CN115896665A - Zinc-aluminum-magnesium hot-dip coating process for armored steel wire of load-bearing detection cable - Google Patents

Abstract

The invention discloses a zinc-aluminum-magnesium hot plating process for armored steel wires of load-bearing detection cables, belongs to the technical field of cable production, and discloses zinc-aluminum-magnesium hot plating equipment for armored steel wires of load-bearing detection cables. Through setting up even hot dip subassembly and promotion subassembly, can change the hot dip pipe that the internal diameter is different according to the diameter variation of armor steel wire, make the gap between the internal diameter of hot dip pipe and the diameter of armor steel wire be in invariable state, when liquid cladding material raw materials and armor steel wire contact, pivoted hot dip pipe can be scraped the unnecessary cladding material that the armor steel wire outside is stained with and attaches, make the cladding material of armor steel wire can not the excess thickness, thereby the effect of even hot dip has been realized, the problem that hot dip coating thickness is too thick has been avoided.

Description

Zinc-aluminum-magnesium hot plating process for armored steel wire of load-bearing detection cable

Technical Field

The invention relates to the technical field of cable production, in particular to a zinc-aluminum-magnesium hot-dip coating process for armored steel wires of load-bearing detection cables.

Background

The hot plating is to put the cleaned workpiece into a molten zinc pool, take out the workpiece after isothermal, coat relatively thick zinc on the surface of the workpiece, generally more than 0.2mm, and use the workpiece in outdoor bolts and nuts, large steel components and the like, can be stainless for decades, and needs to be hot-plated with zinc-aluminum-magnesium on the surface of the workpiece in the production process of the cable armor steel wire to prolong the service life of the cable armor steel wire.

Current armor steel wire hot dipping equipment is when carrying out the hot dipping, directly pass fused cladding material raw materials with the steel wire, the thickness of the unable control cladding material of this kind of cladding material mode, make the steel wire surface can be stained with attaches too thick cladding material, influence subsequent installation work, and current steel wire surface can produce a large amount of graininess archs when the cladding material, mainly because its surface can be stained with when the cladding material and attach a large amount of liquid cladding material raw materials, form the sagging on its surface, and current armor steel wire is when carrying out the hot dipping, the position of steel wire is unset, when the external force collision appears, the armor steel wire breaks away from the hot dipping cabin very easily, thereby cause certain section of armor steel wire can't carry out effectual hot dipping.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a zinc-aluminum-magnesium hot plating process for armored steel wires of load-bearing detection cables, which has the characteristics of being capable of controlling the thickness of a plating layer, avoiding the sagging of the plating layer on the surface and avoiding the steel wires from separating from a hot plating cabin.

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

the utility model provides a bear load exploration cable armor steel wire zinc almag hot-dip coating equipment, includes the heating furnace main part, the top of heating furnace main part is provided with the hot-dip cabin, the top of heating furnace main part just is provided with first leak protection cabin and second leak protection cabin respectively in the both sides of hot-dip cabin, the inboard of hot-dip cabin and the inboard intercommunication of heating furnace main part, the upper surface of heating furnace main part and in the corresponding fixed position of hot-dip cabin install the access plate, a plurality of third through hole has all been seted up to the both sides of hot-dip cabin, set up in the third through hole quantity of hot-dip cabin both sides equals and the position one-to-one, just all be provided with even hot-dip component in the corresponding position of every third through hole between the inside both sides of hot-dip cabin, the upper surface of heating furnace main part just is provided with in the other anti-sagging subassembly that is provided with of second leak protection cabin, the upper surface in second leak protection cabin is provided with the pressurization subassembly, one side of heating furnace main part is provided with spacing subassembly. Through the technical scheme, the hot-dip coating thickness of armor steel wire can be controlled to even hot-dip coating subassembly, avoid the too thick problem of armor steel wire hot-dip coating thickness, prevent that the sagging subassembly can get off the unnecessary liquid cladding material sagging shake in armor steel wire surface, avoid the shaping back steel wire surface serious sagging protruding condition to appear, the pressure component can extrude the inboard liquid melting cladding material of heating furnace main part, make cladding material can spill from getting into the board, enter into the inboard in hot-dip coating cabin, spacing subassembly plays the effect spacing to the armor steel wire, can avoid the armor steel wire to break away from the hot-dip coating cabin when receiving the collision.

Preferably, the upper surface of the entering plate is provided with a leak hole, the leak hole penetrates through the lower surface from the upper surface of the entering plate, the uniform hot-dip component comprises a hot-dip pipe, two lower limiting blocks and an upper limiting block, the lower limiting blocks are respectively and fixedly arranged on two sides of the inside of the hot-dip cabin and correspond to the third through holes arranged on two sides of the hot-dip cabin one by one, the upper limiting block is detachably arranged on the upper surface of one lower limiting block, one end of the hot-dip pipe is movably clamped between the lower limiting block and the upper limiting block, the other end of the hot-dip pipe is lapped on the upper surface of the other lower limiting block, the outer side of the hot-dip pipe is provided with two entering grooves, a gear is fixedly sleeved on the outer side of the hot-dip pipe, one side of the heating furnace main body is provided with a pushing component, and the pushing component is in transmission connection with all the hot-dip pipes through the gear. Through the technical scheme, the steel wire can directly enter the inboard of the corresponding hot-dip pipe after entering the inboard of hot-dip cabin through the third through hole of hot-dip cabin one side, and accomplish the hot-dip in the inboard of hot-dip pipe, after accomplishing the hot-dip, the steel wire breaks away from through the third through hole of hot-dip cabin opposite side, when carrying out the hot-dip, the promotion subassembly can drive the hot-dip pipe and rotate, thereby make the position that gets into the groove constantly change, make the hot-dip material can contact with the different positions of armor steel wire, and two round holes have been seted up to the upper surface of one of them lower stopper, go up the bottom of stopper and all install in the corresponding position of every round hole and insert the post, two insert the inboard that the post can enter into the round hole respectively, make the upper stopper more stable when the top of stopper down.

