CN219244226U

CN219244226U - Stirring heating furnace

Info

Publication number: CN219244226U
Application number: CN202320601435.6U
Authority: CN
Inventors: 杨从志; 卢石岭
Original assignee: Wuhan Yahua Electric Furnace Co ltd
Current assignee: Wuhan Yahua Electric Furnace Co ltd
Priority date: 2023-03-22
Filing date: 2023-03-22
Publication date: 2023-06-23
Anticipated expiration: 2033-03-22

Abstract

The utility model discloses a stirring heating furnace, which comprises a supporting component and a stirring component, wherein the supporting component comprises a base, a turnover seat and a turnover driving piece, the turnover seat is rotatably arranged on the base, and the turnover driving piece is in transmission connection with the turnover seat so as to drive the turnover seat to rotate relative to the base; the stirring subassembly includes agitator tank, heating element and stirring driving piece, and the rotatable installation in upset seat of agitator tank, the axis of rotation of agitator tank perpendicular to upset seat's axis of rotation, and has the holding chamber in the agitator tank, and the discharge gate in intercommunication holding chamber has been seted up to the agitator tank end, and the heating element sends heat to heat the holding chamber. After the material is calcined, the overturning seat can be driven to rotate by the overturning driving piece, so that the stirring tank can incline, and finally, the material in the accommodating cavity can be poured out from the discharge hole. By utilizing the stirring heating furnace provided by the utility model, the materials can be quickly poured out after the materials are calcined. The difficulty in taking out the materials from the accommodating cavity is reduced.

Description

Stirring heating furnace

Technical Field

The utility model relates to the field of calcining equipment, in particular to a stirring heating furnace.

Background

A stirred furnace is a common calcination apparatus commonly used to calcine particulate or powdered materials. See patent application number CN202221947509.3, such a heating furnace can continuously turn the material during the material calcining process, so that the material is heated uniformly, and the calcination is gradually completed.

However, after each use of the stirring and heating furnace, the calcined material needs to be taken out from the stirring and heating furnace. The material is required to be cleaned from the discharge hole of the stirring heating furnace step by step. The mode of cleaning materials from the stirring heating furnace is low in efficiency, and the working efficiency of calcining materials is affected.

Therefore, how to increase the material guiding-out speed in the stirring heating furnace is a technical problem to be solved.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides a stirring heating furnace, which solves the technical problem that the material in the stirring heating furnace is too slow in discharge speed in the prior art.

In order to achieve the technical purpose, the technical scheme of the utility model comprises a stirring heating furnace, which comprises the following components:

the support assembly comprises a base, a turnover seat and a turnover driving piece, wherein the turnover seat is rotatably arranged on the base, and the turnover driving piece is in transmission connection with the turnover seat so as to drive the turnover seat to rotate relative to the base;

the stirring assembly comprises a stirring tank, a heating part and a stirring driving part, wherein the stirring tank is rotatably arranged on the overturning seat, the rotating shaft of the stirring tank is perpendicular to the rotating shaft of the overturning seat, a containing cavity is formed in the stirring tank, a discharge hole communicated with the containing cavity is formed in the end head of the stirring tank, and the heating part emits heat to heat the containing cavity.

Preferably, the overturning driving piece comprises a hydraulic cylinder, a cylinder body of the hydraulic cylinder is hinged with the base, and a piston rod of the hydraulic cylinder is hinged with the overturning seat.

Preferably, one end of the stirring tank, which is far away from the discharge port, is also provided with a feeding port communicated with the accommodating cavity.

Preferably, the inner wall of the stirring tank is provided with a guiding conical surface surrounding the discharge hole.

Preferably, the heating member includes a housing installed at the turn-over base and provided at an outside of the agitation tank so as to form a heating region between the housing and the agitation tank, and a heating portion installed at the heating region, the heating portion radiating heat to indirectly heat the accommodating chamber.

Preferably, the housing is a heat insulating housing and the stirring tank is a metal stirring tank.

