CN110182650B - End embedded type extrusion-fixed laminated side rod anti-drop coil cylinder - Google Patents

Abstract

The invention discloses a laminated side rod anti-falling coil cylinder with embedded and extruded and fixed ends, which structurally comprises a foot rest, a workbench, a supporting slide rod, a slide rail, a side plate, a rocker, a coil cylinder fixing rod and a coil anti-falling mechanism, wherein the foot rest is provided with more than two parts which are respectively welded at four corners of the lower surface of the workbench, the slide rail is connected to the middle section of the upper surface of the workbench through glue, the lower end of the supporting slide rod is connected with the slide rail in a sliding manner, the side plate is welded at the right end of the upper surface of the workbench, and the rocker is movably connected to the upper end of the side plate.

Description

End embedded type extrusion-fixed laminated side rod anti-drop coil cylinder

Technical Field

The invention relates to a laminated high-voltage coil, in particular to a laminated side rod anti-drop coil cylinder with an embedded extrusion fixed end head.

Background

The high-voltage coil is wound on the coil cylinder in a cable laminating manner, the cables are prevented from being extruded mutually as much as possible, the traditional cable is wound irregularly in the winding process, the end of the cable needs to be operated by two hands when being wound, the winding can be continued only after the end is wound and pressed, and after the winding, the tail end of the cable is fixed everywhere, so that some problems can occur in the transportation process; the transport vechicle takes place to rock in the transportation, and the extrusion of colliding mutually between the coil bobbin, the cable end begins not hard up scattering, leads to the cable to be extrudeed many times repeatedly, and the coil bobbin sinks, leads to the follow-up needs of cable to roll up again, and the cable core of cable receives many times to extrude and damage, performance degradation.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a laminated side rod anti-drop coil cylinder with an embedded and extruded and fixed end head, which aims to solve the problems that the cable is repeatedly extruded and the coil cylinder collapses due to the fact that the coil cylinders collide with each other and extrude each other and the tail end of the cable begins to loosen and scatter during the transportation process of a transport vehicle, the cable needs to be rolled up again subsequently, the cable core of the cable is damaged due to multiple extrusion, and the performance is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an end is embedded fixed range upon range of side lever anticreep coil bobbin of extrusion, its structure includes foot rest, workstation, support slide bar, slide rail, curb plate, rocker, coil bobbin dead lever, coil anticreep mechanism, the foot rest is equipped with more than two and welds respectively at four angles of workstation lower surface altogether, the middle section at the workstation upper surface is glued to the slide rail, support the lower extreme and the slide rail sliding connection of slide bar, the curb plate welds the right-hand member at the workstation upper surface, rocker swing joint is in the upper end of curb plate, the coil bobbin pole welds the middle section at the rocker, coil anticreep mechanism interference fit is at the left end of rocker, support the upper end and the rocker clearance fit of slide bar.

In order to optimize the technical scheme, the method further comprises the following steps:

in the above scheme, coil anticreep mechanism comprises spacing hole of reel, right coil plate, coil anticreep mechanism, left coil plate, the terminal jack of cable, end embedding fixed establishment, right coil plate welding is at the right-hand member of end embedding fixed establishment, the spacing hole of reel inlays on the right surface of right coil plate, left coil plate welding is at the left end of end embedding fixed establishment, the terminal jack of cable inlays on the right surface of left coil plate, coil anticreep mechanism is equipped with more than two and respectively interference fit at the outer lane of end embedding fixed establishment altogether.

In the scheme, the coil anti-loosening mechanism is composed of a cable pressing inlet, a side rod pressing anti-loosening mechanism and a circular partition plate, the cable pressing inlet is embedded in the right end of the circular partition plate, the side rod pressing anti-loosening mechanism is welded at the upper end of the circular partition plate, and the circular partition plate is in interference fit with the outer ring of the end embedding fixing mechanism.

