CN218972650U - Penetration type energy-saving furnace end - Google Patents

Abstract

The utility model discloses a probing type energy-saving furnace end, which relates to the technical field of gas equipment and aims to solve the problems that in the using process of the existing furnace end, external gas flow can affect the inside along with the size of flame, the adjusting component is single, and the loss of gas is increased.

Description

Penetration type energy-saving furnace end

Technical Field

The utility model relates to the technical field of gas equipment, in particular to a penetration type energy-saving furnace end.

Background

The furnace end is an important component part of the open hearth furnace, the combustion of fuel, the direction and shape of flame, the discharge of waste gas and the distribution of the waste gas in a heat-exchanging chamber are all related to the structure of the furnace end, in addition, the heating of furnace materials, the smelting time, the consumption of fuel and the like are all directly influenced by the structure of the furnace end, so that the proper selection of the size and the normal maintenance work of the furnace end has very important significance.

In the using process of the existing furnace end, the external air flow can influence the inside along with the size of flame, and the adjusting component is single, so that the loss of fuel gas is increased; so we propose a penetration type energy saving burner in order to solve the above mentioned problems.

Disclosure of Invention

The utility model aims to provide a penetrating type energy-saving furnace end, which solves the problems that the existing furnace end provided in the background technology has single adjusting component and increases the loss of fuel gas due to the fact that external air flow can influence the inside along with the size of flame in the using process.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an energy-conserving furnace end of probing formula, includes the furnace end, and the centre of furnace end is equipped with gas subassembly, and gas subassembly's the outside is equipped with the atmospheric pressure control subassembly, and the atmospheric pressure control subassembly is equipped with the multiunit, and multiunit atmospheric pressure control subassembly encircles gas subassembly's the outside setting, is equipped with the air current regulation subassembly on the furnace end, and the air current regulation subassembly is equipped with the multiunit, and multiunit air current regulation subassembly encircles on the furnace end.

The gas pressure control assembly is arranged around the outer side of the gas assembly through the multiple groups of gas pressure control assemblies, the gas pressure is regulated, the gas pressure inside the gas pressure control assembly is ensured to be stable, the multiple groups of gas flow regulating assemblies are arranged around the furnace head according to the regulation of the gas, the radian drainage plate is movably connected with the high-temperature baffle, the radian drainage plate can be controlled to swing through the control of the driver, the gas flow is changed, the gas temperature is improved, the gas pressure inside the gas pressure sensor is matched with the temperature sensor, the gas pressure inside the gas pressure sensor is effectively monitored, the monitoring performance is improved, and the energy-saving performance is improved.

Further, the air current adjusting part includes high temperature baffle and radian drainage board, and radian drainage board and high temperature baffle swing joint, and the one end on the radian drainage board is equipped with the air pressure sensor, and the one end of air current adjusting part is equipped with the driver, through the cooperation of air pressure sensor and temperature-sensing ware, can carry out effectual monitoring to inside atmospheric pressure and temperature, promotes monitoring performance, increases energy-conserving performance.

Further, the middle of the furnace end is provided with a gas cavity for containing a gas assembly, the inner wall of the gas cavity is coated with a constant temperature coating, the constant temperature coating is used for avoiding rapid cooling of the gas cavity, effective protection of the gas cavity is formed, and the service life is prolonged.

Further, be equipped with the gas ware in the middle of the gas subassembly, be equipped with temperature-sensing ware on the gas subassembly, temperature-sensing ware is equipped with the multiunit, and the bottom of gas subassembly is equipped with the controller, through the cooperation of atmospheric pressure sensor and temperature-sensing ware, can carry out effectual monitoring to inside atmospheric pressure and temperature, promotes monitoring performance, increases energy-conserving performance.

Further, one end of the air pressure control assembly is provided with a connecting air pipe, the other end of the air pressure control assembly is provided with an air hole, a plurality of groups of air flow adjusting assemblies encircle the furnace head, the radian drainage plate is movably connected with the high-temperature baffle, and the radian drainage plate can be controlled to swing through the control of the driver, so that the air flow changes, and the temperature of the fuel gas is improved.

