KR200377230Y1 - Regenerative thermal oxidizer system using rotary variable valve assembley - Google Patents

Abstract

 The present invention relates to a regenerative oxidizer using a rotary variable valve applied to a rotary regenerative combustion apparatus that oxidizes volatile organic compounds generated in automobile manufacturing, laundry facilities, organic solvents and paints, and steel structure manufacturing. ,

In a regenerative thermal oxidation system consisting of a combustion chamber, 12 chambers, a gas distribution layer, a rotary valve assembly, and a driving device,

The rotary valve assembly has a gas guide groove formed in the bottom to form a slit hole along the inner circumferential surface of the discharge side upper ring divided into the inlet and the outlet to both sides of the support frame formed across the top of the rotor;

A purge hole in which a gas passage is formed in a predetermined shape in a support frame connected to the gas guide groove;

A plurality of ceramic square gaskets fitted to the lower casing of the rotor and the ceramic square gaskets are fixedly installed by a first gasket fixing frame installed on the discharge duct, and the ceramic square gaskets are inserted into the hollow shaft of the rotor outside the purge duct. In addition, there is an excellent effect of providing a regenerative oxidation apparatus using a rotary variable valve which is fixedly installed by a gasket fixing frame member composed of a second gasket fixing frame provided above and below the purge duct to fix the ceramic square gasket.

Description

Regenerative Oxidation System using Rotary Variable Valve {REGENERATIVE THERMAL OXIDIZER SYSTEM USING ROTARY VARIABLE VALVE ASSEMBLEY}

The present invention relates to a regenerative oxidizer using a rotary variable valve which oxidizes volatile organic compounds generated in automobile manufacturing, laundry facilities, organic solvents and paints, and steel structure manufacturing. The improvement of the purge hole formed in the rotor of the rotary valve assembly applied to the rotor, the lower casing and the hollow shaft of the rotor adopt ceramic square gaskets for airtight sealing of the discharge duct and the purge duct, respectively. It relates to a regenerative oxidizer using a rotary variable valve improved.

Briefly, V.O.Cs (Volitile Organic Compounds), which is a volatile organic compound processed by a general rotary regenerative combustion device, is described.

The VOCs collectively refer to hydrocarbon compounds having a vapor pressure of 0.02 psi or higher or an boiling point of less than 100 ° C. among organic compounds, and precursors that form ozone and photochemical oxides by photochemical reactions with nitrogen compounds in air management. It is defined as.

 VOCs are harmful air substances and odor causing substances. Besides being harmful to human body such as inducing respiratory disorders and carcinogens, VOCs cause air pollution due to the formation of smog through photochemical reaction and odor generation. have.

Therefore, various methods are used to remove VOCs. Generally, combustion oxidation technology and biological treatment technology are used. It is used as a device for stably treating organic compounds and recovering energy of high efficiency.

In other words, the VOCs are absorbed at 760 ° C to 850 ° C in a combustion chamber by inhaling harmful gases generated from a plant using volatile organic compounds (VOCs, toxic gases), and passing through a heat storage layer filled with advanced ceramic materials. Regenerative combustion apparatus that burns and purifies gas, and adds a catalyst stage to the heat storage layer to burn harmful gas at the catalytic combustion temperature of 200 ℃ ~ 400 ℃ lower than the reaction temperature of 760 ℃ ~ 850 ℃ while utilizing the heat storage performance. There is a regenerative catalytic combustion device, wherein a separator is provided inside the regenerative combustion device and the regenerative catalytic combustion device, and rotates in the center of the separator and continuously supplies harmful gases, and thus half of the regenerative layer and the catalyst layer is always provided. It is preheated, and half of the heat recovery is repeated to prevent unnecessary waste of energy and complete combustion of harmful gases. It is provided with a rotary valve assembly for distributing air volume and direction to improve the efficiency of the combustion device.

The conventional combustion oxidizer is a regenerative combustion apparatus and a regenerative catalytic combustion apparatus, which can be applied to both of the combustion apparatuses.

1 is a view schematically showing a regenerative oxidation apparatus to which a rotary rotary assembly according to the prior art is applied.

An inlet duct 6 is provided at one side of the lower portion of the cylindrical housing 4 of the regenerative combustion device 2 so that noxious gas is introduced into the inlet chamber from the plant handling the volatile organic compound, and the introduced harmful gas is stored in the regenerative combustion device ( 2) When the amount of air provided in the inside of the wind direction converter 10 is supplied to each chamber (C) located by the stator 15 on the inlet port 14 formed in the rotor 12, the separator 16, the catalyst layer ( 18), the heat storage layer 20 is sent to the combustion chamber 22 to burn the volatile organic compound by the burner 24.

