CN212610863U - Continuous zinc impregnation equipment - Google Patents
Continuous zinc impregnation equipment Download PDFInfo
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- CN212610863U CN212610863U CN202021323530.7U CN202021323530U CN212610863U CN 212610863 U CN212610863 U CN 212610863U CN 202021323530 U CN202021323530 U CN 202021323530U CN 212610863 U CN212610863 U CN 212610863U
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Abstract
The utility model discloses a continuous zinc impregnation device, which comprises a travelling crane track, two zinc impregnation travelling cranes, a zinc impregnation tank, a zinc impregnation furnace and a control box, wherein the travelling crane track passes through the bottom of the zinc impregnation furnace, the two zinc impregnation travelling cranes are respectively arranged at two sides of the zinc impregnation furnace and positioned on the travelling crane track, the zinc impregnation tank is movably arranged at the upper part of the zinc impregnation travelling crane, the bottom of the zinc impregnation furnace is provided with a hydraulic lifting column component, two sides of the zinc impregnation furnace are provided with a lifting upper half door, two ends of the zinc impregnation travelling crane are provided with a fixed lower half door matched with the lifting upper half door, when the hydraulic lifting column and the lifting upper half door are descended, the zinc impregnation furnace is pressed on the upper part of the zinc impregnation travelling crane, the bottom of the lifting upper half door is pressed with the top of the fixed lower half door, so that the upper part of the zinc impregnation travelling crane forms a closed heating furnace, the utility model can lead the assembled zinc impregnation travelling crane to be fed in one step, realize continuous zinc impregnation, save time, and automatically collect sand by a sand, meanwhile, a large amount of dust is reduced, and the design is time-saving, labor-saving and environment-friendly.
Description
Technical Field
The utility model relates to a zinc impregnation technical field specifically indicates a continuous zinc impregnation equipment.
Background
The zinc impregnation furnace is an auxiliary device which is used for workpieces, enables the workpieces and the zinc powder in the furnace to continuously collide and rub under the condition that the zinc powder is heated, enables the zinc powder to be adhered to the surfaces of the workpieces when the surfaces of the workpieces are in an active state, so that the zinc powder can better permeate and diffuse into the workpieces, forms a firm, flat, compact and uniform-thickness iron-zinc alloy layer on the surfaces of the workpieces, and is widely used in the field of anticorrosion heat treatment of metal workpieces; the zincizing stove that uses at present is that the rotating electrical machines drives the rotation of zincizing stove inner tube charging cylinder through the driving medium, and this kind of zincizing device can't realize continuous zincizing, can cause the waste of resource, and its time is long, the production is hard can not satisfy the demand of production.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, the utility model provides a technical scheme does: a continuous zinc impregnation device comprises a travelling crane track, zinc impregnation travelling cranes, a zinc impregnation tank, a zinc impregnation furnace and a control box, wherein the travelling crane track penetrates through the bottom of the zinc impregnation furnace, the two zinc impregnation travelling cranes are respectively arranged at two sides of the zinc impregnation furnace and positioned on the travelling crane track and can respectively move towards the zinc impregnation furnace along the travelling crane track, the zinc impregnation tank is movably arranged at the upper part of the zinc impregnation travelling crane, one end of the zinc impregnation travelling crane, which is far away from the zinc impregnation furnace, is provided with a driving component for driving the zinc impregnation tank to rotate, the bottom of the zinc impregnation furnace is provided with a hydraulic lifting column component, two sides of the zinc impregnation furnace are provided with an upper lifting half door, two ends of the zinc impregnation travelling crane are provided with a fixed lower half door matched with the upper lifting half door, when the hydraulic lifting column and the upper lifting half door are lifted, the zinc impregnation travelling crane can pass in and out the zinc impregnation furnace along the travelling crane track, when the hydraulic lifting column and the upper half door are lowered, the zinc impregnation furnace is, and the bottom of the upper lifting half door is pressed with the top of the lower fixed half door, so that the upper part of the zinc impregnation travelling crane forms a closed heating furnace.
Preferably, the driving track is including setting up in the track pipe of zinc infiltration driving lower part to and set up in the track chassis of track pipe lower part, the track pipe is parallel arrangement's dual track pipe.
