CN219218122U - Electric power iron tower screw hot dip galvanize device - Google Patents

Abstract

The application discloses electric power iron tower screw hot dip galvanizing device relates to hot dip galvanizing device technical field, including zinc liquid outer frame body, the roof fixed mosaic of zinc liquid outer frame body has zinc liquid inside casing body, and the multiunit is installed with the fixed supporting leg of zinc liquid outer frame body inner chamber diapire position mutually to zinc liquid inside casing body diapire position, and the top position of zinc liquid outer frame body is provided with the first hoist assembly of multiunit, and the bottom position of the first hoist assembly of multiunit is fixed with multiunit installation horizontal pole, and the outside cover of multiunit installation horizontal pole is equipped with multiunit sliding frame, and multiunit sliding frame outer wall all wears to be equipped with the locating bolt that contacts with installation horizontal pole outer wall. This application slides and loads the frame synchronous motion to suitable position, through the fixed position of slide frame of positioning bolt, puts the electric power iron tower screw pile up the position between two sets of adjacent hoisting frames, and synchronous start first hoist assembly drives electric power iron tower screw and removes and carry out hot-galvanize processing, conveniently is applicable to the electric power iron tower screw galvanization demand of different specifications.

Description

Electric power iron tower screw hot dip galvanize device

Technical Field

The application relates to the technical field of hot galvanizing devices, in particular to a screw hot galvanizing device for an electric power iron tower.

Background

The hot galvanizing is mainly used for the metal coating structure facility treatment of various industries, and mainly refers to the fact that hot dip galvanizing treatment is required to be carried out on the surface of a workpiece in the production process so as to achieve the aim of corrosion prevention, screws with various different specifications are required to be used on an electric iron tower, and the hot galvanizing treatment can be carried out on the surface of the screws so as to improve the corrosion prevention effect of the screws.

The utility model patent document with the publication number of CN212293717U discloses an electric iron accessory hot galvanizing device, which comprises a galvanizing tank and fixed baffles fixedly arranged around the upper end of the galvanizing tank, wherein a crown block is movably arranged above the galvanizing tank, the bottom of the crown block is suspended with a mounting cover plate, the bottom of the mounting cover plate is provided with a galvanizing mechanism, the mounting cover plate is provided with a flue gas filtering mechanism, and a cleaning mechanism is arranged in the galvanizing tank.

Said invented patent document mainly uses hook to fix iron accessory, then makes hot galvanizing treatment on its surface, but the hook is inconvenient for fixing screw, so that said utility model provides a hot galvanizing device for electric iron tower screw different from existent technology to solve the above-mentioned technical problems.

Disclosure of Invention

In order to solve the problem that the hook is inconvenient to fix the screw, the application provides a hot galvanizing device for the screw of the electric power iron tower.

The application provides an electric power iron tower screw hot dip galvanize device adopts following technical scheme:

the utility model provides an electric power iron tower screw hot dip galvanizing device, includes zinc liquid outer frame body, the roof fixed mosaic of zinc liquid outer frame body has zinc liquid inner frame body, the multiunit is installed with the fixed supporting leg of zinc liquid outer frame body inner chamber diapire position mutually to zinc liquid inner frame body diapire position, the top position of zinc liquid outer frame body is provided with multiunit first hoist assembly, multiunit the bottom position of first hoist assembly is fixed with multiunit installation horizontal pole, multiunit the outside cover of installation horizontal pole is equipped with multiunit sliding frame, multiunit sliding frame outer wall all wears to be equipped with the locating bolt that contacts with installation horizontal pole outer wall, multiunit sliding frame's diapire position all is fixed with the hoist and mount frame.

