CN210135735U - Three-dimensional drying cabinet wind path system - Google Patents

Abstract

The utility model belongs to the technical field of paint drying, concretely relates to three-dimensional drying cabinet wind path system. This three-dimensional drying cabinet wind path system, including cooling bin, first dry storehouse, second dry storehouse and levelling storehouse, be equipped with first dry storehouse and second dry storehouse between cooling bin and the levelling storehouse, pass through the heat insulating board interval between each storehouse, all be equipped with the wind distribution passageway and the passageway of airing exhaust in cooling bin, first dry storehouse, second dry storehouse and the levelling storehouse, the wind distribution passageway all is equipped with filter pulp and mesh board with the passageway of airing exhaust in each storehouse one side, and the wind distribution passageway and the passageway of airing exhaust realize the air flow through air intake fan and air exhaust fan respectively. The beneficial effects are as follows: the independent warehouse separation treatment paint leveling, drying and cooling tasks are achieved, the design structure of each warehouse is compact, the air quantity and the temperature can be independently adjusted, the independent warehouse separation treatment paint drying device is not affected by each other, and the drying requirements of different types of paints can be met.

Description

Three-dimensional drying cabinet wind path system

Technical Field

The utility model belongs to the technical field of paint drying, concretely relates to three-dimensional drying cabinet wind path system.

Background

The existing paint drying equipment has single temperature regulation and control mode, a single machine can only raise and lower the temperature integrally, the efficiency is low, and the energy waste is serious. The air flow direction in the machine is single, and the workpiece is heated unevenly, so that the quality of the final product is influenced. The air filtering accessories of the whole machine are complicated to replace.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a remedy prior art's defect, provide a three-dimensional drying cabinet wind path system.

The utility model discloses a realize through following technical scheme:

the utility model provides a three-dimensional drying cabinet wind path system, includes cooling bin, first drying bin, second drying bin and levelling bin, be equipped with first drying bin and second drying bin between cooling bin and the levelling bin, pass through the heat insulating board interval between each storehouse, all be equipped with the wind distribution passageway and the passageway of airing exhaust in cooling bin, first drying bin, second drying bin and the levelling bin, the wind distribution passageway all is equipped with filter pulp and mesh board with the passageway of airing exhaust in each storehouse one side, and the wind distribution passageway realizes the air flow through air intake fan and air exhaust fan respectively with the passageway of airing exhaust.

Furthermore, an air distribution channel is arranged on one side in the leveling bin, an air exhaust channel is arranged on the other side corresponding to the air distribution channel, an air inlet bin is arranged on the leveling bin corresponding to the air distribution channel, a first air inlet fan is arranged in the air inlet bin and communicated with the air distribution channel, an air exhaust bin is arranged on the leveling bin corresponding to the air exhaust channel, a first air exhaust fan is arranged in the air exhaust bin and communicated with the air exhaust channel, and air in the air exhaust channel is exhausted through the first air exhaust fan.

Furthermore, air doors are respectively arranged on the leveling bin, the top of the air inlet bin and the air exhaust bin and on the side wall of the air inlet bin.

Further, an air distribution channel is arranged on one side in the second drying bin, an air exhaust channel is arranged on the other side of the second drying bin corresponding to the air distribution channel, an air inlet channel is arranged between the air distribution channel and the air exhaust channel and positioned at the top of the second drying bin and communicated with the air distribution channel and the air exhaust channel, a drying air outlet bin is arranged on the second drying bin corresponding to the air distribution channel, a drying air inlet bin is arranged on the second drying bin corresponding to the air exhaust channel, a first heat exchanger is arranged in the drying air outlet bin and positioned at the position where the air inlet channel is communicated with the air distribution channel, a second air inlet fan is arranged in the drying air inlet bin and communicated with the air inlet channel, and the air exhaust channel is communicated with.

Furthermore, the second drying bin is provided with an air adjusting door on the drying air inlet bin and the drying air outlet bin respectively, and the air adjusting door on the drying air inlet bin is provided with a filter.

Furthermore, the structure of the second drying bin is consistent with that of the first drying bin, and the air circulation directions in the second drying bin and the first drying bin are opposite.

Furthermore, an air distribution channel is arranged on one side in the cooling bin, an air exhaust channel is arranged on the other side corresponding to the air distribution channel, a cooling air inlet bin is arranged on the cooling bin corresponding to the air distribution channel, a third air inlet fan is arranged on the interior of the cooling air inlet bin, the third air inlet fan is communicated with the air distribution channel, a cooling exhaust bin is arranged on the cooling bin corresponding to the air exhaust channel, the cooling exhaust bin is communicated with the air exhaust channel, and a second air exhaust fan is arranged in the cooling exhaust bin.