Preferably, the promotion subassembly includes ratch, first telescopic link and L type extension rod, L type extension rod fixed mounting corresponds in one side and the position and the hot dipping cabin of heating furnace main part, first telescopic link fixed mounting is just to one side of hot dipping cabin in L type extension rod, ratch fixed mounting is in one side that L type extension rod was kept away from to first telescopic link, ratch and every gear all mesh. Through the technical scheme, extension that first telescopic link does not stop or shortening, at the in-process that first telescopic link extension and shorten, the round trip movement that the ratch does not stop, because the teeth of a cogwheel tooth and the teeth of a cogwheel meshing of ratch, make the ratch can drive the rotation that the gear does not stop when moving, thereby it rotates to drive the hot-dip coating pipe through the gear, the position that gets into the groove when the hot-dip coating pipe rotates can change, pivoted hot-dip coating pipe can be stained with the unnecessary cladding material of attaching outside the armor steel wire and scrape down, make the cladding material of armor steel wire can not the excess thickness, thereby realized even hot-dip coated effect, the problem of hot-dip coating thickness excess is avoided.

Preferably, the anti-sagging component comprises a convex block and a prying rod, the convex block is fixedly installed on the upper surface of the heating furnace main body, the installation position of the convex block is located beside the second anti-leakage cabin, one side of the convex block is fixedly provided with a U-shaped installation block, the U-shaped installation block is movably connected with a prying rod, the motor is fixedly installed on the upper surface of the heating furnace main body at one end, away from the U-shaped installation block, of the prying rod, the end, away from the U-shaped installation block, of the prying rod is provided with a lapping block, the output shaft of the motor is connected with a four-jaw turntable, and the position of the four-jaw turntable corresponds to the position of the lapping block. Through the technical scheme, the output shaft of motor drives the four-jaw carousel and rotates, the four-jaw carousel is when rotating, the extension claw in the four-jaw carousel outside also follows the rotation, when one of them extension claw in the four-jaw carousel outside contacts the piece of taking, can drive the one end that U type installation piece was kept away from to the pry bar and upwards lift up, the one end that U type installation piece was kept away from to the pry bar can make it stretch to the couple spring at the in-process that lifts up, when this extension claw breaks away from because rotation and piece of taking, the one end that U type installation piece was kept away from to the pry bar has not had the strong point, the one end that U type installation piece was kept away from to the pry bar rotates to heating furnace main part upper surface because gravity and couple spring's pulling force, thereby strike the armor steel wire that accomplishes the cladding material, the striking causes armor steel wire itself to shake, make unnecessary cladding material in armor steel wire surface break away from.

Preferably, the one end that the lug was kept away from to the pry bar is provided with the couple spring, the couple spring is kept away from the one end of pry bar and is connected with the last fixed surface of heating furnace main part, the inside both sides fixed mounting of U type installation piece has the pivot, the one end that the pry bar is close to the lug is provided with connection structure, the trepanning has been seted up to one side of connection structure, connection structure cup joints in the outside of pivot through the trepanning activity. Through above-mentioned technical scheme, can promote the impact force of crow bar to the armor steel wire through setting up the couple spring, after the extension claw in the four-jaw carousel outside breaks away from the piece of taking, the crow bar is not only stopped to receive the effect of gravity, also can receive the pulling force of couple spring.

Preferably, the pressurizing assembly comprises a U-shaped support, a movable plate and a second telescopic rod, the U-shaped support is fixedly installed on the upper surface of a second leakage-proof cabin, the second telescopic rod is fixedly installed on the lower surface of the U-shaped support, the top of the inner side of the heating furnace main body is fixedly installed at the corresponding position of the second leakage-proof cabin, a second extending frame is fixedly installed at the top of the inner side of the second leakage-proof cabin, the movable plate is movably connected with the inner side of the second extending frame in a clamping mode, the upper surface of the movable plate and the second telescopic rod are fixedly connected with one end of the U-shaped support, and a check valve is fixedly installed on the movable plate. Through above-mentioned technical scheme, the extension of the second telescopic link among the pressurization subassembly for the inboard downstream of the frame is extended to the present second of fly leaf, thereby extrudees the inboard molten liquid cladding material of heating furnace main part, makes the cladding material leak to the inboard of hot-dip cabin from getting into the board, thereby makes the armor steel wire can be plated the cladding material fast when passing through the hot-dip cabin.

Preferably, a first extension frame is fixedly mounted at the top of the inner side of the heating furnace main body and at a position corresponding to the first leakage-proof cabin, a fixing plate is fixedly mounted at the inner side of the first extension frame, and a check valve is also fixedly mounted on the fixing plate. Through the technical scheme, when liquid plating raw materials enter the inner side of the first leakage-proof cabin through the third through hole, the liquid plating raw materials can flow to the upper side of the inner side fixing plate of the first extension frame, and the liquid plating materials can enter the inner side of the heating furnace main body through the one-way valve, so that the plating raw materials can be prevented from leaking to the upper surface of the heating furnace main body.

Preferably, spacing subassembly includes two curb plates, gag lever post and a plurality of spacing wheels, two curb plate fixed mounting is in one side of heating furnace main part, gag lever post movable mounting is between two curb plates, the quantity of spacing wheel and the quantity of third through hole equal and position one-to-one, all spacing wheel all fixed cover connects in the outside of gag lever post. Through the technical scheme, spacing round is walked around to the cable armor steel wire, then walk around the movable rod, the outside of spacing round is provided with the recess, make the armor steel wire can block in the inboard of recess, make spacing round play the spacing effect to the armor steel wire, avoid the armor steel wire to meet the condition that the skew appears in the collision, then make the armor steel wire pass first through hole simultaneously, third through hole and second through hole, spacing subassembly plays spacing effect when pulling, can avoid the armor steel wire to appear rocking when passing through this equipment, make the armor steel wire can be more stable carry out cladding material work.

