CN214950585U - High-efficient cooling type environmental protection fritting furnace - Google Patents

Abstract

The utility model discloses a high-efficient cooling type environmental protection fritting furnace, including base, furnace body, pump machine, hot-water tank, raceway, circulating pipe, solenoid valve and air-cooled tube, the last fixed surface of base installs the furnace body, and fixedly connected with water-cooled tube on the inner wall of furnace body to the water-cooled tube runs through the furnace body setting, and the upper end fixed connection of water-cooled tube is on the hot-water tank moreover, and the lower extreme fixed connection of water-cooled tube is on the pump machine simultaneously, the hot-water tank sets up in the top of furnace body, and hot-water tank fixed mounting is at the top of base, the one end fixed mounting of raceway is on the pump machine. This high-efficient cooling type environmental protection fritting furnace is provided with dual cooling mode, and cooling mechanism can reduce the inside temperature of furnace body fast, and cooling mechanism can utilize the inside high temperature waste heat of furnace body to assist the cooling to reduce cooling mechanism's operating time, reduced power consumption, the environmental protection and the economic benefits of fritting furnace are better.

Description

High-efficient cooling type environmental protection fritting furnace

Technical Field

The utility model relates to a fritting furnace technical field specifically is a high-efficient cooling type environmental protection fritting furnace.

Background

The sintering furnace is a device for material processing, the effect of changing the physical structure of a substance is achieved by using high temperature and a mode of changing the air pressure in the furnace body, the temperature in the sintering furnace fluctuates between hundreds of degrees centigrade and thousands of degrees centigrade according to the difference of processing materials, and the sintering furnace is cooled by a cooling device after the material processing is finished.

However, the existing sintering furnace has the following problems:

1. sintering furnace cooling mode on the market is comparatively single, and cooling mechanism is difficult to reduce the inside temperature of furnace body fast, and the user need wait for longer time, just can take out the material, has reduced user's work efficiency.

2. In the sintering furnace cooling process, the cooling mechanism can not effectively utilize the waste heat in the furnace body, a large amount of high-temperature heat is wasted, the cooling mechanism needs to operate for a longer time to complete cooling, the consumed electric power is more, and the environmental protection and the economic benefit of the sintering furnace are poor.

Aiming at the problems, innovative design is urgently needed on the basis of the original sintering furnace.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-efficient cooling type environmental protection fritting furnace to solve above-mentioned background and propose current fritting furnace cooling mode comparatively single, cooling mechanism is difficult to reduce the inside temperature of furnace body fast, and cooling mechanism can't effectively utilize the inside waste heat of furnace body, and a large amount of high temperature heats are wasted, and cooling mechanism needs the longer time of operation could cool down the completion, and the electric power of consumption is more, the environmental protection of fritting furnace and the relatively poor problem of economic benefits.

In order to achieve the above object, the utility model provides a following technical scheme: an efficient cooling type environment-friendly sintering furnace comprises a base, a furnace body, a pump machine, a hot water tank, a water conveying pipe, a circulating pipe, an electromagnetic valve and an air cooling pipe, wherein the furnace body is fixedly arranged on the upper surface of the base, a water cooling pipe is fixedly connected to the inner wall of the furnace body and penetrates through the furnace body, the upper end of the water cooling pipe is fixedly connected to the hot water tank, the lower end of the water cooling pipe is fixedly connected to the pump machine, the hot water tank is arranged above the furnace body and is fixedly arranged at the top of the base, one end of the water conveying pipe is fixedly arranged on the pump machine, the other end of the water conveying pipe penetrates through the outer wall of the cooling tank, the water conveying pipe is fixedly connected with the cooling tank, the cooling tank is fixedly arranged on the upper surface of the base, the electromagnetic valve is fixedly arranged on the circulating pipe, one end of the circulating pipe penetrates through the top of the cooling tank, and the other end of the circulating pipe penetrates through the bottom of the side wall of the hot water tank, and the circulating pipe is fixedly connected with the cooling tank and the hot water tank.

Preferably, the furnace body is fixedly connected with 3 cylindrical lugs arranged on the surface of the base, the furnace body, the water-cooling pipe and the air-cooling pipe are coaxially arranged, and the water-cooling pipe is of a spiral structure.