In the above scheme, end embedding fixed establishment comprises end import, end cooperation extrusion structure, spring, promotion post, lead the power piece, touch the pressure slide bar, cylinder base, the end import inlays in the inside left end of cylinder base, touch the lower extreme and the power piece clearance fit of pressure slide bar, the lower extreme swing joint of power piece is at the right-hand member that promotes the post, the spring encircles the outer lane of connecting at the promotion post, end cooperation extrusion structure welding is at the left end that promotes the post.

In the above scheme, the side lever is pressed and is prevented that the mechanism that looses comprises rebound locking structure, magnetic locking hole, the roating seat of pushing down, last shelves base, liquid inner chamber, sealed side lever, rebound locking structure glue connection pushes down the upper end of roating seat down, the magnetic locking hole inlays in the inside upper end of last shelves base, the middle section and the last shelves base threaded connection that separate of pushing down the roating seat, the liquid inner chamber inlays in the inside middle section of last shelves base, sealed side lever is equipped with two above and respectively equidistant clearance fit at the inside left end of last shelves base altogether.

In the scheme, the end matched extrusion structure consists of an end invagination groove, pyramid fixing spines and an extrusion seat, the end invagination groove is embedded in the center of the left surface of the extrusion seat, the pyramid fixing spines are totally more than two and are respectively welded on the left surface of the extrusion seat, and the extrusion seat is welded at the left end of the pushing column.

In the above scheme, the rebound locking structure pushes down by promoting the head, push away first spout, hold between the fingers the board, down the plectane, type foaming antiskid piece, long push pedal, magnetic force adsorption plate constitute, the left end in long push pedal is glued to the magnetic force adsorption plate, promote the head welding at the right-hand member of long push pedal upper surface, the top spout that pushes away inlays in the upper end of holding between the fingers the board, type foaming antiskid piece is glued to be connected at the front end of holding between the fingers the board, hold between the fingers the board welding in the upper end of plectane down, the upper end of roating seat is pushed down in the plectane gluey connection.

Advantageous effects

The invention relates to a laminated side lever anti-falling coil cylinder with embedded and extruded and fixed end, wherein an operator places equipment at a proper position to check each part of the equipment when working, after the check is correct, a coil anti-falling mechanism is placed at the left end of a rocker to enable a winding cylinder limiting hole to correspond to a coil cylinder fixing rod and prevent the coil anti-falling mechanism from rotating, then the operator inserts one end of a cable into an end inlet of an end embedded fixing mechanism, then rotates the rocker to enable the cable to be wound around a roller base, a touch sliding rod is pressed inwards in the cable winding process to enable a guide force sheet to rotate, then a pushing column pushes an end matching extrusion structure to enable the end matching extrusion structure to prop against the outer ring of the head end of the cable, an end sunken groove buckles the cable, a pyramid is fixedly punctured into the surface of the cable to fix the head end of the cable, then the rocker is continuously rotated, when the rocker rotates for nearly one circle, the cable is wound around the cable pressing inlet, the rocker is continuously rotated, the cable is pressed in from the next cable pressing inlet after rotating for a circle, the action is repeated, the tail end of the cable is inserted into the cable tail end jack after the cable is wound, then the side lever is held to press the downward pressing rebound locking structure in the anti-falling mechanism, the foaming anti-slip sheet is pinched to rotate the lower circular plate, the downward pressing rotary seat is slowly pressed downward along with the rotation, then the liquid inner cavity is extruded, the pressure is transmitted to the sealing side rod, so that the sealing side rod slowly extends rightwards, the cable can be separated to prevent the cable from being scattered, when the pressing rebound locking structure is pressed to be kept with the magnetic locking inner hole, promote the promotion head and push left, make long push pedal insert magnetic locking hole, inside magnetic locking hole was adsorbed to the magnetic adsorption board, prevented to push down that resilience locking structure receives the resilience force of below and rises to accomplish work.

According to the laminated side rod anti-falling coil cylinder with the embedded and extruded and fixed end, the coil anti-falling mechanism is arranged, and the coil anti-falling mechanism and the end embedded fixing mechanism are matched with each other, so that the head end and the tail end of a cable can be fixed when the cable is wound, the cable does not fall off after being dispersed in the transportation process, the overall structure of the coil cylinder is stable, the cable is prevented from being extruded and collided, and the safety of a cable core is protected.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

fig. 1 is a schematic structural view of a laminated side bar anti-drop coil cylinder with an embedded extrusion-fixed end.