Preferably, the heating part includes a plurality of sets of heating tapes, and the plurality of sets of heating tapes are arranged in a direction surrounding the agitation tank.

Preferably, the two ends of the stirring tank are respectively provided with a first driving wheel and a second driving wheel, the overturning seat comprises a first supporting wheel set and a second supporting wheel set, and the first supporting wheel set and the second supporting wheel set respectively support the first driving wheel and the second driving wheel so that the stirring tank rotates relative to the overturning seat.

Preferably, the first supporting wheel group comprises two first supporting wheels, a first guide groove is formed in the periphery of each first supporting wheel, the first driving wheel is arranged between the two first supporting wheels, and the first supporting wheels are embedded in the first guide grooves.

Preferably, the second supporting wheel set comprises two second supporting wheels, a second guiding groove is formed in the periphery of each second supporting wheel, the second driving wheel is arranged between the two second supporting wheels, and the second supporting wheels are embedded in the second guiding grooves.

Compared with the prior art, the utility model has the beneficial effects that: firstly, putting the material to be calcined into a containing cavity of a stirring tank, and heating the containing cavity by a heating element to generate heat. Thereby calcining the material in the accommodating cavity by using high temperature. And the stirring driving piece drives the stirring tank to rotate, so that the stirring effect on the materials in the accommodating cavity can be achieved, and the materials can be heated uniformly. After the material is calcined, the overturning seat can be driven to rotate by the overturning driving piece, so that the stirring tank can incline, and finally, the material in the accommodating cavity can be poured out from the discharge hole. By utilizing the stirring heating furnace provided by the utility model, the materials can be quickly poured out after the materials are calcined. The difficulty in taking out the materials from the accommodating cavity is reduced.

Drawings

FIG. 1 is a front view of a stirring heating furnace according to an embodiment of the present utility model;

FIG. 2 is a side view of a stirred furnace in accordance with an embodiment of the present utility model;

the support assembly 100, the base 110, the tilting seat 120, the first support wheel set 121, the first support wheel 1211, the second support wheel set 122, the second support wheel 1221, the tilting drive 130, the hydraulic cylinder 131, the stirring assembly 200, the stirring tank 210, the accommodating cavity 211, the discharge port 212, the feed port 213, the first driving wheel 214, the second driving wheel 215, the heating element 220, the housing 221, the heating portion 222, the heating belt 2221, and the stirring drive 230.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Referring to fig. 1 to 2, an embodiment of the present utility model provides a stirring heating furnace for heating and calcining materials, which belongs to the field of calcining equipment. The stirring heating furnace can stir by rotation, so that materials in the stirring heating furnace can be heated uniformly. Meanwhile, after the materials are calcined, the materials in the stirring heating furnace can be quickly poured out, and the difficulty of taking out the materials from the stirring heating furnace is reduced.

In some preferred embodiments, the stirring heating furnace comprises a support assembly 100 and a stirring assembly 200, wherein the support assembly 100 comprises a base 110, a turnover seat 120 and a turnover driving member 130, the turnover seat 120 is rotatably installed on the base 110, and the turnover driving member 130 is in transmission connection with the turnover seat 120 so as to drive the turnover seat 120 to rotate relative to the base 110. The stirring assembly 200 comprises a stirring tank 210, a heating element 220 and a stirring driving element 230, the stirring tank 210 is rotatably arranged on the overturning seat 120, the rotating shaft of the stirring tank 210 is perpendicular to the rotating shaft of the overturning seat 120, the stirring tank 210 is internally provided with a containing cavity 211, the end head of the stirring tank 210 is provided with a discharge hole 212 communicated with the containing cavity 211, and the heating element 220 emits heat to heat the containing cavity 211.

