CN215063314U - Ceramic body drying equipment - Google Patents

Abstract

The application discloses ceramic body drying equipment, it includes drying chamber, a plurality of stirring dryer, circulation tuber pipe, circulating fan, hot-blast furnace, new fan, exhaust pipe and exhaust fan, and wherein, circulating fan concatenates with the circulation tuber pipe, and circulation tuber pipe air-out end is connected to corresponding stirring dryer, and the stirring dryer distributes in the accommodation space and perpendicular equipment, and the air-out portion of stirring dryer is located the lateral wall. The technical scheme can ensure that the blank is heated more uniformly and is not easy to crack.

Description

Ceramic body drying equipment

Technical Field

The application relates to the technical field of ceramic body drying, in particular to ceramic body drying equipment.

Background

In the prior art, when ceramic blank drying equipment is used for accommodating more ceramic blanks, the situation of uneven heating can occur, so that the blanks crack in the drying process. Further, the existing ceramic body drying equipment cannot realize remote automatic control.

SUMMERY OF THE UTILITY MODEL

The present application is directed to overcoming the above-mentioned drawbacks or problems in the background art and providing a ceramic body drying apparatus, which can make the body more uniformly exposed to wind during the drying process and make the body less prone to crack.

In order to achieve the purpose, the following technical scheme is adopted:

a ceramic body drying apparatus, comprising: a drying chamber provided with an accommodating space for accommodating the ceramic body; the stirring wind cylinders are distributed in the accommodating space and are vertically arranged, and the air outlet parts of the stirring wind cylinders are positioned on the side walls; the air inlet end of the circulating air pipe is arranged in the accommodating space and is provided with air outlet ends with the number equal to that of the stirring air cylinders, and each air outlet end is connected to the air inlet part of the corresponding stirring air cylinder; the circulating fan is connected in series with the circulating air pipe and used for driving air circulation in the circulating air pipe; the hot blast stove is connected in series with the circulating air pipe and is used for heating air in the circulating air pipe; the fresh air machine is used for introducing outside air into the accommodating space; the air inlet of the exhaust pipe is arranged in the accommodating space, and the air outlet of the exhaust pipe is positioned outside the drying chamber; and the exhaust fan is connected in series with the exhaust pipe and is used for driving the air in the exhaust duct to be exhausted from the air outlet.

Further, the stirring air cylinder comprises a cylinder body, a motor and a stirring piece; the motor drives the stirring piece to rotate around a vertical rotating shaft in the cylinder body; the air outlet part is arranged on the side wall of the barrel.

Further, the air inlet part of the stirring air cylinder is positioned at the upper part of the cylinder body; the motor is arranged above the barrel.

Further, the barrel is in an inverted cone shape.

Further, the circulating fan, the hot blast stove and the exhaust fan are positioned outside the drying chamber.

Further, still include: the humidifying pipe is arranged in the accommodating space, and a plurality of humidifying holes are distributed in the humidifying pipe along the extending direction of the humidifying pipe; and the ultrasonic humidifier is connected with the humidifying pipe in series and is used for increasing the humidity in the accommodating space.

Further, the device also comprises a humidity sensor used for sensing the humidity of the accommodating space; and the controller receives humidity information sent by the humidity sensor, controls the fresh air fan and the exhaust fan to be started when the humidity is too high, and controls the ultrasonic humidifier to be started when the humidity is too low.

Further, the temperature sensor is used for sensing the temperature of the accommodating space; the controller also controls the output power of the hot blast stove according to the temperature information sent by the temperature sensor.

Further, still include wireless connection module, wireless connection module with temperature sensor, humidity transducer, new fan, exhaust fan and ultrasonic humidifier electricity connect and with controller wireless signal connects, be used for with temperature sensor's temperature information and humidity transducer's humidity information send for the controller to receive the control command of controller in order to control new fan, exhaust fan and ultrasonic humidifier.

Further, the wireless connection module is connected with the controller through a 5G signal.

Compared with the prior art, the scheme has the following beneficial effects:

because be equipped with a plurality of stirring dryer in the accommodation space, and the air-out portion of stirring dryer is located the lateral wall, send hot-blast to each stirring dryer through circulating fan, consequently can make the body be heated and compare prior art more even, the difficult fracture of body. Through setting up new fan, exhaust pipe and exhaust fan, can dehumidify when humidity is great to comparatively dry air is supplied.

The barrel is the back taper tubulose, and the motor sets up in the upper portion of barrel, can make the air-out portion of barrel lateral wall air-out more evenly on the direction of height.

Through setting up ultrasonic humidifier and humidifying pipe, can adjust the humidity in the accommodation space.

The controller in this application can be through the perception to temperature and humidity, control new fan, exhaust fan, ultrasonic humidifier and hot-blast furnace work, can realize the automatic control function.

Through setting up the wireless connection module with controller 5G signal connection, can realize the remote control to ceramic body drying equipment.

