CN201881468U - Longitudinally-arranged maintaining and drying system for gypsum wallboards - Google Patents

Abstract

A longitudinally-arranged maintaining and drying system for gypsum wallboards comprises a maintaining and drying tunnel kiln body. A wallboard inlet door is arranged at the wallboard inlet end of the tunnel kiln body, and a wallboard outlet door is arranged at the wallboard outlet end of the tunnel kiln body. A dry-and-hot air inlet is arranged at the position, which is close to the wallboard outlet door, of the tunnel kiln body, and a damp-and-hot air outlet is arranged at the position, which is close to the wallboard inlet door, of the tunnel kiln body. The dry-and-hot air inlet is connected with an air outlet of an air heater through a pipeline, an air blower is arranged at an air inlet of the air heater, and an induced draft fan is arranged at an air outlet of the damp-and-hot outlet. Tracks are paved on the ground inside the tunnel kiln, the tracks extend out of the wallboard inlet door and the wallboard outlet door, and maintaining trolleys are arranged on the tracks. The longitudinally-arranged maintaining and drying system for the gypsum wallboards is simple in structure, small in occupied area, reliable in operation, high in production efficiency, less susceptible to the climate and low in construction cost.

Description

A kind of gypsum wallboard maintenance drying system of vertical layout

Technical field

The utility model relates to a kind of gypsum wallboard maintenance drying system of vertical layout.

Background technology

China is greatly developing new wall material, and wherein wall board is a developing direction, and gypsum wallboard is the new wall material of excellent performance, has good characteristics such as fire prevention, sound insulation, radiation proof, heat transfer coefficient are low, sterilization, belongs to the kind of national encourage growth.

The gypsum based drywall forming process will add a large amount of moisture, and wherein a part becomes the crystallization water, and some form with Free water is present in the plasterboard.

Therefore, after the gypsum wallboard moulding, generally need just can reach the condition of dispatching from the factory through maintenance and drying.

The dry main film that adopts of traditional gypsum wallboard maintenance covers natural curing, the method for air dry.Because natural conditions are not stable, China south particularly, most of area belongs to the humid area, and rainy, therefore, often cause the maintenance uneven drying even, dry mass is not good enough, and floor space is big, arid cycle is long, efficient is low, and a lot of local maintenances need 1 ~ 2 month arid cycle, cause the production of gypsum wallboard and apply to be greatly limited.

The utility model content

The purpose of this utility model is to provide a kind of simple in structure, reliable operation, cost is low, production efficiency is higher gypsum wallboard maintenance drying system.

The technical solution of the utility model is: it comprises maintenance drying alley kiln body, tunnel cave body wallboard entrance point is provided with the wallboard access doors, the wallboard port of export is provided with the wallboard outlet portal, the tunnel cave body is provided with the hot dry wind import near wallboard outlet portal place, be provided with damp and hot wind outlet near wallboard access doors place, the hot dry wind import links to each other with the hot-blast stove air outlet by pipeline, and hot-blast stove air inlet place is provided with air blast, and damp and hot wind outlet place is provided with draws the phoenix machine; Ground is equipped with track in the tunnel cave, track and extend access doors and outlet portal outside, be placed with the maintenance dolly on the track.

Should be provided with a flow perturbation device every 3-10 rice in the tunnel kiln.

The subsurface near wallboard outlet portal place preferably is located in described hot dry wind import; Damp and hot wind outlet also should be located at the subsurface at wallboard access doors place.

The air flow inlet end should be established one section air-flow diffuser, so that enter the gap between each gypsum wallboard after thermal current is fully spread again.

Airflow outlet end should be established one section air-flow and draw section in, so that air-flow all comes together discharge again after the terminal outflow of wallboard.

The utility model utilizes hot blast that gypsum wallboard is carried out the maintenance drying, and arid cycle is short, dry mass height, production efficiency height; System's floor space is little, is subjected to climatic effect little, and cost is low.

Description of drawings

Fig. 1 is the maintenance drying alley kiln structural representation of the utility model embodiment.

The specific embodiment

The utility model is described in further detail below in conjunction with accompanying drawing.

