CN115707922A - Drying treatment apparatus and gas drying unit - Google Patents

Abstract

A drying treatment apparatus is suitable for drying at least one porous article and comprises an apparatus body and a gas drying unit. The apparatus main body includes a drying process chamber. The air drying unit comprises an air-permeable carrier seat and an air pump assembly. The ventilation carrier seat is detachably arranged in the drying processing cavity and is provided with a hollow main structure capable of allowing gas to flow and at least one plug-in structure which is communicated with the main structure and is used for inserting the porous article thereon. The plug-in structure has a vent opening that allows gas to flow through and is adapted to be placed within a porous article. The air pump component is communicated with the ventilation carrier seat and can promote the air in the ventilation carrier seat and the porous article to circulate in one of an air exhaust mode and an air outlet mode so as to remove the moisture contained in the porous article. By means of the setting of the gas drying unit, moisture can be removed from the interior of the porous article in a pumping or blowing mode, so that the drying treatment effect and efficiency can be improved.

Description

Drying treatment apparatus and gas drying unit

Technical Field

The present invention relates to a drying apparatus and a gas drying unit, and more particularly, to a drying apparatus and a gas drying unit suitable for use with porous objects such as filter elements.

Background

Drying of porous articles containing moisture, such as filter elements, is generally carried out, for example, by placing the porous article in a high temperature environment. However, the drying treatment of porous articles by high-temperature baking generally has problems of incomplete moisture removal, long time consumption, and the like, and thus needs to be improved.

Disclosure of Invention

An object of the present invention is to provide a drying treatment apparatus capable of solving the aforementioned problems.

In some embodiments, the drying apparatus of the present invention is adapted to dry at least one porous article, and includes an apparatus body and a gas drying unit. The apparatus body includes a drying process chamber. The air drying unit comprises an air carrier seat and an air pump assembly, wherein the air carrier seat is detachably arranged in the drying processing cavity and is provided with a hollow main structure capable of allowing air to flow and at least one plug-in structure which is communicated with the main structure and is used for the porous article to be plugged in. The plug-in structure has a vent opening that allows gas to flow through and is adapted to be placed within the porous article. The air pump assembly is communicated with the ventilation carrier and can promote the air in the ventilation carrier and the porous article to circulate in one of an air exhaust mode and an air exhaust mode so as to remove the moisture contained in the porous article.

In some embodiments, the main structure of the air vent carrier has a hollow base body and a cover body detachably sealed to the base body, and the plug structure is disposed on the cover body and communicates with the base body.

In some embodiments, the insertion structure is detachably disposed on the top side of the cover body for inserting the bottom side of the porous article.

In some embodiments, the plug structure extends up and down to allow the porous article to stand upright.

In some embodiments, the air-tight carrier further has at least one air-tight ring, and the air-tight ring is disposed at the insertion position of the porous article and the insertion structure to close a gap between the porous article and the insertion structure.

In some embodiments, the air pump assembly is disposed in the main body and includes an air pipeline and an air pump, the air pipeline is communicated with one side of the ventilating carrier and extends in a direction away from the ventilating carrier, and the air pump is communicated with one end of the air pipeline away from the ventilating carrier and can promote air circulation in the air pipeline, the ventilating carrier and the porous article to remove moisture contained in the porous article.

In some embodiments, the drying processing apparatus further includes a heater disposed at the apparatus body for heating the gas and a humidity sensor disposed at the gas pipeline, and the gas pump is configured to pump the gas from the drying processing chamber, through the porous article and the venting carrier, and into the gas pipeline.

In some embodiments, the drying processing apparatus further includes a heater disposed at the gas pipeline for heating the gas and a humidity sensor disposed in the drying processing chamber, and the gas pump is configured to cause the gas to flow from the gas pipeline, through the venting carrier, through the porous article, and into the drying processing chamber in a gas-out manner.

Another object of the present invention is to provide a gas drying unit. The gas drying unit is suitable for drying at least one porous article and comprises a ventilating carrier and an air pump assembly. The ventilation carrier seat comprises a hollow main structure capable of allowing gas to flow and at least one plug-in structure which is communicated with the main structure and is used for the porous article to be plugged in, and the plug-in structure is provided with a ventilation hole which can allow gas to flow and is suitable for being placed in the porous article. The air pump assembly is communicated with the ventilation carrier and can promote the air in the ventilation carrier and the porous article to circulate in one of an air exhaust mode and an air exhaust mode so as to remove the moisture contained in the porous article.

In some embodiments, the main structure of the ventilation carrier has a hollow base body and a cover body detachably sealed to the base body, and the insertion structure is disposed on the top side of the cover body and communicates with the base body for inserting the bottom side of the porous article.