Preferably, the upper surface of the heating furnace main body and the corresponding position of each side plate are fixedly provided with a supporting block, a movable rod is movably arranged between the two supporting blocks, one side of the first leakage-proof cabin, which is far away from the hot-dip cabin, is provided with a first through hole at the corresponding position of each third through hole, and one side of the second leakage-proof cabin, which is far away from the hot-dip cabin, is provided with a second through hole at the corresponding position of each third through hole. Through the technical scheme, extension that first telescopic link does not stop or shortening, at the in-process that first telescopic link extension and shorten, the round trip movement that the ratch does not stop, because the teeth of a cogwheel tooth and the teeth of a cogwheel meshing of ratch, make the ratch can drive the rotation that the gear does not stop when moving, thereby it rotates to drive the hot-dip coating pipe through the gear, the position that gets into the groove when the hot-dip coating pipe rotates can change, pivoted hot-dip coating pipe can be stained with the unnecessary cladding material of attaching outside the armor steel wire and scrape down, make the cladding material of armor steel wire can not the excess thickness, thereby realized even hot-dip coated effect, the problem of hot-dip coating thickness excess is avoided.

A hot-dip process is carried out by the hot-dip equipment for the armored steel wire zinc-aluminum-magnesium of the load-bearing detection cable, and the process comprises the following steps:

1. the cable armor steel wire is wound around the limiting wheel, then the movable rod is wound around the cable armor steel wire, the cable armor steel wire is simultaneously passed through the first through hole, the third through hole and the second through hole, a traction device is arranged beside the equipment, the cable armor steel wire is pulled through the traction device, the limiting assembly plays a limiting role when the cable armor steel wire is pulled, the armor steel wire can be prevented from shaking when the cable armor steel wire passes through the equipment, and the armor steel wire can be more stably plated.

2. When the armor steel wire passes the hot-dip cabin, through the extension of the second telescopic link among the pressure components for the inboard downstream of the present second extension frame of fly leaf, thereby the inboard molten liquid cladding material of extrusion heating furnace main part, make cladding material leak to the inboard of hot-dip cabin from getting into board department, thereby make the armor steel wire can be plated the cladding material fast through the hot-dip cabin.

3. Pass the in-process in hot-dip cabin at the armor steel wire, make the first telescopic link that promotes in the subassembly be in continuous operating condition, extension that first telescopic link does not stop or shortening, at the in-process of first telescopic link extension and shortening, the round trip movement that the ratch does not stop, make the ratch drive the rotation that the gear does not stop, thereby make the inboard molten liquid cladding material raw materials of hot-dip cabin contact the inboard armor steel wire of hot-dip pipe through getting into the groove from different positions, and the different hot-dip pipes of internal diameter can be changed according to the diameter variation of armor steel wire, when liquid cladding material raw materials and armor steel wire contact, the pivoted hot-dip pipe can be stained with the unnecessary cladding material of attaching outside the armor steel wire and scrape down, make the cladding material of armor steel wire can not the excessive thickness.

4. The motor is also in continuous operating condition at the during operation, the output shaft of motor drives the four-jaw carousel and rotates, when one of them extension claw in the four-jaw carousel outside contacted and taken the piece, drive the pry pole and keep away from the one end of U type installation piece and upwards lift, when extending the claw because rotate with take the piece and break away from, the one end that the U type installation piece was kept away from to the pry pole rotates to heating furnace main part upper surface because gravity and the pulling force of couple spring, thereby the armor steel wire that accomplishes the cladding material strikes, the striking causes the shake of armor steel wire itself, make the unnecessary cladding material in armor steel wire surface break away from, thereby avoid the protruding cladding material to appear in armor steel wire surface.

1. Through setting up even hot dip subassembly and promotion subassembly, in-process in the armor steel wire passes the hot dip cabin, make the first telescopic link that promotes in the subassembly be in and last operating condition, the extension that first telescopic link does not stop or shorten, in-process at the extension of first telescopic link and shortening, the round trip movement that the ratch does not stop, because the teeth and teeth of the teeth meshing of pinion, make the ratch can drive the rotation that the gear does not stop when moving, thereby it rotates to drive the hot dip pipe through the gear, the position that gets into the groove can change when the hot dip pipe rotates, thereby make the molten liquid cladding material of hot dip under-deck inboard can contact the inboard armor steel wire of hot dip pipe from different positions through getting into the groove, and can change the hot dip pipe of the different internal diameters according to the diameter variation of armor steel wire, make the gap between the internal diameter of hot dip pipe and the diameter of armor steel wire be in the constant state, when liquid cladding material and armor steel wire contact, the hot dip pipe can be stained with the unnecessary cladding material that the armor steel wire outside is stained with and scrape down, make the cladding material of armor steel wire can not be too thick, thereby the effect of even hot dip has been realized, the problem of hot dip cladding thickness of hot dip cladding.

2. Through setting up the anti-sagging subassembly, the motor is also in continuous operating condition at the during operation, the output shaft of motor drives the four-jaw carousel and rotates, the four-jaw carousel is when rotating, the extension claw in the four-jaw carousel outside also follows the rotation, when one of them extension claw in the four-jaw carousel outside contacts to taking the piece, can drive the one end that U type installation piece was kept away from to the pry bar upwards lifts up, the one end that U type installation piece was kept away from to the pry bar can make it stretch to the couple spring at the in-process that lifts up, when this extension claw breaks away from because the rotation with taking the piece, the one end that U type installation piece was kept away from to the pry bar has not had the strong point, the one end that U type installation piece was kept away from to the pry bar rotates to heating furnace main part upper surface because gravity and the pulling force of couple spring, thereby carry out the striking to the armor steel wire that the cladding was accomplished, the striking causes armor steel wire to shake itself, make unnecessary cladding material in armor steel wire surface break away from, thereby avoid the armor steel wire cladding surface to remain too much liquid cladding material and cause the bellied problem of sagging.

