TWM629862U - dryer - Google Patents

Abstract

A dryer, comprising an element drying unit, a liquid collecting tank, an air outlet pipe, an air inlet pipe, an air suction unit and a heating unit, wherein the element storage tank of the element drying unit is stored in the element drying unit by the air suction unit. The air is drawn into the liquid collecting tank, so that the water vapor accumulates in the liquid collecting tank to form liquid, and then the heated air is transported from the air inlet pipe to the component storage tank, and then the components in the component storage tank are dried.

Description

dryer

The present creation concerns a dryer, in particular a dryer for drying elements.

With the gradual automation and precision of industrial processes, the air quality requirements of its manufacturing space and process equipment have also increased. It is hoped to ensure the proper rate of the process. Among them, the humidity of compressed air is very important for various processes, so humidity control is One of the important projects that various manufacturers are working on.

The traditional adsorption compressed air drying device usually includes two adsorption towers to absorb the moisture in the compressed air. Generally speaking, the adsorption tower is filled with adsorbents that can adsorb, dehumidify and desorb, such as silica gel particles or activated carbon. When the compressed air with high moisture content enters one of the adsorption towers through the pipeline, it will be subjected to water vapor adsorption and dehumidification treatment, and the treated dry compressed air will be led to the gas storage tank for storage. At this time, in the adsorption tower that has been saturated with adsorbed water vapor, the adsorbent inside can use thermal energy to desorb and discharge the moisture in the adsorbent, which is usually performed by a heater, that is, the heater is heated to provide the inside of the adsorption tower. In the process of desorption and regeneration, the heat energy is heated to the temperature at which the adsorbent can desorb moisture by means of radiation, convection and solid-state heat and mass transfer, etc., and then guided to the adsorption In the tower, the desorption and regeneration of the adsorbent is carried out, and the treated high-temperature and high-humidity compressed air will be guided and discharged out of the adsorption tower to complete the regeneration and desorption procedure of the adsorbent. The adsorbent in this state can be used as a The next adsorption and dehumidification use.

It can be seen from the above that the hot air used for desorption and regeneration will have heat and mass transfer with the pipe wall of the conveying pipeline during the transportation process, which will cause energy loss. Furthermore, during desorption and regeneration, the heat energy is transferred to the adsorbent in the form of hot air convection, so the adsorption bed is prone to the problem of uneven temperature distribution, especially the hot air inlet end is the hottest and the outlet end is the coldest. Time is bound to lengthen, and in addition, During the heating process, the excess low-temperature waste hot air must also be exhausted first, which makes the traditional adsorption compressed air drying device very energy-intensive.

In addition, the vacuum drying box needs to be evacuated by a vacuum pump, which is expensive and inconvenient to use. Freon dehumidifiers cost electricity, are expensive, and pollute the environment. Electric heating dehumidifier, high temperature can not be used in the box. If the chemical desiccant is used for drying, it is inconvenient to bake when the desiccant is repeatedly used.

Therefore, in order to overcome the shortcomings and deficiencies in the prior art, it is necessary for the present creation to provide an improved dryer to solve the above-mentioned problems of the conventional technology.

The main purpose of this creation is to provide a dryer, which can effectively reduce the energy consumption of the dryer by utilizing the design of the liquid collecting tank of the dryer to circulate air inside.

In order to achieve the above purpose, the present invention provides a dryer configured to dry at least one component, the dryer includes a component drying unit, a liquid collecting tank, an air outlet duct, an air inlet duct, an air suction unit and a heating unit, wherein the component drying unit includes at least one component storage tank and an air collection tank, wherein the component storage tank is configured to store the component, and the air collection tank is communicated with the component storage tank; the liquid collection tank is provided with At the bottom of the air collection tank, it is configured to collect water vapor in the air; the air outlet pipe is connected to the liquid collection tank and is configured to draw the air output from the liquid collection tank; the air inlet pipe is connected to the liquid collection tank. a component storage slot, and is configured to input air into the component storage slot; the air extraction unit is connected between the air outlet pipe and the air inlet pipe, and is configured to extract the air from the air outlet pipe and draw the air transported to the air inlet pipe; the heating unit is arranged on the air inlet pipe and is configured to heat the air in the air inlet pipe, wherein the air in the component storage tank is passed through the air collecting tank by the air suction unit It is drawn to the liquid collecting tank, so that the water vapor gathers in the liquid collecting tank to form liquid, and then the heated air is transported from the air inlet pipe to the component storage tank, and then the components in the component storage tank are dried.

In an embodiment of the present invention, the component drying unit further includes a filter screen, and the filter screen is disposed between the component storage tank and the air collecting tank.

In an embodiment of the present invention, the air collecting groove is in the shape of a funnel, and two component storage grooves are disposed above the air collecting groove.

In an embodiment of the present invention, the component drying unit further has a cover body and a ventilation aperture, the cover body is configured to close the component storage slot, and the ventilation hole is formed on the cover body for communicating with the inlet Air ducts and storage slots for these components.

In an embodiment of the present invention, the air extraction unit is a pump.

