CN213335205U - Full-automatic drying system for sanitary ware products - Google Patents

Abstract

The utility model discloses a cleaners and polishes full-automatic drying system of product, including drying room and controller the bottom of drying room is provided with even gas pipeline, and the air inlet of this even gas pipeline links to each other with the admission line, the gas outlet of even gas pipeline links to each other with the gas transmission pipeline of a plurality of equipartitions bottom the drying room, gas transmission pipeline with the drying room inner chamber is linked together the top of drying room is provided with exhaust duct, is provided with the air exhauster at this exhaust duct's air intake be provided with automatically controlled valve on the exhaust duct, a plurality of recovery pipeline have still been seted up to the left and right sides wall in drying room, and is a plurality of recovery pipeline's air inlet with exhaust duct's air inlet is linked together the top of drying room is provided with temperature sensor and humidity transducer respectively. The uniform heating of the green body is realized, and the yield is improved; the recycling of high-temperature hot gas is realized, the drying efficiency is improved, and the energy is saved.

Description

Full-automatic drying system for sanitary ware products

Technical Field

The utility model relates to ceramic cleaners and polishes production and processing technical field, concretely relates to full-automatic drying system of cleaners and polishes product.

Background

The production steps of the sanitary ceramic sanitary ware comprise: the steps of blank making, drying, glazing and firing are well known, and most of drying is carried out by hot air, so that the stable state of the blank body is protected to be beneficial to the subsequent glazing step.

The existing blank drying does not consider a hot gas input mode, a hot gas circulation mode and an indoor moisture control method, so that the blank obtained by a plurality of manufacturers cannot see any defects in the early stage, and once the blank is fired, the surface of part or all sanitary appliances can show fine cracks, so that the machining precision is low, and the product quality is low.

Disclosure of Invention

The utility model aims at providing a full-automatic drying system of cleaners and polishes product to solve the problem of current ceramic cleaners and polishes body drying chamber stoving inhomogeneous and not environmental protection.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a cleaners and polishes product full-automatic drying system which the key lies in: the drying room comprises a drying room and a controller, wherein an air homogenizing pipeline is arranged at the bottom of the drying room, an air inlet of the air homogenizing pipeline is connected with an air inlet pipeline, an air outlet of the air homogenizing pipeline is connected with a plurality of air transmission pipelines uniformly distributed at the bottom of the drying room, the air transmission pipelines are communicated with an inner cavity of the drying room, an exhaust pipeline is arranged at the top of the drying room, an air suction fan is arranged at an air inlet of the exhaust pipeline, an electric control valve is arranged on the exhaust pipeline, a plurality of recovery pipelines are further arranged on the left side wall and the right side wall of the drying room, air inlets of the plurality of recovery pipelines are communicated with an air inlet of the exhaust pipeline, air outlets of the plurality of recovery pipelines are uniformly distributed at the lower part of the drying room, and a temperature sensor and a humidity sensor;

the temperature sensor and the humidity sensor are both electrically connected to the input end of the controller, and the signal output end of the controller is connected with the control ends of the exhaust fan and the electric control valve.

Furthermore, an air blower is arranged at an air outlet of the recovery pipeline, and a control end of the air blower is connected with a signal output end of the controller.

Further, the air outlets of the recovery pipelines positioned at two sides of the drying room are arranged in a staggered mode.

Furthermore, the air inlet pipeline, the gas homogenizing pipeline, the gas transmission pipeline, the exhaust pipeline and the recovery pipeline are all supported by heat-resistant materials.

Further, the humidity sensor is arranged at the top of the drying room, and the temperature sensor is arranged at the air inlet of the exhaust pipeline.

Further, the electric control valve is a valve with an adjustable opening degree.

The utility model discloses a show the effect and be:

the air inlet pipeline, the air homogenizing pipeline, the recovery pipeline and the exhaust pipeline which are properly distributed can ensure that hot air in the drying room can be fully contacted with the green body, an exhaust fan of the exhaust pipeline is linked according to the humidity in the pipeline, the air exhaust speed is increased under the condition of high initial humidity, the air exhaust speed is reduced under the condition of low later humidity, the gradual reduction of the indoor humidity is maintained to the greatest extent, cracks on the surface of the ceramic are avoided, the indoor hot air circulation effect is improved through air forced flowing equipment, the humidity and the temperature in the drying room are kept in a relatively uniform state, the uniform heating of the green body is realized, and the yield is improved;

the exhaust pipeline is cut off by closing the electric control valve, so that an internal circulation type hot air conveying pipeline can be formed, the dual working modes of internal circulation and external circulation of the drying room are realized, the recycling of high-temperature hot air is realized, the drying efficiency is improved, and the energy is saved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The following provides a more detailed description of the embodiments and the operation of the present invention with reference to the accompanying drawings.

