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CN-224229970-U - Steam boiler for processing epoxy plate

CN224229970UCN 224229970 UCN224229970 UCN 224229970UCN-224229970-U

Abstract

The utility model relates to a steam boiler's technical field especially relates to a steam boiler for epoxy board processing, and it not only can make gas and air evenly mix, strengthens boiler's combustion efficiency, reduces the gas loss, can carry out steady voltage to steam moreover and store, guarantees that the conveying pressure of steam is stable, guarantees the hot pressing effect; comprises a boiler; the device also comprises a mixing mechanism, a water storage mechanism, a separating mechanism and a pressure stabilizing mechanism, wherein the mixing mechanism is arranged on the boiler and is used for uniformly dispersing air flow, the water storage mechanism is arranged on the boiler and is used for heating water, the separating mechanism is arranged on the water storage mechanism and is used for separating air from liquid, and the pressure stabilizing mechanism is arranged on the separating mechanism and is used for carrying out pressure stabilizing conveying on steam.

Inventors

  • ZHANG HAILONG

Assignees

  • 黄骅市鸿鑫绝缘材料科技有限公司

Dates

Publication Date
20260512
Application Date
20250528

Claims (7)

  1. 1. A steam boiler for processing an epoxy plate comprises a boiler (01) and is characterized by further comprising a mixing mechanism (02), a water storage mechanism (03), a separation mechanism (04) and a pressure stabilizing mechanism (05), wherein the mixing mechanism (02) is arranged on the boiler (01) and uniformly disperses air flow, the water storage mechanism (03) is arranged on the boiler (01) and heats water, the separation mechanism (04) is arranged on the water storage mechanism (03) and separates gas from liquid, and the pressure stabilizing mechanism (05) is arranged on the separation mechanism (04) and carries out pressure stabilizing conveying on steam.
  2. 2. A steam boiler for epoxy plate processing as claimed in claim 1, characterized in that the boiler (01) comprises a furnace body (11), a gas supply pipeline (12), an oxygen supply pipeline (13), two groups of metering valves (14), an igniter (15) and a chimney (16), wherein the bottom end of the furnace body (11) is connected with the ground, a cavity is arranged in the furnace body (11), the gas supply pipeline (12) is arranged on the furnace body (11), the oxygen supply pipeline (13) is arranged on the furnace body (11), the two groups of metering valves (14) are respectively arranged on the gas supply pipeline (12) and the oxygen supply pipeline (13), the igniter (15) is arranged on the furnace body (11), and the bottom end of the chimney (16) is communicated with the inside of the top end of the furnace body (11).
  3. 3. A steam boiler for epoxy board processing as claimed in claim 2, characterized in that the mixing mechanism (02) comprises a motor (21), a speed reducer (22), three sets of rotating shafts (23), three sets of connecting plates (24) and three sets of stirring blades (25), the motor (21) is mounted on the furnace body (11), the speed reducer (22) is mounted on the furnace body (11), the rotating shafts (23) are rotatably mounted in the cavity of the furnace body (11), the three sets of connecting plates (24) are mounted on the rotating shafts (23), and the three sets of stirring blades (25) are mounted on the three sets of connecting plates (24) respectively.
  4. 4. A steam boiler for epoxy panel processing according to claim 3, further comprising stirring blades (25) made of carbon fiber reinforced silicon carbide ceramic matrix composite material.
  5. 5. A steam boiler for epoxy plate processing as claimed in claim 2, characterized in that the water storage mechanism (03) comprises a water tank (31), a water inlet pipe (32), a first check valve (33), a filter tank (34) and two groups of porous filter plates (35), wherein the water tank (31) is arranged in a cavity of the furnace body (11), the water inlet pipe (32) is arranged on the furnace body (11) and is communicated with the interior of the water tank (31), the first check valve (33) is arranged on the water inlet pipe (32), the bottom end of the filter tank (34) is communicated with the top end of the water tank (31), and the two groups of porous filter plates (35) are arranged in the filter tank (34).
  6. 6. A steam boiler for epoxy board processing according to claim 5, characterized in that the separating means (04) comprises a steam-water separator (41), a return pipe (42), a second non-return valve (43) and a gas pipe (44), the steam-water separator (41) being mounted on the filter box (34), the return pipe (42) being mounted on the steam-water separator (41) and being in communication with the interior of the water inlet pipe (32), the second non-return valve (43) being mounted on the return pipe (42), the gas pipe (44) being mounted on the steam-water separator (41).
  7. 7. A steam boiler for epoxy plate processing as set forth in claim 6, characterized in that the pressure stabilizing mechanism (05) comprises a pressure stabilizing tank (51), a pressure gauge (52), a pump body (53), an exhaust pipe (54) and an air supply pipe (55), the bottom end of the pressure stabilizing tank (51) is connected with the top end of the furnace body (11), the pressure stabilizing tank (51) is communicated with the inside of the air supply pipe (44), the pressure gauge (52) is mounted on the pressure stabilizing tank (51), the bottom end of the pump body (53) is connected with the top end of the furnace body (11), the exhaust pipe (54) is mounted on the pump body (53) and communicated with the inside of the pressure stabilizing tank (51), and the air supply pipe (55) is mounted on the pump body (53).