Through adopting above-mentioned technical scheme, thereby the horizontal interval between the two sets of hoist and mount framves of fore-and-aft slip sliding slide frame drive hoist and mount frame synchronous motion can be adjusted to appropriate value, thereby then screw up the position of fixing the slide frame of positioning bolt messenger's inseparable laminating with the installation horizontal pole outer wall, then put the electric power iron tower screw of corresponding specification in the position between two sets of hoist and mount framves of adjacent, synchronous start first hoist assembly drive electric power iron tower screw stretch into the zinc liquid of zinc liquid inside casing body inner chamber gradually and carry out hot galvanizing treatment, the electric power iron tower screw galvanizing demand of different specifications is conveniently applicable to.

Optionally, the first hoist assembly includes the second installation frame, the second installation frame sets up the top position at the slipform, the diapire position of second installation frame inner chamber is fixed with the automatically controlled hoist engine of second, the outside second hoist rope that runs through second installation frame diapire that winds of automatically controlled hoist engine output shaft, second hoist rope bottom position is fixed mutually with the roof position of installation horizontal pole.

Through adopting above-mentioned technical scheme, synchronous start multiunit second automatically controlled hoist engine drives the extension of second hoist rope, can make hoist frame and electric power iron tower screw stretch into the zinc liquid of zinc liquid internal cavity gradually and carry out hot galvanizing treatment, conveniently be applicable to the electric power iron tower screw galvanizing demand of different specifications.

Optionally, the top positions of two side walls of the second mounting frames are all fixed with second mounting plates, and the top wall positions of the second mounting plates are all provided with mounting holes.

Through adopting above-mentioned technical scheme, laminating the second mounting frame on the roof of building, use expansion bolts to run through the mounting hole and then can fix the second mounting frame on the roof of building through the second mounting panel.

Optionally, the bottom positions of the outer walls around the inner frame body are all fixed with second heating wires, and the middle position of the bottom wall of the inner frame body is fixed with first heating wires.

By adopting the technical scheme, the second heating wire and the first heating wire are started to be electrified to generate heat and conduct the heat into the zinc liquid through the zinc liquid inner frame body, so that the temperature of the zinc liquid is conveniently kept.

Optionally, both sides position of zinc liquid frame roof all is fixed with the mounting bracket, two sets of the second hoist assembly that extends to zinc liquid internal frame body inner chamber is all installed to the lateral wall that the mounting bracket is close to one side each other, multiunit the bottom position of second hoist assembly is fixed with the otter board, the roof position of otter board is fixed with the slagging-off frame.

Optionally, the second hoist assembly includes first installing frame, first installing frame is fixed on the outer wall of mounting bracket, the inner chamber diapire position of first installing frame is fixed with first automatically controlled hoist engine, first automatically controlled hoist engine output shaft outside is around being equipped with the first hoist rope that runs through first installing frame diapire, first hoist rope bottom position is fixed with the roof position of otter board mutually.

Through adopting above-mentioned technical scheme, thereby synchronous start multiunit first automatically controlled hoist engine drives first hoist rope shrink can drive otter board and slagging-off frame and move up in the inner chamber of zinc liquid internal frame body in step, makes the zinc sediment of zinc liquid layer automatic entrapment to the inner chamber of slagging-off frame under the network structure effect of otter board, and the convenience is carried out the slagging-off to the zinc sediment that solidifies on the zinc liquid layer.

In summary, the present application includes at least one of the following beneficial effects:

the first and back sliding frames drive the hoisting frames to synchronously move to a proper position, then the positioning bolts are screwed to fix the positions of the sliding frames, then the electric power iron tower screws with corresponding specifications are stacked at the positions between two adjacent groups of hoisting frames, and a plurality of groups of second electric control winches are synchronously started to drive the second hoisting ropes to extend so that the electric power iron tower screws can carry out hot galvanizing treatment, thereby being convenient for meeting the electric power iron tower screw galvanizing requirements of different specifications;

and secondly, synchronously starting a plurality of groups of first electric control windlass to drive the first windlass rope to shrink so as to drive the screen plate and the deslagging frame to synchronously move upwards, and conveniently deslagging the solidified zinc slag on the zinc liquid layer under the action of the net structure of the screen plate.

