CN210321274U - Efficient smelting device for manufacturing copper artware - Google Patents

Abstract

The utility model discloses a device is smelted with high efficiency to preparation copper handicraft, which comprises a body, body internally mounted has the high temperature to smelt the storehouse, and the outer wall in high temperature smelting storehouse is connected with the baffle, the controller is installed in the baffle outside, and the baffle top is provided with gas filter unit, be connected with the exhaust tube between gas filter unit and the high temperature smelting storehouse, and settle in the exhaust tube outside has the protective sheath, gas filter unit one side is connected with the outlet duct. The utility model discloses in, under sealing mechanism's effect, can seal its feed inlet through the closing cap to be convenient for put into the copper product material, and can produce gas through the heating in the high temperature smelting furnace, through the inside sealing layer of closing cap, can prevent that the gas in the high temperature smelting furnace from spilling, and can bleed through the exhaust tube and discharge from the outlet duct through the gas filter unit, be convenient for can play certain sealed effect to the smelting in-process, prevent that the gas that produces is direct and the air contact.

Description

Efficient smelting device for manufacturing copper artware

Technical Field

The utility model relates to a technical field is smelted to the copper handicraft, especially relates to a device is smelted with high efficiency to preparation copper handicraft.

Background

China has spread a plurality of famous copper artware from ancient times to the present, the copper artware is also named as a bronze ware, the bronze ware is mostly pointed in ancient times of China, and the copper artware flows from the late period of the age of the neolithic ware to the age of the Qin and Han dynasties, and the copper artware is a great contribution of the ancestors to the civilization of human substances.

The existing copper artware smelting device does not have a mechanism capable of sealing gas generated in the smelting process, and when copper liquid is stirred, the copper liquid is not uniform, and a perfect blanking mechanism is not arranged during discharging of the stirred copper liquid, so that the discharging is unstable.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a high-efficiency smelting device for manufacturing copper artware.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a high-efficiency smelting device for manufacturing copper artware comprises a body, wherein a high-temperature smelting bin is arranged inside the body, a partition plate is connected to the outer wall of the high-temperature smelting bin, a controller is arranged on the outer side of the partition plate, a gas filter unit is arranged at the top end of the partition plate, an exhaust pipe is connected between the gas filter unit and the high-temperature smelting bin, a protective sleeve is arranged on the outer side of the exhaust pipe, an air outlet pipe is connected to one side of the gas filter unit, a feed inlet is formed in the top end of the high-temperature smelting bin, a sealing mechanism is connected to the inner end of the feed inlet, a molten liquid inlet is arranged at the bottom end of the high-temperature smelting bin, a buffer mechanism is arranged inside the molten liquid inlet, a stirring bin is connected to the bottom end of the buffer mechanism, a stirring rod is arranged inside the, and a driving motor bin is connected below the partition block, a discharging mechanism is arranged outside the driving motor bin, and a discharging port is arranged at the bottom end of the discharging mechanism.

As a further description of the above technical solution:

the sealing mechanism is characterized in that the sealing mechanism is internally provided with a fixing block, a fixing hole is formed in the inner end of the fixing block, a fixing rod is installed on the inner side of the fixing hole, a supporting rod is connected to the outer side of the fixing rod, a sealing cover is installed on the outer portion of the supporting rod, a sealing layer is arranged on the inner side of the sealing cover, and a handle is installed on the outer side of the sealing.

As a further description of the above technical solution:

the sealing cover and the body form a movable structure through the fixing block, the fixing hole and the fixing rod, and the central axis of the fixing block coincides with the central axis of the fixing rod.

As a further description of the above technical solution:

the buffer mechanism comprises a movable rod inside, the movable rod is connected with a movable plate outside, and the inner side of the movable plate is provided with a hole.

As a further description of the above technical solution:

the movable plate and the melt inlet form a movable structure through a movable rod, and the movable rod is symmetrical about the central axis of the movable plate.

As a further description of the above technical solution:

the stirring mechanism is internally provided with an inner groove, the inner wall of the inner groove is connected with insections, a limiting rod is installed on one side of the insections, a first gear is arranged outside the limiting rod, a second gear is arranged outside the first gear, a connecting plate block is installed outside the second gear, a movable inner rod is arranged between the connecting plate block and the stirring rod, and the connecting plate block is externally connected with a second handle paddle.

As a further description of the above technical solution:

the second gear and the first gear form a movable structure through the insections, and the cross-sectional area of the second gear is larger than that of the first gear.

As a further description of the above technical solution:

the blanking mechanism is internally provided with a movable shaft, the outer side of the movable shaft is connected with a baffle, a stop block is installed at the top end of the baffle, an electric push rod is arranged at the bottom end of the baffle, and a spring is arranged on the outer side of the electric push rod.

