KR101611996B1 - Desiccant dehumidifier compressed air for pneumatic systems - Google Patents

Abstract

The present invention relates to an absorption-type compressed air dehumidifier for a pneumatic system and, more specifically, to an absorption-type compressed air dehumidifier for pneumatic system which can reuse a dehumidifying agent used in dehumidification of the compressed air by drying the same. The compressed air dehumidifier compresses air through a compressor, is installed in the pneumatic system which supplies the compressed air to various pneumatic devices such as pneumatic cylinders, and thus removes residual moisture in the compressed air through the dehumidifying agent.

Description

[0001] Desiccant dehumidifier compressed air for pneumatic systems [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a desiccant type compressed air dehumidification apparatus for a pneumatic system, and more particularly, to a desiccant type dehumidifier for compressing air through a compressor And more particularly, to a desiccant type compressed air dehumidifying device for a pneumatic system, which is capable of reusing a desiccant used for dehumidification of compressed air by absorbing residual moisture through a desiccant.

Generally, in production sites such as factories, large-scale pneumatic systems for supplying and storing compressed air for driving pneumatic devices are provided, thereby enabling smooth supply of compressed air.

When compressed air is produced by compressing the air, the amount of saturated water vapor per unit volume sharply decreases, and a large amount of moisture remains in the compressed compressed air.

Compressed air in which a large amount of moisture remains is used at the production site such as factories which are not sensitive to moisture, without using moisture, but it is also possible to use compressed air If used, it may cause corrosion or malfunction of facilities, etc., and a compressed air dehumidifying device is disposed between the compressed air supply device and the pneumatic device to remove moisture.

The dehumidifying and drying apparatus is typically a dehumidifying and drying apparatus for removing moisture of compressed air supplied to a pneumatic device. The dehumidifying and drying apparatus includes a refrigeration cycle type compressor for cooling the compressed air below the dew point through a cooling cycle to remove moisture contained in the compressed air Dehumidifying device for removing air by using an air dehumidifying device and a dehumidifying agent such as silica gel or calcium chloride.

The desiccant type compressed air dehumidifier of the drying system includes a dehumidifying tower disposed between a compressor and a storage tank or a pneumatic device and containing a dehumidifying agent. The dehumidifying tower passes compressed air through the dehumidifying tower, And is adsorbed and dried.

When the dehumidifying agent in the dehumidifying tower absorbs a large amount of moisture due to continuous dehumidification and the dehumidifying ability deteriorates, the dehumidifying agent absorbing the large amount of moisture is forcedly circulated to the hot heated air to regenerate the dehumidifying agent. So that it can be used repeatedly.

Conventionally, the adsorption-type compressed air dehumidifying device is configured to heat the air according to the regeneration of the dehumidifying agent only depending on the electrothermal heater, so that a large amount of current is consumed in the regeneration process of the desiccant, It is pointed out.

Further, it has been pointed out that the air forcibly circulating the desiccant in the heated state to dry the desiccant is composed of only compressed air compressed by the compressor, thereby increasing loss of compressed air as a final product.

(Patent Document 1) KR 10-1998-0002119

(Patent Document 2) KR 10-2011-0118068

(Patent Document 3) KR 10-2011-0133859

It is an object of the present invention, which is devised to solve the above-mentioned problems, to provide a dehumidifying apparatus which recycles a dehumidifying agent in which a large amount of moisture is adsorbed in a dehumidifying process by circulating heated air in a dehumidifying agent filled in a dehumidifying tower, The amount of current consumption due to the generation of the current is reduced,

A desiccant type compressed air dehumidifying device for a pneumatic system which minimizes the structure and minimizes the loss of compressed air by constituting the waste heat air and the compressed air naturally absorbed in the heat radiation portion of the compressor without any separate driving means, .

The above object is achieved by the following constitution provided in the present invention.

