CN114029421B - Full-automatic production equipment for tinplate - Google Patents

Abstract

The invention discloses full-automatic production equipment for a tin can, which comprises a working table and a storage chamber, wherein a limiting channel for limiting materials is formed in the working table, the storage chamber is formed in the working table and is positioned right below the limiting channel, an air suction jacking structure for processing the materials is arranged in the storage chamber, and an air blowing structure for increasing the heat dissipation speed is connected to the side surface of the air suction jacking structure; when the first piston ring moves downwards, the air pressure at the upper end of the fixed column is reduced, the air pressure at the lower end of the fixed column is increased, suction is generated to the material when the air pressure at the upper end of the fixed column is reduced, the material is processed into a tank shape, and meanwhile, the air pressure at the lower end of the fixed column is increased, so that gas is discharged into the water storage chamber through the bronchus, the gas flows, the contact speed of the gas and water is accelerated, heat dissipation is performed on the water, and the water cools the material.

Description

Full-automatic production equipment for tinplate

Technical Field

The invention relates to the technical field of tinplate cans, in particular to full-automatic production equipment for tinplate cans.

Background

Tinplate, also known as tinplate, is commonly known as electroplated tin sheet steel, and english abbreviation SPTE refers to cold rolled low carbon sheet steel or strip with commercially pure tin plated on both sides. Tin mainly plays a role in preventing corrosion and rust. The strength and formability of steel and the corrosion resistance, tin soldering and beautiful appearance of tin are combined into one material, and the tin alloy has the characteristics of corrosion resistance, no toxicity, high strength and good ductility, so the tin is often used for manufacturing tin cans, equipment is required for processing the tin when the tin is processed into the tin cans, so the tin is processed into the required tin cans, and common equipment has problems when the tin is processed, such as:

when the tinplate is processed, general equipment firstly punches the tinplate into a can shape when in use, then rolls up the angle to the tinplate can, thereby finishing the processing of the tinplate can, and in the process of re-punching, a workpiece is usually placed on a workbench, and then the tinplate is punched by using punching equipment.

Disclosure of Invention

The invention aims to provide full-automatic production equipment for a tin can, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: the utility model provides a full-automatic production facility of tin-plate can, includes workstation and apotheca, the spacing way of spacing is carried out to the material is offered to the inside of workstation, the side upper end and the side lower extreme of spacing way are cylindrical, and the side upper end diameter of spacing way is greater than the side lower extreme diameter of spacing way, the junction of upper and lower both ends of spacing way is the inclined plane, the apotheca has been offered to the inside of workstation, the apotheca is located under the spacing way, the inside of apotheca is provided with the jacking structure of breathing in that carries out processing to the material, the side of jacking structure of breathing in is connected with the blast structure that increases the radiating speed, the water storage room that carries out radiating to the material has been offered to the inside of workstation, the water supply radiating is the thermovent of filter screen form has been offered to the upper end of apotheca, the inside of the support arm is connected with a guide structure for limiting and rolling angles of materials, the outside of the guide structure is connected with a speed reducing mechanism which is convenient for taking materials, the materials are processed and pushed out by utilizing a jacking structure, when the materials are processed, gas can enter the inside of the blasting structure so as to push cooling water in the water storage chamber to flow, thereby accelerating the contact speed of the cooling water in the water storage chamber and air, further cooling the cooling water, ensuring the cooling efficiency of the device, simultaneously, outside gas can flow into the water storage chamber through a filtering net-shaped cooling port so as to cool the cooling water, the materials can be contacted with the guide structure when being pushed out by jacking, the guide structure guides the materials, thereby rolling angles of the materials are realized, after the materials are processed, the guide structure can limit the materials, and prevent the materials from moving downwards, the air suction jacking structure restores to the original position at the moment, and the speed reducing mechanism can reduce the descending speed of the guide structure and the material, so that the material is positioned at a higher position, the material is convenient to collect, the connection parts of the upper end and the lower end of the limiting channel are inclined planes, the heated material is placed in the limiting channel, and then the device utilizes suction to process the material, and meanwhile, the material is cooled, so that the material is processed into a required tank shape.

