KR102044997B1 - Clean air generator for pneumatic conveyor system - Google Patents

Abstract

The present invention relates to an apparatus for transferring an object using a gas, and more particularly, a body having a space portion formed therein and configured with an inlet and an outlet communicating with the space portion; A gas generating unit configured to generate a flow of gas so that gas is introduced into the space through the inlet and then discharged through the outlet; A heat exchanger disposed in the space part and configured to cool the gas introduced through the inlet; And a filter unit disposed in the space to remove foreign matters of the gas that has passed through the heat exchange unit, and configured to lower the temperature of the gas for transport through one device, remove foreign substances, and remove moisture. It relates to a pneumatic conveying system (pneumatic conveying system) can improve the transfer efficiency, and relates to a pneumatic conveying clean air generator having the advantage of blocking the deterioration in the process of conveying the object.

Description

Clean air generator for pneumatic conveying {Clean air generator for pneumatic conveyor system}

The present invention relates to an apparatus for transferring an object using a gas, and more particularly, pneumatic conveying clean air configured to lower the temperature of the gas for transport, remove foreign substances, and remove water through one apparatus. It relates to a generator.

Conventionally, a device for transferring an object using a gas generates a gas for transport using a blower or a compressor. The gas generated by this method is heated during compression, so that the object is removed by a hot gas in the process of transferring the object. There is a problem that damage such as property change by heat.

In addition, since foreign matters mixed in the gas act directly on the object, there is also a problem of contaminating the object.

In order to solve this problem, a heat exchanger for cooling the gas generated by the blower or the compressor and a filtration device are separately provided to remove the foreign matter mixed in the gas, and each gas generated by the blower or the compressor is In order to solve this problem, the pneumatic pressure is lowered in the process of passing the gas for each transfer, so that the blower or the compressor may be overloaded to reduce the durability of the device. There is a problem that the efficiency of the conveyor apparatus using the lowering.

In addition, condensation may be generated by the heat exchanger, and thus moisture may be mixed into the transport gas, thereby causing damage to an object due to moisture.

Republic of Korea Patent Publication No. 10-2001-0049994

Therefore, the present invention has been invented to solve the above-mentioned problems of the prior art, and can improve the transfer efficiency of a pneumatic conveying system, and it is deteriorated or contaminated in the process of being transferred. It is an object of the present invention to provide a clean air generating device for pneumatic conveying which is configured to prevent it.

Clean air generating device for pneumatic transfer according to the present invention for solving the above problems is the main body is formed with a space is formed in the inlet and outlet communicating with the space; A gas generating unit configured to generate a flow of gas so that gas is introduced into the space through the inlet and then discharged through the outlet; A heat exchanger disposed in the space part and configured to cool the gas introduced through the inlet; And a filter unit disposed in the space part to remove foreign matters of the gas that has passed through the heat exchange part.

At this time, the main body is interposed between the heat removal unit and the filter unit, the water removal unit, the water removal unit is characterized in that configured to remove the water contained in the gas passing through the heat exchange unit.

In addition, a side opening and closing of the second opening and closing is formed on one side of the main body, and the support bracket is formed at the lower point of the second opening and closing on the inner circumference of the main body, and the water removing unit passes through the second opening and closing the support bracket. The support bracket is configured to be detachable in the space portion in a sliding manner, and the support bracket is configured at an edge portion of the inner circumference of the main body, and is characterized by being configured in a downwardly extending inclined surface structure.

On the other hand, the lower portion of the filter unit is configured to collect the dust to prevent the foreign substances filtered in the filter falling to the lower side, the collecting unit has a discharge hole is formed in the center and forms a downward slope toward the discharge hole; And one end is in communication with the discharge hole, the other end is a foreign material discharge pipe extending to the outside of the main body; characterized in that it comprises a.

As described above, the pneumatic conveying system according to the present invention is configured to lower the temperature of the conveying gas, remove foreign substances, and remove moisture through a single device. ) Can improve the transfer efficiency, there is an advantage of preventing the deterioration or contamination during the transfer of the object.