The adsorption type compressed air dehumidifying apparatus for a pneumatic system according to the present invention comprises:

A desiccant type compressed air dehumidifying apparatus for recycling a dehumidifying agent by circulating heated air through a dehumidifying agent adsorbing moisture in a dehumidifying process of compressed air generated in a compressor,

The adsorption-type compressed air dehumidifier may include:

A dehumidifying tower portion including at least one dehumidifying tower filled with a dehumidifying agent;

A compressed air supply unit for supplying the compressed air generated by the compression action of the compressor to a dehumidification tower requiring regeneration of the dehumidifier;

A waste heat air recovery unit for recovering the waste heat air recovered in the heat radiation unit provided in the compressor through the waste heat pipe;

A preheating mixer for preheating the compressed air by mixing the compressed air supplied to the dehumidification tower and the waste heat air recovered in the waste heat air recovery unit; And

And an electrothermal heater for heating the preheated compressed air through the mixing of the waste heat air,

In the dehumidification tower filled with the dehumidifying agent required for the regeneration, heated air heated by the preheated air mixed with the waste heat air and the compressed air flows into the desiccant tower. The amount of current consumption due to the generation of the heated air for regeneration of the dehumidifier, Loss is reduced,
Wherein the preheating and mixing unit includes a mixing chamber provided with a mixing space for compressed air and waste heat air and having an inlet path communicating with the waste heat pipe; And a nozzle arranged in the mixing chamber for injecting the compressed air generated in the compressor into the mixing chamber at a high pressure to form a reduced pressure in the mixing chamber,
The waste heat air recovered in the heat dissipating unit of the compressor is naturally introduced into the mixing chamber along the waste heat pipe by the pressure deviation between the waste heat pipe and the mixing chamber, and is mixed with the compressed air to preheat the compressed air.

Meanwhile, in the adsorption-type compressed air dehumidifying apparatus for pneumatic system proposed in another embodiment of the present invention,

A dehumidifying tower section having a pair of dehumidifying towers filled with a dehumidifying agent;

A compressed air supply unit for supplying the compressed air discharged from the compressor under the control of the supply valve to a dehumidifying tower filled with a desiccant which has been regenerated among the pair of dehumidifying towers;

A compressed air discharging unit for discharging compressed air while passing through the dehumidifying tower filled with the desiccant having been completely regenerated, through a discharge pipe;

A compressed air distribution unit for distributing a part of the dehumidified compressed air through the distribution pipe among the dehumidified compressed air delivered along the discharge pipe of the dehumidified tower to the dehumidifying tower filled with the desiccant required for regeneration, ;

A waste heat recovery unit for recovering the waste heat recovered in the heat radiation unit of the compressor through the waste heat pipe;

A preheating mixing unit for preheating the compressed air by mixing the compressed air moving along the distribution pipe of the compressed air distributor and the waste heat air moving along the waste heat pipe of the waste heat air recovery unit; And

And an electrically conductive heater for heating the compressed air preheated by the mixing of the waste heat air,

The compressed air distributed in the compressed air distribution unit is preheated by mixing the waste heat air recovered in the heat dissipating unit of the compressor and then heated by the electrothermal heater. The heated compressed air flows into the dehumidifying tower, To thereby regenerate the dehumidifying agent,
Wherein the preheating and mixing unit includes a mixing chamber provided with a mixing space for compressed air and waste heat air and having an inlet path communicating with the waste heat pipe; And a nozzle arranged in the mixing chamber for injecting the compressed air generated in the compressor into the mixing chamber at a high pressure to form a reduced pressure in the mixing chamber,
The waste heat air recovered in the heat dissipating unit of the compressor is naturally introduced into the mixing chamber along the waste heat pipe by the pressure deviation between the waste heat pipe and the mixing chamber, and is mixed with the compressed air to preheat the compressed air.

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More preferably, the compressed air supply unit is provided with a supply valve unit for controlling the flow direction of the compressed air discharged from the compressor, and the supply valve unit causes the compressed air to flow into one of the dehumidification towers, The compressed air distributor is configured to circulate the heated air to the remaining dehumidifying tower to dry and recover the desiccant filled in the remaining dehumidifying tower,

The pair of dehumidification towers are configured to alternately perform a dehumidifying process for dehumidifying the compressed air and a dehumidifying process for drying the dehumidifying agent through the heated air.