Preferably, the zinc infiltration driving includes the driving chassis, sets up in the outside driving wheel of driving chassis, sets up chassis frame in the driving chassis, sets up in the heat preservation cotton on chassis frame upper portion and sets up two sets of zinc infiltration jar lifting assembly in the driving chassis, and one of them group zinc infiltration jar lifting assembly sets up in driving chassis tip, and another group zinc infiltration jar lifting assembly sets up in the driving chassis other end and corresponds between the tip with the driving chassis and be equipped with empty platform, set up drive assembly on the empty platform, fixed lower half door sets up in zinc infiltration lifting assembly inboard.
Preferably, the quantity of driving wheel sets up respectively in zinc impregnation driving both sides for a plurality of, the driving wheel includes joint in interior wheel, the outer wheel of driving track both sides, interior wheel, outer wheel pass through driving support and are connected with driving chassis, chassis frame includes that several are followed driving chassis length direction and is set up the chassis pipe, be connected with the enhancement pipe between the chassis pipe, be equipped with wheel drive on the driving support.
Preferably, the zinc impregnation tank lifting assembly comprises upright columns arranged side by side, supporting rollers are respectively arranged at the tops of the upright columns, a lower semicircular hole corresponding to the supporting rollers is formed in the fixed lower half door, and an upper semicircular hole corresponding to the lower semicircular hole is formed in the lifting upper half door; the driving assembly comprises a speed reducer arranged on the empty platform, and a driving gear matched with the zinc impregnation tank is arranged on an output shaft of the speed reducer.
Preferably, the zinc impregnation tank comprises a tank body arranged between the fixed lower half door, driving shafts corresponding to the lower semicircular hole and the support roller are outwards arranged at two ends of the tank body, when the zinc impregnation furnace descends, the bottom of the lifting upper half door is in press fit with the top of the fixed lower half door, the driving shafts penetrate through the circular holes formed by the lifting upper half door and the fixed lower half door and realize positioning, a driven gear meshed with the driving gear is arranged on the driving shaft close to one end of the speed reducer, and a heat-releasing galvanic couple sensor is inserted on the driven gear.
Preferably, the jar body includes the upper portion open-ended cavity of compriseing lateral wall board, end wall board, and its opening part is equipped with the upper cover, the upper cover can be dismantled with lateral wall board, end wall board through the bolt all around and be connected the formation cavity jar body, lateral wall board, upper cover structure are the same, including the plate body, along the reinforcing tube that plate body length direction set up, along the square pipe that plate body width direction set up, form the receiver between reinforcing tube and the square pipe, be located lateral wall board, the inboard receiver one side welding of upper cover and be fixed with the piece of shifting sand.
Preferably, the zincizing furnace comprises a furnace body consisting of a stand column and a furnace wall plate, wherein heat insulation cotton is arranged on the inner wall of the furnace wall plate, a reflecting plate is arranged between the heat insulation cotton and the inner wall of the furnace wall plate, a plurality of outlet holes are formed in the reflecting plate, a plurality of heating light tubes are attached to the inner side of the reflecting plate, and wires of the heating light tubes are led out of the zincizing furnace from the outlet holes.
Preferably, when the zincizing furnace is pressed downwards, the bottom of the heat insulation cotton is pressed with the heat insulation cotton on the upper part of the chassis of the traveling crane, so that a sealed furnace body is formed between the heat insulation cotton and the chassis of the traveling crane.
Preferably, the heating light pipes are arranged on two sides of the upper part in the furnace body.
After the structure more than adopting, the utility model has the advantages of as follows: 1. the utility model discloses set up a zinc infiltration driving respectively in zinc infiltration furnace both sides, the workman can put into the zinc infiltration driving after the zinc infiltration jar of the left side dress zinc infiltration work piece, impel it in the zinc infiltration furnace, after the work piece zinc infiltration completion, draw out the zinc infiltration furnace to the left side, at this moment put into the zinc infiltration driving on the right side with the zinc infiltration jar of the right side dress work piece again and impel in the zinc infiltration furnace, after the work piece zinc infiltration completion, draw out the zinc infiltration furnace to the right side, such setting makes the zinc infiltration driving that adorns advance one by one, realize continuous zinc infiltration, and save time, save the manual work simultaneously, practice thrift manufacturing cost;
2. the utility model has the advantages that the two zinc impregnation travelling cranes are arranged, so that a worker can load and unload workpieces at two ends, and a large amount of residual heat is reserved in the furnace during continuous zinc impregnation, so that the temperature rise speed is high, the electric energy is saved, and the resources are saved during processing of the other tank of workpieces;
3. the utility model discloses set up in the zinc infiltration jar and constitute by group's sand shifting piece, plate body, reinforced pipe, square pipe and have the open-ended and receive the husky box, make zinc infiltration jar when rotating, its inside zinc infiltration sand can be by oneself receipts in receiving the husky box, can drop the sand of receiving evenly again and spill on the work piece; when the furnace is shut down, the zinc-infiltrated sand in the zinc-infiltrated tank falls into a sand collecting box at the bottom of the zinc-infiltrated tank, so that the workpiece and the zinc-infiltrated sand are automatically separated, the step of screening the sand is omitted, the zinc-infiltrated sand can be reused, a large amount of dust is reduced, and the design is time-saving, labor-saving and environment-friendly;
the utility model discloses structural installation maintenance is simple, energy-concerving and environment-protective, the completion continuity can be good, has improved work efficiency greatly, has reduced cost in business, factor of safety is high.