On the other hand, the clean air after the combustion of the noxious gas in the combustion chamber 22 is heated to the chambers located on the outlet 26 side of the rotor 12 through the heat storage layer 20, the catalyst layer 18, the separator 16 After passing through the hollow shaft 27 equipped with the outlet 26 or the rotor 12 is discharged to the atmosphere through the discharge duct 28 of the housing (4).

In addition, the rotor 12 of the rotary valve assembly 10 is rotated at a low speed of about 0.3 RPM by a gear motor or a step motor 30, and a stator formed by drilling a hole in accordance with 12 chambers of the housing 4. It is airtightly installed and rotated below (15).

The rotor 12 is provided with a hollow shaft 27 via a part of the outlet 26 on the central axis, and rotates by receiving the power of the gear motor or step motor 30 at the lower end of the hollow shaft 27. Connected by belt or chain.

Accordingly, the position of the region of the inlet 14 of the rotor 12 continuously changes, thus changing the chambers C by the rotation of the inlet 14.

As described above, since the harmful gas introduced through the inlet duct 6 is burned and discharged through the exhaust duct 28 in a clean air state, the heat storage layer 20 and the catalyst layer 18 are always By maintaining a constant temperature, the preheating action of the harmful gas flows naturally, reducing the combustion time of the harmful gas and eliminating unnecessary waste of thermal energy.

And the present applicant to solve the inaccuracy of the operation by using the belt or chain to rotate by receiving the power of the gear motor or step motor 30 applied to the lower hollow shaft 27 of the rotor 12 Utility model registration application No. 2002-16977 proposes an improved drive device (52).

The driving device 52 includes a motor 54 driven by application of power, a rotation wheel 56 protruding from the guide fixing shaft 64 while being mounted on the rotation shaft of the motor 54, and the rotation wheel ( 56 and the push rod 58 is installed to change the rotational movement to a linear movement by drilling a long hole 66 on which one side of the guide fixing shaft 64 is assembled to a certain length, and the other side of the push rod 58 In order to transfer the power to the hollow shaft 27 by switching the rotational movement to the rotation of the pusher 60 is protruded in one direction so as to reciprocate forward and backward, The latch gear 62 is installed to make accurate operation.

As described above, the rotary valve assembly 10 of the regenerative thermal oxidation system 2 which is rotated by the driving device 52 is used for the volatile organic compound gas in a one-bed regenerative combustion furnace of a facility type that burns volatile organic compounds. It is attached to the incinerator main body to redirect the gas inlet and discharge and the direction of the gas, but it is assembled in the discharge duct part by simple sealing, so the airtightness is inferior. There is a problem.

In order to solve this problem, the upper and lower metal rings 68 and 70 are provided on the outer circumferential surface of the hollow shaft 27 positioned on the lower casing 13 and the purge duct 72 of the rotor 12.

That is, a plurality of groove rings 74 are formed on the outer circumferential surface of the lower casing 13 or the hollow shaft 27, and the support side plate 78 having the airtight guide flange 76 inserted therein is formed by the bolt 80. It is installed in the discharge duct 28 or the purge duct 72 to maintain the airtightness, but the increase in the number of manufacturing work and the hassle of assembly, such as the groove ring 74 and the airtight guide flange 76 must be formed. There is difficulty.

And since the purge hole along the surface of the support frame and the discharge side upper ring of the rotor in contact with the stator, there is a problem that increases the number of times and manufacturing time.

It is proposed to solve the problems of the prior art made as described above, the object of the present invention is to oxidize volatile organic compounds generated in other manufacturing industries, such as automobile manufacturing and laundry facilities, organic solvents and paint manufacturing, steel structure manufacturing industry By eliminating the sealing assembly with the discharge duct or the purge duct according to the rotor installation of the rotary valve assembly of the rotary regenerative combustion device with the ceramic square gasket, the slit hole and the purge hole of the support frame are simply formed around the discharge top ring. The present invention provides a regenerative oxidation apparatus using a rotary variable valve which purges the gas before and after the gas oxidation.