Preferably, the top of the hot water tank is fixedly connected with a gas collecting cylinder, the gas collecting cylinder penetrates through the outer wall of the hot water tank and is movably provided with a power toothed ring at the top, the inner wall of the power toothed ring is fixedly connected with a first fan blade assembly, and the first fan blade assembly is arranged on the inner side of the gas collecting cylinder.

Preferably, the bottom of the power toothed ring is provided with an annular convex block with a T-shaped section, the convex block on the power toothed ring and the gas collecting cylinder form a clamped rotating structure, the gas collecting cylinder is of an inverted funnel-shaped structure, and the gas collecting cylinder, the power toothed ring and the first fan blade assembly are coaxially arranged.

Preferably, the power gear ring and the transmission gear ring form a meshing transmission relationship, the transmission gear ring is fixedly connected with one end of the rotating shaft, and the other end of the rotating shaft is fixedly connected with the second fan blade assembly.

Preferably, pivot movable mounting is on the support frame, and support frame fixed connection is on the inner wall of forced air cooling pipe to the forced air cooling pipe runs through the furnace body setting, and forced air cooling pipe fixed mounting is on the furnace body moreover, be provided with the bulge loop on the lateral wall of pivot, and the pivot bulge loop constitutes the rotating-structure of block with the support frame.

Compared with the prior art, the beneficial effects of the utility model are that: the efficient cooling type environment-friendly sintering furnace is provided with a double cooling mode, the temperature inside the furnace body can be quickly reduced by the cooling mechanism, and the cooling mechanism can perform auxiliary cooling by using high-temperature waste heat inside the furnace body, so that the operation time of the cooling mechanism is shortened, the power consumption is reduced, and the environment-friendly and economic benefits of the sintering furnace are better;

1. the water cooling pipe is arranged on the inner side of the furnace body and is in a spiral structure, the end parts of the water cooling pipe and the water conveying pipe are fixedly connected to the pump, the water inlet of the water conveying pipe is arranged at the bottom of the inner wall of the cooling box, cold water in the cooling box is conveyed into the water cooling pipe by the pump, and at the moment, the water cooling pipe starts to reduce the temperature in the furnace body;

2. the bottom of power ring gear is provided with the lug that the cross-section is "T" font, and lug on the power ring gear and gas cylinder constitute the rotating-structure of block, and power ring gear and transmission ring gear constitute meshing transmission relation, and when power ring gear rotated, transmission ring gear will drive second flabellum subassembly through the pivot and rotate for the inside air flow of forced air cooling pipe, thereby realize the air-cooled effect.

Drawings

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

FIG. 2 is a schematic view of the installation structure of the circulation tube of the present invention;

FIG. 3 is a schematic view of the whole half-section structure of the present invention;

FIG. 4 is a schematic view of the power ring gear transmission structure of the present invention;

FIG. 5 is a schematic view of the first blade assembly of the present invention;

fig. 6 is a schematic view of the installation structure of the rotating shaft of the present invention.

In the figure: 1. a base; 2. a furnace body; 3. a water-cooled tube; 4. a pump machine; 5. a hot water tank; 6. a water delivery pipe; 7. a cooling tank; 8. a circulation pipe; 9. an electromagnetic valve; 10. a gas collecting cylinder; 11. a power ring gear; 12. a first fan blade assembly; 13. a transmission gear ring; 14. a rotating shaft; 15. a support frame; 16. a second fan blade assembly; 17. and an air-cooled pipe.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an efficient cooling type environment-friendly sintering furnace comprises a base 1, a furnace body 2, a pump machine 4, a hot water tank 5, a water delivery pipe 6, a circulating pipe 8, an electromagnetic valve 9 and an air cooling pipe 17, wherein the furnace body 2 is fixedly arranged on the upper surface of the base 1, the water cooling pipe 3 is fixedly connected on the inner wall of the furnace body 2, the water cooling pipe 3 penetrates through the furnace body 2, the upper end of the water cooling pipe 3 is fixedly connected on the hot water tank 5, the lower end of the water cooling pipe 3 is fixedly connected on the pump machine 4, the hot water tank 5 is arranged above the furnace body 2, the hot water tank 5 is fixedly arranged on the top of the base 1, one end of the water delivery pipe 6 is fixedly arranged on the pump machine 4, the other end of the water delivery pipe 6 penetrates through the outer wall of the cooling tank 7, the water delivery pipe 6 is fixedly connected with the cooling tank 7, the cooling tank 7 is fixedly arranged on the upper surface of the base 1, the electromagnetic valve 9 is fixedly arranged on the circulating pipe 8, and one end of the circulating pipe 8 is arranged to penetrate through the top of the cooling tank 7, the other end of the circulating pipe 8 is arranged to penetrate through the bottom of the side wall of the hot water tank 5, and the circulating pipe 8 is fixedly connected with the cooling tank 7 and the hot water tank 5.

