CN108426256A - Heat storage type combustion oxidation unit - Google Patents

Abstract

The invention discloses a kind of heat storage type combustion oxidation units.In the heat storage type combustion oxidation unit of the present invention pernicious gas pipe and purification gas pipe are respectively equipped in each region for separating the main body for being provided with accumulation of heat component.In addition, opening and closing the pernicious gas pipe for being correspondingly arranged and being connected to each region and purification gas pipe using an opening/closing unit.It is possible thereby to reduce the quantity of the opening/closing unit for opening and closing the pernicious gas pipe and purification gas pipe that are correspondingly arranged with each region, can have the effect of reducing cost.

Description

Heat storage type combustion oxidation unit

Technical field

The present invention relates to the storages that an opening/closing unit can be utilized to control the inflow of pernicious gas and the discharge of purification gas Hot type combustion oxidation device.

Background technology

Volatile organic compounds refers to the hydrocarbon compound that there is 0.02psi vapour pressures or boiling point to be less than 100 DEG C, big Photochemical reaction is caused by light action when being coexisted with nitrogen compound in gas, thus generates ozone and photochemical oxidant.It waves Hair property organic compound is not only the substance of pollution environment, and is cause breathing problem and carcinogen harmful Substance.

Based on such reason, the harmful gas for including volatile organic compounds is removed using various methods in industry spot Body.

There is the volatile organic that directly burns at a high temperature of about 800 DEG C as the method for removing volatile organic compounds Close the combustion oxidation method of object and removing.In combustion oxidation method, since volatile organic compounds is burnt at high temperature, row The purification gas gone out is also at the condition of high temperature.But energy is wasted if it can not use the waste heat of purification gas of discharge, because After this is extensively using the waste heat of reclaiming clean gas, the heat storage type combustion oxidation dress of the volatile organic compounds of inflow is preheated It sets.

Existing heat accumulating type combustion disclosed in sharp bulletin the 10-1560254th (on October 16th, 2015) is specially authorized in South Korea Burn oxidation furnaces in, the inside of main body 110 is separated into multiple regions 121,122,123,124,125, each region 121,122, 123,124,125 be provided with and respectively communicated with for pernicious gas by pernicious gas flow into pipe 151 and pass through for purification gas Purification gas discharge pipe 154.Also, each pernicious gas flows into the discharge pipe 154 of pipe 151 and each purification gas respectively by the One valve 152 and the second valve 155 independently open and close.

So, it needs " quantity × 2 that accumulation of heat component 120 is separated the region 121,122,123,124,125 of setting " Valve needs a large amount of valve.Thus has the shortcomings that cost increase.

Invention content

The technical problems to be solved by the invention

The purpose of the present invention is to provide a kind of heat storage type combustion oxygen of all the problems that can solve the above-mentioned prior art Makeup is set.

It is another object of the present invention to provide a kind of heat storage type combustion oxidation units, can be opened by using one Unit is closed to open and close through the pernicious gas pipe of pernicious gas and reduce cost by the purification gas pipe of purification gas.

Solve the technological means of technical problem

The heat storage type combustion oxidation unit of the embodiment of the present invention in order to achieve the above object may include：

Main body, an internal side section are formed as flowing into the combustion chamber of pernicious gas and burning, internal other side part It is divided into multiple regions；

Accumulation of heat component is respectively arranged at the region of the main body, wherein by pernicious gas, in the burning Pernicious gas is burnt in room and the purification gas, the purge gas that generate, the pernicious gas flow into 1 or more the region simultaneously Combustion chamber is flowed into, the purification gas flows into the region and is expelled to outside but the purification gas inflow of the main body To not by 1 of pernicious gas region described above and passing through, the purge gas flow into not by pernicious gas and 1 area above of purification gas simultaneously flows into combustion chamber；

Multiple pernicious gas pipes, are correspondingly arranged with the region respectively, and it is respective described to guide pernicious gas to flow into Region；

Multiple purification gas pipes, are correspondingly arranged with the region respectively, and the purification gas of the combustion chamber is guided to flow into The outside of the main body is expelled to after to the respective region；

Multiple purge gas tubes are correspondingly arranged with the region respectively, and purge gas is guided to flow into the region；

Opening/closing unit opens and closes the pernicious gas pipe being correspondingly arranged respectively with each region and the purified gas Body pipe, to control the inflow of pernicious gas and the discharge of purification gas,

The opening/closing unit closes all pernicious gas pipes and the purification gas pipe, or opens one and close Close another.