Furthermore, air doors are respectively arranged on the cooling exhaust bin and the cooling air inlet bin, and a second heat exchanger and a filter box are arranged between the cooling air inlet bin and the corresponding air door.

Furthermore, the air distribution channel and the air exhaust channel are respectively positioned on the bin door corresponding to each bin, the bin door is locked with each corresponding bin through a handle and a bolt, the filter cotton is positioned on the distribution channel, and the mesh plate is positioned on the air exhaust channel.

The utility model has the advantages that: the independent warehouse-dividing paint leveling, drying and cooling tasks are processed, each warehouse is compact in design structure, the air quantity and the temperature can be independently adjusted through corresponding fans and heat exchangers, the independent adjustment is not influenced, the drying requirements of different types of paints can be met, the manual intervention is not needed, the warehouse door is convenient to design, check and maintenance are achieved, the consumable parts are replaced without complex operation, the labor is saved, the whole machine is energy-saving and environment-friendly in design, the use is convenient, the productivity can be greatly improved, and the paint drying quality is ensured.

Drawings

The present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a top view of the present invention;

FIG. 2 is a cross-sectional view A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is a cross-sectional view of B-B of FIG. 1 in accordance with the present invention;

FIG. 4 is a cross-sectional view of C-C of FIG. 1 in accordance with the present invention;

FIG. 5 is a schematic view of the overall internal air circulation direction of the present invention;

fig. 6 is a schematic structural view of the bin gate of the present invention.

In the figure, 1 cooling bin, 2 first drying bin, 3 second drying bin, 4 leveling bin, 5 bin gate, 6 filter cotton, 7 handle, 8 bolt, 9 air inlet bin, 10 air door, 11 first air inlet fan, 12 air distribution channel, 13 air outlet channel, 14 mesh plate, 15 air outlet bin, 16 first air outlet fan, 17 drying air inlet bin, 18 filter, 19 second air inlet fan, 20 air inlet channel, 21 first heat exchanger, 22 damper, 23 third air inlet fan, 24 second heat exchanger, 25 filter box, 26 second air outlet fan, 27 cooling air inlet bin, 28 cooling air outlet bin and 29 drying air outlet bin.

Detailed Description

Fig. 1-6 show an embodiment of the present invention. The utility model discloses a three-dimensional drying cabinet wind path system, including cooling bin 1, first drying bin 2, the dry storehouse of second 3 and levelling bin 4, be equipped with first drying bin 2 and the dry storehouse of second 3 between cooling bin 1 and levelling bin 4, pass through the heat insulating board interval between each storehouse, all be equipped with air distribution passageway 12 and air exhaust passageway 13 in cooling bin 1, first drying bin 2, the dry storehouse of second 3 and levelling bin 4, air distribution passageway 12 and air exhaust passageway 13 are located one side in each storehouse and all are equipped with filter pulp 6 and mesh board 14, and air distribution passageway 12 and air exhaust passageway 13 realize the air through air inlet fan and air exhaust fan respectively and flow.

Further, an air distribution channel 12 is arranged on one side in the leveling bin 4, an air exhaust channel 13 is arranged on the other side corresponding to the air distribution channel 12, an air inlet bin 9 is arranged on the leveling bin 4 corresponding to the air distribution channel 12, a first air inlet fan 11 is arranged in the air inlet bin 9, the first air inlet fan 11 is communicated with the air distribution channel 12, an air exhaust bin 15 is arranged on the leveling bin 4 corresponding to the air exhaust channel 13, a first air exhaust fan is arranged in the air exhaust bin 15, the air exhaust bin 15 is communicated with the air exhaust channel 13, and air in the air exhaust channel 13 is exhausted through the first air exhaust fan.

Further, air doors 10 are respectively arranged on the top of the air inlet bin 9 and the air exhaust bin 15 and on the side wall of the air inlet bin 9 on the leveling bin 4.

Further, an air distribution channel 12 is arranged on one side in the second drying bin 3, an exhaust channel 13 is arranged on the other side corresponding to the air distribution channel 12, an air inlet channel 20 is arranged between the air distribution channel 12 and the exhaust channel 13 and positioned at the top of the second drying bin 3, the air inlet channel 20 is communicated with the air distribution channel 12 and the exhaust channel 13, a drying air outlet bin 29 is arranged on the second drying bin 3 corresponding to the air distribution channel 12, a drying air inlet bin 17 is arranged on the second drying bin 3 corresponding to the exhaust channel 13, a first heat exchanger 21 is arranged in the drying air outlet bin 29 at the position where the air inlet channel 20 is communicated with the air distribution channel 12, a second air inlet fan 19 is arranged in the drying air inlet bin 17, the second air inlet fan 19 is communicated with the air inlet channel 20, and the exhaust channel 13 is communicated with the drying air.