In an embodiment of the present invention, the component storage slot has a surrounding wall and a neck wall, the neck wall extends downward from the surrounding wall, and a diameter of the neck wall is smaller than a diameter of the surrounding wall.

In an embodiment of the present invention, the liquid collecting tank includes a first pipe body, a second pipe body and a liquid collecting area, the first pipe body is connected to the air collecting tank, and the second pipe body is connected to the outlet an air duct, the liquid collecting area is located below the first pipe body and the second pipe body.

In an embodiment of the present invention, the sump further includes a drain valve, which is disposed on one side of the sump and configured to lead out the liquid in the sump.

In an embodiment of the present invention, the dryer further includes a casing, and the component drying unit, the liquid collecting tank, the air outlet pipe, the air inlet pipe, the air suction unit and the heating unit are all disposed in the in the shell.

In an embodiment of the present invention, the dryer further includes a cooling fan disposed on the casing for discharging the air in the casing.

As mentioned above, the air of the dryer circulates in the element drying unit, the liquid collecting tank, the air outlet duct, the suction air unit and the air inlet duct in sequence, and the dryer will not introduce external air again. , and the water vapor in the air will be collected into the liquid collecting tank, so that the humidity of the air will not increase, and the temperature of drying the element does not need to be too high, which can effectively reduce the energy consumption of the dryer and avoid the component Oxidation is caused by moisture in the air, and no additional desiccant is required.

2: Component drying unit

21: Component storage slot

211: Wall

212: Neck Wall

22: Air collection trough

23: Cover

24: Ventilation aperture

25: Filter

3: Sump

31: The first tube body

32: Second tube body

33: Collection area

34: Drain valve

4: Air outlet pipe

5: Inlet duct

6: Exhaust air unit

7: Heating unit

8: Shell

9: Cooling fan

FIG. 1 is a perspective view of a dryer according to a preferred embodiment of the present invention.

FIG. 2 is a partial cross-sectional view of a dryer according to a preferred embodiment of the present invention.

In order to make the above-mentioned and other purposes, features and advantages of the present invention more obvious and easy to understand, the preferred embodiments of the present invention will be exemplified below and described in detail in conjunction with the accompanying drawings. Furthermore, the directional terms mentioned in this creation, such as up, down, top, bottom, front, back, left, right, inside, outside, side, around, center, horizontal, horizontal, vertical, vertical, axial, Radial, uppermost or lowermost, etc., are only directions with reference to the attached drawings. Therefore, the directional terms used are for explaining and understanding this creation, not for limiting this creation.

Please refer to FIG. 1 and FIG. 2 , a dryer according to a preferred embodiment of the present invention is configured to dry at least one component (not shown), such as an electronic component, and the dryer includes a component drying unit 2 , a liquid collecting tank 3, an air outlet 4, an air inlet 5, a suction unit 6 and a heating unit 7. In this creation, the detailed structure, assembly relationship and operation principle of each component will be explained in detail below.

1 and 2, the component drying unit 2 includes at least one component storage slot 21 and an air collection slot 22, wherein the component storage slot 21 is configured to store the component, the air collection slot 22 and the component The storage slot 21 is connected, and the air in the component storage slot 21 will be led into the air collecting slot 22 . In this embodiment, the component storage slot 21 has a surrounding wall 211 and a neck wall 212 , the neck wall 212 extends downward from the surrounding wall 211 , and a diameter of the neck wall 212 is smaller than the length of the surrounding wall 211 . A diameter.

1 and 2, the component drying unit 2 further has a cover body 23 and a ventilation hole 24, the cover body 23 is configured to close the component storage slot 21, and the ventilation hole 24 is formed in the cover body 23 , the ventilation aperture 24 is configured to communicate with the air inlet duct 5 and the component storage slots 21 .

1 and 2, in this embodiment, the component drying unit 2 further includes a filter screen 25, the filter screen 25 is arranged between the component storage tank 21 and the air collecting tank 22, the collecting The air groove 22 is in the shape of a funnel, and two component storage grooves 21 are arranged above the air collecting groove 22 .

1 and 2, the liquid collecting tank 3 is arranged at the bottom of the air collecting tank 22, and the liquid collecting tank 3 is configured to collect moisture in the air. 3 has a first pipe body 31, a second pipe body 32 and a liquid collecting area 33, the first pipe body 31 The second pipe body 32 extends upward from the end of the first pipe body 31 away from the air collecting groove 22 and is connected to the air outlet pipe 4 . , the liquid collecting area 33 is located below the first pipe body 31 and the second pipe body 32 .

1 and 2, the sump 3 further includes a drain valve 34, located on one side of the sump 3 and disposed on the sump 33, the drain valve 34 is configured to Liquid exit from the sump area.

1 and 2, the air outlet pipe 4 is connected to the second pipe body 32 of the liquid collection tank 3, and the air outlet pipe 4 is configured to draw and output drier air from the liquid collection tank 3 That is to say, the air collected into the liquid collecting tank 3 will stagnate the water vapor in the air in the liquid collecting area 33 , and then discharge the drier air to the air outlet pipe 4 .

1 and 2 , the air inlet duct 5 is connected to the component storage tank 21 of the component drying unit 2 , and the air inlet duct 5 is configured to input air into the component storage tank 21 .