Further, the jacking structure of breathing in includes the fixed column, the fixed column is located the inside of apotheca, the inside of fixed column is provided with the base, the upper end rotation of base is connected with the promotion structure, the upper end of promotion structure is provided with first piston ring, first piston ring sliding friction connects in the inside of fixed column, air-supply pipe and blast pipe that supplies the gas flow have been seted up respectively to the both sides of fixed column, and the rotation base is fixed with the fixed column, utilizes the bolt to fix the fixed column in the inside of apotheca, when processing, the promotion structure drives first piston ring and moves down to make the atmospheric pressure in the fixed column reduce, because the inside of fixed column and spacing way is linked together, so the atmospheric pressure in the spacing way also can reduce, thereby produces suction to the material in the spacing way, and the material is become can the form by the cake deformation under the suction effect, and after processing finishes, the promotion structure drives first piston ring upward movement, and first piston ring promotes the inside ejection of second piston ring and ejector pin, thereby is convenient for carry out subsequent processing and take out to the material.

Further, the ejector pin is installed to the inside embedded of fixed column, the inside of ejector pin is the cavity form, the outside cover in both ends of ejector pin is equipped with the second piston ring, the more distal end of ejector pin from first piston ring runs through the fixed column and is located the inside of spacing way, and after the jacking structure installation of inhaling, install the ejector pin is embedded in the inside of fixed column, and the second piston ring is provided with 2, and the inside that a second piston ring is located, and another second piston ring is located the inside of spacing way to guaranteed the gas tightness between fixed column and the spacing way.

Further, the opening part equiangular degree of air-supply line is provided with branch, the other end of branch is connected with the gag lever post, the outside sliding connection of gag lever post has the solid fixed ring to the air-supply line confined, can arouse the change of fixed column lower extreme air current when first piston ring moves, when first piston ring moves down, can make the increase of fixed column lower extreme air pressure, gaseous fixed ring removal is blocked the air-supply line that can promote this moment, thereby avoid gaseous outflow in the air-supply line, and the gag lever post can carry out spacingly to the fixed ring, stability when guaranteeing the fixed ring and remove, and branch can support the gag lever post, guarantee the stability of gag lever post, the gas in the fixed column enters into in the connecting pipe through the blast pipe, and be provided with the check valve in the connecting pipe, can avoid the water back flow in the mount to enter into the inside of connecting pipe, and when first piston ring moves up, external gas will promote the fixed column lower extreme air pressure and remove, thereby make the fixed ring no longer block up the air-supply line, external gas will enter into the inside of fixed column through the air-supply line this moment, thereby balancing the air pressure in the fixed column.

Further, the side of blast pipe is connected with the blast structure, the blast structure includes mount, exhaust passage and a gas way, the other end of connecting pipe is connected with the mount, the mount sets up the inside upper end at the reservoir room, the reservoir room is the ring, the side of mount is the inclined plane that reduces the resistance to water flow generation, exhaust passage and the gas way that supplies the gas to flow have been seted up to the inside of mount, the exhaust passage is connected with the gas way, the gas way is the "L" shape to the gas direction, and the gas of fixed column lower part will enter into the inside of connecting pipe through the blast pipe, later enters into the inside of mount through the connecting pipe, later gas rethread exhaust passage to gas way blowout will drive the indoor water of reservoir after gas is followed the gas way blowout to improve the radiating rate of water in the reservoir room, and the water exchange mouth is connected to the side of reservoir room, can change the indoor water of reservoir.

Further, the guide structure comprises a support column, the side of the one end of support column and support column distance this end third department is provided with the fixed disk spacing to support column removal interval, the outside of support column is provided with and avoids it to take place pivoted slide bar, the other end of support column has been seted up and has been rolled up the direction room of angle to the material, when promoting the material upward movement, the material can be contacted with the direction room of support column bottom, can drive the support column upward movement along with the upward movement of material this moment, after the support column removes to the top, the fixed disk can be spacing it, afterwards the material continues upward movement, and the direction room can lead the material, thereby make the corner of material crooked along the direction room, thereby accomplish the angle of rolling up to the material.

Further, spacing ring and rubber ring, the slide has been seted up to the inboard of rubber ring, and the internally connected of slide has the slide bar, and rubber ring and support column laminating are in the same place, and when the support column moved down under the action of gravity, the rubber ring can delay the speed that the support column moved down, and the slide can be spacing to the slide bar to avoid the support column to take place pivoted phenomenon, and then increase the stability of support column when using.

Further, the upper end of support arm is provided with the spacing cap that carries out spacingly to reduction gears, the lower extreme symmetry of spacing cap is provided with and avoids reduction gears to take place pivoted connecting rod, the connecting rod runs through spacing ring embedded installation in the inside of support arm, and after spacing ring installation finishes, runs through spacing ring embedded installation in the inside of support arm with the connecting rod, later uses the bolt to fix spacing cap and support arm, and the slide has also been offered to spacing cap inside correspondence, can be spacing to the slide bar, further guarantees the stability of support column when removing.