As shown in fig. 1, a fully automatic drying system for sanitary ware products comprises a drying room 1 and a controller (not shown in the figure), wherein an air-homogenizing pipeline 2 is arranged at the bottom of the drying room 1, an air inlet of the air-homogenizing pipeline 2 is connected with an air inlet pipeline 3, the air inlet pipeline 3 is communicated with an external dry hot air generating device, an air outlet of the air-homogenizing pipeline 2 is connected with a plurality of air transmission pipelines 4 uniformly distributed at the bottom of the drying room 1, the air transmission pipelines 4 are communicated with an inner cavity of the drying room 1, an exhaust pipeline 5 is arranged at the top of the drying room 1, an exhaust fan 6 is arranged at an air inlet of the exhaust pipeline 5, an electric control valve 7 is arranged on the exhaust pipeline 5, a plurality of recovery pipelines 8 are further arranged on the left side wall and the right side wall of the drying room 1, and air inlets of the plurality of recovery pipelines 8 are communicated with an air, a plurality of the gas outlet evenly distributed of recovery pipeline 8 in the lower part of drying room 1 the gas outlet of recovery pipeline 8 is provided with forced draught blower 11 the top of drying room 1 is provided with temperature sensor 10 and humidity transducer 9 respectively, the equal electric connection of temperature sensor 10 and humidity transducer 9 the input of controller, the signal output part of controller with air exhauster 6, automatically controlled valve 7, forced draught blower 11's control end link to each other.

Furthermore, the temperature in the drying room is more uniform, and the air outlets of the recovery pipelines 8 on two sides of the drying room 1 are arranged in a staggered mode.

Preferably, the air inlet pipeline 3, the gas homogenizing pipeline 2, the gas transmission pipeline 4, the exhaust pipeline 5 and the recovery pipeline 8 are all supported by heat-resistant materials, the humidity sensor 9 is arranged at the top of the drying room 1, and the temperature sensor 10 is arranged at an air inlet of the exhaust pipeline 5.

Further, the electric control valve 7 is a valve with an adjustable opening degree, so as to better control the temperature in the drying room 1.

The working principle of the system is as follows:

when the drying is started, because the temperature in the drying room 1 is lower and the humidity is higher, the air in the room 1 is heated more quickly, the electric control valve 1 is opened to quickly pump out the air in the drying room 1, meanwhile, hot air for drying is sent into the air inlet pipeline 3, the air homogenizing pipeline 2 and the air conveying pipeline 4, the exhaust fan 6 is started, and the air feeder 11 is closed;

after the air is heated for a period of time, if the temperature sensor 10 detects that the temperature of the air in the exhaust pipeline 5 is high, in order to recycle the high-temperature hot air, the controller closes the electric control valve 7, and simultaneously opens the exhaust fan 6 and the air feeder 11, the high-temperature hot air at the top of the drying room 1 is sent back to the bottom of the drying room 1, and the ceramic blank is heated and dried by the high-temperature hot air, so that internal circulation of the high-temperature hot air is formed in the drying room 1, and the aims of improving drying efficiency and saving energy are fulfilled;

after drying for a period of time, because the humidity in the drying room 1 is greatly increased by the steam discharged from the ceramic body, the drying efficiency of the ceramic body is seriously affected by the high-humidity air at this moment, therefore, when the humidity sensor 9 detects that the humidity is higher than the preset threshold value, the controller opens the electric control valve 7, closes the air feeder 11, and discharges the high-humidity air in the drying room 1, so as to ensure the drying efficiency of the system.

Finally, in the specific implementation process, in order to further improve the utilization rate of the high-temperature hot gas, a valve can be arranged in the recovery pipeline 8 to control the on-off of the gas path of the recovery pipeline.

The technical scheme provided by the utility model is introduced in detail above. The principles and embodiments of the present invention have been explained herein using specific examples, and the above descriptions of the embodiments are only used to help understand the method and its core ideas of the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (6)

1. The utility model provides a cleaners and polishes product full-automatic drying system which characterized in that: the drying room comprises a drying room and a controller, wherein an air homogenizing pipeline is arranged at the bottom of the drying room, an air inlet of the air homogenizing pipeline is connected with an air inlet pipeline, an air outlet of the air homogenizing pipeline is connected with a plurality of air transmission pipelines uniformly distributed at the bottom of the drying room, the air transmission pipelines are communicated with an inner cavity of the drying room, an exhaust pipeline is arranged at the top of the drying room, an air suction fan is arranged at an air inlet of the exhaust pipeline, an electric control valve is arranged on the exhaust pipeline, a plurality of recovery pipelines are further arranged on the left side wall and the right side wall of the drying room, air inlets of the plurality of recovery pipelines are communicated with an air inlet of the exhaust pipeline, air outlets of the plurality of recovery pipelines are uniformly distributed at the lower part of the drying room, and a temperature sensor and a humidity sensor;

the temperature sensor and the humidity sensor are both electrically connected to the input end of the controller, and the signal output end of the controller is connected with the control ends of the exhaust fan and the electric control valve.

2. The fully automatic drying system for sanitary ware products according to claim 1, wherein: and an air feeder is arranged at an air outlet of the recovery pipeline, and the control end of the air feeder is connected with the signal output end of the controller.

3. The fully automatic drying system of sanitary ware products according to claim 1 or 2, characterized in that: and air outlets of the recovery pipelines positioned at two sides of the drying room are arranged in a staggered manner.

4. The fully automatic drying system for sanitary ware products according to claim 1, wherein: the air inlet pipeline, the gas homogenizing pipeline, the gas transmission pipeline, the exhaust pipeline and the recovery pipeline are all supported by heat-resistant materials.

5. The fully automatic drying system for sanitary ware products according to claim 1, wherein: the humidity sensor is arranged at the top of the drying room, and the temperature sensor is arranged at the air inlet of the exhaust pipeline.

6. The fully automatic drying system for sanitary ware products according to claim 1, wherein: the electric control valve is a valve with adjustable opening.

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