Furthermore, the second drying chamber 3 is provided with a damper 22 on the drying air inlet chamber 17 and a drying air outlet chamber 29, and the damper 22 on the drying air inlet chamber 17 is provided with a filter 18.

Further, the second drying bin 3 and the first drying bin 2 are consistent in structure, and the air circulation directions in the second drying bin 3 and the first drying bin 2 are opposite.

Further, an air distribution channel 12 is arranged on one side in the cooling bin 1, an exhaust channel 13 is arranged on the other side corresponding to the air distribution channel 12, a cooling air inlet bin 27 is arranged on the cooling bin 1 corresponding to the air distribution channel 12, a third air inlet fan 23 is arranged on the interior of the cooling air inlet bin 27, the third air inlet fan 23 is communicated with the air distribution channel 12, a cooling exhaust bin 28 is arranged on the cooling bin 1 corresponding to the exhaust channel 13, the cooling exhaust bin 28 is communicated with the exhaust channel 13, and a second exhaust fan 26 is arranged in the cooling exhaust bin 28.

Further, the cooling exhaust bin 28 and the cooling intake bin 27 are respectively provided with an air door 10, and a second heat exchanger 24 and a filter box 25 are arranged between the cooling intake bin 27 and the corresponding air door 10.

Further, the air distribution channel 12 and the air exhaust channel 13 are respectively positioned on the bin door 5 corresponding to each bin, the bin door 5 is locked with each corresponding bin through the handle 7 and the bolt 8, the filter cotton 6 is positioned on the distribution channel, and the mesh plate 14 is positioned on the air exhaust channel 13.

The utility model relates to a three-dimensional drying cabinet wind path system, when using, the air circulation of levelling storehouse 4 is as shown in figure 2, the first air intake fan 11 blows in the new trend from the outside third party air purifier into the air distribution channel 12 in levelling storehouse 4, the new trend blows in the working area in levelling storehouse 4 through air distribution channel 12 and takes away the solvent volatilized from the paint surface, then is discharged by the first exhaust fan 16 through the air discharge channel 13, the external exhaust gas treatment equipment, air intake channel 20 and air discharge channel 13 in levelling storehouse 4 all are equipped with corresponding air door 10, according to the difference of the volatilization volume of different paint flows in the storehouse, the opening and closing of air regulating door 22 adjusts the solvent concentration in levelling storehouse 4, in order to reach the best levelling effect, the air circulation of second drying storehouse 3 is as shown in figure 3, the second air intake fan 19 introduces the new trend into storehouse air intake channel 20 from the outside third party air purifier, an air filter 18 and an air door 10 are arranged at the inlet of a second air inlet fan 19 to ensure the air quality and flow, when air reaches the joint of an air inlet channel 20 and an air distribution channel 12 in a second drying chamber 3 through the air inlet channel 20, the air is heated by a first heat exchanger 21, then hot air is blown into a working area in the second drying chamber 3 through the air distribution channel 12 to raise the temperature in the chamber to the temperature required by paint drying, and then the air is converged with fresh air through an air exhaust channel 13 and re-enters the air inlet channel 20, and by adjusting the opening degree of an air door 22, redundant air with a small amount of volatile solvent can be discharged into external waste gas treatment equipment to ensure that the air can uniformly flow and the uneven heating in the drying chamber is avoided, the air circulation of the cooling chamber 1 is as shown in figure 4, because the drying work surface of a workpiece is finished at the moment, the third air inlet fan 23 can suck air at normal temperature and blow clean air into the cooling chamber 1 through the air distribution channel 12 in the cooling chamber 1 through, relatively microthermal air is insufflated and is come the surface of work piece and take away the heat by the drying zone, then is discharged by second air exhaust fan 26 through the air exhaust passageway 13 in the cooling bin 1, for guaranteeing new trend cleanliness factor, each wind distribution passageway 12 is equipped with filter pulp 6 with the workspace intercommunication department that corresponds, each air exhaust passageway 13 designs for mesh plate 14 with the workspace intercommunication department that corresponds to guarantee that every air flow and wind pressure are unanimous in the levelling space, reduce the vortex.

In addition, the air inlet of the cooling bin 1 is provided with a second heat exchanger 24, so that the air inlet can be opened for heating when the outside air temperature is too low, and the problems that the paint surface is cracked, folded and the like are caused when cold air with too large temperature difference enters the cooling bin 1 are prevented from affecting the quality of a finished product.