Drawings
Fig. 1 is a schematic structural diagram of the continuous zinc impregnation equipment of the patent name of the utility model.
Figure 2 is the utility model discloses a patent name is a side structure schematic diagram of continuous zinc infiltration equipment.
FIG. 3 is a schematic view of the fitting structure of the zincizing traveling crane and the traveling crane rail in the continuous zincizing device of the patent name of the utility model.
Fig. 4 is a schematic structural diagram of a chassis frame in the continuous zinc impregnation equipment of the patent name of the utility model.
Fig. 5 is a schematic view of the fitting structure of the traveling wheel and the traveling rail in the continuous zinc impregnation equipment of the patent name of the utility model.
Figure 6 is the utility model discloses a zincizing driving and driving track complex side structure sketch map in continuous zincizing equipment.
Fig. 7 is a schematic structural view showing the cooperation of the upper half door and the lower half door in the continuous zinc impregnation device.
Figure 8 is the utility model discloses a bottom structure sketch map of zincizing driving in continuous zincizing equipment.
FIG. 9 is a schematic view of the internal structure of a zincizing furnace in a continuous zincizing apparatus of the present invention.
FIG. 10 is a schematic view of the external structure of a zincizing furnace in a continuous zincizing apparatus of the present invention.
FIG. 11 is a schematic view of the external structure of a zinc impregnation tank in the continuous zinc impregnation equipment of the present invention.
FIG. 12 is a schematic view of the internal structure of a sidewall plate of a zincizing tank in the continuous zincizing apparatus of the utility model.
Figure 13 is the utility model discloses a name of an internal structure schematic diagram of zinc infiltration jar in continuous zinc infiltration equipment.
As shown in the figure: 1. a travelling crane track, 1.1, a track pipe, 1.2, a track chassis, 2, a zinc impregnation travelling crane, 2.1, a travelling crane chassis, 2.2, a travelling wheel, 2.2a, an inner wheel, 2.2b, an outer wheel, 2.2c, a travelling crane support, 2.3, a chassis frame, 2.4, a zinc impregnation tank lifting component, 2.4a, a column, 2.4b, a supporting roller, 2.5, an empty platform, 2.6, a driving component, 3, a zinc impregnation tank, 3.1, a tank body, 3.1a, a side wall plate, 3.1a-1, a plate body, 3.1a-2, a reinforcing pipe, 3.1a-3, a square pipe, 3.1b, an end wall plate, 3.1c, an upper cover, 3.2, a driving shaft, 3.3, a driven gear, 3.4, a heat release galvanic couple sensor, 4, a zinc impregnation furnace, 4.1, a furnace plate, 4.2, a heat insulation cotton plate, 4.5, a heat insulation plate, a door component, a half-lifting hole, a driving component, a hydraulic lifting hole, a driving component, a half lifting hole, a driving component, 8. fixing a lower half door, 8.1, a lower semicircular hole, 9, a heating light pipe, 10 and a sand-shifting sheet.