3. Through setting up spacing subassembly, spacing round is walked around to the cable armor steel wire, then walk around the movable rod, the outside of spacing round is provided with the recess, make the armor steel wire can block in the inboard of recess, make spacing round play the spacing effect to the armor steel wire, avoid the armor steel wire to meet the condition that the skew appears in the collision, then make the armor steel wire pass first through hole simultaneously, third through hole and second through hole, set up draw gear on this equipment side, pull cable armor steel wire through draw gear, when pulling, frictional force can drive spacing round and the stopper rod rotation, frictional force also can drive the movable rod rotation, make more smooth-going when the armor steel wire removes, spacing subassembly plays spacing effect when pulling, can avoid the armor steel wire to appear rocking when passing through this equipment, make the armor steel wire can be more stable carry out cladding material work.

4. Through setting up first leak protection cabin, the second leak protection cabin, the fixed plate, the check valve, fly leaf isotructure, when liquid cladding material was kept away from and is entered into the inboard in first leak protection cabin and second leak protection cabin through the third through hole, first leak protection cabin and second leak protection cabin can avoid liquid cladding material to splash the upper surface in heating furnace main part, when preventing that the sagging subassembly from striking the armor steel wire, the sagging cladding material that is in on the inboard steel wire in second leak protection cabin can drop the inboard in second leak protection cabin, the inboard liquid cladding material that enters into first leak protection cabin and second leak protection cabin can get back to the inboard of heating furnace main part through the check valve, and the setting of check valve can be when the inboard liquid cladding material raw materials of fly leaf extrusion heating furnace main part, avoid cladding material to enter into the top of fly leaf, thereby make the inboard cladding material of extrusion heating furnace main part that the fly leaf can be stable, thereby reach the effect that can avoid cladding material to splash to equipment.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view of the overall construction of the present invention;

FIG. 3 is a side view of the overall structure of the present invention;

FIG. 4 is an exploded view of the overall structure of the present invention;

FIG. 5 is a schematic view of a uniform hot-dip coating module according to the present invention;

FIG. 6 is an exploded view of the anti-sagging assembly of the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 2 according to the present invention.

In the figure:

1. a heating furnace main body; 2. a hook spring; 3. prying a rod; 4. a bump; 5. a second leak-proof cabin; 6. An L-shaped extension rod; 7. a first telescopic rod; 8. a hot-dip tank; 9. a first leak-proof compartment; 10. a first through hole; 11. a movable rod; 12. a support block; 13. a side plate; 14. a motor; 15. a four-claw turntable; 16. a fixing plate; 17. a first extension frame; 18. a second telescopic rod; 19. a second extension frame; 20. a one-way valve; 21. A movable plate; 22. a second through hole; 25. a lower limiting block; 26. a U-shaped bracket; 27. hot dip coating the tube; 28. An upper limit block; 29. a limiting rod; 30. a limiting wheel; 31. a rack bar; 32. inserting the post; 33. a gear; 34. entering a groove; 35. building blocks; 36. a U-shaped mounting block; 37. a rotating shaft; 38. a connecting structure; 39. a third through hole; 40. and entering the plate.

Detailed Description

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

Examples

Referring to fig. 1-7, a load-bearing exploration cable armored steel wire zinc-aluminum-magnesium hot-dip coating device comprises a heating furnace main body 1, a hot-dip cabin 8 is arranged at the top of the heating furnace main body 1, a first leakage-proof cabin 9 and a second leakage-proof cabin 5 are respectively arranged at the top of the heating furnace main body 1 and beside two sides of the hot-dip cabin 8, the inner side of the hot-dip cabin 8 is communicated with the inner side of the heating furnace main body 1, an inlet plate 40 is fixedly arranged on the upper surface of the heating furnace main body 1 and at the corresponding position of the hot-dip cabin 8, a plurality of third through holes 39 are respectively arranged at two sides of the hot-dip cabin 8, the number of the third through holes 39 arranged at two sides of the hot-dip cabin 8 is equal, the positions of the third through holes correspond to one another, uniform hot-dip coating components are respectively arranged between two inner sides of the hot-dip cabin 8 and at the corresponding position of each third through hole 39, a sagging-proof component is arranged on the upper surface of the heating furnace main body 1 and beside the second leakage-dip cabin 5, a pressurizing component is arranged on the upper surface of the second leakage-proof cabin 5, and a limiting component is arranged on one side of the heating furnace main body 1. The during operation, the hot-dip coating thickness of armor steel wire can be controlled to even hot-dip coating subassembly, avoid the too thick problem of armor steel wire hot-dip coating thickness, prevent that the sagging subassembly can shake the unnecessary liquid cladding material sagging in armor steel wire surface, avoid the protruding condition of serious sagging to appear in shaping back steel wire surface, the pressurizing assembly can extrude the inboard liquid melting cladding material of heating furnace main part 1, make cladding material can spill from getting into board 40, enter into the inboard of hot-dip cabin 8, spacing subassembly plays the effect spacing to the armor steel wire, can avoid the armor steel wire to break away from hot-dip cabin 8 when receiving the collision.