Description

Steam boiler for processing epoxy plate Technical Field The utility model relates to the technical field of steam boilers, in particular to a steam boiler for processing an epoxy plate. Background The epoxy resin plate has smooth and flat surface, no bubbles, greasy dirt and impurity, high mechanical and dielectric performance and wide application range. When the smoke is discharged from the smoke exhaust pipe, the smoke is guided into the separating cylinder through the guide pipe, airflow vortex is formed in the separating cylinder, smoke dust particles with larger mass in the smoke can be thrown out from the outermost side of the airflow vortex and contact with the inner wall of the separating cylinder under the action of inertia, and the contacted smoke dust particles lose inertia and fall into the hopper due to own weight and slide into the boiler again through the inclined recovery pipe for secondary combustion. The epoxy board processing in-process need be through steam heating realization lamination shaping, but current steam boiler is most steam pressure unstable, influences hot pressing effect very easily, and current steam boiler internal air and gas are difficult to misce bene moreover, influence combustion efficiency very easily. Disclosure of utility model In order to solve the technical problems, the utility model provides the steam boiler for processing the epoxy plate, which not only can uniformly mix fuel gas and air, enhance the combustion efficiency of the boiler and reduce fuel gas loss, but also can store steam in a pressure stabilizing way, ensure the stable conveying pressure of the steam and ensure the hot pressing effect. The utility model discloses a steam boiler for processing an epoxy plate, which comprises a boiler, a mixing mechanism, a water storage mechanism, a separating mechanism and a pressure stabilizing mechanism, wherein the mixing mechanism is arranged on the boiler and uniformly disperses air flow, the water storage mechanism is arranged on the boiler and heats water, the separating mechanism is arranged on the water storage mechanism and separates gas from liquid, the pressure stabilizing mechanism is arranged on the separating mechanism and carries out pressure stabilizing transportation on steam, staff carries the water into the water storage mechanism, the mixing mechanism is started to uniformly stir fuel gas and air, the boiler ignites the fuel gas to heat the water in the water storage mechanism, the steam enters the separating mechanism to be separated into gas and liquid, and the gas enters the pressure stabilizing mechanism to be stabilized and then is conveyed into a hot pressing device for processing the epoxy plate. Preferably, the boiler comprises a boiler body, a gas supply pipeline, an oxygen supply pipeline, two groups of metering valves, an igniter and a chimney, wherein the bottom end of the boiler body is connected with the ground, a cavity is formed in the boiler body, the gas supply pipeline is arranged on the boiler body, the oxygen supply pipeline is arranged on the boiler body, the two groups of metering valves are respectively arranged on the gas supply pipeline and the oxygen supply pipeline, the igniter is arranged on the boiler body, the bottom end of the chimney is communicated with the inside of the top end of the boiler body, gas is conveyed into the cavity of the boiler body through the gas supply pipeline, oxygen is conveyed into the cavity of the boiler body through the oxygen supply pipeline, the two groups of metering valves are used for metering control of the conveyed gas quantity, the mixing mechanism is used for uniformly mixing the oxygen and the gas and igniting the mixed gas through the igniter, the water storage mechanism is conveniently heated, and the flue gas is discharged through the chimney. Preferably, the mixing mechanism comprises a motor, a speed reducer, three groups of rotating shafts, three groups of connecting plates and three groups of stirring blades, the motor is arranged on the furnace body, the speed reducer is arranged on the furnace body, the rotating shafts are rotatably arranged in cavities of the furnace body, the three groups of connecting plates are all arranged on the rotating shafts, the three groups of stirring blades are respectively arranged on the three groups of connecting plates, the motor is started, the motor drives the rotating shafts to rotate through the speed reducer, the rotating shafts drive the three groups of connecting plates to rotate, the three groups of connecting plates drive the three groups of stirring blades to rotate, and the three groups of stirring blades rotate to uniformly mix oxygen and fuel gas, so that the water storage mechanism is convenient to uniformly heat. Preferably, the stirring fan blade is made of a carbon fiber reinforced silicon carbide ceramic matrix composite material, and the carbon fiber reinforced silicon carbide ceramic matrix composite material c