Fig. 2 is a schematic structural view of the coil anti-loosening mechanism of the present invention.

FIG. 3 is a left side view of the coil anti-loosening mechanism of the present invention.

FIG. 4 is a schematic diagram of the right-side cross section of the tip-embedding fixing mechanism according to the present invention.

FIG. 5 is a schematic structural view of a front section of a side bar pressing anti-falling-off mechanism according to the present invention.

FIG. 6 is a detailed structural diagram of the extrusion-matched end of the present invention.

Fig. 7 is a detailed structural schematic diagram of a press-down rebound lock structure of the present invention.

FIG. 8 is a schematic structural view of a cross section of a push-down resilient locking mechanism of the present invention.

Description of reference numerals: foot stool 1, workbench 2, support slide bar 3, slide rail 4, side plate 5, rocker 6, coil cylinder fixing rod 7, coil anti-falling mechanism 8, winding drum limiting hole 81, right coil plate 82, coil anti-falling mechanism 83, left coil plate 84, cable terminal jack 85, end embedding fixing mechanism 86, cable pressure inlet 831, side rod pressing anti-falling mechanism 832, circular partition plate 833, end inlet 861, end matching extrusion structure 862 and spring 863, the device comprises a push column 864, a force guide sheet 865, a touch slide bar 866, a roller base 867, a press-down rebound locking structure 8321, a magnetic locking inner hole 8322, a press-down rotating seat 8323, an upper barrier base 8324, a liquid inner cavity 8325, a sealing side rod 8326, an end inward recess groove 8621, a pyramid fixing thorn 8622, a squeezing seat 8623, a push head 83211, a push head sliding groove 83212, a pinching plate 83213, a lower round plate 83214, a foaming-like anti-skid sheet 83215, a long push plate 83216 and a magnetic adsorption plate 83217.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, the present invention provides a laminated side bar anti-drop coil bobbin with an embedded extrusion-fixed end: its structure includes foot rest 1, workstation 2, support slide bar 3, slide rail 4, curb plate 5, rocker 6, coil section of thick bamboo dead lever 7, coil anticreep mechanism 8, foot rest 1 is equipped with more than two and welds respectively at four angles of workstation 2 lower surface, 4 middle sections at workstation 2 upper surface of gluing of slide rail are connected, support slide bar 3's lower extreme and slide rail 4 sliding connection, 5 welding of curb plate are at the right-hand member of workstation 2 upper surface, 6 swing joint of rocker is in the upper end of curb plate 5, 7 welding of coil section of thick bamboo pole are in the middle section of rocker 6, 8 interference fit of coil anticreep mechanism are at the left end of rocker 6, support slide bar 3's upper end and 6 clearance fit of rocker.

Referring to fig. 2, the coil anti-loosening mechanism 8 comprises a winding drum limiting hole 81, a right coil plate 82, a coil anti-loosening mechanism 83, a left coil plate 84, a cable terminal insertion hole 85, and a terminal embedding and fixing mechanism 86, the right coil plate 82 is welded at the right end of the end embedding and fixing mechanism 86, the winding drum limiting hole 81 is embedded on the right surface of the right coil plate 82, the left coil plate 84 is welded to the left end of the tip insertion fixing mechanism 86, the cable tip insertion hole 85 is inserted into the right surface of the left coil plate 84, coil anticreep mechanism 83 is equipped with more than two altogether and respectively interference fit at the outer lane of end embedding fixed establishment 86, and the spacing hole 81 of reel is corresponding with coil section of thick bamboo dead lever 7, and the rotation and the dismantlement of coil anticreep mechanism 8 of being convenient for, cable terminal jack 85 can be fixed the cable end, prevents that the cable from appearing collapsing after rolling up.