The invention has the beneficial effects that: by means of the arrangement of the gas drying unit, the drying treatment equipment can remove moisture from porous objects in a high-temperature baking mode and can also remove moisture from the interiors of the porous objects in an air suction or blowing mode, so that the drying treatment effect and efficiency can be improved.

Drawings

FIG. 1 is a schematic side view illustrating one embodiment of a drying process apparatus according to the present invention;

FIG. 2 is a perspective view illustrating an embodiment of a vented carrier housing multiple porous articles;

FIGS. 3 and 4 are schematic side views illustrating different embodiments of the porous article mounted on the vent carrier; and

FIG. 5 is a side exploded view of the vent carrier in an alternate embodiment;

fig. 6 is a schematic side view illustrating a modified embodiment of the drying process apparatus.

Detailed Description

The present invention will be described in detail below with reference to the drawings and examples.

Referring to fig. 1 and 2, an embodiment of a drying processing apparatus 100 according to the present invention is shown. The drying treatment apparatus 100 is suitable for drying at least one porous article 200, such as a hollow filter element in the shape of a circular tube, in the present embodiment, by way of examples.

The drying processing apparatus 100 includes an apparatus main body 1, a gas drying unit 2, a humidity sensor 3, and a heater 4.

The main body 1 is a main structure of the drying apparatus 100, and includes a drying chamber 11, a housing, an air duct, and other components not shown in detail. The drying chamber 11 is used for placing the porous article 200 therein for drying, and has a hot air inlet/outlet 111 aligned with the porous article 200 for blowing air out, and a damper structure 112 disposed adjacent to the hot air inlet/outlet 111 for guiding hot air. The heater 4 is disposed at the air duct in the device main body 1, and is configured to heat the air in the air duct to a predetermined temperature, so that the heated air can be introduced into the drying chamber 11 through the hot air inlet/outlet 111 and the air door structure 112, and a high-temperature environment for baking is formed in the drying chamber 11.

Referring to fig. 1-5, the gas drying unit 2 includes a vented base 21 and a gas pump assembly 22. The ventilating carrier 21 is detachably disposed in the drying chamber 11 and aligned with the hot air inlet/outlet 111 and the damper structure 112, and has a hollow main structure 211 for allowing air to flow through, at least one (in this embodiment, multiple examples) plug structure 212 connected to the main structure 211 and allowing the porous article 200 to be inserted therein, and at least one (in this embodiment, multiple examples) air-tight ring 213. The main structure 211 of the air vent carrier 21 has a hollow base body 214 and a cover 215 detachably coupled to the base body 214 as shown in fig. 5. The plug structure 212 extends up and down and is detachably disposed on the top side of the cover 215 and communicates with the base body 214. Each plug structure 212 has a vent hole 216 that allows gas to flow and is adapted to be placed in the porous article 200 for the bottom side of the porous article 200 to plug into in an upright position. The airtight rings 213 are respectively disposed at the insertion positions of the porous article 200 and the corresponding insertion structures 212 to seal the gap between the porous article 200 and the insertion structures 212, so as to ensure an airtight effect. For example, the airtight ring 213 can be an O-ring (O-ring), which can be inserted between the porous article 200 and the plug structure 212 in the structural configuration shown in fig. 3, or the porous article 200 and the plug structure 212 in the structural configuration shown in fig. 4 to provide an airtight effect.

The air pump assembly 22 is connected to the air vent carrier 21 and can promote the air in the air vent carrier 21 and the porous article 200 to flow in one of an air exhaust mode and an air exhaust mode, so as to remove the moisture contained in the porous article 200. Specifically, the air pump assembly 22 is disposed in the main body 1, and includes an air pipe 221 and an air pump 222. The humidity sensor 3 is disposed at the gas pipeline 221, and the gas pipeline 221 communicates with one side of the ventilation carrier 21 and extends in a direction away from the ventilation carrier 21. The air pump 222 may be, for example, a ring-shaped high-pressure air pump, which is connected to one end of the air pipe 221 away from the air-permeable carrier 21 and can promote the air in the air pipe 221, the air-permeable carrier 21 and the porous article 200 to flow through, so as to remove the moisture contained in the porous article 200.

In use, if the porous article 200 needs to be dried, each porous article 200 can be inserted into the insertion structure 212 and placed in the drying chamber 11, so that the drying chamber 11 can be baked in a high temperature environment to remove moisture, and the air pump 222 can be operated to pump or blow moisture from the inside of each porous article 200 through the air path formed by the air pipe 221 and the air carrier 21, so as to dry the porous article 200 in a dual mechanism, thereby effectively improving the drying effect and efficiency. Since the porous article 200 may have various dimensions, the plug-in structure 212 is a detachable structure, so that a user can use the plug-in structure 212 to perform a drying process according to the dimensions of the porous article 200, and the plug-in structure 212 can be fixed on the cover 215 by different methods such as a screw lock (the corresponding structure is not drawn in detail in the drawing), so as to facilitate the detachment of the plug-in structure 212. In addition, in the embodiment, the cover 215 is configured to be detachable from the base 214, so that when a large number of porous articles 200 are required to be dried, a plurality of sets of covers 215 can be prepared in advance, and when one set of covers 215 is provided with the insertion structure 212 and the porous articles 200 and is placed in the drying chamber 11 for drying, other insertion structures 212 and porous articles 200 can be simultaneously mounted on other sets of covers 215, so that after one set of porous articles 200 is dried, another set of porous articles 200 can be immediately placed in the drying chamber 11 for drying, thereby effectively improving the batch processing efficiency of drying.