Furnace body 2 and 3 cylindric lugs fixed connection of base 1 surface setting, and furnace body 2, water-cooled tube 3 and air-cooled tube 17 coaxial setting to water-cooled tube 3 is helical structure, constitutes the water-cooling structure of fritting furnace.

5 top fixedly connected with gas collecting cylinder 10 of hot-water tank, and gas collecting cylinder 10 runs through the outer wall setting of hot-water tank 5, and the top movable mounting of gas collecting cylinder 10 has power ring gear 11, and the first flabellum subassembly 12 of fixedly connected with on the inner wall of power ring gear 11, simultaneously first flabellum subassembly 12 sets up the inboard at gas collecting cylinder 10, the bottom of power ring gear 11 is provided with the cyclic annular lug that the cross-section is "T" font, and lug on the power ring gear 11 constitutes the revolution mechanic of block with gas collecting cylinder 10, and gas collecting cylinder 10 is the funnel-shaped structure of back-off, and gas collecting cylinder 10, power ring gear 11 and the coaxial setting of first flabellum subassembly 12, make first flabellum subassembly 12 can drive power ring gear 11 and rotate.

The power toothed ring 11 and the transmission toothed ring 13 form a meshing transmission relationship, the transmission toothed ring 13 is fixedly connected with one end of the rotating shaft 14, and the other end of the rotating shaft 14 is fixedly connected with a second fan blade assembly 16, so that the power toothed ring 11 can drive the second fan blade assembly 16 to rotate.

The rotating shaft 14 is movably arranged on the supporting frame 15, the supporting frame 15 is fixedly connected to the inner wall of the air cooling pipe 17, the air cooling pipe 17 penetrates through the furnace body 2, the air cooling pipe 17 is fixedly arranged on the furnace body 2, a convex ring is arranged on the side wall of the rotating shaft 14, and the convex ring on the rotating shaft 14 and the supporting frame 15 form a rotating structure of clamping to form an air cooling structure of the sintering furnace.

The working principle is as follows: when the high-efficiency cooling type environment-friendly sintering furnace is used, firstly, referring to fig. 1-4, when a user needs to reduce the temperature inside the furnace body 2, the pump 4 is started, at the moment, the pump 4 sends cold water inside the cooling tank 7 into the water-cooling pipe 3 through the water conveying pipe 6, the cold water inside the water-cooling pipe 3 starts to absorb heat inside the furnace body 2, the high temperature inside the furnace body 2 heats the cold water to a boiling state, and then hot water inside the water-cooling pipe 3 flows into the hot water tank 5.

Referring to fig. 1-6, hot water in a hot water tank 5 generates a large amount of water vapor, the water vapor rises upwards, a funnel-shaped gas collecting cylinder 10 concentrates the water vapor, the flowing speed of the water vapor is increased, the rapidly flowing water vapor drives a first fan blade assembly 12 to rotate, as the power toothed ring 11 and the gas collecting cylinder 10 form a clamped rotating structure and the power toothed ring 11 and the first fan blade assembly 12 are fixedly connected, at this time, the power toothed ring 11 starts to rotate, the power toothed ring 11 drives a transmission toothed ring 13 to rotate through a meshing transmission relation, as a rotating shaft 14 connected with the transmission toothed ring 13 and a support frame 15 form a clamped rotating structure, at this time, the rotating shaft 14 drives a second fan blade assembly 16 to rotate, the second fan blade assembly 16 discharges hot air inside an air cooling pipe 17, the pressure inside the air cooling pipe 17 is reduced, at this time, under the action of pressure difference, cold air outside enters the air cooling pipe 17 through a lower port of the air cooling pipe 17, the cold air can absorb the heat in the furnace body 2, the cooling speed is improved, meanwhile, the electromagnetic valve 9 is intermittently opened and closed, when the electromagnetic valve 9 is opened, the hot water in the hot water tank 5 flows into the cooling tank 7 through the circulating pipe 8 under the action of the height difference, and the cooling and cooling water supplementation are carried out.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (6)