In the above embodiment, the material to be calcined is first put into the accommodating chamber 211 of the stirring tank 210, and the heating member 220 emits heat to heat the accommodating chamber 211. Thereby calcining the material in the accommodating chamber 211 with high temperature. The stirring driving member 230 drives the stirring tank 210 to rotate, so as to stir the material in the accommodating cavity 211, and the material can be heated uniformly. After the material is calcined, the overturning driving member 130 can be utilized to drive the overturning seat 120 to rotate, so that the stirring tank 210 can be inclined, and finally the material in the accommodating cavity 211 can be dumped from the discharging hole 212. By utilizing the stirring heating furnace provided by the utility model, the materials can be quickly poured out after the materials are calcined. The difficulty in withdrawing material from the receiving chamber 211 is reduced.

The embodiment of the tilting drive 130 is possible as long as it can drive the tilting block 120 to rotate relative to the base 110, and in some preferred embodiments, the tilting drive 130 includes a hydraulic cylinder 131, the cylinder body of the hydraulic cylinder 131 is hinged to the base 110, and the piston rod of the hydraulic cylinder 131 is hinged to the tilting block 120. The piston rod of the hydraulic cylinder 131 moves relative to the hydraulic cylinder 131, so that the turning seat 120 can be pushed to rotate relative to the base 110.

In some preferred embodiments, a feeding port 213 communicating with the accommodating cavity 211 is further formed at an end of the stirring tank 210 away from the discharge port 212. Material can be put into the accommodating cavity 211 from the material inlet 213, and the material in the accommodating cavity 211 is poured out from the material outlet 212.

Based on the above embodiments, in some preferred embodiments, the inner wall of the agitator tank 210 has a pilot cone around the discharge port 212. When the material in the stirring tank 210 is poured, the material is guided out of the material outlet 212 under the guiding action of the guiding conical surface.

As long as the embodiment of the heating member 220 that can raise the temperature of the accommodating chamber 211 is possible, in some preferred embodiments, the heating member 220 includes a cover 221 and a heating part 222, the cover 221 is mounted to the tilting seat 120 and covers the outside of the stirring tank 210 to form a heating area between the cover 221 and the stirring tank 210, the heating part 222 is mounted to the heating area, and the heating part 222 emits heat to indirectly heat the accommodating chamber 211.

In the above embodiment, the heating portion 222 radiates heat, so that the heating area is heated, and the heat enters the accommodating cavity 211 through the side wall of the stirring tank 210, so that the accommodating cavity 211 is heated, and the material in the accommodating cavity 211 is calcined.

Based on the above embodiments, in some preferred embodiments, the enclosure 221 is an insulated enclosure 221 and the stirred tank 210 is a metal stirred tank 210. The heat shield 221 prevents heat from being dissipated outside in the heating zone, while the metallic stirring tank 210 has sufficient structural strength on the one hand. On the other hand, the metal material has good thermal conductivity, and can rapidly transfer heat in the heating area to the accommodating cavity 211.

Embodiments of the heating portion 222 that can raise the temperature of the heating region are possible, and for example, the heating region can be raised by using open fire heating generated by burning fuel. In some preferred embodiments, the heating portion 222 includes multiple sets of heating bands 2221, the multiple sets of heating bands 2221 encircling the agitator tank 210. By supplying power to each set of the heating belts 2221, the heating belts 2221 emit heat to raise the temperature of the heating area.

In some preferred embodiments, the stirring tank 210 has a first driving wheel 214 and a second driving wheel 215 at two ends thereof, and the overturning seat 120 includes a first supporting wheel set 121 and a second supporting wheel set 122, and the first supporting wheel set 121 and the second supporting wheel set 122 support the first driving wheel 214 and the second driving wheel 215, respectively, so that the stirring tank 210 rotates relative to the overturning seat 120.

On the basis of the above embodiment, the first supporting wheel set 121 includes two first supporting wheels 1211, the first guiding groove is formed on the periphery of the first supporting wheels 1211, the first driving wheel 214 is disposed between the two first supporting wheels 1211, and the first driving wheel 214 is embedded in the first guiding groove. The second supporting wheel set 122 includes two second supporting wheels 1221, a second guiding groove is formed on the outer periphery of the second supporting wheels 1221, the second driving wheel 215 is disposed between the two second supporting wheels 1221, and the second driving wheel 215 is embedded in the second guiding groove. Since the first support wheel 1211 is embedded in the first guide groove, and the second support wheel 1221 is embedded in the second guide groove. So that the first support wheel 1211 and the first driving wheel 214, and the second support wheel 1221 and the second driving wheel 215 can be more firmly engaged.