Further, the front side of apotheca is provided with convenient to detach's connecting plate, the center department of connecting plate is the filter screen form of being convenient for circulation of air, and after the fixed column installation, laminate connecting plate and apotheca together to use the bolt to fix connecting plate and apotheca, and then protect the fixed column, the connecting plate can filter the gas that gets into simultaneously.

Further, the pushing structure is an electric pushing structure, and the pushing structure is driven by electricity to move up and down, so that the pushing structure is more accurate and stable, and the device is conveniently operated to drive the device to operate.

Further, the inside of apotheca is provided with convenient to detach's fixed column, the bottom threaded connection of fixed column has the base, is connected base and fixed column through rotating the base to fix base and pushing structure, later put into the inside of apotheca with the fixed column, utilize the bolt to fix fixed column and apotheca.

Compared with the prior art, the invention has the following beneficial effects:

1. when the invention is used, the electric push rod is used for driving the first piston ring to move, when the first piston ring moves downwards, the air pressure at the upper end of the fixed column is reduced, the air pressure at the lower end of the fixed column is increased, when the air pressure at the upper end of the fixed column is reduced, suction force is generated on materials, so that the materials are processed into a tank shape, and meanwhile, the air pressure at the lower end of the fixed column is increased, so that gas is discharged into the water storage chamber through the bronchus, thereby enabling the gas to flow, accelerating the contact speed of the gas and water, thereby radiating the water, and the water can cool the materials;

2. when the device is used, the electric push rod is used for pushing the push rod to move upwards, so that materials are conveniently collected from the inner top of the limiting channel, meanwhile, the materials can be contacted with the connecting rod, the materials can slide along the guide chamber at the bottom of the support column under the reasoning effect, so that the angle is rolled, the device is restored to the original position, the support column moves downwards under the effect of the rubber ring at a lower speed, so that the materials have a certain height, and the materials are conveniently collected.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

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

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

FIG. 3 is a schematic perspective view of a support column according to the present invention;

FIG. 4 is a schematic perspective view of the spacing cap and spacing ring of the present invention;

FIG. 5 is a schematic view showing the internal structure of the fixing column according to the present invention;

FIG. 6 is a schematic view of a fixing column of the present invention in a cross-sectional view;

FIG. 7 is a schematic perspective view of a stop lever and retaining ring of the present invention;

fig. 8 is a schematic view of the mount and bronchial mounting structure of the present invention.

In the figure: 1. a work table; 2. a storage chamber; 3. fixing the column; 4. a base; 5. a pushing structure; 6. a first piston ring; 7. a second piston ring; 8. a push rod; 9. limiting the channel; 10. an air inlet pipe; 11. a support rod; 12. a limit rod; 13. a fixing ring; 14. an exhaust pipe; 15. a connecting pipe; 16. a fixing frame; 17. an exhaust passage; 18. a branch air passage; 19. a water storage chamber; 20. a heat radiation port; 21. a support arm; 22. a limiting ring; 23. a rubber ring; 24. a limit cap; 25. a connecting rod; 26. a support column; 27. a slide bar; 28. a fixed plate; 29. a guide chamber; 30. and (5) connecting a plate.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions: comprises a working table 1 and a storage chamber 2, wherein a limiting channel 9 for limiting materials is arranged in the working table 1, the upper end and the lower end of the side surface of the limiting channel 9 are cylindrical, the diameter of the upper end of the side surface of the limiting channel 9 is larger than that of the lower end of the side surface of the limiting channel 9, the joint of the upper end and the lower end of the limiting channel 9 is an inclined plane, the storage chamber 2 is arranged in the working table 1, the storage chamber 2 is positioned right below the limiting channel 9, an air suction jacking structure for processing the materials is arranged in the storage chamber 2, the side surface of the air suction jacking structure is connected with an air blast structure for increasing the heat dissipation speed, a water storage chamber 19 for dissipating the materials is arranged in the working table 1, a filtering net-shaped heat dissipation opening 20 for supplying water and dissipating is arranged at the upper end of the water storage chamber 19, a support arm 21 is arranged at the upper end of the working table 1, a guiding structure for limiting and rolling angles for the materials is connected in the support arm 21, the outside of the guide structure is connected with a speed reducing mechanism which is convenient for taking materials, the lifting structure is utilized to process and push out materials, when the materials are processed, gas enters the inside of the blasting structure, so that cooling water in the water storage chamber 19 is pushed to flow, the contact speed of the cooling water in the water storage chamber 19 and air is accelerated, the cooling water is further cooled, the cooling efficiency of the device is ensured, meanwhile, external gas can flow into the water storage chamber 19 through the filtering net-shaped cooling port 20, thereby cooling the cooling water, the materials can be contacted with the guide structure when the materials are lifted and pushed out, the guide structure guides the materials, thereby rolling angles are carried out on the materials, after the processing is finished, the guide structure limits the materials, the materials are prevented from moving downwards, the suction lifting structure restores to the original position at the moment, and reducing mechanism can reduce the decline speed of guide structure and material for the material is in higher position, thereby is convenient for collect the material, and the upper and lower both ends junction of spacing way 9 is the inclined plane, places the material after the heating in the inside of spacing way 9, and later the device utilizes the suction to process the material, cools off the material simultaneously, thereby processes the material into the jar form of needs.