In addition, a heating air discharge pipe through which the heated air circulated in the dehumidifying tower is formed is formed in the inflow channel of the dehumidifying tower, and a recovery pipe communicating with the inflow path of the preheating inflow part is provided in the discharge pipe to partially recover the heated air discharged from the discharge pipe And a setting valve is provided in the waste heat pipe and the return pipe for setting the state of communication with the preheating and mixing portion,

If the temperature of the heating air flowing into the preheat mixture along the heating air discharge pipe is higher than the waste heat air flowing into the preheat mixture along the waste heat pipe, the waste heat air flowing from the waste heat pipe into the preheat- And the heated air circulated internally along the heated air discharge pipe is introduced and mixed with the compressed air.

As described above, according to the present invention, in the process of compressing outside air, compressed air is preheated through waste heat air emitted from a heat radiating portion of a compressor, and the preheated compressed air is heated and then introduced into a dehumidifying tower , And the desiccant is steadily dehumidified through rapid and stable drying of the desiccant.

Therefore, in producing the heated air by regenerating the dehumidifying agent, the waste heat air generated in the air compression process is reused not only by the heat transferred from the electric heater but also by preheating the compressed air, The compressed air and the waste heat air are mixed with each other to generate heated air, which is advantageous in that loss of consumption of the compressed air is reduced.

Particularly, the present invention proposes and adopts a preheating mixing unit of a reduced pressure type in which the compressed air injected with high pressure and the waste heat air are naturally mixed by pressure deviation using the reduced pressure by the high pressure injection of the compressed air, A separate drive means for transferring and mixing are not required, simplifying the structure.

In the present invention, a pair of dehumidifying towers are disposed to dehumidify the compressed air through one of the dehumidifying towers, drying the dehumidifying agent through the remaining dehumidifying tower, and regenerating the same. It is possible to ensure continuity of reproduction of the recording medium.

Fig. 1 shows the overall configuration of an entire adsorption type compressed air dehumidifier for a pneumatic system, which is proposed in the preferred embodiment of the present invention,
FIG. 2 is a view showing a mixed state of compressed air and waste heat air through a preheat mixture in a desiccant type compressed air dehumidifier for a pneumatic system, which is a preferred embodiment of the present invention,
FIGS. 3 and 4 are views showing the drying of the compressed air and the re-wetting state of the dehumidifying agent through the adsorption type compressed air dehumidifier for pneumatic system according to the present invention, respectively.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 shows the overall configuration of the entire adsorption type compressed air dehumidification apparatus for a pneumatic system proposed as a preferred embodiment of the present invention. FIG. 2 is a schematic view showing the entire structure of the adsorption type compressed air dehumidification apparatus for a pneumatic system, FIGS. 3 and 4 show the state of the compressed air and the desiccant in a reheated state through the adsorption type compressed air dehumidifier for a pneumatic system according to the present invention. FIG. Respectively.

As shown in FIGS. 1, 3 and 4, the adsorption type compressed air dehumidifier 1 for a pneumatic system according to the present invention includes a compressor 100 for generating compressed air by compressing outside air, And a storage tank (T) for storing the compressed air, so that a large amount of moisture remaining in the compressed air is adsorbed and removed through the desiccant (13).

A desiccant type compressed air dehumidification apparatus (1) according to the present embodiment includes a dehumidifying tower section (10) having at least one dehumidification tower (11, 12) filled with a desiccant (13) A compressed air supply unit 20 for supplying the compressed air discharged from the compressor 100 through the supply pipe 21 to the dehumidification towers 11 and 12 through the inflow conduits 11a and 12a under the control of the supply valve 22 ); And a compressed air discharging portion 30 for passing the dehumidified compressed air discharged through the dehumidifying towers 11 and 12 along the discharge pipe paths 11b and 12b to the storage tank T through the discharge pipe 31 .

In the present embodiment, the dehumidifying tower 10 is constituted by a pair of dehumidifying towers 11 and 12, and one dehumidifying tower of the pair of dehumidifying towers 11 and 12 circulates the compressed air to compress The dehumidifying tower for dehumidifying air is operated and the dehumidifying tower for circulating the heated air is operated to perform a regeneration process of drying and regenerating the desiccant having a large amount of moisture adsorbed, 12), the dehumidification process and the regeneration process ensure the continuity of the dehumidification of the compressed air.

