CN215232863U - Inner cavity drying structure of finned radiator - Google Patents

Abstract

The utility model relates to the technical field of auxiliary cleaning devices for finned radiators, in particular to an inner cavity drying structure for a finned radiator, which comprises an air inlet component and an air outlet component, wherein the air inlet component comprises a hot air device and an air inlet filtering device, the hot air device is connected with the air inlet filtering device through a pipeline, and the air inlet filtering device is detachably connected with an interface of the finned radiator; the air outlet assembly comprises an air purifying device, one end of the air purifying device is detachably connected with the other interface of the finned radiator, and the other end of the air purifying device is connected with the exhaust pipe. The utility model has simple structure, easy operation, high efficiency and reliable operation; the dual-filtration system not only ensures the requirement of the cleanness of the inner cavity of the product, but also reduces the pollution of waste gas to the environment.

Description

Inner cavity drying structure of finned radiator

Technical Field

The utility model relates to a cleaning device technical field is assisted to gilled radiator, provides a gilled radiator inner chamber stoving structure very much.

Background

The used finned radiator is washed by kerosene, and after the washing, in order to ensure the cleanness of the inner cavity of the finned radiator, the inner cavity of the finned radiator must be subjected to a kerosene washing procedure. The natural drying method is adopted conventionally, the process consumes too long time, the production cycle of the product is prolonged, and the working efficiency is reduced indirectly.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a gilled radiator inner chamber stoving structure.

The utility model is realized in such a way, the utility model provides a gilled radiator inner chamber drying structure, which comprises an air inlet component and an air outlet component, wherein the air inlet component comprises a hot air device and an air inlet filtering device, the hot air device is connected with the air inlet filtering device through a pipeline, and the air inlet filtering device is detachably connected with an interface of the gilled radiator; the air outlet assembly comprises an air purifying device, one end of the air purifying device is detachably connected with the other interface of the finned radiator, and the other end of the air purifying device is connected with the exhaust pipe.

Preferably, the air inlet assembly further comprises a thermometer, and the thermometer is arranged on a pipeline between the air inlet filtering device and the finned radiator; the air outlet assembly further comprises a hygrometer, and the hygrometer is arranged on a pipeline between the gas purification device and the finned radiator.

Further preferably, the thermometer and the hygrometer further comprise controllers, and the controllers are respectively connected with the thermometer, the hygrometer and the hot air device.

Further preferably, a section of the exhaust pipe close to the gas purification device is provided with a suction pump.

Further preferably, the air inlet filtering device comprises a filtering shell, at least one filtering cloth layer and at least one drying agent layer, the filtering cloth layer is detachably arranged in a cavity of the filtering shell close to the hot air device, and the drying agent layer is detachably arranged in a cavity of the filtering shell close to the finned radiator.

Further preferably, the gas purification device comprises a purification shell and at least one activated carbon layer, and the activated carbon layer is detachably arranged in the purification shell.

Preferably, an air inlet connecting flange is arranged at one end, close to the finned radiator, of a pipeline connected with the air inlet filtering device and the finned radiator, and an air outlet connecting flange is arranged at one end, close to the finned radiator, of a pipeline connected with the air purifying device and the finned radiator.

Compared with the prior art, the utility model has the advantages of:

the utility model has simple structure, easy operation, high efficiency and reliable operation; the double-filtering system (the air inlet filtering device and the air purifying device) is adopted, so that the requirement on the cleanliness of the inner cavity of the product is met, and the pollution of waste gas to the environment is reduced.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and embodiments:

FIG. 1 is a schematic view of the connection structure of the present invention with the integral finned radiator;

FIG. 2 is a schematic view showing the connection relationship between the controller, the thermometer, the hygrometer and the hot air device;

FIG. 3 is a schematic view of the intake air filtering device;

fig. 4 is a schematic structural view of a gas purification apparatus.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the utility model provides an inner cavity drying structure of a finned radiator, which comprises an air inlet component and an air outlet component, wherein the air inlet component comprises a hot air device 1 and an air inlet filtering device 2, the hot air device 1 is connected with the air inlet filtering device 2 through a pipeline, and the air inlet filtering device 2 is detachably connected with an interface of the finned radiator; the air outlet assembly comprises an air purifying device 3, one end of the air purifying device 3 is detachably connected with the other interface of the finned radiator, and the other end of the air purifying device is connected with an exhaust pipe 4.

Use the utility model discloses when carrying out finned radiator's inner chamber kerosene drying, pass through the tube coupling with hot air device 1 and filter equipment 2 that admits air, the tube coupling is passed through with an interface of finned radiator 11 to filter equipment 2 that admits air, with another interface connection of gaseous purifier 3 with finned radiator 11, blast pipe 4 has been connected to gaseous purifier 3's the other end, start hot air device 1, hot-blast filtration through filter equipment 2 that admits air enters into finned radiator 11, through each pipeline of finned radiator 11, come out from another interface again, hot-blast messenger kerosene evaporation, take away the kerosene, after gaseous purifier 3's absorption purifies, discharge into the external world through blast pipe 4.