1. The utility model provides a high-efficient cooling type environmental protection fritting furnace, includes base (1), furnace body (2), pump machine (4), hot-water tank (5), raceway (6), circulating pipe (8), solenoid valve (9) and forced air cooling pipe (17), its characterized in that: the furnace body (2) is fixedly arranged on the upper surface of the base (1), the water cooling pipe (3) is fixedly connected on the inner wall of the furnace body (2), the water cooling pipe (3) penetrates through the furnace body (2) and is arranged, the upper end of the water cooling pipe (3) is fixedly connected onto the hot water tank (5), the lower end of the water cooling pipe (3) is fixedly connected onto the pump (4), the hot water tank (5) is arranged above the furnace body (2), the hot water tank (5) is fixedly arranged on the top of the base (1), one end of the water conveying pipe (6) is fixedly arranged on the pump (4), the other end of the water conveying pipe (6) penetrates through the outer wall of the cooling tank (7) and is fixedly connected with the cooling tank (7), the cooling tank (7) is fixedly arranged on the upper surface of the base (1), and the electromagnetic valve (9) is fixedly arranged on the circulating pipe (8), one end of the circulating pipe (8) penetrates through the top of the cooling tank (7), the other end of the circulating pipe (8) penetrates through the bottom of the side wall of the hot water tank (5), and the circulating pipe (8) is fixedly connected with the cooling tank (7) and the hot water tank (5).

2. The high-efficiency cooling-type environmentally friendly sintering furnace according to claim 1, wherein: furnace body (2) and 3 cylindric lugs fixed connection that base (1) surface set up, and furnace body (2), water-cooled tube (3) and forced air cooling pipe (17) coaxial setting to water-cooled tube (3) are helical structure.

3. The high-efficiency cooling-type environmentally friendly sintering furnace according to claim 1, wherein: the hot-water tank (5) top fixedly connected with gas cylinder (10), and gas cylinder (10) run through the outer wall setting of hot-water tank (5) to the top movable mounting of gas cylinder (10) has power ring gear (11), and the first flabellum subassembly of fixedly connected with (12) on the inner wall of power ring gear (11) moreover, and first flabellum subassembly (12) set up the inboard at gas cylinder (10) simultaneously.

4. The high-efficiency cooling-type environmentally friendly sintering furnace according to claim 3, wherein: the bottom of the power toothed ring (11) is provided with an annular convex block with a T-shaped section, the convex block on the power toothed ring (11) and the gas collecting cylinder (10) form a clamped rotating structure, the gas collecting cylinder (10) is of an inverted funnel-shaped structure, and the gas collecting cylinder (10), the power toothed ring (11) and the first fan blade assembly (12) are coaxially arranged.

5. The high-efficiency cooling-type environmentally friendly sintering furnace according to claim 3, wherein: the power toothed ring (11) and the transmission toothed ring (13) form a meshing transmission relationship, the transmission toothed ring (13) is fixedly connected with one end of the rotating shaft (14), and the other end of the rotating shaft (14) is fixedly connected with a second fan blade assembly (16).

6. The high-efficiency cooling-type environmentally friendly sintering furnace according to claim 5, wherein: pivot (14) movable mounting is on support frame (15), and support frame (15) fixed connection is on the inner wall of forced air cooling pipe (17) to forced air cooling pipe (17) run through furnace body (2) and set up, and forced air cooling pipe (17) fixed mounting is on furnace body (2) moreover, be provided with the bulge loop on the lateral wall of pivot (14), and the bulge loop on pivot (14) constitutes the rotating-structure of block with support frame (15).

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