To this end, a 3-way supply valve 22 is provided in the supply pipe 21 of the compressed air supply unit 20 communicating with the inlet pipes 11a and 12a of the pair of dehumidification towers 11 and 12, 3 and 4, the compressed air is selectively supplied to the dehumidifying tower of any one of the pair of dehumidifying towers 11 and 12 under the control of the supply valve 22.

One-way check valves (C1, C2) are provided in the discharge pipe paths (11a, 12a) of the dehumidification towers (11, 12) connected to each other through the discharge pipe (31) So that the phenomenon that the compressed air flowing into the storage tank T flows back into the adjacent dehumidifying tower and flows into the dehumidifying tower is blocked.

The discharge ducts 11b and 12b of the dehumidifying towers 11 and 12 are communicated with each other through the divided heated air injection pipes 44 and 45, The check valves C3 and C4 are respectively disposed so that the heated air flowing along the heated air inlet pipes 44 and 45 is supplied to the regeneration tower And the desiccant 13 filled in the regeneration tower is dried and regenerated

3, when the supply valve 22 injects the compressed air into the dehumidification tower A 11 and performs the dehumidification process of the compressed air, the heated air introduced along the heated air inlet pipes 44 and 45 And recycles the dehumidifying agent 13 filled in the dehumidifying tower B (12) by flowing into the dehumidifying tower B (12).

Conversely, when the dehumidification tower B (12) in which the supply valve (22) is located on the right side and the dehumidification process of the compressed air is performed as shown in FIG. 4, the heated air injection pipes (44, 45) The heated air flowing into the dehumidifying tower A (11) flows into the dehumidifying tower A (11) to regenerate the dehumidifying agent (13) filled in the dehumidifying tower A (11).

The supply direction of the compressed air is switched through the control of the supply valve 22 so that the pair of dehumidifying towers 11 and 12 perform the dehumidification process and the regeneration process alternately to ensure continuity of dehumidification of the compressed air .

According to the present embodiment, the heated air, which is heated by a part of the compressed air discharged through the discharge pipe 31 by the heated air supply structure, flows into the heated air injection pipes 44 and 45, 12 by drying the dehumidifying agent 13 filled therein.

The heated air supply structure includes a compressed air distribution unit (not shown) for distributing a part of the compressed air, which is basically conveyed to the storage tank T through the discharge pipe 31 of the compressed air discharge unit 30, through the distribution pipe 41 40); And an electric heater 43 for heating the distributed compressed air.

The compressed air distributed in the discharge pipe 31 of the compressed air discharging portion 30 is dehumidified while passing through the dehumidifying tower and has a low humidity of 1 to 2% The desiccant filled in the dehumidifying tower by the heated air heated is quickly dried and regenerated.

In this embodiment, the preheated compressed air is introduced into the electrically heated heater 43 to reduce the operating rate of the electrically heated heater 43, thereby reducing the current consumption due to the operation of the electrically heated heater, Consumption is minimized.

According to the present embodiment, the compressor 100 that compresses the air to generate compressed air compresses the operating oil O and air through a screw, and then pressurizes the compressed air and the operating oil O through the oil separator 120 And discharges pure compressed air to the storage tank (T).

The operating oil O separated from the compressed air by the oil separator 120 at a high temperature by the compression of the compressed air is cooled through the air-cooled heat dissipating unit 130, (110).

By the cooling of the operating oil O, the heat radiating part 130 of the compressor 100 continuously discharges the waste heat air of 50 to 60 ° C on the basis of the winter season. In the present invention, the waste heat air radiated from the heat radiating part of the compressor Thereby reducing energy consumption due to heating of the compressed air and minimizing loss of the dried compressed air.

To this end, in the present embodiment, a waste heat air recovery unit 50 for recovering the waste heat air recovered in the cooling process of the heat radiation unit 130 provided in the compressor 100 through the waste heat pipe 51; The preheated mixed air for preheating the compressed air by mixing the compressed air moving along the distribution pipe 41 of the compressed air distributor 40 and the waste heat air moved along the waste heat pipe 51 of the waste heat air recovery unit 50, A portion 42 is added to preheat the compressed air through waste heat air.

