CN220931721U - Detection heating furnace applied to detection of brazing auxiliary agent - Google Patents

Abstract

The utility model discloses a detection heating furnace applied to detecting brazing auxiliary agents, which comprises a plurality of bases, a furnace body, a heating partition board, an exhaust pipe, a deslagging grid, a fuel replacement door and a conical funnel. The utility model relates to the technical field of heating furnaces, and because of long-time use, high temperature can cause loss to a contact coal-fired part, the novel heating furnace adopts multidirectional rotation and heat source position change, achieves uniform heat dispersion, automatic cleaning and full combustion, saves fuel, and simultaneously is convenient to replace and maintain due to the heat source design of the combination of an inner cylinder and an outer cylinder.

Description

Detection heating furnace applied to detection of brazing auxiliary agent

Technical Field

The utility model relates to the technical field of heating furnaces, in particular to a detection heating furnace applied to detection of brazing auxiliary agents.

Background

The heating furnace is widely applied to the fields of petroleum, chemical industry, metallurgy, heat treatment, surface treatment, electronics, light industry, pharmacy and the like, and mainly is used for heating materials, the combustion mode of the heating furnace is fuel gas, fire coal and the like, when the performance of the brazing auxiliary agent is detected, the heating furnace is required to heat the brazing auxiliary agent, and the prior art has the following defects: when the existing coal-fired heating furnace heats the brazing auxiliary agent, the fire coal is accumulated together in a large amount, so that insufficient combustion is easily caused, the fire coal resources are wasted, and meanwhile, toxic gas is generated, so that the environment is polluted. For example, "CN 212930991U" a heating furnace for detecting brazing additive performance drives a transmission shaft to slowly rotate through a motor, under the action of two bevel gears, the transmission shaft drives a rotating shaft and a rotating plate to simultaneously rotate, and when the rotating plate rotates, the rotating plate drives two rotating rods and an outer gear ring at a corresponding position to do annular movement.

Disclosure of utility model

In order to achieve the above purpose, the utility model is realized by the following technical scheme: be applied to detection heating furnace that detects brazing auxiliary agent, including a plurality of base, furnace body, heating baffle, blast pipe, arrange sediment grid, fuel and change door and conical funnel, a plurality of the base install in on the furnace body, the blast pipe install in on the furnace body, fuel change door install in on the furnace body, heating baffle install in the furnace body, arrange sediment grid install in the furnace body, install rotatory circulation heating structure in the furnace body, install removable class fuel rod structure on the rotatory circulation heating structure, conical funnel installs the bottom of furnace body.

The rotary circulation heating structure comprises a pair of three-notch circular turntables, an 8-shaped track gasket, a pair of circulation auxiliary gears, a circulation rotating shaft, a plurality of circulation heating outer cylinders, a plurality of operation buckles and a circulation motor;

The circulating auxiliary gears are arranged on the circulating rotating shaft, the circulating rotating shaft is arranged on the circulating motor, a pair of three-notch circular turntables are arranged on the 8-shaped track gaskets, a pair of circulating auxiliary gears are arranged on the 8-shaped track gaskets, the pair of circulating auxiliary gears are meshed with each other in a gear manner, a plurality of operation buckles are arranged on the 8-shaped track gaskets, the operation buckles are respectively connected with a plurality of circulating heating outer cylinders, and the wall of the circulating heating outer cylinders is connected with the three-notch circular turntables;

In the above description, the brazing auxiliary to be tested is placed on the heating partition plate, and then the test brazing auxiliary is tested by the fire coal in the replaceable fuel rod-like structure, wherein the rotary circulating heating structure performs irregular 8-shaped annular movement on the fire coal in the furnace, so that the temperature in the furnace is uniform; when the circular heating furnace is used, the circulating motor is operated to drive the circulating rotating shaft to rotate, the circulating rotating shaft drives the circulating auxiliary gear to rotate, the circulating auxiliary gear is meshed with each other, the corresponding three-notch circular turnplates are driven to rotate simultaneously by mutual transmission, the circulating heating outer cylinder is just corresponding to the notch on the three-notch circular turnplates in size, and the circulating heating outer cylinder is driven by the notch to rotate when rotating, so that the running buckle is connected to the circulating heating outer cylinder, the running buckle is nested on the 8-shaped track gasket, and because of the limitation of the track, the circulating heating outer cylinder driven by the three-notch circular turnplates can only do 8-shaped circulating reciprocating motion, and therefore irregular 8-shaped annular motion of fire coal in the furnace is realized.