1 is a view showing an embodiment of a pneumatic conveying clean air generating apparatus according to the present invention.
2 shows a side and partial cross section of FIG. 1;
3 is a view showing the operating state of FIG.
4 is a view showing an example in which the water removal unit is further configured in the present invention.
5 is a view showing another embodiment of the pneumatic conveying clean air generating apparatus according to the present invention.

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

1 is a view showing an embodiment of a pneumatic transfer clean air generating apparatus according to the present invention, Figure 2 is a view showing the side and partial cross-section of Figure 1, Figure 3 is a view showing the operating state of Figure 1 to be. 4 is a view showing an example in which the water removing unit is further configured in the present invention, Figure 5 is a view showing another embodiment of the pneumatic transfer clean air generating apparatus according to the present invention.

The present invention flows a gas such as air or nitrogen gas using a device such as a blower or a compressor and transfers an object such as plastic raw materials, food, sludge, etc. by using the gas which flows. In a pneumatic conveying system, the object is damaged by heat by cooling the gas whose temperature has risen during the transfer process, and foreign matter and moisture are removed from the object by removing foreign matter and moisture contained in the gas. The present invention relates to a pneumatic conveyance clean air generating device (1) configured to prevent mixing, and is characterized in that all functions are expressed in one device.

The clean air generating apparatus 1 for pneumatic transfer according to the present invention includes a main body 100, a gas generating part 200, a heat exchange part 300, and a filter part 400 as shown in FIG. 1. Characterized in that configured.

First, as shown in the drawing, the main body 100 is formed with a space 101 enclosed therein, the inlet 110 of one side of the main body 100, the outlet 120 on the other side of the main body 100 The inlet 110 and the outlet 120 are provided to communicate the closed space 101 with the outside of the main body 100.

In the present embodiment, as shown in FIG. 1, the main body 100 has a cylindrical shape in which the upper and lower ends are vertically disposed so that the longitudinal direction thereof is vertical, and the inlet 110 is located below the main body 100. 120 is formed above the main body 100.

In addition, a cover 130 that can be opened and closed may be formed on an upper portion of the main body 100, and the following filter unit 400 may be replaced through the cover 130.

Subsequently, the gas generating unit 200 is not specifically shown in the drawings, but in the pneumatic conveyor system, a blower may be applied when a low pressure gas flow is required according to the type of object. When gas flow is required, a compressor can be applied, which can be appropriately applied depending on the work target and environment.

The gas generated through the gas generating unit 200 is introduced into the space 101 through the inlet 110 and then discharged through the outlet 120. In the pneumatic conveyor system, the outlet 120 It is configured to perform the transfer of the object using the gas discharged through).

The heat exchanger 300 is disposed in the space 101 as shown in FIG. 1, and is configured to cool the gas introduced through the inlet 110 in the space 101.

The reason for cooling the gas through the heat exchanger as described above is that the temperature of the gas may be increased in the process of generating the flow of the gas using the gas generating unit 200, that is, a blower or a compressor. For example, when the temperature of the gas rises, the object to be transported by piggybacking the gas may be damaged due to heat, and thus, the temperature of the gas for transporting needs to be lowered.

At this time, one side of the main body 100 forms a first opening and closing 140 which can be opened and closed as shown in FIG. 1, and the upper and lower sides and both sides of the heat exchanger are inserted through the first opening and closing 140 to slide in a sliding manner. The frame 310 may be formed to discharge the heat exchanger to the outside during the washing and repairing of the heat exchanger, thereby providing convenience of the work.

In addition, the upper and lower sides of the frame 310 are provided with a guide plate 312 having an expansion structure toward each outward while communicating with each other up and down along the guide plate 312 through the inlet 110 All can be configured to pass through a heat exchanger.

In the present invention, various heat exchangers may be applied as the heat exchanger. Preferably, as described in section B-B of FIG. 2, the fin tube type heat exchanger having high efficiency can be applied.

The filter unit 400 is disposed in the space 101, and is configured to remove the foreign matter contained in the gas passing through the heat exchange unit 300 by adjoining the outlet 120.