In order to know the temperature of the entering air and know when the drying of a plate radiator can be stopped, as a technical improvement, the air inlet assembly also comprises a thermometer 5, and the thermometer 5 is arranged on a pipeline between the air inlet filtering device 2 and the plate radiator; the air outlet assembly further comprises a hygrometer 6, and the hygrometer 6 is arranged on a pipeline between the gas purification device 3 and the finned radiator.

For the convenience of control, as a modification, referring to fig. 2, a controller 7 is further included, and the controller 7 is respectively connected to the thermometer 5, the hygrometer 6, and the hot air device 1.

In order to accelerate the flow of the gas and improve the drying efficiency, as an improvement, a suction pump 8 is provided on a section of the exhaust pipe 4 near the gas purification device 3.

Referring to fig. 3, as a specific implementation manner of the intake air filtering device 2, the intake air filtering device 2 includes a filtering housing 201, at least one filtering cloth layer 202 and at least one desiccant layer 203, the filtering cloth layer 202 is detachably disposed in a cavity of the filtering housing 201 close to the air heater 1, and the desiccant layer 203 is detachably disposed in a cavity of the filtering housing 201 close to the plate heat sink.

Dust is adsorbed and filtered by the filter cloth layer 202, and moisture in the hot air is adsorbed by the desiccant layer 203.

Referring to fig. 4, as a specific implementation of the gas purification apparatus 3, the gas purification apparatus 3 includes a purification housing 301 and at least one activated carbon layer 302, and the activated carbon layer 302 is detachably mounted in the purification housing 301. The volatilized kerosene is adsorbed by the activated carbon layer 302.

For convenience of installation, openable small door structures are respectively arranged on one side surface of the filtering shell 201 and one side surface of the purifying shell 301, the filtering cloth layer 202, the drying agent layer 203 and the activated carbon layer 302 all comprise frame bodies, the drying agent layer 203 and the activated carbon layer 302 also comprise net structures on two sides, and the drying machine and the activated carbon are clamped in the two-layer net structures. A plurality of slide channels are provided in the filter housing 201 and the purification housing 302, by which the individual layers are positioned.

In order to facilitate connection, an air inlet connecting flange 9 is arranged at one end, close to the finned radiator, of a pipeline, connected with the finned radiator, of the air inlet filtering device 2, and an air outlet connecting flange 10 is arranged at one end, close to the finned radiator, of a pipeline, connected with the finned radiator, of the air purifying device 3.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. The drying structure for the inner cavity of the finned radiator is characterized by comprising an air inlet assembly and an air outlet assembly, wherein the air inlet assembly comprises a hot air device (1) and an air inlet filtering device (2), the hot air device (1) is connected with the air inlet filtering device (2) through a pipeline, and the air inlet filtering device (2) is detachably connected with one interface of the finned radiator; the air outlet assembly comprises an air purifying device (3), one end of the air purifying device (3) is detachably connected with the other interface of the finned radiator, and the other end of the air purifying device is connected with an exhaust pipe (4).

2. The gilled radiator inner cavity drying structure according to claim 1, wherein the air intake assembly further comprises a thermometer (5), the thermometer (5) is arranged on a pipeline between the air intake filtering device (2) and the gilled radiator; the air outlet assembly further comprises a hygrometer (6), and the hygrometer (6) is arranged on a pipeline between the gas purification device (3) and the finned radiator.

3. The drying structure for the inner cavity of the finned radiator according to claim 2, further comprising a controller (7), wherein the controller (7) is connected to the thermometer (5), the hygrometer (6) and the hot air device (1), respectively.

4. The gilled radiator inner chamber drying structure according to claim 1, characterized in that a suction pump (8) is arranged on a section of the exhaust pipe (4) close to the gas purification device (3).

5. The gilled radiator cavity drying structure according to claim 1, wherein the air inlet filtering device (2) comprises a filtering shell (201), at least one filter cloth layer (202) and at least one desiccant layer (203), the filter cloth layer (202) is detachably arranged in a cavity of the filtering shell (201) close to the hot air device (1), and the desiccant layer (203) is detachably arranged in a cavity of the filtering shell (201) close to the gilled radiator.

6. The gilled radiator inner chamber drying structure according to claim 1, wherein the gas purification device (3) comprises a purification shell (301) and at least one activated carbon layer (302), and the activated carbon layer (302) is detachably mounted in the purification shell (301).

7. The gilled radiator inner cavity drying structure according to claim 1, wherein an inlet connecting flange (9) is arranged at one end, close to the gilled radiator, of a pipeline connecting the inlet filtering device (2) and the gilled radiator, and an outlet connecting flange (10) is arranged at one end, close to the gilled radiator, of a pipeline connecting the gas purifying device (3) and the gilled radiator.

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