The upper surface that gets into board 40 has seted up the small opening, the small opening runs through to the lower surface from the upper surface that gets into board 40, even hot dipping subassembly includes hot-dip tube 27, two spacing blocks 25 and last spacing block 28 down, two spacing blocks 25 are down fixed mounting respectively in the inside both sides of hot-dip cabin 8 and the third through hole 39 one-to-one that the position and hot-dip cabin 8 both sides were seted up, go up spacing block 28 demountable installation in the upper surface of one of them spacing block 25 down, the one end activity joint of hot-dip tube 27 is in between spacing block 25 and last spacing block 28 down, the other end overlap joint of hot-dip tube 27 is in the upper surface of another spacing block 25 down, two entering grooves 34 have been seted up to the outside of hot-dip tube 27, the outside of hot-dip tube 27 is fixed to have cup jointed gear 33, one side of heating furnace main body 1 is provided with the promotion subassembly, the promotion subassembly passes through gear 33 and all hot-dip tubes 27 transmission connection. In operation, the steel wire enters into the inboard of hot dipping cabin 8 through the third through hole 39 of hot dipping cabin 8 one side and can directly enter into the inboard of corresponding hot dipping pipe 27, and accomplish the hot dipping in the inboard of hot dipping pipe 27, after accomplishing the hot dipping, the steel wire breaks away from through the third through hole 39 of hot dipping cabin 8 opposite side, in the time of carrying out the hot dipping, the promotion subassembly can drive hot dipping pipe 27 and rotate, thereby make the continuous change in position of entering groove 34, make the hot dipping material can contact with the different positions of armor steel wire, and two round holes have been seted up to the upper surface of one of them lower stopper 25, go up the bottom of stopper 28 and all install the post 32 of inserting in the corresponding position of every round hole, two insert the inboard that the post 32 can enter into the round hole respectively, make upper stopper 28 more stable when the top of lower stopper 25.

The pushing assembly comprises a toothed bar 31, a first telescopic rod 7 and an L-shaped extension rod 6, the L-shaped extension rod 6 is fixedly installed on one side of the heating furnace main body 1, the position of the L-shaped extension rod corresponds to that of the hot-dip cabin 8, the first telescopic rod 7 is fixedly installed on one side, opposite to the hot-dip cabin 8, of the L-shaped extension rod 6, the toothed bar 31 is fixedly installed on one side, far away from the L-shaped extension rod 6, of the first telescopic rod 7, and the toothed bar 31 and each gear 33 are meshed. The during operation, extension that first telescopic link 7 does not stop or shortening, at the in-process that extension and the shortening of first telescopic link 7, the round trip movement that ratch 31 does not stop, because the gear teeth meshing of ratch 31's pole tooth and gear 33, make ratch 31 can drive the rotation that gear 33 does not stop when moving, thereby it rotates to drive hot-dip coated pipe 27 through gear 33, the position of entering groove 34 can change when hot-dip coated pipe 27 rotates, pivoted hot-dip coated pipe 27 can be stained with the unnecessary cladding material of attacheing in the armor steel wire outside and scrape down, make the cladding material of armor steel wire can not the excess thickness, thereby realized even hot-dip coated effect, hot-dip coated layer thickness problem has been avoided.

The anti-sagging component comprises a convex block 4 and a prying rod 3, the convex block 4 is fixedly installed on the upper surface of the heating furnace main body 1, the installation position of the convex block 4 is located beside the second leakage-proof cabin 5, a U-shaped installation block 36 is fixedly installed on one side of the convex block 4, the prying rod 3 is movably connected with the U-shaped installation block 36, a motor 14 is fixedly installed on the upper surface of the heating furnace main body 1 at the end, away from the U-shaped installation block 36, of the prying rod 3, a lapping block 35 is arranged at the end, away from the U-shaped installation block 36, of the prying rod 3, a four-claw turntable 15 is connected with an output shaft of the motor 14 in a transmission mode, and the position of the four-claw turntable 15 corresponds to the position of the lapping block 35. During operation, the output shaft of motor 14 drives four-jaw carousel 15 and rotates, four-jaw carousel 15 is when rotating, the extension claw in the four-jaw carousel 15 outside also follows the rotation, when one of them extension claw in the four-jaw carousel 15 outside contacts to taking piece 35, can drive pry bar 3 and keep away from the one end of U type installation piece 36 and upwards lift up, pry bar 3 keeps away from the one end of U type installation piece 36 and can make it stretch to hanger spring 2 at the in-process that lifts up, when this extension claw breaks away from because rotation and taking piece 35, pry bar 3 keeps away from the one end of U type installation piece 36 and has not had the strong point, pry bar 3 keeps away from the one end of U type installation piece 36 and rotates to heating furnace main part 1 upper surface because gravity and hanger spring 2's pulling force, thereby strike the armor steel wire that the cladding was accomplished, the striking causes the shake of armor steel wire itself, make the unnecessary cladding material in armor steel wire surface break away from.

The one end that the lug 4 was kept away from to pry pole 3 is provided with couple spring 2, and the one end that pry pole 3 was kept away from to couple spring 2 is connected with the last fixed surface of heating furnace main part 1, and the inside both sides fixed mounting of U type installation piece 36 has pivot 37, and the one end that pry pole 3 is close to lug 4 is provided with connection structure 38, and the trepanning has been seted up to one side of connection structure 38, and connection structure 38 cup joints in the outside of pivot 37 through the trepanning activity. During operation, can promote the impact force of prying rod 3 to the armor steel wire through setting up couple spring 2, after the extension claw in the four-jaw carousel 15 outside breaks away from piece 35, prying rod 3 is not only received the effect of gravity, also can receive couple spring 2's pulling force.

The pressurizing assembly comprises a U-shaped support 26, a movable plate 21 and a second telescopic rod 18, the U-shaped support 26 is fixedly installed on the upper surface of the second leakage-proof cabin 5, the second telescopic rod 18 is fixedly installed on the lower surface of the U-shaped support 26, a second extending frame 19 is fixedly installed at the top of the inner side of the heating furnace main body 1 and at the corresponding position of the second leakage-proof cabin 5, the movable plate 21 is movably clamped on the inner side of the second extending frame 19, the upper surface of the movable plate 21 and one end, far away from the U-shaped support 26, of the second telescopic rod 18 are fixedly connected, and a one-way valve 20 is fixedly installed on the movable plate 21. In operation, the second telescopic rod 18 in the pressurizing assembly is extended, so that the movable plate 21 moves downwards at the inner side of the second extension frame 19, and the molten liquid coating on the inner side of the heating furnace main body 1 is extruded, and the coating leaks to the inner side of the hot-dip coating cabin 8 from the inlet plate 40, so that the armored steel wire can be coated with the coating rapidly when passing through the hot-dip coating cabin 8.