As a further description of the above technical solution:

the baffle plate and the body form a movable structure through the electric push rod, and the electric push rod is elastically connected with the spring.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, under sealing mechanism's effect, can seal its feed inlet through the closing cap to be convenient for put into the copper product material, and can produce gas through the heating in the high temperature smelting furnace, through the inside sealing layer of closing cap, can prevent that the gas in the high temperature smelting furnace from spilling, and can bleed through the exhaust tube and discharge from the outlet duct through the gas filter unit, be convenient for can play certain sealed effect to the smelting in-process, prevent that the gas that produces is direct and the air contact.

2. The utility model discloses in, under buffer gear's effect, smelt into liquid when the copper product material, can follow the high temperature smelting storehouse bottom inner wall that is the abrupt slope formula and slide down, because the relation of gravity to make the fly leaf move about through the movable rod, thereby make its copper liquid get into the trompil and get into the stirring storehouse, then be convenient for to the stirring work of back end copper liquid.

3. The utility model discloses in, under rabbling mechanism's effect, the insection of the inside groove inner wall of puddler rotates along with puddler pivoted direction, make first gear rotate along with the insection drives the orientation that carries on with it the puddler is the same, thereby make first gear drive second gear carry out the antiport, thereby make the connection plate that is connected with the second gear drive the second and carry out the antiport stirring to the oar, thereby make first oar under the stirring to the oar opposite direction with the second, make the stirring of copper liquid more even.

4. The utility model discloses in, under the effect of unloading mechanism, after the copper liquid stirring is accomplished, through electric putter shrink for the copper liquid gets into the discharge gate along the baffle of downward sloping, and electric putter passes through the spring and can reduce the stability when the copper liquid glides moreover, can not scatter, and the ejection of compact work after the copper stirring of being convenient for.

Drawings

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

FIG. 2 is a schematic view of the top-down expanded structure of the stirring mechanism of the present invention;

fig. 3 is a schematic view of an unfolding structure of the middle sealing mechanism of the present invention;

fig. 4 is a schematic view of an expanded structure of the middle buffer mechanism of the present invention;

fig. 5 is an enlarged schematic view of the position a of the present invention.

Illustration of the drawings:

1. a body; 2. a high-temperature smelting bin; 3. a partition plate; 4. a controller; 5. a gas filter unit; 6. an air exhaust pipe; 7. a protective sleeve; 8. an air outlet pipe; 9. a feed inlet; 10. a sealing mechanism; 1001. a fixed block; 1002. a fixing hole; 1003. fixing the rod; 1004. a support bar; 1005. a closure cap; 1006. a sealing layer; 1007. a handle; 11. a melt inlet; 12. a buffer mechanism; 1201. a movable rod; 1202. a movable plate; 1203. opening a hole; 13. a stirring bin; 14. a spacer block; 15. a stirring rod; 16. a first handle of paddles; 17. a stirring mechanism; 1701. an inner tank; 1702. insection; 1703. a limiting rod; 1704. a first gear; 1705. a second gear; 1706. a movable inner rod; 1707. connecting the plates; 1708. a second handle paddle; 18. a driving motor compartment; 19. a blanking mechanism; 1901. a movable shaft; 1902. a baffle plate; 1903. a stopper; 1904. an electric push rod; 1905. a spring; 20. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-5, an efficient smelting device for manufacturing copper artware comprises a body 1, a high-temperature smelting bin 2, a partition plate 3, a controller 4, a gas filter unit 5, an exhaust tube 6, a protective sleeve 7, an exhaust tube 8, a feed inlet 9, a sealing mechanism 10, a fixed block 1001, a fixed hole 1002, a fixed rod 1003, a support rod 1004, a closed cover 1005, a sealing layer 1006, a handle 1007, a melt inlet 11, a buffer mechanism 12, a movable rod 1201, a movable plate 1202, an opening 1203, a stirring bin 13, a partition block 14, a stirring rod 15, a first paddle 16, a stirring mechanism 17, an inner groove 1701, a insection, a limit rod 1703, a first gear 1704, a second gear 1705, a movable inner rod 1706, a connecting plate 1707, a second paddle 1708, a driving motor bin 18, a blanking mechanism 19, a movable shaft 1901, a baffle 1902, a stopper 1903, an electric push rod 1904, a spring 1905 and a discharge hole 20, wherein the high-temperature smelting bin 2 is, the outer wall of the high-temperature smelting bin 2 is connected with a partition plate 3, the outer side of the partition plate 3 is provided with a controller 4, the top end of the partition plate 3 is provided with a gas filter unit 5, an exhaust pipe 6 is connected between the gas filter unit 5 and the high-temperature smelting bin 2, the outer side of the exhaust pipe 6 is provided with a protective sleeve 7, one side of the gas filter unit 5 is connected with an air outlet pipe 8, the top end of the high-temperature smelting bin 2 is provided with a feed inlet 9, the inner end of the feed inlet 9 is connected with a sealing mechanism 10, the bottom end of the high-temperature smelting bin 2 is provided with a molten liquid inlet 11, the interior of the molten liquid inlet 11 is provided with a buffer mechanism 12, the bottom end of the buffer mechanism 12 is connected with a stirring bin 13, the inner side of the stirring bin 13 is provided with a stirring rod 15, the outer side, a discharging mechanism 19 is arranged outside the driving motor cabin 18, and a discharging port 20 is arranged at the bottom end of the discharging mechanism 19.