The effect of invention

In the heat storage type combustion oxidation unit of the embodiment of the present invention, in each area for separating the main body equipped with accumulation of heat component Domain is separately installed with harmful flue and purification gas pipe.Also, it is opened and closed and each region pair using an opening/closing unit The pernicious gas pipe and purification gas pipe that should be arranged and be connected to.It is correspondingly arranged with each region at this point it is possible to reduce opening and closing Pernicious gas pipe and purification gas pipe opening/closing unit quantity, therefore can get and reduce the effect of cost.

Description of the drawings

Fig. 1 is the perspective view of the heat storage type combustion oxidation unit of the first embodiment of the present invention.

Fig. 2 is the partially exploded perspective view of Fig. 1.

Fig. 3 is the schematic front sectional view of the major part of Fig. 1.

Fig. 4 is illustrated in the schematic plan of the accumulation of heat component of Fig. 2.

Fig. 5 a and Fig. 5 b are illustrated in the enlarged drawing of the opening/closing unit of Fig. 3.

Fig. 6 is the perspective view of the opening/closing unit of the second embodiment of the present invention.

Fig. 7 a and Fig. 7 b are the front section views of Fig. 6.

Fig. 8 is the perspective view of the opening/closing unit of the third embodiment of the present invention.

Fig. 9 a and Fig. 9 b are the section plans of Fig. 8.

Figure 10 a and Figure 10 b are the section plans of the opening/closing unit of the fourth embodiment of the present invention.

Specific implementation mode

It should be noted that in the present specification, when assigning reference marker to the inscape of each attached drawing, for identical structure At element, even if also imparting identical reference numeral as far as possible in different drawings.

Meanwhile the meaning of term described in this specification should be understood that it is as follows.

Expression to singulative, such as undefined visibly different meaning within a context, it should be understood that including plural number The expression of form, the terms such as " first ", " second " are used to distinguish an inscape and another inscape , the scope of the claims should not be limited by these terms.

The terms such as " comprising " or " having " should be understood to be not excluded for one or more of the other feature or number, step in advance Suddenly, action, inscape, component or combination thereof there is a possibility that or addition.

Term "at least one" is construed as including all possible combination from more than one continuous item.Example Such as, the meaning of " first item, Section 2 and Section 3 at least one " refers to respective first item, Section 2 or Section 3, with And 2 all combinations indicated above in the first item, Section 2 and Section 3.

Term "and/or" is construed as including all possible combination from more than one continuous item.For example, The meaning of " first item, Section 2 and/or Section 3 " not only indicates first item, Section 2 or Section 3, is also represented by first item, 2 all combinations indicated above in binomial or Section 3.

When mentioning a certain inscape " connection or installation " in another inscape, it can be directly connected to or be installed on and is another One inscape, it will be appreciated that there may also be other inscapes among it.However, when mentioning a certain inscape " be directly connected to or install " is in another inscape, it is thus understood that other inscapes are not present among it.On the other hand, it retouches State other statements of the relationship between inscape, i.e., "~between " and " just~between " or " with~it is adjacent " and " directly with ~adjacent " also should similarly be explained.

In the following, the heat storage type combustion oxidation unit of the embodiment of the present invention is described in detail with reference to attached drawing.

First embodiment

Fig. 1 is the perspective view of the heat storage type combustion oxidation unit of the first embodiment of the present invention, and Fig. 2 is the part point of Fig. 1 Perspective view is solved, Fig. 3 is the schematic front sectional view of the major part of Fig. 1, and Fig. 4 is illustrated in the schematic of the accumulation of heat component of Fig. 2 Vertical view.