Referring to fig. 3, the coil anti-loosening mechanism 83 is composed of a cable pressure inlet 831, a side lever pressing anti-loosening mechanism 832 and a circular diaphragm 833, the cable pressure inlet 831 is embedded in the right end of the circular diaphragm 833, the side lever pressing anti-loosening mechanism 832 is welded at the upper end of the circular diaphragm 833, the circular diaphragm 833 is in interference fit with the outer ring of the end embedding fixing mechanism 86, both sides of the cable pressure inlet 831 are designed in a circular arc shape to reduce friction on cables and facilitate cable pressing, the side lever pressing anti-loosening mechanism 832 fixes the wound cables in multiple sections, so that the coil is more stable as a whole and convenient to transport, and the circular diaphragm 833 prevents the cables from being mutually squeezed and reduces mutual collision during transportation when the cables are wound.

Referring to fig. 4, the tip embedding and fixing mechanism 86 includes a tip inlet 861, a tip matching and extruding structure 862, a spring 863, a pushing post 864, a force guiding plate 865, a touch sliding rod 866, and a roller base 867, where the tip inlet 861 is embedded in the left end of the roller base 867, the lower end of the touch sliding rod 866 is in clearance fit with the force guiding plate 865, the lower end of the force guiding plate 865 is movably connected to the right end of the pushing post 864, the spring 863 is connected around the outer ring of the pushing post 864, the tip matching and extruding structure 862 is welded at the left end of the pushing post 864, the tip inlet 861 is convenient for quickly fixing the cable tip, and the spring 863 enables the tip matching and extruding structure 862 to be in a retracted position when not operating, so as to prevent the cable tip from being jammed when being inserted.

Referring to fig. 5, the side rod pressing anti-falling-off mechanism 832 is composed of a press-down resilient locking structure 8321, a magnetic locking inner hole 8322, a press-down rotary seat 8323, an upper barrier seat 8324, a liquid inner cavity 8325, and a sealing side rod 8326, the press-down resilient locking structure 8321 is glued on the upper end of the press-down rotary seat 8323, the magnetic locking inner hole 8322 is embedded on the upper end of the upper barrier seat 8324, the middle section of the press-down rotary seat 8323 is in threaded connection with the upper barrier seat 8324, the liquid inner cavity 8325 is embedded on the middle section of the upper barrier seat 8324, the sealing side rod 8326 is provided with more than two sealing side rods 8326, the sealing side rods 8326 are provided with more than two sealing side rods 8321, the two sealing side rods 8321 are in equal interval fit on the left end of the upper barrier seat 8324, the magnetic locking inner hole 8322 can fix the press-down resilient locking structure 8321, thereby fixing the position of the press-down, the length of the extension is the same after being pressed, and the outer end of the cable is fixed in multiple sections.

Referring to fig. 6, the end fitting extrusion structure 862 comprises an end invagination groove 8621, a pyramid fixing spine 8622 and an extrusion seat 8623, the end invagination groove 8621 is embedded in the center of the left surface of the extrusion seat 8623, the pyramid fixing spine 8622 is provided with more than two pyramid fixing spines respectively welded on the left surface of the extrusion seat 8623, the extrusion seat 8623 is welded on the left end of the pushing column 864, the end invagination groove 8621 corresponds to the external shape of the cable, so as to facilitate clamping of the cable, and the pyramid fixing spine 8622 can be pricked into the outer skin of the cable to further fix the cable.

Referring to fig. 7-8, the press-back locking structure 8321 includes a push head 83211, a push head sliding groove 83212, a pinch plate 83213, a lower circular plate 83214, a foam-like anti-slip sheet 83215, a long push plate 83216, and a magnetic force adsorption plate 83217, wherein the magnetic force adsorption plate 83217 is adhesively connected to the left end of the long push plate 83216, the push head 83211 is welded to the right end of the upper surface of the long push plate 83216, the push head sliding groove 83212 is embedded in the upper end of the pinch plate 83213, the foam-like anti-slip sheet 83215 is adhesively connected to the front end of the pinch plate 83213, the pinch plate 83213 is welded to the upper end of the lower circular plate 83214, the lower circular plate 83214 is adhesively connected to the upper end of the press-down rotating seat 8323, the foam-like anti-slip sheet 83215 is flexible and elastic, so that comfort is improved when people pinch the press-back locking structure, the magnetic force adsorption plate 83217 has magnetism, and the long.

