding is carried out at a position 0.5mm away from the sleeve (413), and the ends of two sides of the rotating rod (414) are respectively welded with a handle (6) and a screw (7) by a spot welding machine;

s4: fusing and casting the steel strand into a wound screw rod (1) according to the design size, casting the main plate (31) and the fused steel strand together, riveting the hammer head (2), coating atomic ash in a concave hole at the end part of the hammer head (2), and performing surface polishing.

8. The process for manufacturing the self-locking and anti-slip structure of the damper as claimed in claim 7, wherein for the slot holes machined by CNC in S1-S2, the inner part of the slot hole is ground.

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