1 and 2, the air suction unit 6 is connected between the air outlet duct 4 and the air inlet duct 5, and the air suction unit 6 is configured to draw the air in the air outlet duct 4, and The air is delivered to the air inlet duct 5. In this embodiment, the air suction unit 6 is a pump for drawing the air in the air outlet duct 4 to a near-vacuum state.

1 and 2, the heating unit 7 is arranged on the air inlet duct 5, and the heating unit 7 is configured to heat the air in the air inlet duct 5. In this embodiment, the inlet The air in the air duct 5 is first heated to a set temperature by the heating unit 7 , and then output to the component storage tank 21 .

The dryer further includes a casing 8 and a cooling fan 9. The component drying unit 2, the liquid collecting tank 3, the air outlet duct 4, the air inlet duct 5, the air suction unit 6 and the heating unit 7 are all Disposed in the casing 8 , the cooling fan 9 is disposed on the casing 8 to discharge the air in the casing 8 .

According to the above structure, the air in the component storage tank 21 is drawn to the liquid collection tank 3 through the air collection tank 22 by the air suction unit 6, so that the water vapor is collected in the liquid collection area 33 of the liquid collection tank 3 to prevent the air from being collected. form liquid, and then output the drier air to the air inlet pipe 5, and pass the heating The unit 7 heats the air and delivers it from the air inlet duct 5 to the component storage tank 21 , and then dries the components in the component storage tank 21 .

As mentioned above, the air of the dryer circulates in the element drying unit 2, the liquid collecting tank 3, the air outlet duct 4, the air suction unit 6 and the air inlet duct 5 in sequence, wherein the dryer does not Introduce the outside air, and the water vapor in the air will be collected to the sump 3, so that the humidity of the air will not increase, and the temperature of drying the element does not need to be too high, which can effectively reduce the dryer. It consumes energy and avoids oxidation of components due to moisture in the air, and no additional desiccant is required.

Although this creation has been disclosed with a preferred embodiment, it is not intended to limit this creation. Anyone who is familiar with the art can make various changes and modifications without departing from the spirit and scope of this creation. Therefore, this creation The scope of protection shall be determined by the scope of the appended patent application.

2: Component drying unit

21: Component storage slot

22: Air collection trough

23: Cover

24: Ventilation aperture

3: Sump

4: Air outlet pipe

5: Inlet duct

6: Exhaust air unit

7: Heating unit

8: Shell

9: Cooling fan

Claims (10)

A dryer configured to dry at least one element, the dryer comprising: an element drying unit, comprising at least one element storage slot and an air collection slot, wherein the element storage slot is configured to store the element, and the air collection slot is communicated with the element storage slot; a liquid collecting tank, arranged at the bottom of the air collecting tank, and configured to collect water vapor in the air; an air outlet pipe, communicated with the liquid collection tank, and configured to draw the air output from the liquid collection tank; an air inlet duct, communicated with the component storage slot, and configured to input air into the component storage slot; an air extraction unit, connected between the air outlet duct and the air inlet duct, configured to extract the air from the air outlet duct and deliver the air to the air inlet duct; and a heating unit, disposed on the air inlet pipe, and configured to heat the air in the air inlet pipe, wherein the air in the component storage tank is drawn through the air collection tank to the liquid collection by the air suction unit The water vapor is collected in the liquid collecting tank to form a liquid, and then the heated air is transported from the air inlet pipe to the component storage tank, and then the components in the component storage tank are dried. The dryer according to claim 1, wherein the component drying unit further comprises a filter screen, and the filter screen is arranged between the component storage tank and the air collecting tank. The dryer described in claim 1, wherein the air collecting groove is in the shape of a funnel, and two component storage grooves are arranged above the air collecting groove. The dryer as described in claim 3, wherein the component drying unit further has a cover body and a ventilation aperture, the cover body is configured to close the component storage slot, and the ventilation aperture is formed on the cover body, It is used to communicate with the air inlet pipe and the component storage slots. The dryer as described in claim 1, wherein the suction air unit is a pump. The dryer as described in claim 1, wherein the component storage tank has a surrounding wall and a neck wall, the neck wall extends downward from the surrounding wall, and a diameter of the neck wall is smaller than the surrounding wall of a diameter. The dryer described in claim 1, wherein the liquid collecting tank comprises a first pipe body, a second pipe body and a liquid collecting area, the first pipe body is connected to the air collecting tank, the second pipe body is The pipe body is connected to the air outlet pipe, and the liquid collecting area is located below the first pipe body and the second pipe body. The dryer as described in claim 7, wherein the liquid collecting tank further comprises a drain valve, which is arranged on one side of the liquid collecting tank and is configured to lead out the liquid in the liquid collecting area. The dryer as described in claim 1, wherein the dryer further comprises a casing, the component drying unit, the liquid collecting tank, the air outlet pipe, the air inlet pipe, the air suction unit and the heating unit The units are all arranged in the housing. The dryer as described in claim 9, wherein the dryer further comprises a cooling fan disposed on the casing for discharging the air in the casing.

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