At this time, since the high-pressure gas passes through the filter unit 400, a cartridge filter having high pressure resistance may be applied as shown in FIGS. 1 and 2, and structurally, as shown in section AA of FIG. The outer diameter of 400 is configured to correspond to the inner diameter of the main body 100 so that all of the transport gas passes through the filter unit 400, thereby improving the filtration efficiency for the gas.

On the other hand, the collecting unit 420 may be further configured to the lower side of the filter unit 400, the reason that the collecting unit 420 is composed of foreign matters, such as dust filtered by the filter unit 400 falls The bar may be introduced into the heat exchanger 300, etc., to block foreign matter from falling down the filter unit 400 by the configuration of the collecting unit 420.

The collection unit 420 is characterized in that it comprises a hopper 421 and the discharge pipe 423.

First, as shown in FIG. 1, the hopper 421 is disposed below the filter unit 400, and a discharge hole 422 is formed at the center thereof, and forms a downward slope toward the discharge hole 422. do.

In addition, one end of the foreign substance discharge pipe 423 is in communication with the discharge hole 422, the other end is extended to the outside of the main body 100.

At this time, although the reference numerals are not shown, it is possible to configure a pipe for injecting a high pressure gas on the hopper 421 on the hopper 421, bar on the hopper 421 through a pipe for injecting a high pressure gas By supplying a gas of high pressure, foreign substances such as dust can be completely discharged through the discharge hole 422 and the discharge pipe 423 by the gas of high pressure.

Since the foreign matter such as dust falling from the filter unit 400 is collected by the configuration of the collecting unit 420 as described above, the foreign matter is collected in the hopper 421. It will be able to improve the durability of the device by preventing the flow into the water removal unit 500 to be described.

3 is a view showing the operating state of the pneumatic conveyance clean air generating apparatus 1 according to the present embodiment, the flow of the gas for transport in accordance with the operation of the device is indicated by the arrow.

As shown, the flow of gas through the gas generating unit 200 passes through the inlet 110, the space 101 and the outlet 120 in order, in the process of passing the gas for delivery space It has a structure passing through the heat exchange unit 300 and the filter unit 400 disposed in the unit 101.

In this case, the gas generating unit 200 is a blower (compressor) or a compressor (compressor) is applied, the gas generated by the pressure rises as the temperature is also raised, so that the gas passing through the inlet 110 heat exchange By passing through the portion 300 can be cooled.

This is because when the object is transported by a gas having a high temperature, the properties thereof are damaged by heat, and this phenomenon can be prevented.

Thereafter, the gas cooled through the heat exchanger is able to remove foreign matters to the transport gas discharged through the discharge port 120 while passing through the filter unit 400. It is possible to prevent the foreign matter from being mixed.

On the other hand, the gas generated through the pneumatic transfer clean air generator 1 according to the embodiment can be included in the water by the condensation phenomenon while passing through the heat exchanger, by using a gas containing water When transporting the object may cause problems such as oxidation, decay, discoloration, discoloration, etc. depending on the object to change the properties, in the following with reference to FIG. An example in which the rejection 500 is further configured will be described.

As shown, the water removing unit 500 is interposed between the heat exchange unit 300 and the filter unit 400, while the gas passing through the heat exchange unit 300 passes through the water removal unit 500. And to remove moisture contained therein.

In this case, as the moisture removing unit 500, a demister configured to remove moisture in the gas by passing the gas through multiple layers of meshes as shown in FIG. 4 may be applied.

On the other hand, the water removal unit 500 may be configured to be detachable to the main body 100, even if the nitrogen gas is not present in the gas as a transport gas is applied, or the air is applied as a transport gas object If it is not affected by the humidity does not need to remove the moisture easily remove the moisture removal unit 500 from the device, or conversely configured to be easily mounted on the device when the moisture removal unit 500 is required This is preferred.

