CN111102811A - Lateral conveying drying chamber capable of sending air back from same side - Google Patents

Abstract

The invention discloses a transverse conveying drying chamber for sending air back at the same side, which comprises a drying chamber for transversely conveying a vehicle body, wherein the conveying direction of the vehicle body in the drying chamber is 90 degrees with the length direction of the vehicle body, the drying chamber comprises an air supply outlet for supplying air and an air return inlet for discharging the air, and the air supply outlet is arranged above the air return inlet and is arranged at the same side of the vertical transverse central plane of the drying chamber, so that the entering air flow is blown into the vehicle body through the front window position of the vehicle body to flow and is discharged from the air return inlet at the same side after overflowing from the area behind the window position, and flows outside the vehicle body and returns to the same side to be discharged. According to the invention, the air supply outlet is arranged above the air return inlet and on the same side of the vertical transverse central plane of the drying chamber, so that the contact time of air flow and a vehicle body is longer, the heat exchange effect is better, the bottom of the drying chamber does not need to be provided with an air return pipe, air is returned from the side surface of the drying chamber directly, the height of the bottom of the drying chamber can be effectively reduced, the heat dissipation area of the drying chamber is reduced, and the drying chamber is more energy-saving.

Description

Lateral conveying drying chamber capable of sending air back from same side

Technical Field

The invention relates to the technical field of drying chambers, in particular to a transverse conveying drying chamber for sending air back and forth at the same side.

Background

The drying chamber and the supporting hot air system are generally used as a device or a system of an automobile drying process in the current automobile coating industry, however, the drying channel of the existing drying chamber structure is large in internal volume and high in energy consumption, the drying chamber and an air channel and other parts are designed in a separated mode, the heat dissipation area can be processed, the energy consumption is improved, and a plurality of places need to be improved.

Disclosure of Invention

The invention aims to provide a transverse conveying drying chamber for sending air back and forth at the same side, and particularly provides a drying chamber for conveying a vehicle body transversely in the drying chamber, aiming at the technical defects in the prior art, namely the drying chamber for conveying the vehicle body in the drying chamber at an angle of 90 degrees with the length direction of the vehicle body.

The technical scheme adopted for realizing the purpose of the invention is as follows:

the utility model provides a cross feed drying chamber of wind is sent back to homonymy, includes the cross feed drying chamber who is used for the automobile body cross feed, the automobile body direction of delivery is 90 with the length direction of automobile body in the drying chamber, the cross feed drying chamber includes the return-air inlet that is used for supplying with gaseous supply-air outlet and is used for exhaust gas, the supply-air outlet arrange the top of return-air inlet, and in the homonymy of the vertical horizontal mid-plane of cross feed drying chamber arranges to make the air current that gets into blow in the automobile body through automobile body front window position and flow and spill over the back by the region behind the window position, flow in the automobile body outside and return to the return-air inlet of homonymy and discharge.

Further, the air supply outlet is provided with an air supply nozzle for guiding the entering air flow to change the direction, so that the air flow is blown into the interior of the automobile body from the position of the front window of the automobile body at a certain inclination angle.

Preferably, the inclination angle is 30 to 70 degrees.

As a preferred direction, the air supply outlet is arranged at the air outlet end of the internal air pipe formed inside the transverse drying chamber.

According to the invention, the air supply outlet is arranged above the air return inlet and on the same side of the vertical transverse central plane of the transverse drying chamber, and the structure is arranged on the opposite side of the air supply relative to the air return inlet, so that the contact time of air flow and a vehicle body is longer, the heat exchange effect is better, an air return pipe is not required to be arranged at the bottom of the drying chamber, air is directly returned from the side surface of the drying chamber, the height of the bottom of the drying chamber can be effectively reduced, the heat dissipation area of the drying chamber is reduced, and the drying chamber is more energy.

Drawings

Fig. 1 is a schematic structural diagram of a side view of a lateral conveying drying chamber for sending wind back from the same side.

In the figure: 1-transverse drying chamber, 2-internal furnace channel, 3-internal air pipe, 4-air supply nozzle, 5-vehicle body, 6-air return inlet, 7-heat exchanger, 8-fan, 9-filter, 10-flue gas pipeline and 11-linkage valve.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in figure 1, the lateral conveying drying chamber with the same-side return air comprises a lateral drying chamber 1, wherein the lateral drying chamber comprises an air supply opening for supplying air and an air return opening 6 for discharging air, the air supply opening is arranged above the air return opening and is arranged on the same side of a vertical lateral central plane of the lateral drying chamber 1, so that the entering air flow is blown into the interior of a vehicle body through the front window position of the vehicle body 5 to flow and is discharged from the air return opening on the same side after overflowing from the area behind the window position, and then flows and returns to the air return opening on the same side outside the vehicle body.