The present invention to realize this

In a regenerative thermal oxidation system consisting of a combustion chamber, 12 chambers, a gas distribution layer, a rotary valve assembly, and a driving device,

The rotary valve assembly is a gas guide groove disposed on the bottom surface of the support frame formed across the upper portion of the rotor to extend the side wall to form a slit hole along the inner circumferential surface of the discharge side upper ring divided into two inlets and outlets;

A purge hole in which a gas passage is formed in a predetermined shape in a support frame connected to the gas guide groove;

A plurality of ceramic square gaskets fitted to the lower casing of the rotor and the ceramic square gaskets are fixedly installed by a first gasket fixing frame installed on the discharge duct, and the ceramic square gaskets are inserted into the hollow shaft of the rotor outside the purge duct. The present invention provides a regenerative oxidation apparatus using a rotary variable valve that is fixed to a gasket fixing frame member including a second gasket fixing frame provided above and below a purge duct to fix the ceramic square gasket.

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

Figure 5 is a partial cross-sectional perspective view showing a rotor portion applied to the regenerative oxidation apparatus according to the present invention, Figure 6 is a plan view showing a rotor applied to the regenerative oxidation apparatus according to the present invention.

Figure 7 is a side cross-sectional view schematically showing the configuration of a rotary assembly applied to the heat storage oxidation apparatus according to the present invention, Figure 8 is an enlarged view showing a gasket fixing frame member applied to the present invention.

1, 2, 3, and 4 are given the same reference numerals.

The rotary assembly 10 for a heat storage oxidizer is applied to the heat storage oxidizer 2 which consists of the combustion chamber 22, the chamber C divided into 12, the gas distribution layer 15, and the drive device 52. .

The rotary valve assembly 10 is a slit hole along the inner circumferential surface of the discharge side upper ring 88 divided into an inlet 14 and an outlet 26 by a support frame 82 formed across the upper portion of the rotor 12. The gas guide grooves 92 disposed on the bottom surface of the side wall 91 are formed so as to form the 90.

The purge hole 94 is formed in a predetermined shape such as a long hole so as to purge gas in the support frame 82 connected to the gas guide groove 92.

A plurality of ceramic square gaskets 98 fitted to the lower casing 96 of the rotor 12 and the ceramic square gaskets 98 are fixed by the first gasket fixing frame 100 installed on the discharge duct 28. It is done by installation.

Then, a second ceramic square gasket 98 is inserted into the hollow shaft 27 of the rotor 12 outside the purge duct 72, and the second quadrangle disposed above and below the purge duct 72 to fix the ceramic square gasket 98. The gasket fixing frame 104 is composed of a gasket fixing frame member 106 is fixedly installed.

The gasket fixing frame member 106 includes a base plate 108 attached to the discharge duct 28 or the purge duct 72, and a space in which the ceramic rectangular gasket 98 is to be positioned on the base plate 108. Fixed bracket 112, which is bent to the outside and formed at a predetermined height to form a fastening hole 110, and bent to fix the ceramic square gasket 98 on the fixed bracket 112, The ceramic square gasket 98 is fastened by fastening the pressure bracket 116 having the threaded hole 114 and the fastening hole 110 of the screw hole 114 and the fixing bracket 112 of the pressure bracket 116. It consists of a configuration including a fastening bolt 118 to be fixed by pressing.

The purge hole 94 may be formed by forming a plurality of holes in the support frame 82 in the form of a long hole or by drilling in a triangular shape.

Referring to the operation of the present invention made as described above, the chamber consisting of the separator 16, the catalyst layer 18, the heat storage layer 20 while passing through the stator 15 through the inlet 84 through which harmful gas is introduced ( After passing through C), the gas combusted in the combustion chamber 22 is discharged to the outlet 26 of the rotor 12 again through the chamber C and the stator 15.

At this time, the lower casing 96 of the rotor 12 has a plurality of ceramic square gaskets 98 on the discharge duct 28 and then a fixed bracket 108 attached to the base plate 108 on the discharge duct 28. By tightening the screw hole 114 and the fastening hole 110 with the bolt 118 using the pressure bracket 116, the first gasket fixing frame 100 is fixed by pressing the ceramic square gasket 98.

And the hollow shaft 27 passing through the purge duct 72 is formed through the inlet through-hole 120 on the purge duct 72 side, inducing the inflow of gas to the purge duct 72 side, purge duct 72 The second gasket fixing frame 104 on the upper side and the lower side makes the assembly with the hollow shaft 27 airtight.