Referring to fig. 6, in the descriptions of fig. 1 to 5, the embodiment of drying the porous article 200 is described in a case where the air pump 222 causes air to flow from the drying chamber 11 through the porous article 200 and the air vent seat 21 into the air pipe 221 by pumping, and in a corresponding variation of fig. 6, the heater 4 for heating air is installed in the air pipe 221, and the humidity sensor 3 is installed in the drying chamber 11, so that the air pump 222 can cause air to flow from the air pipe 221 through the air vent seat 21 and the porous article 200 into the drying chamber 11 by venting, and can also perform the drying process of the porous article 200.

In summary, the drying apparatus 100 of the present invention, by means of the arrangement of the gas drying unit 2, not only the drying apparatus 100 removes the moisture from the porous article 200 by high temperature baking, but also the drying apparatus 100 removes the moisture from the interior of the porous article 200 by air extraction or air release, so as to improve the drying effect and efficiency, and thus the object of the present invention can be achieved.

Claims (10)

1. A drying apparatus adapted to dry at least one porous article, the drying apparatus comprising: the drying processing apparatus includes:

the equipment main body comprises a drying processing cavity; and

the air drying unit comprises an air carrier seat and an air pump assembly, wherein the air carrier seat is detachably arranged in the drying processing cavity and is provided with a hollow main structure allowing air to flow and at least one plug-in structure which is communicated with the main structure and is used for the insertion of the porous article, the plug-in structure is provided with an air vent allowing air to flow and is suitable for being arranged in the porous article, and the air pump assembly is communicated with the air carrier seat and can promote the air in the air carrier seat and the porous article to flow in one of an air suction mode and an air discharge mode so as to remove moisture contained in the porous article.

2. The drying processing apparatus according to claim 1, characterized in that: the main structure of the ventilation carrier seat is provided with a hollow base body and a cover body which is detachably sealed on the base body, and the plug-in structure is arranged on the cover body and communicated with the base body.

3. The drying processing apparatus according to claim 2, characterized in that: the inserting structure is detachably arranged on the top side of the cover body so as to insert the bottom side of the porous article.

4. The drying processing apparatus according to claim 1, characterized in that: the insertion structure extends up and down to make the porous article in an upright state.

5. The drying processing apparatus according to claim 1, characterized in that: the ventilation carrier seat is also provided with at least one airtight ring, and the airtight ring is arranged at the insertion joint of the porous article and the insertion structure so as to seal a gap between the porous article and the insertion structure.

6. The drying processing apparatus according to claim 1, characterized in that: the air pump assembly is arranged in the equipment main body and comprises an air pipeline and an air pump, the air pipeline is communicated with one side of the ventilation carrier seat and extends towards the direction far away from the ventilation carrier seat, the air pump is communicated with one end, far away from the ventilation carrier seat, of the air pipeline and can promote air circulation in the air pipeline, the ventilation carrier seat and the porous article so as to remove moisture contained in the porous article.

7. The drying processing apparatus according to claim 6, characterized in that: the air pump causes air to flow from the drying processing cavity, through the porous article and the ventilation carrier seat and into the air pipeline in an air pumping mode.

8. The drying processing apparatus according to claim 6, characterized in that: the air pump is used for promoting air to flow from the air pipeline through the ventilating carrier seat and the porous article in a gas outlet mode and flow into the drying processing cavity.

9. A gas drying unit adapted to dry at least one porous article, comprising: the gas drying unit comprises:

the ventilation carrier seat comprises a hollow main structure capable of allowing gas to flow and at least one plug-in structure which is communicated with the main structure and is used for the porous article to be plugged in, wherein the plug-in structure is provided with a ventilation hole which can allow gas to flow and is suitable for being placed in the porous article; and

the air pump assembly is communicated with the ventilation carrier seat and can promote the air in the ventilation carrier seat and the porous article to circulate in one of an air exhaust mode and an air outlet mode so as to remove the moisture contained in the porous article.

10. The gas drying unit of claim 9, wherein: the main structure of the ventilation carrier seat is provided with a hollow base body and a cover body which is detachably sealed on the base body, and the inserting structure is arranged on the top side of the cover body and communicated with the base body so as to insert the bottom side of the porous object.

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