CN218328957U

CN218328957U - Predrying system of pottery clay base

Info

Publication number: CN218328957U
Application number: CN202222446509.1U
Authority: CN
Inventors: 关宗沅; 关庆文; 史贵银; 雷翔
Original assignee: Foshan Taoyu Technology Co ltd
Current assignee: Foshan Taoyu Technology Co ltd
Priority date: 2022-09-15
Filing date: 2022-09-15
Publication date: 2023-01-17
Anticipated expiration: 2032-09-15

Abstract

The utility model provides a predrying system of pottery clay base, including the predrying room, be equipped with three-dimensional storehouse equipment in the predrying room, predrying room both sides are equipped with input port and delivery outlet respectively, the input line that the input port supplied three-dimensional storehouse equipment stretches out, the output line that the output port supplied three-dimensional storehouse equipment stretches out, the predrying room is equipped with and is used for carrying out the predrying device of predrying to the pottery clay base body of placing on three-dimensional storehouse equipment. The utility model adopts the above structure for the factory building not only has the large-scale storage of ceramic sanitary ware product and outside the automatic function of putting out the warehouse entry, still has the stoving function to the ceramic sanitary ware product, thereby improves the utilization efficiency of factory building, in addition, the utility model discloses carry out automatic drying to it when depositing ceramic clay base, practiced thrift the process, improved the efficiency of production greatly, it has realized the automation, practices thrift the cost of labor, also need not artifical business turn over to draw the base, has reduced the collision of base car, thereby has reduced the damaged probability of product.

Description

Predrying system of pottery clay base

[ technical field ] A

The utility model belongs to the technical field of the dry technique of sanitary ware product and specifically relates to a predrying system of pottery clay base.

[ background ] A method for producing a semiconductor device

The applicant filed 2021.12.03 with the present application No. 202123030469.4, the publication No. CN 216334456U, and the name of the utility model is a three-dimensional library device with push rod function. The three-dimensional warehouse equipment with the push rod function comprises a warehouse entry device and a warehouse exit device which are oppositely arranged on the front side and the rear side of the three-dimensional warehouse, and a pulley pushing device arranged on each layer of rack of the three-dimensional warehouse, wherein an external input line for inputting ceramic products is arranged on the front side of the warehouse entry device, an external output line for outputting the ceramic products is arranged on the rear side of the warehouse exit device, and a pushing driving assembly for driving the pulley pushing device to move along an X axis is arranged on the warehouse exit device. The large-scale storage of the sanitary ceramic products is realized, and the flow automation of the sanitary ceramic products is realized. However, when aiming at a wet blank which is just formed, the blank body needs to be pre-dried to ensure that a mud blank product is 'cured' and dried slowly in a specific environment. Thereby avoided the adobe because of ambient temperature, humidity's unstability, caused the condition such as the desiccation crack, shrink inhomogeneous to appear, stabilized production cycle, improved the yield of adobe product, the utility model discloses an application is just to how integrated above-mentioned technology and propose.

[ Utility model ] A method for manufacturing a semiconductor device

The to-be-solved technical problem of the utility model is to provide an utilize the three-dimensional predrying of multilayer to improve ceramic clay base production's flowing water automation, improve factory building space utilization, improve the predrying system that the clay base received the rate, stabilized drying cycle.

The purpose of the utility model is realized like this:

the utility model provides a ceramic mud blank's drying system in advance, includes the drying room in advance, be equipped with three-dimensional storehouse equipment in the drying room in advance, the drying room both sides in advance are equipped with input port and delivery outlet respectively, the input line that the input port supplied three-dimensional storehouse equipment stretches out, the output line that the output port supplied three-dimensional storehouse equipment stretches out, the drying room in advance is equipped with and is used for carrying out the predrying device of predrying to the ceramic mud body of placing on three-dimensional storehouse equipment.

The above structure is adopted in the utility model for outside the factory building not only had the large-scale storage of ceramic sanitary ware product and the automatic function of putting in storage of going out, still had the stoving function to the ceramic sanitary ware product, thereby improved the utilization efficiency of factory building, in addition, the utility model discloses carry out automatic drying to it when depositing ceramic clay base, practiced thrift the process, improved the efficiency of production greatly, it has realized the automation, practices thrift the cost of labor, also need not artifical business turn over to draw the base, has reduced the collision of base car to the damaged probability of product has been reduced.

According to the pre-drying system for the ceramic mud blank, the pre-drying device comprises a slow-dry heat supply assembly, a slow-dry main input pipeline and a slow-dry main output pipeline which are arranged at the top of the pre-drying room and are respectively communicated with the output end and the input end of the slow-dry heat supply assembly, and a plurality of heat supply branch pipes which are arranged in the pre-drying room and are communicated with the slow-dry main input pipeline and the slow-dry main output pipeline, so that the ceramic mud blank in the pre-drying room is pre-dried, the pre-drying working section is ensured, and the pre-drying room is continuously located in the set drying dynamic state for a long time.