A first extension frame 17 is fixedly arranged at the top of the inner side of the heating furnace main body 1 and at the corresponding position of the first leakage-proof cabin 9, a fixing plate 16 is fixedly arranged at the inner side of the first extension frame 17, and a one-way valve 20 is also fixedly arranged on the fixing plate 16. In operation, when the liquid coating material enters the inner side of the first leakage-proof cabin 9 through the third through hole 39, the liquid coating material will flow above the inner fixing plate 16 of the first extension frame 17, and the liquid coating material can enter the inner side of the heating furnace main body 1 through the check valve 20, so that the coating material can be prevented from leaking to the upper surface of the heating furnace main body 1.

The limiting assembly comprises two side plates 13, a limiting rod 29 and a plurality of limiting wheels 30, the two side plates 13 are fixedly mounted on one side of the heating furnace main body 1, the limiting rod 29 is movably mounted between the two side plates 13, the number of the limiting wheels 30 is equal to that of the third through holes 39, the limiting wheels 30 correspond to the third through holes 39 in a one-to-one mode in position, and all the limiting wheels 30 are fixedly sleeved on the outer side of the limiting rod 29. During operation, spacing round 30 is walked around to cable armor steel wire, then walk around movable rod 11, the outside of spacing round 30 is provided with the recess, make the armor steel wire can block in the inboard of recess, make spacing round 30 play the spacing effect to the armor steel wire, avoid the armor steel wire to meet the condition that the skew appears in the collision, then make the armor steel wire pass first through-hole 10 simultaneously, third through-hole 39 and second through-hole 22, spacing subassembly plays spacing effect when pulling, can avoid the armor steel wire to appear rocking when passing through this equipment, make the armor steel wire can be more stable carry out cladding material work.

The upper surface of the heating furnace main body 1 is fixedly provided with supporting blocks 12 at corresponding positions of each side plate 13, a movable rod 11 is movably arranged between the two supporting blocks 12, one side of the first leakage-proof cabin 9, which is far away from the hot-dip cabin 8, is provided with a first through hole 10 at a corresponding position of each third through hole 39, and the other side of the second leakage-proof cabin 5, which is far away from the hot-dip cabin 8, is provided with a second through hole 22 at a corresponding position of each third through hole 39. During operation, the mounting position of the movable rod 11 corresponds to the positions of the third through hole 39, the movable rod 11 and the second through hole 22, so that the armored steel wire can enter the hot-dip pipe 27 from the upper surface of the heating furnace main body 1 in a parallel state after bypassing the movable rod 11, the gap between the outer side of the armored steel wire and the inner side wall of the hot-dip pipe 27 is uniform, and the plating layer is more uniform.

A process for carrying out hot dipping by the hot dipping equipment for the armored steel wire zinc-aluminum-magnesium of the load-bearing detection cable comprises the following steps:

1. by-pass spacing wheel 30 with the cable armor steel wire, then by-pass movable rod 11 to pass first through-hole 10, third through-hole 39 and second through-hole 22 simultaneously, set up draw gear by this equipment, pull the cable armor steel wire through draw gear, spacing subassembly plays spacing effect when pulling, can avoid the armor steel wire to appear rocking when passing through this equipment, make the armor steel wire can be more stable carry out cladding material work.

2. When the armor steel wire passes through the hot-dip coating cabin 8, the second telescopic rod 18 in the pressurizing assembly extends, so that the movable plate 21 moves downwards at the inner side of the second extension frame 19, the molten liquid coating on the inner side of the heating furnace main body 1 is extruded, the coating leaks to the inner side of the hot-dip coating cabin 8 from the inlet plate 40, and the armor steel wire can be coated with the coating rapidly when passing through the hot-dip coating cabin 8.

3. In the process that the armored steel wire passes through the hot-dip cabin 8, the first telescopic rod 7 in the pushing assembly is in a continuous working state, the first telescopic rod 7 is continuously extended or shortened, in the process that the first telescopic rod 7 is extended and shortened, the rack rod 31 continuously moves back and forth, the rack rod 31 drives the gear 33 to continuously rotate, molten liquid plating raw materials on the inner side of the hot-dip cabin 8 can contact the armored steel wire on the inner side of the hot-dip pipe 27 from different positions through the inlet groove 34, the hot-dip pipes 27 with different inner diameters can be replaced according to different diameters of the armored steel wire, when the liquid plating raw materials are contacted with the armored steel wire, the rotating hot-dip pipe 27 can scrape redundant plating attached to the outer side of the armored steel wire, the plating of the armored steel wire cannot be too thick, and the aluminum-zinc-aluminum alloy has the mass percent of 4.1% -7.3% and the magnesium mass percent of 0.5% -2.6%.

4. When the motor 14 is in a continuous working state during working, the output shaft of the motor 14 drives the four-jaw turntable 15 to rotate, when one of the extending jaws outside the four-jaw turntable 15 contacts the lapping block 35, the end, away from the U-shaped mounting block 36, of the prying rod 3 is driven to lift upwards, when the extending jaw is separated from the lapping block 35 due to rotation, the end, away from the U-shaped mounting block 36, of the prying rod 3 rotates towards the upper surface of the heating furnace main body 1 due to gravity and the pulling force of the hook spring 2, so that the armored steel wire finished by the plating layer is impacted, the armored steel wire itself is shaken due to impact, redundant plating raw materials on the surface of the armored steel wire are separated, and therefore the occurrence of the convex plating layer on the surface of the armored steel wire is avoided.