Drawings

In order to more clearly illustrate the technical solution of the embodiments, the drawings needed to be used are briefly described as follows:

FIG. 1 is a plan view of a ceramic body drying apparatus in an example;

FIG. 2 is a schematic structural diagram of an agitating air duct in the embodiment;

description of the main reference numerals:

a drying chamber 1; an accommodating space 2; a stirring air cylinder 3; a circulating air duct 4; an air inlet end 41; an air outlet end 42; a circulating fan 5; a hot blast stove 6; a fresh air machine 7; an exhaust duct 8; an air inlet 81; an air outlet 82; an exhaust fan 9; an ultrasonic humidifier 10; a humidifying pipe 11; a wireless connection module 12.

Detailed Description

In the claims and specification, unless otherwise specified the terms "first", "second" or "third", etc., are used to distinguish between different items and are not used to describe a particular order.

In the claims and specification, unless otherwise specified, the terms "central," "lateral," "longitudinal," "horizontal," "vertical," "top," "bottom," "inner," "outer," "upper," "lower," "front," "rear," "left," "right," "clockwise," "counterclockwise," and the like are used in the orientation and positional relationship indicated in the drawings and are used for ease of description only and do not imply that the referenced device or element must have a particular orientation or be constructed and operated in a particular orientation.

In the claims and the specification, unless otherwise defined, the terms "fixedly" or "fixedly connected" are to be understood in a broad sense as meaning any connection which is not in a relative rotational or translational relationship, i.e. including non-detachably fixed connection, integrally connected and fixedly connected by other means or elements.

In the claims and specification, unless otherwise defined, the terms "comprising", "having" and variations thereof mean "including but not limited to".

The technical solution in the embodiments will be clearly and completely described below with reference to the accompanying drawings.

Referring to fig. 1, fig. 1 shows a ceramic body drying apparatus in the present embodiment. As shown in fig. 1, the ceramic body drying device includes a drying chamber 1, a plurality of stirring wind cylinders 3, a circulating wind pipe 4, a circulating fan 5, a hot blast stove 6, a new fan 7, an exhaust pipe 8, an exhaust fan 9, a humidifying pipe 11, an ultrasonic humidifier 10, a humidity sensor, a temperature sensor, a wireless connection module 12 and a controller.

Wherein, the drying chamber 1 is provided with an accommodating space 2 for accommodating the ceramic body.

As shown in fig. 1, each stirring air duct 3 is uniformly distributed in the accommodating space 2. As shown in fig. 2, the stirring wind barrel 3 is vertically arranged and comprises a barrel body, a motor and a stirring piece, wherein the motor drives the stirring piece to rotate around a vertical rotating shaft in the barrel body. The barrel is the back taper tubulose, and the air inlet portion of stirring dryer 3 sets up in the upper portion of barrel, and the air outlet portion of stirring dryer 3 sets up in the lateral wall of barrel. The motor is arranged on the upper part of the cylinder body. The air outlet part of the side wall of the barrel can uniformly exhaust air in the height direction by the arrangement.

The air inlet end 41 of the circulating air pipe 4 is opened in the accommodating space 2 and is provided with air outlet ends 42 with the same number as the stirring air cylinders 3, and each air outlet end 42 is connected to the air inlet portion of the corresponding stirring air cylinder 3.

The circulating fan 5 is connected in series with the circulating air pipe 4 and is used for driving the air in the circulating air pipe 4 to circulate; the circulating fan 5 is disposed outside the drying chamber 1.

The hot blast stove 6 is connected in series with the circulating air pipe 4 and is used for heating the air in the circulating air pipe 4; the hot blast stove 6 is arranged outside the drying chamber 1.

The fresh air blower 7 is fixedly connected to the wall of the drying chamber 1 and is used for introducing outside air into the accommodating space 2.

The air inlet 81 of the exhaust duct 8 is opened in the accommodating space 2, and the air outlet 82 of the exhaust duct 8 is located outside the drying chamber 1 and higher than the top surface of the drying chamber 1.

The exhaust fan 9 is connected in series to the exhaust pipe 8 and is used for driving the air in the exhaust duct to be exhausted from the air outlet 82; the exhaust fan 9 is disposed outside the drying chamber 1.

The humidifying pipe 11 is arranged in the accommodating space 2, and a plurality of humidifying holes are distributed on the humidifying pipe 11 along the extending direction.

And the ultrasonic humidifier 10 is connected with the humidifying pipe 11 in series and is used for increasing the humidity in the accommodating space 2.

The humidity sensor is disposed in the accommodating space 2 and used for sensing humidity of the accommodating space 2.

The temperature sensor is disposed in the accommodating space 2 and used for sensing the temperature of the accommodating space 2.

The controller receives humidity information sent by the humidity sensor, controls the fresh air fan 7 and the exhaust fan 9 to be started when the humidity is too high, and controls the ultrasonic humidifier 10 to be started when the humidity is too low. The controller also controls the output power of the hot blast stove 6 according to the temperature information sent by the temperature sensor.