Drawings

FIG. 1 is a schematic elevational cross-sectional view of the present application;

FIG. 2 is a right side view of a first hoist assembly, a hoisting frame, a slide frame and a mounting rail of the present application;

FIG. 3 is an enlarged schematic view of the portion A in FIG. 1 of the present application;

fig. 4 is a schematic diagram of a cross-sectional top view of a first hoist rope, a deslagging frame, an outer zinc liquid frame, an inner zinc liquid frame, a screen and a mounting frame.

In the figure: 1. a first electrically controlled hoist; 2. a first mounting frame; 3. a first hoisting rope; 4. a deslagging frame; 5. a zinc liquid outer frame body; 6. support legs; 7. a first heating wire; 8. a zinc liquid inner frame body; 9. a screen plate; 10. a second heating wire; 11. hoisting the frame; 12. a mounting frame; 13. a second hoisting rope; 14. a mounting hole; 15. a second mounting frame; 16. a second mounting plate; 17. the second electric control winch; 18. a sliding frame; 19. positioning bolts; 20. and (5) installing a cross bar.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

Referring to fig. 1, 2 and 3 of the drawings, one embodiment provided in the present application is: the utility model provides an electric power iron tower screw hot dip galvanizing device, including zinc liquid outer frame body 5, the roof fixed mosaic of zinc liquid outer frame body 5 has zinc liquid inner frame body 8, zinc liquid inner frame body 8 is heat conduction copper metal frame, the top position of zinc liquid inner frame body 8 sets up to the opening form, multiunit and the fixed supporting leg 6 of zinc liquid outer frame body 5 inner chamber diapire position phase-locking are installed to zinc liquid inner frame body 8 diapire position, the top position of zinc liquid outer frame body 5 is provided with multiunit first hoist subassembly, first hoist subassembly includes second installation frame 15, second installation frame 15 sets up the top position at sliding frame 18, the diapire position of second installation frame 15 inner chamber is fixed with the automatically controlled hoist engine 17 of second.

Referring to fig. 2 and 3 in the drawings of the specification, a second hoisting rope 13 penetrating through the bottom wall of the second installation frame 15 is wound outside the output shaft of the second electric control hoist 17, a plurality of groups of installation cross bars 20 are fixed at the bottom position of the second hoisting rope 13, a plurality of groups of sliding frames 18 are sleeved outside the plurality of groups of installation cross bars 20, positioning bolts 19 contacting with the outer walls of the installation cross bars 20 are respectively arranged on the outer walls of the plurality of groups of sliding frames 18 in a penetrating manner, hoisting frames 11 are respectively fixed at the bottom wall positions of the plurality of groups of sliding frames 18, and the longitudinal sections of the hoisting frames 11 are U-shaped.

And a proper amount of hot zinc liquid is injected into the inner cavity of the zinc liquid inner frame body 8 through an opening at the top of the zinc liquid inner frame body 8, the positioning bolts 19 are unscrewed to separate the zinc liquid inner frame body from the outer wall of the mounting cross rod 20, then the sliding frames 18 slide back and forth to synchronously slide on the outer wall of the mounting cross rod 20, so that the sliding frames 18 drive the hoisting frames 11 to synchronously move, the horizontal spacing between two adjacent groups of hoisting frames 11 can be adjusted to a proper value, then the positioning bolts 19 are screwed to tightly attach to the outer wall of the mounting cross rod 20 to fix the position of the sliding frames 18, then the electric iron tower screws with corresponding specifications are stacked at the positions between the two adjacent groups of hoisting frames 11, and a plurality of groups of second electric control windlass 17 are synchronously started to drive the second windlass ropes 13 to stretch, so that the hoisting frames 11 and the electric iron tower screws gradually stretch into the zinc liquid in the inner cavity of the zinc liquid inner frame body 8 to be treated, and the electric iron tower screws with different specifications are conveniently suitable for galvanizing requirements.

