CN204974382U - Paint drying system - Google Patents

Abstract

The utility model provides a paint drying system, including a baking house, be the cuboid structure, its lateral wall of compriseing upper portion, lower part, lateral part constitutes, the lateral part is located upper portion with between the lower part, a biological particle fires burning furnace, is connected to the lower part of baking house, biological particle fire burning furnace be used for to the baking house heat supply, the living device of miscarriage is connected to at a stretch the lateral part of baking house, the air current produces the device and is used for accelerating the flow of air in the baking house, a suspension, dispose in the inside of baking house just is connected to the upper portion of baking house. The utility model discloses a paint drying system fires burning furnace, relatively environmental protection through chooseing biological particle for use, simultaneously, accelerate the inside air of baking house through the air current apparatus for producing and flow, be favorable to accelerating oily baking of varnish speed.

Description

A kind of paint drying system

Technical field

The utility model relates to the technology of paint drying, particularly, relates to a kind of paint drying system.

Background technology

In metal product production process, carrying out japanning process to product surface is comparatively common surface treatment means, and is the step of wherein outbalance by paint drying.Traditional drying room is inner by being laid with jet chimney, is accelerated the drying rate of paint by the effect of vapours.Traditional steam drying mode cost compare high and and not environmentally, be thus necessary design a kind of new paint drying system to solve this problem.

Utility model content

The utility model provides a kind of paint drying system, comprises a drying room, and in rectangular structure, its sidewall be made up of top, bottom, sidepiece is formed, and described sidepiece is between described top and described bottom; One biologic grain combustion furnace, is connected to the bottom of described drying room, and described biologic grain combustion furnace is in order to described drying room heat supply; One air flow-producing device, is connected to the sidepiece of described drying room, and described air flow-producing device is in order to accelerate the flowing of air in described drying room; One suspension, is configured at the inside of described drying room and is connected to the top of described drying room.

In one embodiment, described suspension is reciprocating suspension.

In one embodiment, described air flow-producing device includes an air blast, and described air blast is connected to described drying room by an air guide channel.

In one embodiment, described drying room includes one first opening and one first cover plate, and described first opening 1 is opened on the bottom of described drying room, and the bottom that described first cover plate is connected to drying room hides described first opening movably; Described drying room also includes one second opening and one second cover plate, and the sidepiece that described second cover plate is connected to described drying room hides described second opening movably.

In one embodiment, the sidewall of described drying room comprises one first clamping plate, and described first clamping plate are formed with reflective heat-insulation paint.

In one embodiment, the sidewall of described drying room includes one first clamping plate and one second clamping plate, is formed with refractory wool between described first clamping plate and described second clamping plate.

Paint drying system of the present utility model, by selecting biologic grain combustion furnace, compares environmental protection; Meanwhile, accelerated the air flowing of drying room inside by air-flow process units, be conducive to the drying rate accelerating paint.

Accompanying drawing explanation

Figure 1A depicts a kind of schematic diagram that can be applicable to drying room of the present utility model;

Figure 1B depicts a kind of schematic diagram that can be applicable to biologic grain combustion furnace of the present utility model;

Fig. 1 C depicts a kind of schematic diagram that can be applicable to air flow-producing device of the present utility model;

Fig. 1 D depicts a kind of schematic diagram that can be applicable to suspension of the present utility model;

Fig. 2 depicts the schematic diagram of the paint drying system of the utility model one embodiment;

Fig. 3 depicts the schematic diagram of the sidewall of the drying room of the utility model one embodiment;

Fig. 4 depicts the schematic diagram of the sidewall of the drying room of another embodiment of the utility model.

Detailed description of the invention

For understanding technical scheme of the present invention better, elaborate below with reference to concrete diagram.Should be understood that following specific embodiment and be not used to limit the concrete enforcement aspect of technical scheme of the present invention, it is only the adoptable enforcement aspect of technical solution of the present invention.Need first chat bright, herein about the statement of each module position relation, as A parts are positioned at above B parts, it is the statement based on each assembly relative position in diagram, and is not used to the actual positional relationship limiting each assembly.

The adoptable structure of paint drying system components of the present invention will be first described below.

Please refer to Figure 1A, Figure 1A depicts a kind of schematic diagram that can be applicable to drying room of the present utility model.In the present embodiment, drying room 100 is in rectangular structure, and its sidewall M be made up of top M1, bottom M2, sidepiece M3 is formed, and sidepiece M3 is between top M1 and bottom M2.The bottom M2 of drying room 100 offers the first connector 110, in order to connect biologic grain combustion furnace.The sidepiece M3 of drying room 100 offers the second connector 120, in order to connect air flow-producing device.Second connector 120 can be close to the first connector 110.

In the present embodiment, drying room 100 includes one first opening 130A and one first cover plate 130B, and the first opening 130A is opened on the bottom M2 of drying room 100, and the bottom M2 that the first cover plate 130B is connected to drying room 100 hides the first opening 130A movably; Drying room 100 also includes one second opening 140A and one second cover plate 140B, and the sidepiece M3 that the second cover plate 140B is connected to drying room 100 hides the second opening 140A movably.

Consult Figure 1B further, Figure 1B depicts a kind of schematic diagram that can be applicable to biologic grain combustion furnace of the present utility model.In the present embodiment, biologic grain combustion furnace 200 includes heat outlet portion 210, filling portion 220 and combustion section 230.The size in heat outlet portion 210 and the size of the first connector 100 match, and are attached thereto so that follow-up.Filling portion 220 is the position of adding bio-fuel, and combustion section 230 is the position that bio-fuel carries out burning.The lower of filling portion 220 can offer cleaning passage, to clear up the bio-fuel after burning.