Further, the sealing mechanism 10 includes a fixing block 1001 inside, and a fixing hole 1002 is arranged at the inner end of the fixing block 1001, a fixing rod 1003 is arranged inside the fixing hole 1002, a supporting rod 1004 is connected to the outer side of the fixing rod 1003, a sealing cover 1005 is arranged outside the supporting rod 1004, a sealing layer 1006 is arranged inside the sealing cover 1005, and a handle 1007 is arranged outside the sealing cover 1005.

Further, the sealing cover 1005 forms a movable structure with the body 1 through the fixing block 1001, the fixing hole 1002 and the fixing rod 1003, the central axis of the fixing block 1001 coincides with the central axis of the fixing rod 1003, the sealing cover 1005 can be opened to place a copper raw material into the feeding hole 9, and when the sealing cover is closed, gas generated in the high-temperature smelting bin 2 is sealed through the sealing layer 1006, so that the gas is prevented from directly contacting with the outside air.

Further, the buffer mechanism 12 includes a movable rod 1201 therein, and a movable plate 1202 is connected to the outside of the movable rod 1201, and an opening 1203 is disposed inside the movable plate 1202.

Further, the movable plate 1202 forms a movable structure with the melt inlet 11 through the movable rod 1201, and the movable rod 1201 is symmetrical with respect to the central axis of the movable plate 1202, and the opening 1203 in the movable plate 1202 can help the molten copper to enter the stirring bin 13, so as to facilitate the stirring operation of the molten copper at the rear section.

Further, the stirring mechanism 17 includes an inner groove 1701 inside, and the inner wall of the inner groove 1701 is connected with insection 1702, a limit rod 1703 is installed on one side of insection 1702, and a first gear 1704 is arranged outside the limit rod 1703, a second gear 1705 is arranged outside the first gear 1704, a connecting plate 1707 is installed outside the second gear 1705, a movable inner rod 1706 is arranged between the connecting plate 1707 and the stirring rod 15, and a second handle paddle 1708 is connected outside the connecting plate 1707.

Furthermore, the second gear 1705 and the first gear 1704 form a movable structure through the insections 1702, and the cross-sectional area of the second gear 1705 is larger than the cross-sectional area of the first gear 1704, the insections 1702 of the inner wall of the inner groove 1701 inside the stirring rod 15 rotate along with the rotating direction of the stirring rod 15, so that the first gear 1704 rotates along with the insections 1702 in the same direction as the stirring rod 15, the first gear 1704 drives the second gear 1705 to rotate in the opposite direction, the connecting plate 1707 connected with the second gear 1705 drives the second paddle 1708 to perform the counter-rotation stirring, and the copper liquid is stirred more uniformly.

Further, the blanking mechanism 19 is internally provided with a movable shaft 1901, the outer side of the movable shaft 1901 is connected with a baffle 1902, a stopper 1903 is mounted at the top end of the baffle 1902, an electric push rod 1904 is arranged at the bottom end of the baffle 1902, and a spring 1905 is arranged at the outer side of the electric push rod 1904.

Further, baffle 1902 passes through electric putter 1904 and constitutes the revolution mechanic with body 1, and is elastic connection between electric putter 1904 and spring 1905, and baffle 1902 moves about through loose axle 1901, can make baffle 1902 move about through electric putter 1904 moreover, and the copper liquid of being convenient for can be fast after the stirring from this department setting carry out ejection of compact work.

The working principle is as follows: when in use, people can clean the device, after the cleaning is finished, the sealing cover 1005 is opened, copper raw materials are put into the feeding hole 9, then the sealing cover 1005 is closed, the power supply of the device is started, the temperature in the high-temperature smelting bin 2 is controlled by the controller 4, the copper raw materials are smelted, the copper raw materials which are smelted into liquid state enter the stirring bin 13 through the buffer mechanism 12 arranged at the melt inlet 11, under the action of the stirring mechanism 17, the insection 1702 on the inner wall of the inner slot 1701 inside the stirring rod 15 rotates along with the rotating direction of the stirring rod 15, the first gear 1704 rotates along with the insection 1702 in the same direction as the stirring rod 15, the first gear 1704 drives the second gear 1705 to rotate in the reverse direction, and the connecting plate 1707 connected with the second gear 1705 drives the second handle 1708 to stir in the reverse rotation direction, thereby make first oar 16 under the stirring with the second oar 1708 opposite direction for the more even of copper liquid stirring, the back is accomplished in the stirring, and electric putter 1904 retrieves the push rod, makes the copper melt flow in the inlet and outlet 20 through the baffle 1902 of declivity, thereby accomplishes ejection of compact work.