Preferably, the air return opening is horizontally arranged, so that the entering air flow is discharged more smoothly without larger wind resistance.

Further, air supply nozzle 4 is installed to the supply-air outlet to the air current redirecting that the guide got into blows in the automobile body inside with certain inclination from automobile body front window position, thereby makes the air current flow in the automobile body inside more fast and enters into the automobile body inside other positions after the discharge port on the automobile body discharges, guarantees that inside thick steel sheet and complicated molding can obtain preferential heating, realizes reducing the holistic difference in temperature of automobile body, has guaranteed to toast the quality.

Preferably, the inclination angle is selected within a range of 30-70 degrees, and a corresponding appropriate angle can be selected within the range according to different vehicle body conditions.

As a preferred direction, the air supply outlet is arranged at the air outlet end of the internal air duct 3 formed inside the transverse drying chamber.

During operation, after the air current gets into inside tuber pipe 3 of horizontal drying chamber 1, through air supply nozzle 4, send into automobile body 5 with the air current with high speed from the front window position of automobile body 5 inside, the air current is after striking the inner space, spills over from back window and both sides door window position, gets back to the return air inlet 6 that sets up near the automobile body 5 front end at last.

The temperature of the air flow at the air outlet and the air return port is increased after passing through the heat exchanger 7, and the air flow is sent into the internal air pipe 3 of the transverse drying chamber 1 through the fan 8 and the filter 9 to complete the air flow circulation.

High-temperature flue gas enters the heat exchanger 7 through the flue gas pipeline 10 and the linkage valve 11, and the linkage valve 11 controls the amount of the high-temperature flue gas entering the heat exchanger 7, so that the control of the air supply temperature is realized.

Compared with the prior art, the invention has the advantages that:

1. inside the air current directly blows in the automobile body through the front window, the position of direct heating inside the automobile body guarantees that inside thick steel sheet and complicated molding can obtain preferential heating, realizes reducing the holistic difference in temperature of automobile body, has guaranteed to toast the quality.

2. The return air and the air supply are arranged on the same side of the drying chamber, and the high-speed airflow flows into the interior of the vehicle body and flows back to the return air inlet outside the vehicle body after overflowing. For the structure of return air inlet setting at the air supply offside, the air current is longer with the contact time of automobile body, and the heat transfer effect is better.

3. The return air sets up with the air supply in the same one side of drying chamber, and outside pipe-line design is simpler, sets up the structure in the offside of air supply for the return air inlet, and the drying chamber bottom need not set up the return air pipe, directly follows drying chamber side return air, can effectively reduce drying chamber bottom height, reduces drying chamber heat radiating area simultaneously, and the drying chamber is more energy-conserving.

4. The spray nozzles are not directly arranged on the surface of the car body for heating, and the car body is heated by means of internal heat transfer and low air speed in the space of the drying chamber, so that the quality of a paint film on the surface of the car body after baking is better.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (5)

1. The transverse conveying drying chamber is characterized by comprising a transverse drying chamber for conveying a vehicle body transversely, wherein the conveying direction of the vehicle body in the drying chamber is 90 degrees relative to the length direction of the vehicle body, the transverse drying chamber comprises an air supply opening for supplying air and an air return opening for exhausting the air, the air supply opening is arranged above the air return opening, and the air supply opening is arranged on the same side of a vertical transverse central plane of the transverse drying chamber, so that the entering air flow is blown into the interior of the vehicle body through the front window position of the vehicle body to flow and is exhausted from the air return opening on the same side after overflowing from an area behind the window position, and the air flow returns to the same side outside the vehicle body to be exhausted.

2. The same-side return air cross-feed drying chamber as in claim 1, wherein the air supply outlet is provided with an air supply nozzle for directing the incoming air flow to change direction so as to blow into the interior of the vehicle body at an inclined angle from the position of the front window of the vehicle body.

3. The cross-conveyor drying chamber with the return air on the same side as in claim 2, wherein the inclination angle is 30-70 degrees.

4. The same-side return air transverse conveying drying chamber as in claim 1, wherein the return air inlets are horizontally arranged.

5. The lateral conveying drying chamber for sending air back from the same side as the lateral conveying drying chamber of claim 1, wherein the air supply outlet is arranged at the air outlet end of an internal air pipe formed inside the lateral drying chamber.

Images