The preheat mixing section 42 for mixing the compressed air and the waste heat air recovered in the heat radiating section 130 of the compressor 100 provides a space for mixing compressed air and waste heat air, A mixing chamber (42a) communicating with the waste heat pipe (51) through the pipe (42); And a nozzle 42b disposed in the mixing chamber 42a and discharging the compressed air generated in the compressor 100 into the mixing chamber 42a and forming a reduced pressure in the mixing chamber 42a .

The waste heat air recovered by the heat dissipation unit 130 of the compressor 100 due to the pressure deviation between the waste heat pipe 51 and the mixing chamber 42a is supplied to the waste heat pipe 51 To be introduced into the mixing chamber 42a and mixed with the compressed air to preheat the compressed air.

That is, the compressed air injected into the mixing chamber 42a through the nozzle 42b increases in pressure as the pressure drops, thereby forming a reduced pressure state in the mixing chamber 42a, and the mixing chamber 42a And the waste heat pipe 51 is naturally drawn into the mixing chamber 42a and mixed with the compressed air to preheat the compressed air.

At this time, the filter 42d is disposed in the inflow conduit 42c of the preheat infusion section 42 to remove the foreign substances contained in the waste heat air by the filter 42d, so that the contamination of the dehumidifying agent And the contamination of the compressed air is preferably prevented.

The compressed air preheated by mixing the waste heat air is heated while passing through the electrothermal heater 43 to form heated air. The heated air is supplied to the dehumidifying tower 11, 12 ), And the dehumidifying agent (13) is dried and regenerated while being discharged and circulated.

The heated air that has been regenerated by drying the dehumidifying agent (13) while circulating through the dehumidification towers (11, 12) is discharged to the outside along the heated air discharge pipe (60) arranged in communication with the inflow conduits (11a, 12a).

*** Unexplained reference numeral 64 is a temperature sensor for measuring the temperature value of the heated air discharged through the heated air discharge pipe. ***

In this embodiment, when the temperature of the heated air discharged along the heated air discharge pipe 60 is relatively higher than the temperature of the waste heat air, the introduction of the waste heat air mixed into the preheated mixed portion 42 is blocked.

When the heated air having relatively higher temperature than the waste heat air is discharged along the heated air discharge pipe 60, the partially discharged heated air is re-introduced into the preheat mixed portion 42 and re-mixed with the compressed air , And has a higher efficiency due to the preheating of the compressed air.

In this embodiment, a return pipe 62 is provided between the silencer 61 of the heated air discharge pipe 60 and the inlet pipe 42c of the preheat mixer 42, Setting valves 52 and 63 for setting the state of communication between the waste heat pipe 51 and the return pipe 62 connected to the inlet pipe 42c of the pre-heating pipe 42c are provided, respectively.

Therefore, when the temperature of the heated air flowing into the preheat mixture 42 along the recovery pipe 62 is higher than the waste heat air flowing into the preheat mixture 42 along the waste heat pipe 51, the set valves 52, 63, the waste heat air introduced from the waste heat pipe 51 is shielded and the heated circulated heated air is introduced along the heated air exhaust pipe 60 into the preheated mixed portion 42.

In the following, the process of drying the compressed air and the regeneration process of the desiccant through the adsorption type compressed air dehumidifier for pneumatic system constructed as above will be described in detail with reference to FIG. 3 and FIG.