It will be appreciated that the same effects as those of the above embodiment can be obtained by grooving the first and

second driving wheels

214 and 215 such that the first and second supporting

wheels

1211 and 1221 are respectively fitted into grooves formed in the first and

second driving wheels

214 and 215.

Firstly, the material to be calcined is put into the accommodating cavity 211 of the stirring tank 210 through the feed opening 213, the cover shell 221 is installed on the overturning seat 120 and covers the outside of the stirring tank 210, so as to form a heating area between the cover shell 221 and the stirring tank 210, the heating part 222 is installed in the heating area, and the heating part 222 emits heat to indirectly heat the accommodating cavity 211. The heating member 220 emits heat to heat the accommodating chamber 211. Thereby calcining the material in the accommodating chamber 211 with high temperature. The stirring driving member 230 drives the stirring tank 210 to rotate, so as to stir the material in the accommodating cavity 211, and the material can be heated uniformly. After the material is calcined, the piston rod of the hydraulic cylinder 131 can be utilized to move relative to the hydraulic cylinder 131, so that the turning seat 120 can be pushed to rotate relative to the base 110. Further, the stirring tank 210 can be inclined, and finally, the material in the accommodating cavity 211 can be poured out from the discharge hole 212. By utilizing the stirring heating furnace provided by the utility model, the materials can be quickly poured out after the materials are calcined. The difficulty in withdrawing material from the receiving chamber 211 is reduced.

The above-described embodiments of the present utility model do not limit the scope of the present utility model. Any other corresponding changes and modifications made in accordance with the technical idea of the present utility model shall be included in the scope of the claims of the present utility model.

Claims

1. A stirring heating furnace, characterized by comprising:

2. The stirring heating furnace of claim 1, wherein the tilting drive comprises a hydraulic cylinder, a cylinder body of the hydraulic cylinder being hinged to the base, a piston rod of the hydraulic cylinder being hinged to the tilting seat.

3. The stirring and heating furnace of claim 1, wherein one end of the stirring tank, which is far away from the discharge port, is further provided with a feed port communicated with the accommodating cavity.

4. A stirred tank furnace as claimed in claim 3, wherein the inner wall of the stirred tank has a guiding cone surrounding the discharge opening.

5. The stirring heating furnace of claim 1, wherein the heating member comprises a housing mounted to the turnover seat and provided outside the stirring tank to form a heating region between the housing and the stirring tank, and a heating portion mounted to the heating region, the heating portion radiating heat to indirectly heat the accommodating chamber.

6. The stirring heating furnace of claim 5, wherein the enclosure is an insulated enclosure and the stirring tank is a metal stirring tank.

7. The stirring heating furnace of claim 5, wherein the heating section includes a plurality of sets of heating bands, the plurality of sets of heating bands being arranged in a direction surrounding the stirring tank.

8. The stirring and heating furnace according to claim 1, wherein a first driving wheel and a second driving wheel are respectively arranged at two ends of the stirring tank, the overturning seat comprises a first supporting wheel set and a second supporting wheel set, and the first supporting wheel set and the second supporting wheel set respectively support the first driving wheel and the second driving wheel so that the stirring tank rotates relative to the overturning seat.

9. The stirring and heating furnace of claim 8, wherein the first support wheel set comprises two first support wheels, a first guide groove is formed in the periphery of each first support wheel, the first driving wheel is arranged between the two first support wheels, and the first driving wheel is embedded in the first guide groove.

10. The stirring and heating furnace of claim 8, wherein the second support wheel set comprises two second support wheels, a second guide groove is formed in the periphery of each second support wheel, the second driving wheel is arranged between the two second support wheels, and the second driving wheel is embedded in the second guide groove.