When the device works, an operator places the device at a proper position, inspects all parts of the device, after the inspection is correct, places the coil anti-falling mechanism 8 at the left end of the rocker 6, enables the winding drum limiting hole 81 to correspond to the coil drum fixing rod 7, prevents the coil anti-falling mechanism 8 from rotating, then inserts one end of a cable into the end inlet 861 of the end embedding fixing mechanism 86, then rotates the rocker 6, enables the cable to be wound around the roller base 867, presses the touch sliding rod 866 inwards in the cable winding process, enables the guide sheet 865 to rotate, then pushes the column 864 to push the end matching extrusion structure 862, enables the end matching extrusion structure 862 to prop against the outer ring of the head end of the cable, the end internal recess 8621 buckles the cable, the pyramid fixing thorn 8622 pricks into the skin of the cable, fixes the head end of the cable, then continues to rotate the rocker 6, after the rocker 6 rotates nearly one circle, the cable is wound around the cable pressure inlet 831, the rocker 6 is continuously rotated, after a circle of rotation, the cable is pressed in from the next cable pressure inlet 831, the action is repeated, after the cable is wound, the tail end of the cable is inserted into the cable tail end insertion hole 85, then the side rod is held to press the downward-pressing rebound locking structure 8321 in the anti-falling-off mechanism 832, the foaming anti-slip sheet 83215 is pinched to enable the lower circular plate 83214 to rotate, the downward-pressing rotating seat 8323 is slowly pressed down along with the rotation, then the liquid inner cavity 8325 is extruded, the pressure is transmitted to the sealing side rod 8326, the sealing side rod 8326 is slowly extended out rightwards to block the cable, the cable is prevented from being broken, when the downward-pressing rebound locking structure 8321 is pressed down to be kept with the magnetic locking inner hole 8322, the pushing head 83211 is pushed leftwards to enable the long pushing plate 83216 to be inserted into the magnetic locking inner hole 8322, the magnetic adsorption plate 83217 is adsorbed inside the magnetic locking inner hole 8322, and the downward-pressing, thereby completing the work.

According to the invention, through the mutual combination of the components, the coil anti-loosening mechanism 83 is matched with the end embedding and fixing mechanism 86, so that the head end and the tail end of the cable can be fixed when the cable is wound, the cable is not loosened and loosened in the transportation process, the overall structure of the cable barrel is ensured to be stable, the cable is prevented from being extruded and collided, and the safety of the cable core is protected.

The specific embodiments described herein are merely illustrative of the invention.

The present invention is not limited to the above-mentioned preferred embodiments, and any structural changes made under the teaching of the present invention shall be understood as falling within the scope of the present invention.

Claims (4)

1. The utility model provides an end is embedded to fixed range upon range of side lever anticreep coil bobbin of extrusion, its structure includes foot rest (1), workstation (2), support slide bar (3), slide rail (4), curb plate (5), rocker (6), coil bobbin dead lever (7), coil anticreep mechanism (8), its characterized in that:

the coil anti-falling mechanism is characterized in that four foot stands (1) are arranged at four corners which are respectively positioned on the lower surface of the workbench (2), the sliding rail (4) is arranged at the middle section of the upper surface of the workbench (2), the lower end of the supporting sliding rod (3) is connected with the sliding rail (4), the side plate (5) is fixed at the right end of the upper surface of the workbench (2), the rocker (6) is installed at the upper end of the side plate (5), the coil cylinder fixing rod (7) is connected to the middle section of the rocker (6), the coil anti-falling mechanism (8) is positioned at the left end of the rocker (6), and the upper end of the supporting sliding rod (3) is connected with the rocker (6);