The air suction jacking structure comprises a fixed column 3, the fixed column 3 is located inside a storage chamber 2, a base 4 is arranged inside the fixed column 3, the upper end of the base 4 is rotationally connected with a pushing structure 5, the upper end of the pushing structure 5 is provided with a first piston ring 6, the first piston ring 6 is in sliding friction connection inside the fixed column 3, two sides of the fixed column 3 are respectively provided with an air inlet pipe 10 and an exhaust pipe 14 for air to flow, the rotating base 4 fixes the air inlet pipe with the fixed column 3, the fixed column 3 is fixed inside the storage chamber 2 by utilizing bolts, when in machining, the pushing structure 5 drives the first piston ring 6 to move downwards, so that air pressure in the fixed column 3 is reduced, the air pressure in the limiting channel 9 is also reduced due to the fact that the fixed column 3 is communicated with the inside of the limiting channel 9, so that the material in the limiting channel 9 is sucked, the material is deformed into a pot shape by a round cake under the action of the suction, and after machining is finished, the pushing structure 5 drives the first piston ring 6 to move upwards, the first piston ring 6 pushes the second piston ring 7 and the ejector rod 8 to move upwards, and the material is convenient to take out the material from the inside the limiting channel 9.

The ejector pin 8 is installed to the inside embedded of fixed column 3, the inside of ejector pin 8 is the cavity form, the outside cover in the both ends of ejector pin 8 is equipped with second piston ring 7, the more distal end of ejector pin 8 from first piston ring (6) runs through the inside that fixed column 3 is located spacing way 9, after the jacking structure installation of inhaling finishes, install ejector pin 8 embedded in the inside of fixed column 3, and second piston ring 7 is provided with 2, a second piston ring 7 is located the inside of fixed column 3, and another second piston ring 7 is located the inside of spacing way 9, thereby guaranteed the gas tightness between fixed column 3 and the spacing way 9.

The equal angle of the opening part of the air inlet pipe 10 is provided with a supporting rod 11, the other end of the supporting rod 11 is connected with a limiting rod 12, the outer side of the limiting rod 12 is slidably connected with a fixing ring 13 for sealing the air inlet pipe 10, when the first piston ring 6 moves, the change of air flow at the lower end of the fixing column 3 can be caused, when the first piston ring 6 moves downwards, the air pressure at the lower end of the fixing column 3 can be increased, at the moment, the air can push the fixing ring 13 to move so as to block the air inlet pipe 10, thereby the air is prevented from flowing out of the air inlet pipe 10, the limiting rod 12 can limit the fixing ring 13, the stability of the moving of the fixing ring 13 is ensured, the supporting rod 11 can support the limiting rod 12, the stability of the limiting rod 12 is ensured, the air in the fixing column 3 enters into the connecting pipe 15 through the exhaust pipe 14, the one-way valve is arranged in the connecting pipe 15, the air in the fixing column 3 can be prevented from entering into the inside of the connecting pipe 15, and when the first piston ring 6 moves upwards, the air pressure at the lower end of the fixing column 3 increases, at the moment, the outside air can push the fixing ring 13 to move, so that the fixing ring 13 can not block the air inlet pipe 10, and the air can flow back flow into the air inlet pipe 3 through the fixing column 3.