Detailed Description
With reference to the attached drawings, the continuous zinc impregnation equipment comprises a travelling crane track 1, a zinc impregnation travelling crane 2, two zinc impregnation travelling cranes 3, a zinc impregnation furnace 4 and a control box, wherein the travelling crane track 1 penetrates through the bottom of the zinc impregnation furnace 4, the two zinc impregnation travelling cranes 2 are respectively arranged on two sides of the zinc impregnation furnace 4 and positioned on the travelling crane track 1 and can respectively move towards the zinc impregnation furnace 4 along the travelling crane track 1, the zinc impregnation tank 3 is movably arranged on the upper part of the zinc impregnation travelling crane 2, one end of the zinc impregnation travelling crane 2 far away from the zinc impregnation furnace is provided with a driving assembly 5 for driving the zinc impregnation tank 3 to rotate, the bottom of the zinc impregnation furnace 4 is provided with a hydraulic lifting column assembly 7, two sides of the zinc impregnation furnace 4 are provided with upper lifting half doors 6, two ends of the zinc impregnation travelling crane 2 are provided with lower fixed half doors 8 matched with the upper lifting half doors 6, when the hydraulic lifting column assembly 7 and the upper lifting half doors 6 are lifted, the zinc impregnation travelling crane 2 can pass in and out of, when the hydraulic lifting column assembly 7 and the upper lifting half door 6 descend, the zinc impregnation furnace 4 is pressed on the upper part of the zinc impregnation travelling crane 2, and the bottom of the upper lifting half door 6 is pressed on the top of the lower fixed half door 8, so that the upper part of the zinc impregnation travelling crane 2 forms a closed heating furnace.
As a preferred embodiment of this embodiment, the traveling crane track 1 includes a track pipe 1.1 disposed at the lower part of the zincizing traveling crane 2, and a track chassis 1.2 disposed at the lower part of the track pipe 1.1, and the track pipe 1.1 is a dual-track pipe disposed in parallel.
As a preferred embodiment of this embodiment, the zincizing traveling crane 2 includes a traveling crane chassis 2.1, traveling wheels 2.2 disposed outside the traveling crane chassis 2.1, a chassis frame 2.3 disposed in the traveling crane chassis 2.1, insulation wool disposed on the upper portion of the chassis frame 2.3, and two sets of zincizing tank lifting assemblies 2.4 disposed in the traveling crane chassis 2.1, wherein one set of zincizing tank lifting assemblies 2.4 is disposed at an end portion of the traveling crane chassis 2.1, the other set of zincizing tank lifting assemblies 2.4 is disposed at the other end of the traveling crane chassis 2.1 and is provided with an empty platform 2.5 between the end portion corresponding to the traveling crane chassis 2.1, the empty platform 2.5 is provided with a driving assembly 2.6, and the fixed lower half door 8 is disposed inside the zincizing lifting assemblies 2.4.
As a preferred embodiment of this embodiment, the quantity of driving wheel 2.2 is a plurality of and sets up respectively in zinc impregnation driving 2 both sides, driving wheel 2.2 is including the joint in interior wheel 2.2a, outer wheel 2.2b of driving track 1.1 both sides, interior wheel 2.2a, outer wheel 2.2b are connected with driving chassis 2 through driving support 2.2c, chassis frame 2.3 includes that several are followed driving chassis 2.1 length direction and are set up bottom coil pipe 2.3a, be connected with between bottom coil pipe 2.3a and manage 2.3b, be equipped with wheel drive on the driving support.
As a preferred embodiment of this embodiment, the lifting assembly 2.4 of the zinc impregnation tank comprises two upright posts 2.4a arranged side by side, two supporting rollers 2.4b are respectively arranged on the tops of the upright posts 2.4a, a lower semicircular hole 8.1 corresponding to the supporting roller 2.4b is arranged on the fixed lower half door 8, and an upper semicircular hole 6.1 corresponding to the lower semicircular hole 8.1 is arranged on the lifting upper half door 6; the driving assembly 5 comprises a speed reducer 5.1 arranged on the empty platform 2.5, and a driving gear 5.2 matched with the zinc impregnation tank 3 is arranged on an output shaft of the speed reducer 5.1.
As a preferred embodiment of this embodiment, the zincizing tank 3 includes a tank body 3.1 disposed between the fixed lower half-door 8, two ends of the tank body 3.1 are outwardly provided with a driving shaft 3.2 corresponding to the lower half-door 8.1 and the idler wheel 2.4c, when the zincizing furnace 4 descends, the bottom of the upper lifting half-door 6 is pressed on the top of the fixed lower half-door 8, so that the driving shaft 3.2 passes through a circular hole formed by the upper lifting half-door 6 and the fixed lower half-door 8 and is positioned, a driven gear 3.3 engaged with the driving gear 5.2 is disposed on the driving shaft 3.2 near one end of the speed reducer 5.1, and a heat-releasing thermocouple sensor 3.4 is inserted on the driven gear 3.3.