Preferably, the replaceable fuel rod-like structure comprises: a plurality of circulating heating outer barrels, a plurality of outer barrel grids, a plurality of circulating heating inner barrels, an inner barrel wall limiting slideway, a circulating barrel cover and a barrel cover buckle;

The circulating heating inner cylinder is respectively arranged on the inner side of the circulating heating outer cylinder, the outer cylinder grids are respectively arranged on the circulating heating outer cylinder, the limiting slideway of the inner cylinder wall is arranged on the inner side of the circulating heating outer cylinder, the circulating cylinder cover is arranged on the circulating heating outer cylinder, and the cylinder cover buckle is arranged on the circulating heating outer cylinder.

In the above, when in use, the circulating heating inner cylinder filled with fire coal is inserted into the circulating heating outer cylinder through the fuel replacement door, meanwhile, because the inner side of the circulating heating outer cylinder is provided with the inner cylinder wall limiting slideway, the circulating heating inner cylinder can be firmly arranged in the circulating heating outer cylinder and can not rotate in the circulating heating outer cylinder, and a large number of grid structures are arranged on the circulating heating inner cylinder, so that when the circulating heating outer cylinder rotates, the circulating heating inner cylinder can also rotate, and when the circulating heating outer cylinder rotates to an inverted position, fire coal ashes in the circulating heating inner cylinder can fall onto the slag grid of the furnace body through the outer cylinder grid arranged on the circulating heating outer cylinder, self-cleaning is completed, and the combination of the circulating barrel cover and the barrel cover buckle ensures that the circulating heating outer cylinder and the circulating heating inner cylinder are firmly combined.

Preferably, the furnace body is provided with a temperature sensor;

preferably, the furnace body is provided with a humidity sensor;

preferably, the circular heating inner cylinder is provided with a grid-shaped dust screen;

preferably, the base is provided with a shock absorber;

Advantageous effects

The utility model provides a detection heating furnace applied to detection of brazing auxiliary agents. Possess following beneficial effect, this be applied to detection heating furnace that detects brazing auxiliary agent, because long-time use, the high temperature can lead to the fact the loss to contact coal-fired position, this novel application diversified rotation and heat source position change reach heat dispersion even, self-cleaning, fully burn save fuel, the heat source design that the inner and outer section of thick bamboo combines in the time of leading to, convenient change and maintenance.

Drawings

FIG. 1 is a schematic three-dimensional structure of a detection heating furnace for detecting brazing auxiliary agent according to the present utility model.

Fig. 2 is a schematic diagram showing a schematic diagram of a cross-sectional front view of a detection heating furnace for detecting a brazing assistant according to the present utility model.

FIG. 3 is a schematic side cross-sectional view of a test heating furnace for testing brazing auxiliary according to the present utility model.

FIG. 4 is a schematic enlarged front view of a part of a replaceable fuel rod-like structure of a test heating furnace for testing brazing auxiliary agent according to the present utility model.

FIG. 5 is a partially enlarged rear view of a replaceable fuel rod-like structure of a test heating furnace for testing brazing auxiliary agent according to the present utility model.