The side of blast pipe is connected with blast structure, blast structure includes the mount, exhaust passage and a gas way, the other end of connecting pipe is connected with the mount, the mount sets up the inside upper end at the water storage chamber, the water storage chamber is the ring, the side of mount is the inclined plane that reduces the resistance to water flow generation, exhaust passage and gas way that supply gas to flow have been seted up to the inside of mount, exhaust passage and gas way are connected, the gas way is the "L" shape to the gas direction, the gas of fixed column 3 lower part will enter into the inside of connecting pipe 15 through blast pipe 14, afterwards enter into the inside of mount 16 through connecting pipe 15, afterwards gas is blowout through exhaust passage 17 to gas way 18 again, will drive the water in the water storage chamber 19 after gas is spouted from gas way 18 and flow, thereby improve the radiating rate of water in the water storage chamber 19, and the water exchange mouth is connected to the side of water storage chamber 19, can change the water in the water storage chamber 19.

The guide structure includes support column 26, the side of support column 26 one end and support column 26 from this end third department is provided with the fixed disk 28 spacing to support column 26 removal interval, the outside of support column 26 is provided with the slide bar 27 that avoids it to take place pivoted, the guide chamber 29 that carries out the roll angle to the material has been seted up to the other end of support column 26, when promoting the material and upwards remove, the material can contact with the guide chamber 29 of support column 26 bottom, can drive support column 26 and upwards remove this moment along with the upward movement of material, after support column 26 removes to the top, fixed disk 28 can carry out spacing to it, afterwards the material continues upwards removal, and guide chamber 29 can lead the material, thereby make the corner of material crooked along guide chamber 29, thereby accomplish the roll angle to the material.

The slide way is arranged on the inner side of the rubber ring 23, the slide way is connected with the slide rod 27, the rubber ring 23 is attached to the support column 26, when the support column 26 moves downwards under the action of gravity, the rubber ring 23 can delay the downward movement speed of the support column 26, and the slide way can limit the slide rod 27, so that the rotation phenomenon of the support column 26 is avoided, and the stability of the support column 26 in use is further improved.

The upper end of support arm 21 is provided with spacing cap 24 that carries out spacing to reduction gears, the lower extreme symmetry of spacing cap 24 is provided with and avoids reduction gears to take place pivoted connecting rod 25, connecting rod 25 runs through spacing ring 22 embedded the installation in the inside of support arm 21, after spacing ring 22 installs the back, run through spacing ring 22 embedded the installation in the inside of support arm 21 with connecting rod 25, later use the bolt to fix spacing cap 24 and support arm 21, the slide has also been offered to spacing cap 24 inside correspondence, can be spacing to slide bar 27, further guarantee the stability of support column 26 when moving.

The front side of apotheca 2 is provided with convenient to detach's connecting plate 30, and the center department of connecting plate 30 is the filter screen form of being convenient for circulation of air, and after fixed column 3 installs, laminates connecting plate 30 and apotheca 2 together to use the bolt to fix connecting plate 30 and apotheca 2, and then protect fixed column 3, connecting plate 30 can filter the gas of entering simultaneously.

The pushing structure 5 is an electric pushing structure, and the pushing structure 5 is driven by electricity to move up and down, so that the pushing structure 5 is more accurate and stable, and the device is convenient to operate and drive to operate.

The inside of apotheca 2 is provided with convenient to detach's fixed column 3, and the bottom threaded connection of fixed column 3 has base 4, is connected base 4 and fixed column 3 through rotating base 4 to fix base 4 and promotion structure 5, later put into the inside of apotheca 2 with fixed column 3, utilize the bolt to fix fixed column 3 and apotheca 2.

The working principle of the invention is as follows: when the device is used, firstly, the heated cake-shaped material is placed in the limiting channel 9, then the pushing structure 5 drives the first piston ring 6 to move downwards to generate suction force, the material enters the limiting channel 9 under the action of the suction force to be changed into a tank shape, meanwhile, when the material moves downwards, gas at the lower end of the fixed column 3 flows into the connecting pipe 15 through the exhaust pipe 14, and then the gas is sprayed out from the branch air channel 18 to drive water in the water storage chamber 19 to flow, so that the water is radiated, heat is radiated to the outside from the radiating opening 20, the water is cooled, and the material is cooled by the water;