Referring to fig. 1 of the drawings, the top positions of two side walls of a plurality of groups of second mounting frames 15 are respectively fixed with a second mounting plate 16, the longitudinal section of the second mounting plates 16 is L-shaped, and the top wall positions of the plurality of groups of second mounting plates 16 are respectively provided with mounting holes 14. The second mounting frame 15 is attached to the top wall of the building, and the second mounting frame 15 can be fixed to the top wall of the building by the second mounting plate 16 by penetrating the mounting holes 14 using expansion bolts.

Referring to fig. 1 of the drawings, second heating wires 10 are fixed at the bottom of the outer walls of the periphery of the inner frame 8, and first heating wires 7 are fixed at the middle of the bottom wall of the inner frame 8, and the first heating wires 7 are arranged between groups of supporting legs 6. When galvanizing is performed, the second heating wire 10 and the first heating wire 7 are started to generate heat and conduct the heat into the zinc liquid through the zinc liquid inner frame body 8, so that the temperature of the zinc liquid is conveniently kept, and solidification caused by too low temperature of the zinc liquid is avoided as much as possible.

Referring to fig. 1 and 4 in the drawings of the specification, mounting frames 12 are fixed at two side positions of the top wall of a zinc liquid outer frame body 5, the longitudinal section of each mounting frame 12 is in a T shape, second hoisting assemblies extending to the inner cavity of the zinc liquid inner frame body 8 are mounted on the side walls of two groups of mounting frames 12 close to each other, each second hoisting assembly comprises a first mounting frame 2, the first mounting frame 2 is fixed on the outer wall of each mounting frame 12, a first electric control hoist 1 is fixed at the bottom wall position of the inner cavity of each first mounting frame 2, a first hoist rope 3 penetrating through the bottom wall of each first mounting frame 2 is wound outside an output shaft of each first electric control hoist 1, a screen 9 is fixed at the bottom position of each first hoist rope 3, each screen 9 is a copper screen, a deslagging frame 4 is fixed at the top wall position of each screen 9, and the outer diameter cross section size of each deslagging frame 4 is equal to the inner diameter cross section size of each zinc liquid inner frame body 8.

The synchronous starting of the plurality of groups of first electric control windlass 1 drives the first windlass rope 3 to shrink so as to drive the screen plate 9 and the deslagging frame 4 to synchronously move upwards in the inner cavity of the zinc liquid inner frame body 8, and zinc slag of the zinc liquid layer is automatically trapped in the inner cavity of the deslagging frame 4 under the action of the net structure of the screen plate 9, so that the zinc slag solidified on the zinc liquid layer is conveniently deslagged.

Working principle: when the electric iron tower screw hot galvanizing device is used, the zinc liquid outer frame body 5 and the zinc liquid inner frame body 8 are placed at proper positions, then the second mounting frame 15 is attached to the top wall of a building, the second mounting frame 15 can be fixed on the top wall of the building through the second mounting plate 16 by penetrating the mounting holes 14 through expansion bolts, and a proper amount of hot zinc liquid is injected into the inner cavity of the zinc liquid inner frame body 8 through the opening at the top of the zinc liquid inner frame body 8.

The positioning bolts 19 are unscrewed to separate the positioning bolts from the outer wall of the mounting cross rod 20, then the sliding frames 18 slide back and forth to synchronously slide on the outer wall of the mounting cross rod 20, so that the sliding frames 18 drive the hoisting frames 11 to synchronously move, the horizontal distance between two adjacent groups of hoisting frames 11 can be adjusted to a proper value, then the positioning bolts 19 are screwed to tightly attach the outer wall of the mounting cross rod 20, so that the positions of the sliding frames 18 are fixed, then the electric power iron tower screws with corresponding specifications are placed at the positions between the two adjacent groups of hoisting frames 11 in a stacking manner, a plurality of groups of second electric control winches 17 are synchronously started to drive the second hoisting ropes 13 to stretch, the hoisting frames 11 and the electric power iron tower screws can gradually stretch into zinc liquid in the inner cavity of the zinc liquid inner frame 8 and carry out hot galvanizing treatment, and the electric power iron tower screw galvanizing requirements with different specifications are conveniently met.