As a preferred embodiment of this embodiment, the tank body 3.1 includes a cavity with an upper opening, which is composed of a side wall plate 3.1a and an end wall plate 3.1b, an upper cover 3.1c is provided at the opening, the periphery of the upper cover 3.1c is detachably connected with the side wall plate 3.1a and the end wall plate 3.1b by bolts to form a hollow tank body, the side wall plate 3.1a and the upper cover 3.1c have the same structure, and include a plate body 3.1a-1, a reinforcing pipe 3.1a-2 arranged along the length direction of the plate body 3.1d, and a square pipe 3.1a-3 arranged along the width direction of the plate body 3.1d, a cavity is formed between the reinforcing pipe 3.1a-2 and the square pipe 3.1a-3, a cavity located inside the side wall plate 3.1a and the upper cover 3.1c, and a sand-shifting sheet 9 is welded and fixed at one side of the outlet, so that the sand shifting sheet 9, the plate body, the pipe.
As a preferred embodiment of this embodiment, the zincizing furnace 4 includes a furnace body composed of a vertical column and a furnace wall plate 4.1, the inner wall of the furnace wall plate 4.1 is provided with heat insulation cotton 4.2, a reflective plate 4.3 is arranged between the heat insulation cotton 4.2 and the inner wall of the furnace wall plate 4.1, the reflective plate 4.3 is provided with a plurality of outlet holes 4.4, a plurality of heating light tubes 9 are attached to the inner side of the reflective plate 4.3, and the wires of the heating light tubes 9 are led out of the zincizing furnace 4 from the outlet holes 4.4.
As a preferred embodiment of this embodiment, when the zincizing furnace 4 is pressed down, the bottom of the heat-insulating cotton 4.2 is pressed with the heat-insulating cotton on the upper portion of the traveling crane chassis 2.1, so that a sealed furnace body is formed between the heat-insulating cotton 4.2 and the traveling crane chassis 2.1.
As the preferred embodiment of the embodiment, the heating light pipes 4.4 are arranged at two sides of the upper part in the furnace body.
The utility model also comprises a control box connected with the wheel driving device, the speed reducer, the heat-releasing couple sensor and the heating light pipe.
The utility model discloses set up a zinc impregnation driving respectively in zinc impregnation furnace both sides, speed reducer drive assembly sets up respectively in the outer end of every zinc impregnation driving, the workman puts into zinc impregnation driving after the zinc impregnation jar of the left side dress zinc impregnation work piece, impels it in the zinc impregnation driving, after the work piece zinc impregnation is finished, draw out the zinc impregnation furnace to the left side, put into the zinc impregnation driving on the right side again and impel the zinc impregnation furnace with the zinc impregnation jar of the right side dress work piece this moment, after the work piece zinc impregnation is finished, draw out the zinc impregnation furnace to the right side; by the arrangement, the assembled zinc impregnation travelling crane can be fed in and discharged out at one time, time is saved, labor is saved, production cost is saved, and similarly, workers can load and unload workpieces at two ends, and a large amount of residual heat is reserved in the furnace, so that the temperature rising speed is high, electric energy is saved, resources are saved when another tank of workpieces are processed, and the driving mode of the zinc impregnation travelling crane can be controlled by remote control;
the zinc impregnation tank of the utility model takes the square iron plate as the wall plate and takes the reinforcing pipes and the square pipes as the reinforcing ribs, so that the tank body can be reinforced, the tank body is not deformed by the impact of a workpiece, the zinc impregnation tank has good wear resistance and good corrosion resistance, the heating is fast and uniform, and the heating time is saved; the sand shifting sheet, the plate body, the reinforcing pipe and the square pipe inside the tank body form a sand collecting box with an opening, the sand collecting box at a lower position starts to collect sand along with the change of the position of each sand collecting box in the rotating process of the tank body, and the zinc-infiltrated sand in the sand collecting box at a higher position automatically spills out and falls onto a workpiece, so that the workpiece can better and uniformly permeate;
the utility model discloses the heating fluorescent lamp of well zinc infiltration stove uses special fluorescent lamp as the heating, saves 40% than ordinary heating method, energy-concerving and environment-protective, the heat preservation cotton of shell presses and makes it form an independent heating furnace body on the zinc infiltration driving, and the setting makes the driving wheel be difficult for receiving the high temperature influence outside the heating furnace body like this, is difficult for going to receive the impaired maintenance many times under the high temperature situation, when the overhead door of zinc infiltration stove rises and hydraulic lifting column rises, zinc infiltration stove casing rises, and make the zinc infiltration driving shift out after the zinc infiltration driving breaks away from the distance;