then promote structure 5 promotes first piston ring 6, second piston ring 7 and ejector pin 8 and upwards remove to promote the material and upwards remove, the material can be with support column 26 contact this moment, can drive support column 26 upward movement earlier along with the removal of material, afterwards after support column 26 removes to the top, the corner of material can take place to rotate along with direction room 29, thereby accomplish the roll angle, afterwards promote structure 5 and drive first piston ring 6 and remove downwards, and second piston ring 7 and ejector pin 8 resume the normal position under the effect of gravity, because rubber ring 23 slows down support column 26, so support column 26's decline speed is slower, so be convenient for take out the material.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. Full-automatic production facility of tin pot, including workstation (1) and apotheca (2), its characterized in that: the automatic material feeding device is characterized in that a limiting channel (9) for limiting materials is formed in the working table (1), the upper end of the side face and the lower end of the side face of the limiting channel (9) are cylindrical, the diameter of the upper end of the side face of the limiting channel (9) is larger than that of the lower end of the side face of the limiting channel (9), the joint of the upper end and the lower end of the limiting channel (9) is an inclined plane, a storage chamber (2) is formed in the working table (1), the storage chamber (2) is located under the limiting channel (9), an air suction jacking structure for processing the materials is arranged in the storage chamber (2), an air blowing structure for increasing the heat dissipation speed is connected to the side face of the air suction jacking structure, a water storage chamber (19) for dissipating the materials is formed in the working table (1), a filtering net-shaped heat dissipation opening (20) for water supply and heat dissipation is formed in the upper end of the water storage chamber (19), a support arm (21) is arranged at the upper end of the working table (1), a guide mechanism for conducting a material rolling angle is connected to the outer side of the guide mechanism, and a material taking mechanism is convenient to take materials;

the air suction jacking structure comprises a fixing column (3), the fixing column (3) is located in a storage chamber (2), a base (4) is arranged in the fixing column (3), a pushing structure (5) is rotationally connected to the upper end of the base (4), a first piston ring (6) is arranged at the upper end of the pushing structure (5), the first piston ring (6) is in sliding friction connection with the inside of the fixing column (3), and an air inlet pipe (10) and an exhaust pipe (14) for gas to flow are respectively formed in two sides of the fixing column (3);

the inside embedded ejector pin (8) of fixed column (3), the inside of ejector pin (8) is the cavity form, the both ends outside cover of ejector pin (8) is equipped with second piston ring (7), the inside that fixed column (3) is located spacing way (9) is run through to the more distal end of ejector pin (8) from first piston ring (6), the opening part equiangular of air-supply line (10) is provided with branch (11), the other end of branch (11) is connected with gag lever post (12), the outside sliding connection of gag lever post (12) has fixed ring (13) to air-supply line (10) confined;

the side of blast pipe (14) is connected with blast structure, blast structure includes mount (16), exhaust passage (17) and branch air flue (18), and the one end of connecting pipe (15) is connected with blast pipe (14), and the other end of connecting pipe (15) is connected with mount (16), mount (16) set up the inside upper end in water storage room (19), water storage room (19) are the ring, the side of mount (16) is the inclined plane that reduces the resistance to water flow generation, exhaust passage (17) and branch air flue (18) that supply gas to flow have been seted up to the inside of mount (16), exhaust passage (17) and branch air flue (18) are connected, branch air flue (18) are the "L" shape to the gas direction;

the guide structure comprises a support column (26), one end of the support column (26) and one side surface of the support column (26) which is one third away from the end are provided with a fixed disc (28) for limiting the moving interval of the support column (26), the outer side of the support column (26) is provided with a sliding rod (27) for preventing the support column from rotating, and the other end of the support column (26) is provided with a guide chamber (29) for rolling a material;

the speed reducing mechanism comprises a limiting ring (22) and a rubber ring (23), wherein a slide way is arranged on the inner side of the rubber ring (23), and a slide rod (27) is connected with the inner side of the slide way.

2. The full-automatic production equipment for the tinplate, according to claim 1, is characterized in that: the upper end of support arm (21) is provided with spacing cap (24) that carries out spacingly to reduction gears, the lower extreme symmetry of spacing cap (24) is provided with and avoids reduction gears to take place pivoted connecting rod (25), connecting rod (25) run through spacing ring (22) embedded installation in the inside of support arm (21), the front side of apotheca (2) is provided with connecting plate (30) convenient to detach, the center department of connecting plate (30) is the net of straining of being convenient for circulation of air.

3. The full-automatic production equipment for the tinplate, according to claim 1, is characterized in that: the pushing structure (5) is an electric pushing structure.

4. The full-automatic production equipment for the tinplate, according to claim 1, is characterized in that: the inside of apotheca (2) is provided with fixed column (3) convenient to detach, the bottom threaded connection of fixed column (3) has base (4).