As shown, the heat storage type combustion oxidation unit of first embodiment according to the present invention may include that inside is formed with The main body 110 in space.The top of the inside of main body 110 is formed as the pernicious gases such as volatile organic compounds and flows into and burn Combustion chamber 111a, internal lower part is formed as that the regenerative chamber of aftermentioned accumulation of heat component 120 is arranged.

Main body 110 may be provided with the upper body 111 engaged one another while and sub-body 115, upper body 111 Inside is formed as combustion chamber 111a, and the inside of sub-body 115 is formed as the regenerative chamber.At this point, in upper body 111 Position may be provided with the heat generating devices such as the combustion furnace for the pernicious gas that burns.

The inside of sub-body 115 can form multiple regions on the basis of the center of main body 110 with radial segmentation.More Specifically as described below, the inside of sub-body 115 can be divided into a (natural number that n the is 2 or more) region (2n-1), can be with It is divided into 2n (natural number that n is 2 or more) regions.

When the inside division of sub-body 115 is at a region (2n-1), pernicious gas can pass through a region (n-1).Separately Outside, the purification gas generated in the 111a of combustion chamber by the burning of pernicious gas can by with pernicious gas by number of regions The identical a region (n-1), aftermentioned purge gas can pass through a region.

In addition, when the inside division of sub-body 115 is at 2n region, pernicious gas can pass through a region (n-1).And And the purification gas generated in the 111a of combustion chamber by the burning of pernicious gas can by with pernicious gas by number of regions phase Same a region (n-1), purge gas can pass through a region.

As shown in figure 4, the heat storage type combustion oxidation unit of the first embodiment of the present invention illustrates sub-body 115 Inside division at 5 regions 115a, 115b, 115c, 115d, 115e of n=3 example.

It can be equipped with the accumulation of heat component 120 formed by ceramic material in each region 115a, 115b, 115c, 115d, 115e, had Evil gas, purification gas and purge gas pass through accumulation of heat component 120.

Accumulation of heat component 120 can be by multiple unit accumulation of heat component 120a shapes of the square tubbiness ducted body opened as top and bottom At making pernicious gas, purification gas and purge gas pass through accumulation of heat component 120.That is, multiple unit accumulation of heat component 120a are with shape It is configured at the mode of row and column, the multiple unit accumulation of heat component 120a configured in a manner of forming row and column can be laminated to form accumulation of heat Component 120.Gas is by the inside of unit accumulation of heat component 120a, because the inside of this element accumulation of heat component 120a is stomata.

The inside of sub-body 115 can be equipped with by the inside division of sub-body 115 at each region 115a, 115b, The partition wall 117 of 115c, 115d, 115e, partition wall 117 can be supported and are disposed thereon by sub-body 115.In addition, accumulation of heat The lower surface of component 120 can by the support plate of reticular structure it is (not shown) support and with the lower surface of sub-body 115 every It opens up and sets.

The inside of the sub-body 115 of the heat storage type combustion oxidation unit of the first embodiment of the present invention is divided into 5 Region 115a, 115b, 115c, 115d and 115e, therefore n=3.Therefore, pernicious gas can pass through 2 regions, purification gas Can by pernicious gas not by 2 regions, purge gas can by harmful and purification gas not by 1 area Domain.

Pernicious gas by region and purification gas by region preferably with respect to sub-body 115 center substantially Symmetrically.Pernicious gas, purification gas and purge gas can successively each region 115a, 115b, 115c, 115d, 115e is moved, and passes through each region 115a, 115b, 115c, 115d, 115e.I.e., pernicious gas, purification gas and purge gass Body can loop through each region 115a, 115b, 115c, 115d, 115e, and pernicious gas, purification gas and purge gas are followed Ring direction is preferably identical.

The first gas tank 130 is can be positioned below in the outside of main body 110, pernicious gas and purification gas can be made to flow into First gas tank 130 and temporarily segmentation storage.The inside of first gas tank 130 can be by be separated into concentric inner side and outer side Mode is formed, and after the pernicious gas that industry spot generates can be stored and be stored in the exterior portion of the first gas tank 130, is passed through Each region 115a, 115b, 115c, 115d, 115e flow into combustion chamber 111a, the combustion chamber generated by the burning of pernicious gas The purification gas of 111a can be stored by each region 115a, 115b, 115c, 115d, 115e and be stored in the first air accumulator 130 After inboard portion, it is emitted into outside.Pernicious gas and purification gas separate the inside for being stored in the first gas tank 130, therefore that This will not be mixed.