Consult Fig. 1 C further, Fig. 1 C depicts a kind of schematic diagram that can be applicable to air flow-producing device of the present utility model.In the present embodiment, air flow-producing device 300 includes air blast 310, air guide channel 320 and a gas export department 330, and air blast 310 is connected to drying room 100 by air guide channel 320.The size in gas vent portion 330 and the size of the second connector 120 match, and are attached thereto so that follow-up.

Consult Fig. 1 D further, Fig. 1 D depicts a kind of schematic diagram that can be applicable to suspension of the present utility model.In the present embodiment, suspension 400 comprises stiff end 410 and suspended end 420, and stiff end 410 is the parts that follow-up suspension 400 is fixed to drying room 100 top M1, and suspended end 420 is the parts of follow-up suspension object to be dried.In an embodiment preferably, suspension 400 is reciprocating suspension, and specifically, each suspended end 420 can move back and forth along direction S, and then facilitates the collection of follow-up oven dry object.

More than be the explanation of each parts forming paint drying system of the present invention, please consult Fig. 2 further, Fig. 2 depicts the schematic diagram of the paint drying system of the utility model one embodiment.

As shown in Figure 2, paint drying system of the present utility model, comprising: a drying room 100, and in rectangular structure, its sidewall M be made up of top M1, bottom M2, sidepiece M3 is formed, and sidepiece M3 is between top M1 and bottom M2; One biologic grain combustion furnace 200, is connected to the bottom M2 of drying room 100, and biologic grain combustion furnace 200 is in order to drying room 100 heat supply; One air flow-producing device 300, is connected to the sidepiece M3 of drying room 100, and air flow-producing device 300 is in order to accelerate the flowing of air in drying room 100; One suspension 400, is configured at the inside of drying room 100 and is connected to the top M1 of drying room 100.

Oven dry before, by the second opening 140A by object hanging to be dried to suspended end 420, article have placed rear closedown second cover plate 140B; Further, the first cover plate 130B can be opened, and take out oven dry assembly from the first opening 130A place.First opening 130A is positioned at the design of the bottom of drying room 100, is conducive to after minimizing opens the first cover plate 130B, the loss of drying room heat.

Above, be the concrete structure of the utility model paint drying system, its undeclared details, with reference to aforesaid explanation, can not repeat them here.

For reducing in drying course, the loss of drying room 100 heat, can improve the structural design of drying room sidewall M.

Fig. 3 depicts the schematic diagram of the sidewall of the drying room of the utility model one embodiment, and in the present embodiment, sidewall M comprises one first clamping plate N1, and the first clamping plate N1 is formed with reflective heat-insulation paint N2.Fig. 4 depicts the schematic diagram of the sidewall of the drying room of another embodiment of the utility model, and in the present embodiment, sidewall M includes one first clamping plate N1 and one second clamping plate N3, is formed with refractory wool N4 between the first clamping plate N1 and the second clamping plate N2.The design of reflective heat-insulation paint or refractory wool interlayer can reduce the loss of heat when drying room uses, and then is conducive to reducing cost.

More than be specific embodiment of the utility model, paint drying system of the present utility model, by selecting biologic grain combustion furnace, compares environmental protection; Meanwhile, accelerated the air flowing of drying room inside by air-flow process units, be conducive to the drying rate accelerating paint.Based on any improvement that main points of the present utility model are done, should understand and all belong to protection scope of the present invention, protection domain of the present utility model is as the criterion with claims.

Claims (6)

1. a paint drying system, is characterized in that, comprising:

One drying room (100), in rectangular structure, the sidewall (M) that it is made up of top (M1), bottom (M2), sidepiece (M3) is formed, and described sidepiece (M3) is positioned between described top (M1) and described bottom (M2);

One biologic grain combustion furnace (200), is connected to the bottom (M2) of described drying room (100), and described biologic grain combustion furnace (200) is in order to described drying room (100) heat supply;

(300, be connected to the sidepiece (M3) of described drying room (100), described air flow-producing device (300) is in order to accelerate the flowing of described drying room (100) interior air for one air flow-producing device;

One suspension (400), is configured at the inside of described drying room (100) and is connected to the top of described drying room (100).

2. paint drying system according to claim 1, is characterized in that, described suspension (400) is reciprocating suspension.

3. paint drying system according to claim 1, it is characterized in that, described air flow-producing device (300) includes an air blast (310), and described air blast (310) is connected to described drying room (100) by an air guide channel (320).

4. paint drying system according to claim 1, it is characterized in that, described drying room (100) includes one first opening (130A) and one first cover plate (130B), described first opening (130A) is opened on the bottom (M2) of described drying room (100), and the bottom (M2) that described first cover plate (130B) is connected to described drying room (100) is gone up and hides the first opening (130A) movably; Described drying room (100) also includes one second opening (140A) and one second cover plate (140B), and the sidepiece (M3) that described second cover plate (140B) is connected to described drying room (100) is gone up and hides described second opening (140A) movably.

5. paint drying system according to claim 1, it is characterized in that, the sidewall (M) of described drying room (100) comprises one first clamping plate (N1), and described first clamping plate (N1) are formed with reflective heat-insulation paint (N2).

6. paint drying system according to claim 1, it is characterized in that, the sidewall (M) of described drying room (100) includes one first clamping plate (N1), one second clamping plate (N3), is formed with refractory wool (N4) between described first clamping plate (N1) and described second clamping plate (N2).