The ceramic mud blank pre-drying system comprises a heat radiation pipe arranged at the bottom of a three-dimensional warehouse, a heat supply input pipe arranged at one end of the heat radiation pipe and extending upwards and communicated with a slow-drying main input pipeline, and a heat supply output pipe arranged at the other end of the heat radiation pipe and extending upwards and communicated with a slow-drying main output pipeline, wherein the heat supply input pipe, the heat supply output pipe and the heat radiation pipe are used for effectively drying ceramic mud blanks in a pre-drying room in a heat radiation mode.

As above a ceramic mud blank's predrying system, the predrying room is equipped with the hydrofuge device, the hydrofuge device includes the hydrofuge fan, locates hydrofuge air brake on the hydrofuge fan, locate the hydrofuge trunk line at predrying room top with locate in the predrying room and with the hydrofuge small transfer line that the hydrofuge trunk line is linked together, the hydrofuge small transfer line stretches into the bottom and the tip of predrying room are equipped with the dehumidification mouth. Can take out wet to the predrying room through the hydrofuge device, guarantee the degree of dryness in predrying room, need not lower the temperature to ceramic clay base, practiced thrift the cost of labor.

According to the pre-drying system for the ceramic mud blank, the pre-drying room is provided with three sets of the moisture exhausting devices, so that the moisture exhausting efficiency is ensured.

According to the pre-drying system for the ceramic mud blank, the slow drying heat supply assembly comprises a slow drying air supply machine of which the output end is communicated with the slow drying main input pipeline and a slow drying air distribution box of which the input end is communicated with the slow drying air supply machine, a fresh air brake, a circulating air brake and a waste heat air brake are arranged on the slow drying air distribution box, and the circulating air brake is communicated with the output end of the slow drying main output pipeline, so that the heating efficiency of the slow drying air supply machine is improved by fully utilizing a heat source.

According to the pre-drying system for the ceramic mud blank, the automatic lifting doors are arranged on the input port and the output port, so that waste of heat sources is prevented.

According to the pre-drying system for the ceramic adobe, the pre-drying room is provided with the humidifying device, and the humidifying device automatically humidifies according to the process set parameters, so that the adobe products meet the humidity requirements of different stages in the pre-drying process.

[ description of the drawings ]

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings, in which:

FIG. 1 is a schematic view of the present invention;

FIG. 2 is a second schematic view of the present invention;

fig. 3 is a schematic structural view of the dehumidifying device of the present invention;

fig. 4 is a third schematic structural diagram of the present invention.

[ detailed description ] A

The utility model provides a predrying system of ceramic clay base, includes predrying room 1, is equipped with three-dimensional storehouse equipment 100 in the

predrying room

1, and 1 both sides in predrying room are equipped with input port 11 and delivery outlet 31 respectively, and input port 11 supplies the input line 101 of three-dimensional storehouse equipment 100 to stretch out, and delivery outlet 31 supplies the output line 102 of three-dimensional storehouse equipment 100 to stretch out, and predrying room 1 is equipped with the predrying device 4 that is used for carrying out the predrying to the ceramic clay base body of placing on three-dimensional storehouse equipment 100. The stereo garage apparatus 100 adopts a stereo garage apparatus with a push rod function in the utility model patent with application number 202123030469.4 and publication number CN 216334456U.

Preferably, the pre-drying device 4 comprises a slow drying heat supply assembly 41, a slow drying main input pipeline 42 and a slow drying main output pipeline 43 which are arranged at the top of the pre-drying room 1 and respectively communicated with the output end and the input end of the slow drying heat supply assembly 41, and a plurality of heat supply branch pipes 44 which are arranged in the pre-drying room 1 and communicated with the slow drying main input pipeline 42 and the slow drying main output pipeline 43, so that the ceramic mud blank in the pre-drying room 1 is pre-dried, a pre-drying working section is ensured, and the pre-drying room 1 is continuously in a set drying dynamic state for a long time.

Preferably, each of the heat supply branch pipes 44 includes a heat radiation pipe 441 provided at the bottom of the stereo garage 100, a heat supply input pipe 442 provided at one end of the heat radiation pipe 441 and extending upward and communicating with the slow drying main input duct 42, and a heat supply output pipe 443 provided at the other end of the heat radiation pipe 441 and extending upward and communicating with the slow drying main output duct 43. The heat input pipe 442, the heat output pipe 443, and the heat radiation pipe 441 surround the ceramic body in the stereo-bank, and slowly dry the ceramic body by means of heat radiation.

For guaranteeing the dryness of predrying room 1, predrying room 1 is equipped with hydrofuge device 6, and hydrofuge device 6 includes hydrofuge fan 61, locates the hydrofuge air brake 62 on the hydrofuge fan 61, locates the hydrofuge trunk line 63 at 1 top of predrying room and locates the hydrofuge branch pipe 64 that is linked together in the predrying room 1 and with the hydrofuge trunk line 63, and the hydrofuge branch pipe 64 stretches into the bottom and the tip of predrying room 1 and is equipped with dehumidifying mouth 641.

In order to ensure the dehumidifying efficiency, the pre-drying room 1 is provided with three sets of dehumidifying devices 6.