Naturally, storage pernicious gas can be stored in the inboard portion of the first gas tank 130, exterior portion can be stored Store purification gas.

Multiple pernicious gas pipes 141, the pernicious gas can be equipped between main body 110 and the exterior portion of the first gas tank 130 Pipe will be stored in the pernicious gas of the exterior portion of the first gas tank 130 by each region 115a, 115b, 115c, 115d, 115e It is introduced separately to combustion chamber 111a.Pernicious gas pipe 141 be arranged to its quantity corresponding to each region 115a, 115b, 115c, The quantity of 115d, 115e, upper end side can be connected to respectively with the sides each region 115a, 115b, 115c, 115d, 115e, lower end It can be connected to the exterior portion of the first gas tank 130.

Purification gas pipe 145 can be set between main body 110 and the inboard portion of the first gas tank 130, the purification gas pipe is logical Each region 115a, 115b, 115c, 115d, 115e are crossed, the purification gas of combustion chamber 111a is expelled in the first gas tank 130 Side section.Purification gas pipe 145 is arranged to the quantity that its quantity corresponds to each region 115a, 115b, 115c, 115d, 115e, Upper end side can be connected to respectively with the sides each region 115a, 115b, 115c, 115d, 115e, and lower end can be with the first gas tank 130 Inboard portion is connected to.

Purge gas supplying module 180 can be arranged in the outer lower face side of main body 110, which passes through Purge gas is introduced to combustion chamber 111a, purge gas supplying module 180 by each region 115a, 115b, 115c, 115d, 115e It may include the second gas tank 181, purge gas tube 183 and valve 185.

Second gas tank 181 is formed as annular and is set in a manner of around harmful flue 141 and purification gas pipe 145 It sets.Purge gas tube 183 is arranged to the quantity that its quantity corresponds to each region 115a, 115b, 115c, 115d, 115e, makes one End side can be connected to respectively with the sides each region 115a, 115b, 115c, 115d, 115e, and the other end can be connected to the second gas tank 181.

In addition, valve 185 is respectively arranged at each purge gas tube 183, each purging tracheae can be independently opened and closed 183.Therefore, the purge gas of the second gas tank 181 can by the selectivity of valve 185 by each region 115a, 115b, 115c, 115d, 115e, and it is introduced to combustion chamber 111a.Purge gas selectivity by each region 115a, 115b, 115c, 115d, When 115e, it is set to pernicious gas present in the accumulation of heat component 120 of each region 115a, 115b, 115c, 115d, 115e and blows Scavenging body flows into combustion chamber 111a together.

The lower surface of main body 110, more specifically, respective and each region can be respectively equipped in the inside of the second gas tank 181 The connecting pipe 190 that 115a, 115b, 115c, 115d, 115e are connected.In each connecting pipe 190, can be respectively communicated with respectively The upper end for the pernicious gas pipe 141 that region 115a, 115b, 115c, 115d, 115e are connected, can be respectively communicated with purge gas The upper end of pipe 145 can be respectively communicated with the one end of purging tracheae 183.Therewith, pernicious gas and purge gas pass through connection Pipeline 190 flows into each region 115a, 115b, 115c, 115d, 115e, and the purification gas of combustion chamber 111a passes through each region 115a, 115b, 115c, 115d, 115e are expelled to connecting pipe 190.

Pernicious gas, purification gas and purge gas pass through each region 115a, 115b, 115c, 115d, 115e, purification Gas by pernicious gas not by region, purge gas by pernicious gas and purification gas not by region.