In the figure: 1. a base; 2. a furnace body; 3. heating the partition plate; 4. an exhaust pipe; 5. a slag discharging grid; 6. a fuel replacement door; 7. a conical funnel; 8. a three-notch circular turntable; 9. 8-shaped track gaskets; 10. a circulation auxiliary gear; 11. a circulating rotating shaft; 12. circularly heating the outer cylinder; 13. the operation buckle; 14. a circulation motor; 15. an outer cylinder grid; 16. circularly heating the inner cylinder; 17. limiting slide ways on the inner barrel wall; 18. a circulating barrel cover; 19. the barrel cover is buckled.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

The novel detection heating furnace for detecting brazing auxiliary agents is specifically described below with reference to the accompanying drawings, and as shown in fig. 1-5, the novel detection heating furnace comprises a plurality of bases 1, a furnace body 2, a heating partition plate 3, an exhaust pipe 4, a slag discharge grid 5, a fuel replacement door 6 and a conical funnel 7, and is characterized in that the plurality of bases 1 are arranged on the furnace body 2, the exhaust pipe 4 is arranged on the furnace body 2, the fuel replacement door 6 is arranged on the furnace body 2, the heating partition plate 3 is arranged in the furnace body 2, the slag discharge grid 5 is arranged in the furnace body 2, a rotary circulation heating structure is arranged in the furnace body 2, a replaceable fuel rod-like structure is arranged on the rotary circulation heating structure, and the conical funnel 7 is arranged at the bottom of the furnace body 2; the rotary circulation heating structure comprises a pair of three-notch circular turntables 8, an 8-shaped track gasket 9, a pair of circulation auxiliary gears 10, a circulation rotating shaft 11, a plurality of circulation heating outer cylinders 12, a plurality of operation buckles 13 and a circulation motor 14; the circulating auxiliary gear 10 is installed on the circulating rotating shaft 11, the circulating rotating shaft 11 is installed on the circulating motor 14, a pair of three-notch circular turntables 8 are installed on the 8-shaped track gaskets 9, a pair of circulating auxiliary gears 10 are installed on the 8-shaped track gaskets 9, the pair of circulating auxiliary gears 10 are meshed with each other in a gear mode, a plurality of operation buckles 13 are installed on the 8-shaped track gaskets 9, the plurality of operation buckles 13 are respectively connected with a plurality of circulating heating outer cylinders 12, and the walls of the circulating heating outer cylinders 12 are connected with the three-notch circular turntables 8; the replaceable fuel rod-like structure comprises: the circulating heating outer cylinder 12, the outer cylinder grids 15, the circulating heating inner cylinder 16, the inner cylinder wall limiting slideway 17, the circulating cylinder cover 18 and the cylinder cover buckle; the circulating heating inner cylinders 16 are respectively arranged on the inner sides of the circulating heating outer cylinders 12, the outer cylinder grids 15 are respectively arranged on the circulating heating outer cylinders 12, the limiting slide ways 17 of the inner cylinder walls are arranged on the inner sides of the circulating heating outer cylinders 12, the circulating cylinder covers 18 are arranged on the circulating heating outer cylinders 12, and the cylinder covers are buckled on the circulating heating outer cylinders 12.