The whole air circulation of this equipment is shown in fig. 5, all is equipped with polyurethane material's heat insulating board between each storehouse, and the storehouse air flow, wind pressure and temperature all can independent control, each other do not influence, and for guaranteeing that whole paint drying process is heated evenly, the air cycle direction in first dry storehouse 2 and second dry storehouse 3 is relative design, can guarantee that each face of work piece is heated evenly, improves product quality.

As shown in fig. 6, each bin is provided with a corresponding bin door 5, and a quick-opening design is formed by a handle 7 and a bolt 8, so that the consumable parts can be conveniently and quickly checked, maintained and replaced.

The present invention is not limited to the above embodiments, and any person should learn to make under the teaching of the present invention and the present invention has the same or similar technical solution, and all fall into the protection scope of the present invention.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (9)

1. The utility model provides a three-dimensional drying cabinet wind path system, includes cooling bin, first drying bin, second drying bin and levelling bin, its characterized in that, be equipped with first drying bin and second drying bin between cooling bin and the levelling bin, pass through the heat insulating board interval between each storehouse, all be equipped with the wind distribution passageway and the passageway of airing exhaust in cooling bin, first drying bin, second drying bin and the levelling bin, the wind distribution passageway all is equipped with filter pulp and mesh board with the passageway of airing exhaust in each storehouse one side, and the wind distribution passageway realizes the air flow through air intake fan and air exhaust fan respectively with the passageway of airing exhaust.

2. The stereo drying box air path system as claimed in claim 1, wherein: the air exhaust device is characterized in that an air distribution channel is arranged on one side in the leveling bin, an air exhaust channel is arranged on the other side corresponding to the air distribution channel, an air inlet bin is arranged on the leveling bin corresponding to the air distribution channel, a first air inlet fan is arranged in the air inlet bin and communicated with the air distribution channel, an air exhaust bin is arranged on the leveling bin corresponding to the air exhaust channel, a first air exhaust fan is arranged in the air exhaust bin, the air exhaust bin is communicated with the air exhaust channel, and air in the air exhaust channel is exhausted through the first air exhaust fan.

3. The stereo drying box air path system as claimed in claim 2, wherein: and air doors are respectively arranged on the leveling bin, the tops of the air inlet bin and the air exhaust bin and on the side wall of the air inlet bin.

4. The stereo drying box air path system as claimed in claim 1, wherein: one side is equipped with the wind channel of cloth in the second drying storehouse, one side is equipped with the passageway of airing exhaust corresponding to the wind channel of cloth in addition, it is equipped with inlet air channel to lie in the second drying storehouse top between wind channel of cloth and the passageway of airing exhaust, inlet air channel and wind channel and the passageway intercommunication of airing exhaust, it is equipped with dry air-out storehouse corresponding to the wind channel of cloth on the second drying storehouse, it is equipped with dry air inlet storehouse corresponding to the passageway of airing exhaust on the second drying storehouse, it is equipped with first heat exchanger to lie in inlet air channel and the department of intercommunication of wind channel in the dry air-out storehouse, be equipped with second air intake fan in the dry air inlet storehouse, the passageway of airing exhaust communicates with dry air.

5. The stereo drying box air path system as claimed in claim 4, wherein: and the second drying bin is provided with an air adjusting door on the drying air inlet bin and an air drying air outlet bin respectively, and the air adjusting door on the drying air inlet bin is provided with a filter.

6. The stereo drying box air path system as claimed in claim 4 or 5, wherein: the structure of the second drying bin is consistent with that of the first drying bin, and the wind circulation directions in the second drying bin and the first drying bin are opposite.

7. The stereo drying box air path system as claimed in claim 1, wherein: and an air distribution channel is arranged on one side in the cooling bin, an air exhaust channel is arranged on the other side corresponding to the air distribution channel, a cooling air inlet bin is arranged on the cooling bin corresponding to the air distribution channel, a third air inlet fan is arranged on the interior of the cooling air inlet bin, the third air inlet fan is communicated with the air distribution channel, a cooling exhaust bin is arranged on the cooling bin corresponding to the air exhaust channel, the cooling exhaust bin is communicated with the air exhaust channel, and a second air exhaust fan is arranged in the cooling exhaust bin.

8. The stereo drying box air path system as claimed in claim 7, wherein: and air doors are respectively arranged on the cooling exhaust bin and the cooling air inlet bin, and a second heat exchanger and a filter box are arranged between the cooling air inlet bin and the corresponding air door.

9. The stereo drying box air path system as claimed in claim 1, wherein: the air distribution channel and the air exhaust channel are respectively positioned on the bin door corresponding to each bin, the bin door is locked with each corresponding bin through a handle and a bolt, the filter cotton is positioned on the air distribution channel, and the mesh plate is positioned on the air exhaust channel.

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