3, when the supply valve 22 supplies compressed air to the dehumidification tower A 11, the unidirectional check valve A (C1) of the discharge path 11b provided in the dehumidification tower A 11 is opened and the dehumidification tower B Way check valve B (C2) of the discharge pipe line 12b provided in the dehumidification tower 12 is shielded so that the compressed air PA supplied to the dehumidification tower A 11 is supplied to the dehumidifying tower A by the dehumidifying action by the dehumidifying agent 13, % Of moisture to the storage tank T along the discharge pipe 31. [0050]

In this process, some compressed air in the dried compressed air discharged along the discharge pipe 31 is distributed along the distribution pipe 41 and is introduced into the mixing chamber 42a through the nozzle 42b of the preheat mixture 42, And at the same time the waste heat air at a temperature of 50 to 60 DEG C radiated from the heat radiation portion 130 of the compressor 100 is naturally introduced into the preheat mixture portion 42 along the waste heat pipe 51, Lt; / RTI >

At this time, the compressed air injected at high pressure through the nozzle 42b of the preheating and introducing part 42 has a pressure of about 7 kg / cm 2 at a temperature of 10 to 20 ° C on the basis of the winter season, Lt; RTI ID = 0.0 > pressure. ≪ / RTI >

The compressed air preheated through the mixing with the waste heat air is heated to a temperature of 180 ° C to 220 ° C through an electric heater 43. The heated air is heated by a heated air injection The dehumidifying agent 13 flows into the dehumidifying tower B 12 along the pipe 45 and is discharged while being circulated while being dried through the heated air discharge pipe 60 communicating with the inlet pipe 12a.

If the temperature of the heated air discharged through the heated air discharge pipe 60 is relatively higher than the temperature of the waste heat air, the set valve 52 is closed between the waste heat pipe 51 and the preheated mixed portion 42, And the set valve 63 communicates the return pipe 62 with the preheat mixing section 42 so that a part of the heated air circulated in the dehumidification tower B 12 flows into the preheat mixing section 42, Preheat the compressed air by mixing.

3, the dehumidifying tower A 11 performs a dehumidifying process of dehumidifying and discharging the compressed air, and the dehumidifying tower B 12 performs dehumidification of the desiccant tower 13 Process is carried out.

When the dehumidifying agent 13 filled in the dehumidification tower A 11 by the dehumidification process of the compressed air absorbs a large amount of moisture and the dehumidifying agent 13 filled in the dehumidifying tower B 12 is regenerated, The supply valve 22 performs the dehumidification process of supplying the compressed air to the dehumidification tower B 12 and dehumidifying the compressed air through the dehumidification tower B 12 and at the same time, And a regeneration step of drying the desiccant is performed.

1. Adsorption type compressed air dehumidifier for pneumatic system
10. Dehumidification tower part 11. Dehumidification tower A
11a. Inlet pipe 11b. As discharge pipe
12. Dehumidification Tower B 12a. Inlet channel
12b. Dehumidifier 13. Dehumidifying agent
20. Compressed air supply 21. Supply pipe
22. Supply valve
30. Compressed air discharge section 31. Discharge tube
40. Compressed air distribution section 41. Distribution pipe
42. Preheating admixture 42a. Mixing room
42b. Nozzle 42c. Inlet channel
43. Electric heaters 44, 45. Heating air inlet tube
50. Waste heat air recovery part 51. Waste heat tube
52. Setting valve
60. Heating air discharge pipe 61. Silencer
62. Recovery pipe 63. Setting valve
64. Temperature sensor
100. Compressor 110. Compression chamber
111. Screw PA. Compressed air
O. Working oil 120. Oil separator
130. Heat sink T. Storage tank
C1, C2, C3, C4. One-way check valve

Claims (5)