when the utility model is implemented, a worker firstly installs a workpiece of a side zinc infiltration tank, the hydraulic lifting column component at the bottom of the zinc infiltration furnace is improved, the lifting door is opened, the zinc infiltration tank with the workpiece installed is placed on the zinc infiltration traveling crane at the moment to push the zinc infiltration tank into the furnace, the upper half door of the front and back lifting is descended and pressed with the fixed lower half door at the two ends of the zinc infiltration traveling crane, and the hydraulic equipment is recovered (descended) to ensure that the heat preservation cotton in the zinc infiltration furnace and the zinc infiltration traveling crane are pressed to form an independent heating furnace body; a heating light pipe in the furnace is started, the temperature in the furnace is raised, and simultaneously a speed reducer of a driving assembly is started, the speed reducer drives a driven gear at one end of the zinc impregnation tank through a driving gear to drive the zinc impregnation tank to rotate, so that the temperature-raised zinc impregnation tank in the furnace rotates all the time, and the tank body is uniformly heated; the sand shifting sheet in the zinc infiltration tank enables zinc infiltration sand to be automatically collected in the sand collecting box in the rotating process, and the collected sand can uniformly fall off and be sprayed on a workpiece in the rotating process;
when the zincizing travelling crane on one side operates in the zincizing travelling crane zincizing furnace, a worker can go to the other side to place a workpiece into the tank body, and place the zincizing travelling crane on the other side, after the process is completed in the zincizing travelling crane, the hydraulic lifting column lifts up the zincizing furnace, the zincizing travelling crane in the furnace is pulled out for cooling, the worker can push the zincizing travelling crane with the workpiece on the other side into the furnace at the moment, and the hydraulic lifting column assembly is put down and then pressed and heated with the zincizing travelling crane, the process is the same as the processing process of the previous zincizing travelling crane, but a large amount of residual temperature is remained in the zincizing travelling crane, resources can be utilized, the working efficiency is greatly improved, manpower is saved, the zincizing travelling crane can save time once in one step and one step, electricity can be saved, the rail wheel is arranged outside the.
The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.
Claims (10)
1. A continuous zinc impregnation equipment is characterized in that: the zinc impregnation furnace comprises a travelling crane track, a zinc impregnation travelling crane, a zinc impregnation tank, a zinc impregnation furnace and a control box, wherein the travelling crane track penetrates through the bottom of the zinc impregnation furnace, the two zinc impregnation travelling cranes are respectively arranged at two sides of the zinc impregnation furnace and positioned on the travelling crane track and can respectively move towards the zinc impregnation furnace along the travelling crane track, the zinc impregnation tank is movably arranged at the upper part of the zinc impregnation travelling crane, one end of the zinc impregnation travelling crane, which is far away from the zinc impregnation furnace, is provided with a driving component for driving the zinc impregnation tank to rotate, the bottom of the zinc impregnation furnace is provided with a hydraulic lifting column component, two sides of the zinc impregnation furnace are provided with an upper lifting half door, two ends of the zinc impregnation travelling crane are provided with a fixed lower half door matched with the upper lifting half door, when the hydraulic lifting column and the upper lifting half door are lifted, the zinc impregnation travelling crane can enter and exit the zinc impregnation furnace along the travelling crane track, when the hydraulic lifting column and the upper half door are lowered, the zinc impregnation furnace is pressed on the upper part of the zinc impregnation, so that the upper part of the zincizing travelling crane forms a closed heating furnace.
2. A continuous zincizing apparatus according to claim 1, characterized in that: the driving track is including setting up in the track pipe of zinc impregnation driving lower part to and set up in the track chassis of track pipe lower part, the track pipe is parallel arrangement's dual track pipe.