Accordingly, the gas introduced into the outlet 26 of the rotor 12 is the gas guide groove 92 in the inner peripheral surface of the purge hole 94 and the discharge side upper ring 88 formed in the support frame 82 by the rotary rotor 12 Partially introduced gas through the slit hole 90 formed by the side wall 91 is discharged to the purge duct 72 along the hollow shaft 27.

Alternatively, the gas passing through the outlet 26 of the rotor 12 is discharged directly through the discharge duct 28 through the lower casing 96.

As described above, the purge hole 94 and the slit hole 90 are formed in the rotor 12 to facilitate the recycling of the purge gas while the airtightness of the discharge duct 28, the purge duct 72, and the assembly portion It is to be improved by the gasket fixing frame member 106.

Accordingly, the present invention continuously supplies harmful gas through the rotation of the rotor, and converts the completely burned harmful gas into clean air and discharges it into the air, thereby preventing the pollution of the air environment. have.

In addition, by improving the purge hole and the slit hole once again the air discharged during the rotation of the rotor has the effect of increasing the cleanliness of the exhaust air.

In addition, it adopts a gasket fixing frame member which is installed to maintain airtightness and block the mixing of purge gas and exhaust gas in the coupling part between the exhaust duct and the hollow shaft of the rotor. By simplifying the structure to ensure fast assembly and airtightness to ensure the reliability of the facility, such as the volatile organic compound gas incineration industry is usefully contributes to the effect.

1 is a schematic exploded perspective view of a regenerative oxidizer according to the prior art;

Figure 2 is a side view showing a conventional heat storage oxidizer.

Figure 3 is a view showing the operation of the drive device applied to the conventional regenerative oxidizer.

4 is a plan view showing a rotor of a conventional heat storage oxidation system.

Figure 5 is a perspective view showing a rotor applied to the regenerative oxidation apparatus according to the present invention.

Figure 6 is a plan view showing a rotor applied to the regenerative oxidation apparatus according to the present invention.

Figure 7 is a side cross-sectional view schematically showing the configuration of a rotary assembly applied to the regenerative oxidation apparatus according to the present invention.

8 is an enlarged view illustrating a gasket fixing frame member applied to the present invention.

 * Description of the symbols for the main parts of the drawings *

2: Regenerative Oxidizer 10: Rotary Valve Assembly

12: rotor 13: rotor casing

15: Stator 22: combustion chamber

27: hollow shaft 28: exhaust duct

C: chamber 52: drive unit

82: support frame 88: discharge top ring

90: slit hole 91: side wall

92: gas induction groove 94: purge hole

96: bottom casing 98: ceramic square gasket

100: first gasket fixing frame 104: second gasket fixing frame

106: gasket fixing frame member 108: base plate

110: fastener 112: fixed bracket

116: Pressing bracket 118: Fastening bolt

Claims (3)

In a regenerative thermal oxidation system consisting of a combustion chamber, 12 chambers, a gas distribution layer, a rotary valve assembly, and a driving device, The rotary valve assembly is a gas guide groove disposed on the bottom surface of the support frame formed across the upper portion of the rotor to extend the side wall to form a slit hole along the inner circumferential surface of the discharge side upper ring divided into inlet and outlet; A purge hole in which a gas passage is formed in a predetermined shape on a support bar connected to the gas guide groove; A plurality of ceramic square gaskets fitted to the lower casing of the rotor and the ceramic square gaskets are fixedly installed by a first gasket fixing frame installed on the discharge duct, and the ceramic square gaskets are inserted into the hollow shaft of the rotor outside the purge duct. And a gasket fixing frame member composed of a second gasket fixing frame provided above and below the purge duct to fix the ceramic square gasket. According to claim 1, wherein the gasket fixing frame member is a base plate attached to the discharge duct or purge duct, and the outer plate formed at a predetermined height while being attached to a position having a space for the ceramic rectangular gasket on the base plate The fixing bracket which is bent to form a fastening hole, the pressurizing bracket which is bent on the fixing bracket to fix the ceramic square gasket, and forms the screw hole, and is fastened through the screw hole of the pressure bracket and the fastening hole of the fixing bracket. A regenerative oxidation device using a rotary variable valve made of a configuration including a fastening bolt for pressing and fixing the gasket. The regenerative oxidation apparatus using a rotary variable valve according to claim 1, wherein the support frame can form a purge hole in at least one of a long hole, a triangle, and a circular hole.