Further, the outer wall coating of furnace end has thermal insulation coating, and the bottom of furnace end is equipped with shock-absorbing base, and shock-absorbing hole has been seted up in the centre of shock-absorbing base, through the shock-absorbing hole, reduces outside vibration nature, forms effectual protection.

Further, the outside cover of shock-absorbing mount is equipped with the seal cover, adopts the seal cover, promotes holistic leakproofness.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the air pressure is regulated by arranging the air pressure control components around the outer side of the gas component, the air pressure stability in the gas is ensured, the air pressure control components are arranged around the furnace head according to the regulation of the gas, the radian drainage plate is movably connected with the high-temperature baffle, the radian drainage plate can be controlled to swing through the control of the driver, so that the air flow is changed, the temperature of the gas is improved, the air pressure and the temperature in the gas can be effectively monitored through the cooperation of the air pressure sensor and the temperature sensor, the monitoring performance is improved, and the energy-saving performance is improved.

2. Through the constant temperature coating that sets up, avoid the gas chamber to cool off fast, form the effective protection to the gas chamber, promote life.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is another angular schematic view of the present utility model.

In the figure: 1. a burner; 2. a gas assembly; 3. an airflow adjustment assembly; 4. an air pressure control assembly; 5. a shock absorbing base; 6. a gas burner; 7. a temperature sensor; 8. connecting an air pipe; 9. a high temperature baffle; 10. radian drainage plate; 11. an air pressure sensor; 12. a gas cavity; 13. ventilation holes; 14. damping hole; 15. a controller; 16. sealing sleeve; 17. a thermal insulation coating; 18. a driver; 19. and (5) coating at constant temperature.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

Referring to fig. 1-3, an embodiment of the present utility model is provided: the utility model provides an energy-conserving furnace end 1 of probing formula, including furnace end 1, the centre of furnace end 1 is equipped with gas subassembly 2, the outside of gas subassembly 2 is equipped with atmospheric pressure control subassembly 4, atmospheric pressure control subassembly 4 is equipped with the multiunit, multiunit atmospheric pressure control subassembly 4 encircles the outside setting of gas subassembly 2, be equipped with air flow adjustment subassembly 3 on the furnace end 1, air flow adjustment subassembly 3 is equipped with the multiunit, multiunit air flow adjustment subassembly 3 encircles the outside setting of gas subassembly 2 on the furnace end 1, carry out the adjustment of atmospheric pressure, guarantee inside atmospheric pressure is stable, on multiunit air flow adjustment subassembly 3 encircles furnace end 1, radian drainage plate 10 and high temperature baffle 9 swing joint, through the control of driver 18, can control radian drainage plate 10 and swing, make the air current change, promote the temperature of gas, through the cooperation of air pressure sensor 11 and temperature sensor 7, can carry out effectual monitoring to inside atmospheric pressure and temperature, promote monitoring performance, increase energy-conserving performance.

When in actual use, the air flow regulating assembly 3 comprises a high-temperature baffle 9 and an arc drainage plate 10, the arc drainage plate 10 is movably connected with the high-temperature baffle 9, one end on the arc drainage plate 10 is provided with an air pressure sensor 11, one end of the air flow regulating assembly 3 is provided with a driver 18, the air pressure and the temperature inside can be effectively monitored through the cooperation of the air pressure sensor 11 and the temperature sensor 7, the monitoring performance is improved, the energy-saving performance is improved, a gas cavity 12 containing a gas assembly 2 is arranged in the middle of the furnace end 1, the inner wall of the gas cavity 12 is coated with a constant-temperature coating 19, the constant-temperature coating 19 prevents the gas cavity 12 from being rapidly cooled, the effective protection of the gas cavity 12 is formed, and the service life is prolonged.