the coil anti-falling mechanism (8) consists of a winding drum limiting hole (81), a right coil plate (82), a coil anti-falling mechanism (83), a left coil plate (84), a cable tail end jack (85) and an end embedding and fixing mechanism (86), wherein the right coil plate (82) is positioned at the right end of the end embedding and fixing mechanism (86), the winding drum limiting hole (81) is arranged on the right surface of the right coil plate (82), the left coil plate (84) is fixed at the left end of the end embedding and fixing mechanism (86), the cable tail end jack (85) is arranged on the right surface of the left coil plate (84), and the coil anti-falling mechanism (83) is provided with more than two outer rings which are respectively arranged on the end embedding and fixing mechanism (86);

the coil anti-loosening mechanism (83) is composed of a cable pressure inlet (831), a side rod pressing anti-loosening mechanism (832) and a circular clapboard (833), the cable pressure inlet (831) is located at the right end of the circular clapboard (833), the side rod pressing anti-loosening mechanism (832) is arranged at the upper end of the circular clapboard (833), and the circular clapboard (833) is arranged at the outer ring of the end embedding fixing mechanism (86); the side rod pressing anti-falling-off mechanism (832) is composed of a pressing rebound locking structure (8321), a magnetic locking inner hole (8322), a pressing rotating seat (8323), an upper baffle base (8324), a liquid inner cavity (8325) and a sealing side rod (8326), wherein the pressing rebound locking structure (8321) is located at the upper end of the pressing rotating seat (8323), the magnetic locking inner hole (8322) is arranged at the upper end inside the upper baffle base (8324), the middle section of the pressing rotating seat (8323) is connected with the upper baffle base (8324), the liquid inner cavity (8325) is arranged at the middle section inside the upper baffle base (8324), and the sealing side rod (8326) is provided with more than two left ends which are respectively fixed at the left end inside the upper baffle base (8324) at equal intervals.

2. The end embedded extrusion-fixed laminated sidebar anti-drop coil cartridge of claim 1, wherein: the end embedding fixing mechanism (86) is composed of an end inlet (861), an end matching extrusion structure (862), a spring (863), a pushing column (864), a force guide sheet (865), a touch slide bar (866) and a roller base (867), wherein the end inlet (861) is located at the left end inside the roller base (867), the lower end of the touch slide bar (866) is connected with the force guide sheet (865), the lower end of the force guide sheet (865) is fixed at the right end of the pushing column (864), the spring (863) is arranged at the outer ring of the pushing column (864), and the end matching extrusion structure (862) is installed at the left end of the pushing column (864).

3. The end embedded extrusion-fixed laminated sidebar anti-drop coil cartridge of claim 2, wherein: the end head matching extrusion structure (862) comprises an end head invagination groove (8621), pyramid fixing spines (8622) and an extrusion seat (8623), wherein the end head invagination groove (8621) is positioned in the center of the left surface of the extrusion seat (8623), the pyramid fixing spines (8622) are provided with more than two pyramid fixing spines respectively arranged on the left surface of the extrusion seat (8623), and the extrusion seat (8623) is arranged at the left end of the pushing column (864).

4. The end embedded extrusion-fixed laminated sidebar anti-drop coil cartridge of claim 1, wherein: the pressing-down springback locking structure (8321) is composed of a pushing head (83211), a pushing head sliding groove (83212), a pinching plate (83213), a lower circular plate (83214), a foaming-like anti-slip sheet (83215), a long pushing plate (83216) and a magnetic adsorption plate (83217), wherein the magnetic adsorption plate (83217) is arranged at the left end of the long pushing plate (83216), the pushing head (83211) is fixed at the right end of the upper surface of the long pushing plate (83216), the pushing head sliding groove (83212) is arranged at the upper end of the pinching plate (83213), the foaming-like anti-slip sheet (83215) is fixed at the front end of the pinching plate (83213), the pinching plate (83213) is arranged at the upper end of the lower circular plate (83214), and the lower circular plate (83214) is positioned at the upper end of the pressing-down rotating seat (8323).

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