The heat storage type combustion oxidation unit of the first embodiment of the present invention utilizes an opening/closing unit 150, opens and closes With each region 115a, 115b, 115c, 115d, 115e pernicious gas pipe 141 being correspondingly arranged and purification gas pipe 145, controlled with this The inflow of pernicious gas processed and the discharge of purification gas.At this time, it may be necessary to be arranged be equivalent to region 115a, 115b, 115c, The opening/closing unit 150 for opening and closing pernicious gas pipe 141 and purification gas pipe 145 of the quantity of 115d, 115e, therefore Need relatively few number of opening/closing unit 150.Thus cost can be reduced.

Referring to figs. 1 to Fig. 5 b, to the opening/closing unit 150 of the heat storage type combustion oxidation unit of the first embodiment of the present invention It illustrates.Fig. 5 a and Fig. 5 b are illustrated in the enlarged drawing of the opening/closing unit of Fig. 3.

As shown, opening/closing unit 150 may include shell 151 and open and close member 155, it can be to close all and each region The pernicious gas pipe 141 and purification gas pipe 145 that 115a, 115b, 115c, 115d, 115e are correspondingly arranged, or open harmful The mode for closing another together of flue 141 and purification gas pipe 145 is opened and closed.

Shell 151 may be disposed at the pernicious gas pipe of setting corresponding with each region 115a, 115b, 115c, 115d, 115e 141 middle part and the middle part of purification gas pipe 145, can be connected to pernicious gas pipe 141 and purification gas pipe 145.

More specifically, shell 151 can be to cut off middle section and the purification gas pipe 145 of pernicious gas pipe 141 The mode of middle section is arranged, and side can open.It is located at the top and lower section of shell 151 on the basis of shell 151 as a result, Pernicious gas pipe 141 can via shell 151 be interconnected, be located at shell 151 top and lower section purification gas pipe 145 It can be interconnected via shell 151.

Open and close member 155 is set to the inside of shell 151, can be in a manner of passing in and out the open side of shell 151 with can The state of sliding is arranged, and can make the pernicious gas pipe of the top and lower section on the basis of shell 151 positioned at shell 151 141 be interconnected or be not connected to, can make positioned at shell 151 top and lower section purification gas pipe 145 be interconnected or It is not connected to.Open and close member 155 can be slided by the driving portions such as cylinder or motor 160.

In order to make to be interconnected positioned at the pernicious gas pipe 141 of the top of shell 151 and lower section, make to be located at shell 151 Top and lower section purification gas pipe 145 be connected to, intercommunicating pore 155a can be formed on open and close member 155.Therefore, with Open and close member 155 slides, when intercommunicating pore 155a is between the top positioned at shell 151 and the pernicious gas pipe 141 of lower section When, the pernicious gas pipe 141 of the top and lower section that are located at shell 151 is interconnected, and is located at shell when intercommunicating pore 155a is in When between 151 top and the purification gas pipe 145 of lower section, it is located at the top of shell 151 and the purification gas pipe of lower section 145 are interconnected.

When intercommunicating pore 155a is not between the pernicious gas pipe 141 of top and lower section positioned at shell 151, it is located at shell The top of body 151 and the pernicious gas pipe 141 of lower section are not connected to mutually, when intercommunicating pore 155a is not positioned at the upper of shell 151 When between side and the purification gas pipe 145 of lower section, the purification gas pipe 145 of the top and lower section that are located at shell 151 is mutual It is not connected to.

Therefore, the pernicious gas pipe 141 of the top and lower section that are located at shell 151 is interconnected via intercommunicating pore 155a When, pernicious gas pipe 141 is opened, and is located at the top of shell 151 and the pernicious gas pipe 141 of lower section not via intercommunicating pore When 155a is interconnected, pernicious gas pipe 141 is closed.In addition, the purification gas pipe positioned at the top of shell 151 and lower section 145 via intercommunicating pore 155a be interconnected when, purification gas pipe 145 is opened, be located at shell 151 top and lower section it is net When change flue 145 is not interconnected via intercommunicating pore 155a, purification gas pipe 145 is closed.

As shown in Figure 5 a, when open and close member 155 being slided towards a direction, be positioned above on the basis of shell 151 and The pernicious gas tank 141 of lower section is interconnected, and is positioned above and the purification gas pipe 145 of lower section can be connected to mutually.