In addition, be equipped with gas ware 6 in the middle of gas subassembly 2, be equipped with temperature-sensing ware 7 on the gas subassembly 2, temperature-sensing ware 7 is equipped with the multiunit, the bottom of gas subassembly 2 is equipped with controller 15, through the cooperation of baroceptor 11 and temperature-sensing ware 7, can carry out effectual monitoring to inside atmospheric pressure and temperature, promote monitoring performance, increase energy-conserving performance, the one end of baroceptor 4 is equipped with and connects trachea 8, the other end of baroceptor 4 is equipped with bleeder vent 13, multiunit air current adjusting part 3 encircles on the furnace end 1, radian drainage board 10 and high temperature baffle 9 swing joint, through driver 18 control, can control radian drainage board 10 and swing, make the atmospheric current change, promote the temperature of gas.

The concrete supplementary note is that the outer wall coating of furnace end 1 has thermal insulation coating 17, and the bottom of furnace end 1 is equipped with shock-absorbing base 5, and shock-absorbing hole 14 has been seted up to shock-absorbing base 5's centre, through shock-absorbing hole 14, reduces outside vibration nature, forms effectual protection, and shock-absorbing base 5's outside cover is equipped with seal cover 16, adopts seal cover 16, promotes holistic leakproofness.

In summary, the utility model provides a penetrating type energy-saving furnace end 1, including the furnace end 1, the middle of the furnace end 1 is equipped with gas subassembly 2, the outside of gas subassembly 2 is equipped with atmospheric pressure control subassembly 4, atmospheric pressure control subassembly 4 is equipped with the multiunit, multiunit atmospheric pressure control subassembly 4 encircles the outside setting of gas subassembly 2, be equipped with air current regulation subassembly 3 on the furnace end 1, air current regulation subassembly 3 is equipped with multiunit, multiunit atmospheric pressure regulation subassembly 4 encircles the outside setting of gas subassembly 2, carry out the adjustment of atmospheric pressure, guarantee inside atmospheric pressure stability, on according to the adjustment of gas, multiunit air current regulation subassembly 3 encircles on the furnace end 1, radian drainage plate 10 and high temperature baffle 9 swing, through the control of driver 18, can control radian drainage plate 10 and swing, make the atmospheric pressure change, promote the temperature of gas, through the cooperation of atmospheric pressure inductor 11 and temperature inductor 7, can carry out effective monitoring to inside atmospheric pressure and temperature, promote monitoring performance, increase energy-conserving performance.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (7)

1. The utility model provides an energy-conserving furnace end of penetration, includes furnace end, its characterized in that: the middle of the furnace end is provided with a gas assembly, the outer side of the gas assembly is provided with a gas pressure control assembly, the gas pressure control assembly is provided with a plurality of groups, the gas pressure control assembly surrounds the outer side of the gas assembly, the furnace end is provided with an air flow adjusting assembly, the air flow adjusting assembly is provided with a plurality of groups, and the air flow adjusting assembly surrounds the furnace head.

2. The penetration type energy saving burner of claim 1, wherein: the air flow adjusting component comprises a high-temperature baffle and an arc drainage plate, the arc drainage plate is movably connected with the high-temperature baffle, an air pressure sensor is arranged at one end of the arc drainage plate, and a driver is arranged at one end of the air flow adjusting component.

3. The penetration type energy saving burner of claim 1, wherein: the middle of the furnace end is provided with a gas cavity for accommodating the gas assembly, and the inner wall of the gas cavity is coated with a constant temperature coating.

4. The penetration type energy saving burner of claim 1, wherein: the middle of the gas assembly is provided with a gas burner, the gas assembly is provided with temperature sensors, the temperature sensors are provided with a plurality of groups, and the bottom of the gas assembly is provided with a controller.

5. The penetration type energy saving burner of claim 1, wherein: one end of the air pressure control component is provided with a connecting air pipe, and the other end of the air pressure control component is provided with an air hole.

6. The penetration type energy saving burner of claim 1, wherein: the outer wall coating of furnace end has the thermal insulation coating, the bottom of furnace end is equipped with shock-absorbing mount, shock-absorbing hole has been seted up to shock-absorbing mount's centre.

7. The penetration type energy saving burner of claim 6, wherein: the outside of the damping base is sleeved with a sealing sleeve.

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