With reference to Fig. 1 and Fig. 2: present embodiment comprises maintenance drying alley kiln 3 bodies, maintenance drying alley kiln 3 body entrance points are provided with access doors 4, the port of export is provided with outlet portal 1, maintenance drying alley kiln 3 bodies are provided with hot dry wind import Q1 near outlet portal 1 place's subsurface, be provided with damp and hot wind outlet Q2 near access doors 4 place's subsurfaces, hot dry wind import Q1 links to each other with the hot-blast stove air outlet by pipeline, and hot-blast stove air inlet place is provided with air blast, and damp and hot wind outlet Q2 place is provided with draws the phoenix machine; Ground is equipped with track in the tunnel cave, track and extend access doors 4 and outlet portal 1 outside, be placed with maintenance dolly (hot-blast stove and track, not shown) on the track.

Every 3-10 rice one flow perturbation device is set in tunnel cave 3 kilns.

Tunnel cave 3 air flow inlet ends are provided with air-flow diffuser (A chamber among Fig. 1), so that flow into the gap between each gypsum wallboard after thermal current is fully spread again.

Tunnel cave 3 airflow outlet ends are provided with air-flow and draw section (B chamber among Fig. 1) in, so that air-flow all comes together discharge again after the terminal outflow of wallboard.

During work, gypsum wallboard 2 vertically is positioned on the maintenance dolly, gypsum wallboard length direction and the parallel placement of length of tunnel direction (promptly vertically arranging), gap between them should be basic identical, like this, can make dry gas stream flow through vertical flow velocity of each surfaces of wall near consistent, make the rate of drying of each wallboard more approaching, the drying time that is every block of wallboard is approaching, and the rate of drying of same wallboard both sides is also basic identical, unlikely flexural deformation; After gypsum wallboard 2 placements are appropriate, the maintenance dolly is pushed in the tunnel cave from access doors 4, start hot-blast stove and air blast, draw phoenix machine, flow perturbation device, xeothermic air-flow enters in the tunnel cave 3 from hot dry wind import Q1, xeothermic air-flow passes the gap that reaches between each gypsum wallboard between gypsum wallboard and the tunnel cave inwall, absorbs contained humidity in the gypsum wallboard, becomes damp and hot air-flow, by drawing the guiding of phoenix machine, finally discharge from damp-heat flow export Q2.Because the gypsum wallboard Way out is opposite with the air motion direction, like this, the gypsum wallboard that is introduced into is dry earlier, after the gypsum wallboard that enters accept to be introduced into the moisture maintenance of gypsum wallboard discharge.

The utility model can reach the condition of dispatching from the factory with gypsum wallboard maintenance drying in 18 ~ 30 hours.

Claims (5)

1. gypsum wallboard maintenance drying system of vertically arranging, it is characterized in that, comprise maintenance drying alley kiln body, tunnel cave body wallboard entrance point is provided with the wallboard access doors, and the wallboard port of export is provided with the wallboard outlet portal, and the tunnel cave body is provided with the hot dry wind import near wallboard outlet portal place, be provided with damp and hot wind outlet near wallboard access doors place, the hot dry wind import links to each other with the hot-blast stove air outlet by pipeline, and hot-blast stove air inlet place is provided with air blast, and damp and hot wind outlet place is provided with draws the phoenix machine; Ground is equipped with track in the tunnel cave, track and extend access doors and outlet portal outside, be placed with the maintenance dolly on the track.

2. the gypsum wallboard maintenance drying system of vertical layout according to claim 1 is characterized in that, is provided with a flow perturbation device every 3-10 rice in the tunnel kiln.

3. the gypsum wallboard maintenance drying system of vertical layout according to claim 1 and 2 is characterized in that, the subsurface near wallboard outlet portal place is located in described hot dry wind import; Damp and hot wind outlet is located at the subsurface near wallboard access doors place.

4. the gypsum wallboard maintenance drying system of vertical layout according to claim 1 and 2 is characterized in that the air flow inlet end is provided with the air-flow diffuser, and airflow outlet end is provided with air-flow and draws section in.

5. the gypsum wallboard maintenance drying system of vertical layout according to claim 3 is characterized in that the air flow inlet end is provided with the air-flow diffuser, and airflow outlet end is provided with air-flow and draws section in.

Images