The working principle is as follows: when the device is used for carrying out hot-dip coating on the armored steel wire, the armored steel wire of the cable bypasses the limiting wheel 30 and then bypasses the movable rod 11, the outer side of the limiting wheel 30 is provided with the groove, so that the armored steel wire can be clamped at the inner side of the groove, the limiting wheel 30 has the effect of limiting the armored steel wire, the armored steel wire is prevented from deviating due to collision, then the armored steel wire simultaneously passes through the first through hole 10, the third through hole 39 and the second through hole 22, the traction device is arranged beside the device, the armored steel wire of the cable is drawn by the traction device, the friction force can drive the limiting wheel 30 and the limiting rod 29 to rotate when the steel wire is drawn, the friction force can also drive the movable rod 11 to rotate, the movement of the armored steel wire is smoother, the limiting component plays the limiting role when drawing, and can prevent the armored steel wire from shaking when passing through the device, so that the armor steel wire can more stably carry out cladding work, the second telescopic rod 18 in the pressurizing assembly is extended, the movable plate 21 moves downwards at the inner side of the second extension frame 19, thereby extruding the molten liquid cladding at the inner side of the heating furnace main body 1, the cladding leaks to the inner side of the hot-dip coating cabin 8 from the inlet plate 40, so that the armor steel wire can be rapidly plated with the cladding when passing through the hot-dip coating cabin 8, the first telescopic rod 7 in the pushing assembly is in a continuous working state, the first telescopic rod 7 is continuously extended or shortened, the toothed rod 31 continuously moves back and forth in the process of extending and shortening the first telescopic rod 7, the toothed rod 31 drives the gear 33 to continuously rotate, and the molten liquid cladding raw material at the inner side of the hot-dip coating cabin 8 can contact the armor steel wire at the inner side of the hot-dip coating pipe 27 from different positions through the inlet groove 34, and can change the hot dip pipe 27 that the internal diameter is different according to the diameter variation of armor steel wire, when liquid cladding material raw materials and armor steel wire contact, pivoted hot dip pipe 27 can be scraped the armor steel wire outside and be stained with the attached unnecessary cladding material, make the cladding material of armor steel wire can not be too thick, motor 14 also is in continuous operating condition at the during operation, the output shaft of motor 14 drives four-jaw carousel 15 and rotates, when one of them extension claw in the four-jaw carousel 15 outside contacts to taking piece 35, drive the one end that U type installation piece 36 was kept away from to the pry rod 3 and lift up upwards, when extending the claw because rotate with take piece 35 to break away from, the one end that the U type installation piece 36 was kept away from to the pry rod 3 rotates to heating furnace main part 1 upper surface because of gravity and the pulling force of couple spring 2, until the pry rod 3 strikes the armor steel wire, the striking causes the armor steel wire to shake itself, make unnecessary cladding material in armor steel wire surface break away from, avoid the steel wire surface cladding material to appear the cladding sagging condition.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a bear lotus exploration cable armoured steel wire zinc almag hot-dip coating equipment, includes heating furnace main part (1), its characterized in that: the top of heating furnace main part (1) is provided with hot-dip cabin (8), the top of heating furnace main part (1) just is provided with first leak protection cabin (9) and second leak protection cabin (5) respectively in the both sides of hot-dip cabin (8), the inboard of hot-dip cabin (8) and the inboard intercommunication of heating furnace main part (1), the upper surface of heating furnace main part (1) just has access plate (40) in the corresponding position fixed mounting of hot-dip cabin (8), a plurality of third through hole (39) have all been seted up to the both sides of hot-dip cabin (8), set up in the third through hole (39) quantity of hot-dip cabin (8) both sides equals and the position one-to-one, just all be provided with even hot-dip component in the corresponding position of every third through hole (39) between the inside both sides of hot-dip cabin (8), the upper surface of heating furnace main part (1) just is provided with in the other anti-sagging subassembly that prevents that runs off in second leak cabin (5), the upper surface of second leak protection cabin (5) is provided with the pressurization subassembly, one side of heating furnace main part (1) is provided with spacing subassembly.

2. The apparatus of claim 1, wherein the apparatus comprises: the leak has been seted up to the upper surface of access panel (40), the leak runs through to the lower surface from the upper surface that gets into board (40), even hot dipping subassembly includes hot-dip tube (27), two spacing blocks (25) and last spacing block (28) down, two spacing block (25) are fixed mounting respectively in the third through hole (39) one-to-one that the inside both sides and the position of hot-dip cabin (8) both sides were seted up down, go up spacing block (28) demountable installation in the upper surface of one of them spacing block (25) down, the one end activity joint of hot-dip tube (27) is in between spacing block (25) and last spacing block (28) down, the other end overlap joint of hot-dip tube (27) is in the upper surface of another spacing block (25) down, two entering grooves (34) have been seted up in the outside of hot-dip tube (27), the outside of hot-dip tube (27) is fixed with gear (33), one side of cup jointing main part (1) is provided with the promotion subassembly, promote the subassembly through all connecting tubes (27) of gear (33) and hot-dip tube (27).

3. The apparatus of claim 2, wherein the apparatus comprises: the push assembly comprises a toothed bar (31), a first telescopic rod (7) and an L-shaped extension rod (6), wherein the L-shaped extension rod (6) is fixedly installed on one side of the heating furnace main body (1) and corresponds to the hot-dip cabin (8), the first telescopic rod (7) is fixedly installed on one side of the L-shaped extension rod (6) opposite to the hot-dip cabin (8), the toothed bar (31) is fixedly installed on one side of the first telescopic rod (7) far away from the L-shaped extension rod (6), and the toothed bar (31) and each gear (33) are all meshed.