Preferably, the slow drying heat supply assembly 41 includes a slow drying air supply heater 411 whose output end is communicated with the slow drying main input pipeline 42 and a slow drying air distribution box 412 which is communicated with the input end of the slow drying air supply heater 411, the slow drying air distribution box 412 is provided with a fresh air damper 413, a circulating air damper 414 and a waste heat damper 415, the circulating air damper 414 is communicated with the output end of the slow drying main output pipeline 43, the input end of the fresh air damper 413 is directly communicated with the atmosphere, and the input end of the waste heat damper 415 can be communicated with the rooms of other process rooms, so that the heat source is fully utilized to improve the heating efficiency of the slow drying air supply heater 411, and the slow drying heat supply assembly is energy-saving and environment-friendly. To facilitate routine maintenance, a steel platform 40 with a ladder stand may be provided to install the slow dry heating assembly 41.

In order to prevent the waste of heat source, the input port 11 and the output port 31 are provided with automatic lifting doors 123. When ceramic mud blanks need to pass through, the corresponding automatic lifting door 123 can be opened, otherwise, the automatic lifting door 123 is always in a closed state.

In order to prevent the pre-drying chamber 1 from being too dry, the pre-drying chamber 1 is provided with a humidifying device 132, which includes a humidifier, a humidifying pipeline, an atomizing nozzle, and the like.

The utility model discloses during the use, the pottery clay base passes through input line 101 and input port 11 and inputs to predrying room 1, then stores pottery clay base propelling movement to corresponding position in a warehouse through three-dimensional storehouse equipment 100's warehousing device and pulley pusher, and in-process, predrying device 4 lasts carries out the predrying drying (drying at a slow speed) to the pottery clay base in the predrying room 1. When the ceramic adobe in the pre-drying room 1 needs to be delivered out of the warehouse for transfer, the pulley pushing device and the delivery device of the three-dimensional warehouse equipment 100 work together and transfer the delivered ceramic adobe to the output line 102, and the output line 102 directly drives the ceramic adobe to be delivered out through the output port 31.

Claims

1. The utility model provides a pre-drying system of ceramic clay base, its characterized in that includes pre-drying room (1), be equipped with three-dimensional storehouse equipment (100) in pre-drying room (1), pre-drying room (1) both sides are equipped with input port (11) and delivery outlet (31) respectively, input port (11) supply input line (101) of three-dimensional storehouse equipment (100) to stretch out, output line (102) that delivery outlet (31) supplied three-dimensional storehouse equipment (100) stretch out, pre-drying room (1) is equipped with and is used for carrying out pre-drying's pre-drying device (4) to the ceramic clay base body of placing on three-dimensional storehouse equipment (100).

2. A system for predrying ceramic mud slabs according to claim 1, wherein the predrying apparatus (4) comprises a slow drying heat supply module (41), a slow drying main input pipe (42) and a slow drying main output pipe (43) arranged at the top of the predrying room (1) and respectively communicating with the output end and the input end of the slow drying heat supply module (41), and a plurality of heat supply branch pipes (44) arranged in the predrying room (1) and respectively communicating with the slow drying main input pipe (42) and the slow drying main output pipe (43).

3. A pre-drying system for ceramic paste preforms as claimed in claim 2, wherein each of said heat supply branch pipes (44) comprises a heat radiation pipe (441) provided at the bottom of the three-dimensional warehouse facility (100), a heat supply input pipe (442) provided at one end of said heat radiation pipe (441) and extending upward and communicating with said slow drying main input pipe (42), and a heat supply output pipe (443) provided at the other end of said heat radiation pipe (441) and extending upward and communicating with said slow drying main output pipe (43).

4. The pre-drying system of ceramic mud blank according to claim 1, characterized in that said pre-drying room (1) is provided with a dehumidifying device (6), said dehumidifying device (6) comprises a dehumidifying fan (61), a dehumidifying air brake (62) arranged on said dehumidifying fan (61), a dehumidifying main pipe (63) arranged at the top of said pre-drying room (1) and a dehumidifying branch pipe (64) arranged in said pre-drying room (1) and communicated with said dehumidifying main pipe (63), said dehumidifying branch pipe (64) extends into the bottom and end of said pre-drying room (1) and is provided with a dehumidifying port (641).

5. A pre-drying system for ceramic mud billets as claimed in claim 4, characterised in that said pre-drying chamber (1) is provided with three sets of said dehumidifying means (6).

6. A pre-drying system for ceramic mud billets as claimed in claim 2 or 3, wherein said slow drying heat supply assembly (41) includes a slow drying air supply blower (411) having an output end in communication with said slow drying main input pipe (42) and a slow drying air distribution box (412) in communication with an input end of said slow drying air supply blower (411), said slow drying air distribution box (412) being provided with a fresh air damper (413), a circulating air damper (414) and a waste heat damper (415), said circulating air damper (414) being in communication with an output end of said slow drying main output pipe (43).

7. A system for pre-drying ceramic paste preforms as claimed in claim 1, characterised in that said input port (11) and said output port (31) are provided with automatic lifting gates (123).

8. A pre-drying system for ceramic paste preforms according to claim 1, characterised in that the pre-drying chamber (1) is provided with a humidifying device (132).