It should be known to those skilled in the art that the protection scheme of the present invention is not limited to the above-mentioned embodiments, and various permutations, combinations and transformations can be performed on the basis of the above-mentioned embodiments, without violating the spirit of the present invention, all the transformations performed by the present invention fall within the protection scope of the present invention.

Claims (9)

1. The efficient smelting device for manufacturing the copper artware comprises a body (1) and is characterized in that a high-temperature smelting bin (2) is installed inside the body (1), a partition plate (3) is connected to the outer wall of the high-temperature smelting bin (2), a controller (4) is installed on the outer side of the partition plate (3), a gas filter unit (5) is arranged at the top end of the partition plate (3), an exhaust tube (6) is connected between the gas filter unit (5) and the high-temperature smelting bin (2), a protective sleeve (7) is arranged on the outer side of the exhaust tube (6), an air outlet pipe (8) is connected to one side of the gas filter unit (5), a feeding port (9) is arranged at the top end of the high-temperature smelting bin (2), a sealing mechanism (10) is connected to the inner end of the feeding port (9), a molten liquid inlet (11) is installed at the bottom end of the high, buffer gear (12) bottom is connected with stirring storehouse (13), and stirring storehouse (13) inboard is provided with puddler (15), puddler (15) outside is connected with first oar (16), and puddler (15) top settle has rabbling mechanism (17), stirring storehouse (13) top is provided with spacer block (14), and is connected with driving motor storehouse (18) below spacer block (14), settle in driving motor storehouse (18) outside has unloading mechanism (19), and unloading mechanism (19) bottom installs discharge gate (20).

2. The efficient smelting device for manufacturing copper artware according to claim 1, wherein the sealing mechanism (10) comprises a fixing block (1001) inside, a fixing hole (1002) is arranged at the inner end of the fixing block (1001), a fixing rod (1003) is arranged on the inner side of the fixing hole (1002), a supporting rod (1004) is connected to the outer side of the fixing rod (1003), a sealing cover (1005) is arranged on the outer portion of the supporting rod (1004), a sealing layer (1006) is arranged on the inner side of the sealing cover (1005), and a handle (1007) is arranged on the outer side of the sealing cover (1005).

3. The efficient smelting device for manufacturing the copper artware as claimed in claim 2, wherein the closing cover (1005) and the body (1) form a movable structure through a fixing block (1001), a fixing hole (1002) and a fixing rod (1003), and a central axis of the fixing block (1001) is coincident with a central axis of the fixing rod (1003).

4. The efficient smelting device for manufacturing the copper artware according to the claim 1, characterized in that the buffer mechanism (12) comprises a movable rod (1201) inside, a movable plate (1202) is connected to the outside of the movable rod (1201), and an opening (1203) is arranged inside the movable plate (1202).

5. The efficient smelting device for manufacturing the copper artware according to claim 4, wherein the movable plate (1202) and the melt inlet (11) form a movable structure through a movable rod (1201), and the movable rod (1201) is symmetrical about a central axis of the movable plate (1202).

6. The efficient smelting device for the copper artware is characterized in that the inner part of the stirring mechanism (17) comprises an inner groove (1701), the inner wall of the inner groove (1701) is connected with insections (1702), a limiting rod (1703) is installed on one side of the insections (1702), a first gear (1704) is arranged outside the limiting rod (1703), a second gear (1705) is arranged outside the first gear (1704), a connecting plate (1707) is installed outside the second gear (1705), a movable inner rod (1706) is arranged between the connecting plate (1707) and the stirring rod (15), and a second handle paddle (1708) is connected outside the connecting plate (1707).

7. The high-efficiency smelting device for manufacturing the copper artware according to claim 6, wherein the second gear (1705) and the first gear (1704) form a movable structure through the insections (1702), and the cross-sectional area of the second gear (1705) is larger than that of the first gear (1704).

8. The efficient smelting device for manufacturing the copper artware according to claim 1, wherein the blanking mechanism (19) comprises a movable shaft (1901) inside, a baffle (1902) is connected to the outer side of the movable shaft (1901), a stop block (1903) is installed at the top end of the baffle (1902), an electric push rod (1904) is arranged at the bottom end of the baffle (1902), and a spring (1905) is arranged on the outer side of the electric push rod (1904).

9. The efficient smelting device for manufacturing the copper artware according to claim 8, wherein the baffle (1902) and the body (1) form a movable structure through an electric push rod (1904), and the electric push rod (1904) is elastically connected with a spring (1905).

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