According to the attached figures 1-5, the brazing auxiliary agent to be tested is placed on the heating partition plate 3, and then the test brazing auxiliary agent is tested through the fire coal in the replaceable fuel rod-like structure, wherein the rotary circulating heating structure carries out irregular 8-shaped annular movement on the fire coal in the furnace, so that the temperature in the furnace is uniform; when in use, the circulating motor 14 operates to drive the circulating rotating shaft 11 to rotate, the circulating rotating shaft 11 drives the circulating auxiliary gear 10 to rotate, the circulating auxiliary gear 10 is meshed with each other, and the corresponding three-notch circular turntables 8 are driven to rotate simultaneously by mutual transmission, the circulating heating outer cylinder 12 exactly corresponds to the notch on the three-notch circular turntables 8 in size, and the circulating heating outer cylinder 12 is driven by the notch to rotate when in rotation, so that the circulating heating outer cylinder 12 is connected with the running buckle 13, the running buckle 13 is nested on the 8-shaped track gasket 9, and the circulating heating outer cylinder 12 driven by the three-notch circular turntables 8 can only do 8-shaped circulating reciprocating motion due to the limit of the track, so that irregular 8-shaped annular motion of fire coal in the furnace is realized; when the circulating heating inner cylinder 16 filled with fire coal is inserted into the circulating heating outer cylinder 12 through the fuel replacement door 6 during use, meanwhile, because the inner side of the circulating heating outer cylinder 12 is provided with the inner cylinder wall limiting slide way 17, the circulating heating inner cylinder 16 can be firmly installed in the circulating heating outer cylinder 12 and cannot rotate in the circulating heating outer cylinder 12, and a large number of grid structures are arranged on the circulating heating inner cylinder 16, so that when the circulating heating outer cylinder 12 rotates, the circulating heating inner cylinder 16 can also rotate, when the circulating heating outer cylinder 12 rotates to an inverted position, fire coal ashes in the circulating heating inner cylinder 16 can fall onto the slag discharging grid 5 in the furnace body 2 through the outer cylinder grid 15 installed on the circulating heating outer cylinder 12, self cleaning is completed, and the combination of the circulating barrel cover 18 and the barrel cover buckle ensures that the circulating heating outer cylinder 12 and the circulating heating inner cylinder 16 are firmly combined.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The detection heating furnace for detecting the brazing auxiliary agent comprises a plurality of bases, a furnace body, a heating partition plate, an exhaust pipe, a deslagging grid, a fuel replacement door and a conical funnel, and is characterized in that the bases are arranged on the furnace body, the exhaust pipe is arranged on the furnace body, the fuel replacement door is arranged on the furnace body, the heating partition plate is arranged in the furnace body, the deslagging grid is arranged in the furnace body, a rotary circulating heating structure is arranged in the furnace body, a replaceable fuel rod-like structure is arranged on the rotary circulating heating structure, and the conical funnel is arranged at the bottom of the furnace body;

The rotary circulation heating structure comprises a pair of three-notch circular turntables, an 8-shaped track gasket, a pair of circulation auxiliary gears, a circulation rotating shaft, a plurality of circulation heating outer cylinders, a plurality of operation buckles and a circulation motor;

The circulating auxiliary gear is arranged on the circulating rotating shaft, the circulating rotating shaft is arranged on the circulating motor, a pair of three-notch circular turntables are arranged on the 8-shaped track gaskets, a pair of circulating auxiliary gears are arranged on the 8-shaped track gaskets, the circulating auxiliary gears are meshed with each other in a gear mode, a plurality of operating buckles are arranged on the 8-shaped track gaskets, the operating buckles are respectively connected with a plurality of circulating heating outer cylinders, and the wall of the circulating heating outer cylinders is connected with the three-notch circular turntables.

2. The inspection heater applied to inspection of brazing aids according to claim 1, wherein the replaceable fuel rod-like structure comprises: a plurality of circulating heating outer barrels, a plurality of outer barrel grids, a plurality of circulating heating inner barrels, an inner barrel wall limiting slideway, a circulating barrel cover and a barrel cover buckle;

A plurality of circulating heating inner cylinders are respectively arranged at the inner sides of a plurality of circulating heating outer cylinders, a plurality of circulating heating inner cylinders

The outer barrel grids are respectively arranged on a plurality of the circulating heating outer barrels, the limiting slide ways of the inner barrel walls are arranged on the inner sides of the circulating heating outer barrels, the circulating barrel covers are arranged on the circulating heating outer barrels, and the barrel cover buckles are arranged on the circulating heating outer barrels.

3. The inspection heating furnace for inspecting brazing aids according to claim 2, wherein the furnace body is provided with a temperature sensor.

4. A detection heating furnace for detecting a brazing aid according to claim 3, wherein the furnace body is provided with a humidity sensor.

5. The inspection heating furnace for inspecting brazing aids according to claim 4, wherein the circulating heating inner cylinder is provided with a mesh-like dust screen.

6. The inspection heating furnace for inspecting a brazing aid according to claim 5, wherein the base is provided with a damper.