A desiccant type compressed air dehumidifying apparatus for recycling a dehumidifying agent by circulating heated air through a dehumidifying agent adsorbing moisture in a dehumidifying process of compressed air generated in a compressor,
The adsorption-type compressed air dehumidifier may include:
A dehumidifying tower portion including at least one dehumidifying tower filled with a dehumidifying agent;
A compressed air supply unit for supplying the compressed air generated by the compression action of the compressor to a dehumidification tower requiring regeneration of the dehumidifier;
A waste heat air recovery unit for recovering the waste heat air recovered in the heat radiation unit provided in the compressor through the waste heat pipe;
A preheating mixer for preheating the compressed air by mixing the compressed air supplied to the dehumidification tower and the waste heat air recovered in the waste heat air recovery unit; And
And an electrothermal heater for heating the preheated compressed air through the mixing of the waste heat air,
In the dehumidification tower filled with the dehumidifying agent required for the regeneration, heated air heated by the preheated air mixed with the waste heat air and the compressed air flows into the desiccant tower. The amount of current consumption due to the generation of the heated air for regeneration of the dehumidifier, Loss is reduced,
Wherein the preheating and mixing unit includes a mixing chamber provided with a mixing space for compressed air and waste heat air and having an inlet path communicating with the waste heat pipe; And a nozzle arranged in the mixing chamber for injecting the compressed air generated in the compressor into the mixing chamber at a high pressure to form a reduced pressure in the mixing chamber,
Characterized in that the waste heat air recovered in the heat radiating portion of the compressor is naturally introduced into the mixing chamber along the waste heat pipe by the pressure deviation between the waste heat pipe and the mixing chamber so as to be mixed with the compressed air to preheat the compressed air. Adsorption type compressed air dehumidifier. A dehumidifying tower section having a pair of dehumidifying towers filled with a dehumidifying agent;
A compressed air supply unit for supplying the compressed air discharged from the compressor under the control of the supply valve to a dehumidifying tower filled with a desiccant which has been regenerated among the pair of dehumidifying towers;
A compressed air discharging unit for discharging compressed air while passing through the dehumidifying tower filled with the desiccant having been completely regenerated, through a discharge pipe;
A compressed air distribution unit for distributing a part of the dehumidified compressed air through the distribution pipe among the dehumidified compressed air delivered along the discharge pipe of the dehumidified tower to the dehumidifying tower filled with the desiccant required for regeneration, ;
A waste heat recovery unit for recovering the waste heat recovered in the heat radiation unit of the compressor through the waste heat pipe;
A preheating mixing unit for preheating the compressed air by mixing the compressed air moving along the distribution pipe of the compressed air distributor and the waste heat air moving along the waste heat pipe of the waste heat air recovery unit; And
And an electrically conductive heater for heating the compressed air preheated by the mixing of the waste heat air,
The compressed air distributed in the compressed air distribution unit is preheated by mixing the waste heat air recovered in the heat dissipating unit of the compressor and then heated by the electrothermal heater. The heated compressed air flows into the dehumidifying tower, To thereby regenerate the dehumidifying agent,
Wherein the preheating and mixing unit includes a mixing chamber provided with a mixing space for compressed air and waste heat air and having an inlet path communicating with the waste heat pipe; And a nozzle arranged in the mixing chamber for injecting the compressed air generated in the compressor into the mixing chamber at a high pressure to form a reduced pressure in the mixing chamber,
Characterized in that the waste heat air recovered in the heat radiating portion of the compressor is naturally introduced into the mixing chamber along the waste heat pipe by the pressure deviation between the waste heat pipe and the mixing chamber so as to be mixed with the compressed air to preheat the compressed air. Adsorption type compressed air dehumidifier. delete The dehumidifying tower according to claim 2, wherein the compressed air supply unit is provided with a 3-way type supply valve in a supply pipe of a compressed air supply unit that communicates with an inlet pipe of the pair of dehumidification towers, The dehumidifying tower is configured to selectively supply compressed air to one of the dehumidifying towers,
The compressed air distribution unit is configured to circulate the heated air to the remaining dehumidifying tower to dry the desiccant filled in the remaining dehumidifying tower,
Wherein the pair of dehumidification towers are configured to alternately perform a dehumidifying process for dehumidifying the compressed air and a dehumidifying process for drying the dehumidifying agent through the heated air. [3] The apparatus according to claim 2, wherein the inlet pipe of the dehumidifying tower is formed with a heated air discharge pipe through which the heated air circulated in the dehumidifying tower is discharged, and a part of the heated air discharged from the discharge pipe is recovered, Wherein the waste heat pipe and the return pipe are respectively provided with setting valves for setting the state of communication with the preheating and mixing part,
If the temperature of the heating air flowing into the preheat mixture along the heating air discharge pipe is higher than the waste heat air flowing into the preheat mixture along the waste heat pipe, the waste heat air flowing from the waste heat pipe into the preheat- And the heated air circulated inside along the heated air discharge pipe flows into the compressed air and is mixed with the compressed air.

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