The wireless connection module 12 is electrically connected with the temperature sensor, the humidity sensor, the fresh air fan 7, the exhaust fan 9 and the ultrasonic humidifier 10 and is connected with the controller through a wireless signal, the temperature information of the temperature sensor and the humidity information of the humidity sensor are sent to the controller, and a control instruction of the controller is received to control the fresh air fan 7, the exhaust fan 9 and the ultrasonic humidifier 10. In the embodiment, the wireless connection module 12 is connected with the controller through a 5G signal.

Ceramic body drying equipment in this embodiment is because a plurality of stirring dryer 3 have been laid to accommodation space 2, and the air-out portion of stirring dryer 3 is located the lateral wall, sends hot-blast to each stirring dryer 3 through circulating fan 5, consequently can make the body be heated and compare prior art more even, and the body is difficult for the fracture. Through setting up new fan 7, exhaust pipe 8 and exhaust fan 9, can dehumidify when humidity is great to supply drier air. The present embodiment can adjust the humidity in the accommodating space 2 by providing the ultrasonic humidifier 10 and the humidifying pipe 11. The controller of the embodiment can control the fresh air fan 7, the exhaust fan 9, the ultrasonic humidifier 10 and the hot blast stove 6 to work by sensing temperature and humidity, so that the automatic control function is realized. In this embodiment, the wireless connection module 12 is connected to the controller through a 5G signal, so that the ceramic body drying device can be remotely controlled.

The description of the above specification and examples is intended to be illustrative of the scope of the present application and is not intended to be limiting.

Claims (10)

1. A ceramic body drying device is characterized by comprising:

a drying chamber provided with an accommodating space for accommodating the ceramic body;

the stirring wind cylinders are distributed in the accommodating space and are vertically arranged, and the air outlet parts of the stirring wind cylinders are positioned on the side walls;

the air inlet end of the circulating air pipe is arranged in the accommodating space and is provided with air outlet ends with the number equal to that of the stirring air cylinders, and each air outlet end is connected to the air inlet part of the corresponding stirring air cylinder;

the circulating fan is connected in series with the circulating air pipe and used for driving air circulation in the circulating air pipe;

the hot blast stove is connected in series with the circulating air pipe and is used for heating air in the circulating air pipe;

the fresh air machine is used for introducing outside air into the accommodating space;

the air inlet of the exhaust pipe is arranged in the accommodating space, and the air outlet of the exhaust pipe is positioned outside the drying chamber; and

and the exhaust fan is connected in series on the exhaust pipe and is used for driving the air in the exhaust duct to be exhausted from the air outlet.

2. The ceramic body drying apparatus according to claim 1, wherein said agitating drum comprises a drum body, a motor and an agitating member; the motor drives the stirring piece to rotate around a vertical rotating shaft in the cylinder body; the air outlet part is arranged on the side wall of the barrel.

3. The ceramic body drying apparatus according to claim 2, wherein an air inlet portion of the agitating air duct is located at an upper portion of the drum body; the motor is arranged above the barrel.

4. A ceramic body drying apparatus as claimed in claim 3, wherein said cylinder has a shape of an inverted cone.

5. The ceramic body drying apparatus according to claim 4, wherein said circulation fan, said hot blast stove and said exhaust fan are located outside said drying chamber.

6. The ceramic body drying apparatus as claimed in claim 5, further comprising:

the humidifying pipe is arranged in the accommodating space, and a plurality of humidifying holes are distributed in the humidifying pipe along the extending direction of the humidifying pipe; and

and the ultrasonic humidifier is connected with the humidifying pipe in series and is used for increasing the humidity in the accommodating space.

7. The ceramic body drying apparatus as claimed in claim 6, further comprising:

the humidity sensor is used for sensing the humidity of the accommodating space; and

and the controller receives humidity information sent by the humidity sensor, controls the fresh air fan and the exhaust fan to be started when the humidity is too high, and controls the ultrasonic humidifier to be started when the humidity is too low.

8. The ceramic body drying apparatus as claimed in claim 7, further comprising:

the temperature sensor is used for sensing the temperature of the accommodating space;

the controller also controls the output power of the hot blast stove according to the temperature information sent by the temperature sensor.

9. The ceramic body drying device according to claim 8, further comprising a wireless connection module, wherein the wireless connection module is electrically connected with the temperature sensor, the humidity sensor, the fresh air blower, the exhaust fan and the ultrasonic humidifier and is in wireless signal connection with the controller, and is configured to send temperature information of the temperature sensor and humidity information of the humidity sensor to the controller and receive a control command of the controller to control the fresh air blower, the exhaust fan and the ultrasonic humidifier.

10. The ceramic body drying apparatus according to claim 9, wherein said wireless connection module is connected to said controller by a 5G signal.

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