When galvanizing is performed, the second heating wire 10 and the first heating wire 7 are started to generate heat and conduct the heat into the zinc liquid through the zinc liquid inner frame body 8, so that the temperature of the zinc liquid is kept conveniently, solidification caused by the fact that the temperature of the zinc liquid is too low is avoided as much as possible, the plurality of groups of first electric control winches 1 are synchronously started to drive the first winch ropes 3 to shrink, so that the screen plate 9 and the deslagging frame 4 can be driven to synchronously move upwards in the inner cavity of the zinc liquid inner frame body 8, zinc slag of the zinc liquid layer is automatically trapped into the inner cavity of the deslagging frame 4 under the action of the net structure of the screen plate 9, and slag solidified on the zinc liquid layer is conveniently removed.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (6)

1. The utility model provides an electric power iron tower screw hot dip galvanize device, includes zinc liquid frame body (5), its characterized in that: the top wall position fixing of zinc liquid frame body (5) is inlayed and is had zinc liquid internal frame body (8), multiunit and support leg (6) that zinc liquid frame body (5) inner chamber diapire position is fixed mutually are installed to zinc liquid internal frame body (8) diapire position, the top position of zinc liquid frame body (5) is provided with multiunit first hoist assembly, multiunit the bottom position of first hoist assembly is fixed with multiunit installation horizontal pole (20), multiunit the outside cover of installation horizontal pole (20) is equipped with multiunit sliding frame (18), multiunit sliding frame (18) outer wall all wears to be equipped with positioning bolt (19) with installation horizontal pole (20) outer wall contact, multiunit sliding frame (18) diapire position all is fixed with hoist and mount frame (11).

2. The electric iron tower screw hot galvanizing device according to claim 1, wherein: the first winch assembly comprises a second installation frame (15), the second installation frame (15) is arranged at the upper position of the sliding frame (18), a second electric control winch (17) is fixed at the bottom wall position of the inner cavity of the second installation frame (15), a second winch rope (13) penetrating through the bottom wall of the second installation frame (15) is wound outside an output shaft of the second electric control winch (17), and the bottom position of the second winch rope (13) is fixed with the top wall position of the installation cross rod (20).

3. The electric iron tower screw hot galvanizing device according to claim 2, wherein: the top positions of two side walls of the second mounting frames (15) are respectively fixed with a second mounting plate (16), and the top wall positions of the second mounting plates (16) are respectively provided with mounting holes (14).

4. The electric iron tower screw hot galvanizing device according to claim 1, wherein: the bottom of the outer wall of the periphery of the zinc liquid inner frame body (8) is fixedly provided with second heating wires (10), and the middle position of the bottom wall of the zinc liquid inner frame body (8) is fixedly provided with first heating wires (7).

5. The electric iron tower screw hot galvanizing device according to claim 1, wherein: the zinc liquid inner frame comprises a zinc liquid outer frame body (5), mounting frames (12) are fixed at two side positions of the top wall of the zinc liquid outer frame body (5), second hoisting assemblies extending to the inner cavity of the zinc liquid inner frame body (8) are mounted on the side walls of two groups of mounting frames (12) close to each other, a screen plate (9) is fixed at the bottom position of each second hoisting assembly, and a deslagging frame (4) is fixed at the top wall position of the screen plate (9).

6. The electric iron tower screw hot galvanizing device according to claim 5, wherein: the second winch assembly comprises a first installation frame (2), the first installation frame (2) is fixed on the outer wall of the installation frame (12), a first electric control winch (1) is fixed at the bottom wall of the inner cavity of the first installation frame (2), a first winch rope (3) penetrating through the bottom wall of the first installation frame (2) is wound outside an output shaft of the first electric control winch (1), and the bottom position of the first winch rope (3) is fixed with the top wall of the screen plate (9).

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