3. A continuous zincizing apparatus according to claim 1, characterized in that: the zinc infiltration driving includes the driving chassis, sets up in the outside driving wheel of driving chassis, sets up chassis frame in the driving chassis, sets up in the heat preservation cotton on chassis frame upper portion and sets up two sets of zinc infiltration jar lift subassemblies in the driving chassis, and wherein a set of zinc infiltration jar lifts the subassembly and sets up in driving chassis tip, and another group zinc infiltration jar lifts the subassembly and sets up in the driving chassis other end and corresponds between the tip with the driving chassis and be equipped with empty platform, set up drive assembly on the empty platform, fixed lower half door sets up and lifts the subassembly inboard in zinc infiltration.
4. A continuous zincizing apparatus according to claim 3, characterized in that: the quantity of driving wheel sets up respectively in zinc impregnation driving both sides for a plurality of, the driving wheel includes joint in interior wheel, the outer wheel of driving track both sides, interior wheel, outer wheel pass through the driving support and are connected with the driving chassis, chassis frame includes that several are followed driving chassis length direction and is set up the chassis pipe, be connected with the reinforcing pipe between the chassis pipe, be equipped with wheel drive on the driving support.
5. A continuous zincizing apparatus according to claim 3, characterized in that: the zinc impregnation tank lifting assembly comprises upright columns arranged side by side, supporting rollers are respectively arranged at the tops of the upright columns, lower semicircular holes corresponding to the supporting rollers are formed in the fixed lower half door, and upper semicircular holes corresponding to the lower semicircular holes are formed in the lifting upper half door; the driving assembly comprises a speed reducer arranged on the empty platform, and a driving gear matched with the zinc impregnation tank is arranged on an output shaft of the speed reducer.
6. A continuous zincizing apparatus according to claim 5, wherein: the zinc impregnation tank comprises a tank body arranged between the fixed lower half door, driving shafts corresponding to the lower semicircular hole and the support roller are outwards arranged at two ends of the tank body, when the zinc impregnation furnace descends, the bottom of the lifting upper half door is in press fit with the top of the fixed lower half door, the driving shafts penetrate through circular holes formed by the lifting upper half door and the fixed lower half door and realize positioning, a driven gear meshed with the driving gear is arranged on the driving shaft close to one end of the speed reducer, and a heat-releasing galvanic couple sensor is inserted in the driven gear.
7. The continuous zincizing apparatus according to claim 6, wherein: the jar body includes the upper portion open-ended cavity of compriseing lateral wall board, end wall board, and its opening part is equipped with the upper cover, the upper cover can be dismantled with lateral wall board, end wall board through the bolt all around and be connected the formation cavity jar body, lateral wall board, upper cover structure are the same, including the plate body, along the back up tube that plate body length direction set up, along the square pipe that plate body width direction set up, form the receiver between back up tube and the square pipe, be located lateral wall board, the inboard receiver one side welding of upper cover and be fixed with group sand piece.
8. A continuous zincizing apparatus according to claim 1, characterized in that: the zinc impregnation furnace comprises a furnace body consisting of a stand column and a furnace wall plate, wherein heat insulation cotton is arranged on the inner wall of the furnace wall plate, a reflecting plate is arranged between the heat insulation cotton and the inner wall of the furnace wall plate, a plurality of outlet holes are formed in the reflecting plate, a plurality of heating light tubes are attached to the inner side of the reflecting plate, and heating light tube leads are led out of the zinc impregnation furnace from the outlet holes.
9. A continuous zincizing apparatus according to claim 8, wherein: when the zincizing furnace is pressed downwards, the bottom of the heat insulation cotton is pressed with the heat insulation cotton on the upper part of the chassis of the travelling crane, so that a sealed furnace body is formed between the heat insulation cotton and the chassis of the travelling crane.
10. A continuous zincizing apparatus according to claim 8, wherein: the heating light pipes are arranged on two sides of the upper part in the furnace body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021323530.7U CN212610863U (en) | 2020-07-08 | 2020-07-08 | Continuous zinc impregnation equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202021323530.7U CN212610863U (en) | 2020-07-08 | 2020-07-08 | Continuous zinc impregnation equipment |
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Publication Number | Publication Date |
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CN212610863U true CN212610863U (en) | 2021-02-26 |
Family
ID=74745213
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202021323530.7U Active CN212610863U (en) | 2020-07-08 | 2020-07-08 | Continuous zinc impregnation equipment |
Country Status (1)
Country | Link |
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CN (1) | CN212610863U (en) |
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2020
- 2020-07-08 CN CN202021323530.7U patent/CN212610863U/en active Active
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