4. The apparatus of claim 1, wherein the apparatus comprises: anti-sagging subassembly includes lug (4) and prying pole (3), lug (4) fixed mounting is in the upper surface of heating furnace main part (1), the mounted position of lug (4) is located by second leak protection cabin (5), one side fixed mounting of lug (4) has U type installation piece (36), U type installation piece (36) swing joint has prying rod (3), the upper surface of heating furnace main part (1) just has motor (14) in the one end fixed mounting that prying rod (3) kept away from U type installation piece (36), the one end that U type installation piece (36) were kept away from in prying rod (3) is provided with and takes piece (35), the output shaft transmission of motor (14) is connected with four-jaw carousel (15), the position of four-jaw carousel (15) corresponds with the position of taking piece (35).

5. The apparatus of claim 4, wherein the apparatus comprises: the one end that lug (4) were kept away from in prying pole (3) is provided with couple spring (2), the last fixed surface who keeps away from the one end of prying pole (3) and heating furnace main part (1) in couple spring (2) is connected, the inside both sides fixed mounting of U type installation piece (36) has pivot (37), the one end that prying pole (3) are close to lug (4) is provided with connection structure (38), the trepanning has been seted up to one side of connection structure (38), connection structure (38) cup joint in the outside of pivot (37) through the trepanning activity.

6. The zinc-aluminum-magnesium hot-dip apparatus for steel wire armouring of load-bearing exploration cable according to claim 1, characterized in that: pressurizing assembly includes U type support (26), fly leaf (21) and second telescopic link (18), U type support (26) fixed mounting is in the upper surface in second leak protection cabin (5), second telescopic link (18) fixed mounting is in the lower surface of U type support (26), the inboard top of heating furnace main part (1) and in the corresponding fixed position of second leak protection cabin (5) install the second and extend frame (19), fly leaf (21) activity joint extends the inboard of frame (19) in the second, the one end fixed connection of U type support (26) is kept away from to the upper surface of fly leaf (21) and second telescopic link (18), fixed mounting has check valve (20) on fly leaf (21).

7. The apparatus of claim 6, wherein the apparatus comprises: the heating furnace is characterized in that a first extension frame (17) is fixedly mounted at the top of the inner side of the heating furnace main body (1) and at the corresponding position of the first leakage-proof cabin (9), a fixing plate (16) is fixedly mounted at the inner side of the first extension frame (17), and a check valve (20) is also fixedly mounted on the fixing plate (16).

8. The zinc-aluminum-magnesium hot-dip apparatus for steel wire armouring of load-bearing exploration cable according to claim 1, characterized in that: spacing subassembly includes two curb plates (13), gag lever post (29) and a plurality of spacing wheel (30), two curb plate (13) fixed mounting is in one side of heating furnace main part (1), gag lever post (29) movable mounting is between two curb plates (13), the quantity of spacing wheel (30) and the quantity of third through hole (39) equal and position one-to-one, all spacing wheel (30) all fixed cup joint in the outside of gag lever post (29).

9. The apparatus of claim 8, wherein the apparatus comprises: the upper surface of heating furnace main part (1) and in the equal fixed mounting in the corresponding position of every curb plate (13) have supporting shoe (12), two movable mounting has movable rod (11) between supporting shoe (12), one side of hot dipping cabin (8) is kept away from in first leak protection cabin (9) and first through hole (10) have all been seted up in the corresponding position of every third through hole (39), one side of hot dipping cabin (8) is kept away from in second leak protection cabin (5) and second through hole (22) have all been seted up in the corresponding position of every third through hole (39).

10. A hot-dip process using the hot-dip apparatus for zinc-aluminum-magnesium alloy for steel wire armouring of load-bearing exploration cable according to claims 1-9, characterized in that the process comprises the steps of:

1. bypass spacing wheel (30) with the cable armor steel wire, then bypass movable rod (11), and pass first through hole (10), third through hole (39) and second through hole (22) simultaneously, set up draw gear by this equipment, pull the cable armor steel wire through draw gear, spacing subassembly plays spacing effect when pulling, can avoid the armor steel wire to appear rocking when passing through this equipment, make the armor steel wire can be more stable carry out cladding material work.

2. When the armor steel wire passes through the hot-dip tank (8), the second telescopic rod (18) in the pressurizing assembly extends, so that the movable plate (21) moves downwards at the inner side of the second extension frame (19), the molten liquid coating on the inner side of the heating furnace main body (1) is extruded, the coating leaks to the inner side of the hot-dip tank (8) from the inlet plate (40), and the armor steel wire can be quickly plated with the coating when passing through the hot-dip tank (8).

3. In-process that the armor steel wire passed hot-dip cabin (8), make first telescopic link (7) in the promotion subassembly be in continuous operating condition, extension or the shortening that first telescopic link (7) do not stop, at the in-process that first telescopic link (7) extension and shorten, the round trip movement that ratch (31) do not stop, make ratch (31) drive the rotation that gear (33) do not stop, thereby make the inboard fused liquid cladding material of hot-dip cabin (8) can contact the inboard armor steel wire of hot-dip pipe (27) from different positions through entering groove (34), and can change different hot-dip pipe (27) of internal diameter according to the diameter variation of armor steel wire, when liquid cladding material and armor steel wire contact, pivoted hot-dip pipe (27) can be stained with the unnecessary cladding material of attaching outside the armor steel wire and scrape down, make the cladding material of armor steel wire can not the excessive thickness.

4. When the continuous working state is also realized during the working process, the motor (14) drives the four-jaw turntable (15) to rotate by the output shaft of the motor (14), when one of the extending jaws on the outer side of the four-jaw turntable (15) is contacted with the lapping block (35), one end of the prying rod (3) far away from the U-shaped mounting block (36) is driven to be lifted upwards, when the extending jaw is separated from the lapping block (35) due to rotation, one end of the prying rod (3) far away from the U-shaped mounting block (36) rotates towards the upper surface of the heating furnace main body (1) due to gravity and the pulling force of the hook spring (2), so that the armored steel wire finished by the cladding layer is impacted, the armored steel wire shakes per se due to the impact, the redundant cladding material on the surface of the armored steel wire is separated, and the appearance of a convex cladding layer on the surface of the armored steel wire is avoided.

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