In order to achieve the object according to the above, one side of the main body 100 has a second opening and closing 150 is formed, the support bracket at the lower point of the second opening 150 of the inner periphery of the main body 100 By constituting the 510, the water removing unit 500 is supported by the support bracket 510 through the second opening and closing hole 150 and is easily provided in the space 101 in the main body 100 in a sliding manner. It will be removable.

At this time, the support bracket 510 is configured only on the edge portion of the inner circumference of the main body 100, the lower portion of which is opened, and forms an inclined surface extending downward as shown, which flows in through the heat exchange part 300. All of the gas can be induced to flow into the moisture removing unit 500.

On the other hand, Figure 5 is a view showing another embodiment of the pneumatic conveying clean air generating device (1 ') according to the present invention, in which the main body 100 is configured to extend in the vertical direction in the main body 100 In the heat exchange unit 300 and the filter unit 400 has been described as an example that is arranged along the longitudinal direction of the main body 100, that is, in a vertical direction, the main body 100 'according to the present embodiment as shown in the transverse direction It is configured to be long, the inlet 110 'and the outlet 120' is formed at each end of the body (100 ').

In addition, the gas generating unit 200 ′ generates a gas flow from the inlet 110 ′ to the outlet 120 ′ of the body 100 ′, and the inlet 110 ′ inside the body 100 ′. The heat exchanger 300 'is disposed adjacent to the filter, and the filter unit 400 is disposed adjacent to the outlet 120'.

In this case, the heat exchange part 300 ′ may be detachably mounted to the main body 100 ′ in a slide manner.

Meanwhile, in the present exemplary embodiment, the moisture removing unit 500 'may be further selectively configured between the heat exchanger 300' and the filter unit 400 'in the main body 100' like the above embodiment. The moisture removal unit 500 'may be detachably mounted using a filter replacement manhole.

In addition, the user may be selectively applied in consideration of the pressure of the transport gas, the type of the object, the work space, and the like in the above-described embodiment and the present embodiment.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1: Clean air generating device for pneumatic transfer 100: Main body
101: space portion 110: inlet
120: outlet 200: gas generating unit
300: heat exchanger 400: filter
500: water removal unit

Claims (4)

A main body having an airtight space formed therein and configured to have an inlet communicating with the space at the lower side thereof, an outlet configured to communicate with the space at the upper side, and a first opening / closing opening and closing at a position higher than the inlet;
A gas generating unit generating a gas flow and injecting the generated gas into an inlet of the main body to be discharged through an outlet;
The frame is configured so that the upper and lower sides and the two side surfaces are slidably introduced into the space part through the first opening and closing hole formed in the main body, the frame is disposed at a position higher than the inlet port in the space part, and the gas flowing through the inlet port is A heat exchanger configured to cool the gas by passing therethrough, the heat exchanger configured to communicate with each of the upper and lower sides of the frame, the guide plate having an expansion structure toward each outward so that the gas introduced through the inlet is moved upward along the guide plate;
Is disposed at a relatively lower position than the discharge port in the space portion to remove the foreign matter contained in the gas passing through the heat exchanger, the lower side is configured to collect the foreign matter falling in the process of removing the foreign matter to collect the discharge to the outside Filter unit;
And a water removing unit interposed between the heat exchange unit and the filter unit in the space of the main body to remove water contained in the gas passing through the heat exchange unit.
A second opening / closing opening and closing is formed on one side of the main body in which the water removing unit is located, and a support bracket is formed at a lower point of the second opening and closing of the inner circumference of the main body so that the water removing unit passes through the second opening. It is supported by the support bracket and configured to be detachable from the space of the main body in a sliding manner
The support bracket is formed on the edge portion of the inner circumference of the main body is formed with an inclined surface extending downwards downwards to induce all the gas flowing through the heat exchanger to enter the water removal unit,
The collecting part has a discharge hole formed in the center and forms a downward inclined surface toward the discharge hole, and one end communicates with the discharge hole, and the other end extends out of the main body and the foreign matter discharge pipe and the hopper above the hopper. Clean air generating device for pneumatic conveying, characterized in that it comprises a pipe by spraying a high pressure gas. delete delete delete

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