In addition, being positioned above on the basis of by shell 151 and Fig. 5 a that the pernicious gas pipe 141 of lower section is interconnected In the state of shown, when open and close member 155 is slided towards other direction, it is positioned above and the pernicious gas pipe 141 of lower section It can not be connected to mutually, be positioned above and the purification gas pipe 145 of lower section can be interconnected.

In short, in Fig. 5 a and Fig. 5 b, the pernicious gas pipe of one side and the other side is located on the basis of by shell 151 141 are not connected to mutually, are located under the mutually disconnected state of purification gas pipe 145 of one side and the other side, by making out It closes component 155 towards a direction or other direction slides, thus adjust opening and closing and the purified gas of pernicious gas pipe 141 The opening and closing of body pipe 145.

In the opening/closing unit 150 of the heat storage type combustion oxidation unit of the first embodiment of the present invention, intercommunicating pore 155a is total For pernicious gas pipe 141 and purification gas pipe 145.Therefore, the purification gas of main body 110 is outside by switch unit 150 When portion is discharged, the pernicious gas for being present in intercommunicating pore 155a is also discharged together.But it is present in the pernicious gas of intercommunicating pore 155a For denier, therefore the discharge degree of pernicious gas is also very small.

When pernicious gas flows into each region 115a, 115b, 115c, 115d, 115e by pernicious gas pipe 141, it is harmful to The a part of of gas may reveal in the inside of shell 151, flow into 145 side of purification gas pipe.So, pernicious gas may mix Enter into the purification gas being discharged by purification gas pipe 145.

The pernicious gas in the inside of shell 151 is revealed in order to prevent flows into 145 side of purification gas pipe, it can be in shell Containment member 152 is arranged in 151 inner peripheral surface, and the containment member 150 is to separate the inside portion of 141 side body 151 of pernicious gas pipe Divide and the state of the inboard portion of 145 side body 151 of purification gas pipe is arranged.

145 side of purification gas pipe is flowed into the pernicious gas of the inside of shell 151 in order to further prevent revealing, it can be with Between pernicious gas pipe 141 and containment member 152 151 part of shell setting gas suction module 170 (referring to Fig.1 and Fig. 2), the gas suction module 170 sucking leaks the pernicious gas in the inside of shell 151 and is expelled to the outside of shell 151.

Gas suction module 170 may include side be connected to shell 151 setting discharge pipe 171 and with discharge pipe 171 The suction pump 175 of other side connection.

Then, the action of the heat storage type combustion oxidation unit of the first embodiment of the present invention is illustrated.

In the following, illustrating pernicious gas, purification gas and purge gas centered on sub-body 115 by clockwise Direction recycles, successively respectively by way of being set to the accumulation of heat component 120 of each region 115a, 115b, 115c, 115d, 115e.

As shown in figure 4, the inside of sub-body 115 is separated into 5 regions 115a, 115b, 115c, 115d, 115e, because This n=3.Therefore, pernicious gas and purification gas can pass through substantially symmetric region respectively respectively by 2 regions.

All opening/closing units 150 and all 185 pent states of valve are assumed to be original state.

In the initial state, adjust opening/closing unit 150a, 150b and opening/closing unit 150c, 150d has to open respectively Evil flue 141a, 141b and purification gas pipe 145c, 145d so that pernicious gas and purification gas can pass through region respectively 115a, 115b and region 115c, 115d.At this point, pernicious gas flows into combustion chamber 111a by region 115a, 115b, stream Enter to the pernicious gas of combustion chamber 111a and is moved simultaneously along a side surface, upper surface and another side surface of combustion chamber 111a It burns after generating purification gas, passes through region 115c, 115d discharge.At this point, purification gas by region 115c, The accumulation of heat component 120 of 115d carries out heat exchange and accumulation of heat with purification gas.

In such a state, when valve 185e is opened, purge gas is flowed into region 115e, therefore remains on region The pernicious gas of 115e flows into combustion chamber 111a together with purge gas.So, region 115e becomes purification state.At this point, Purge gas preferably flow into positioned at pernicious gas by last end regions 115a and purification gas by front end Region 115e between the 115d of region.Purge gas can be purification air.

When region 115e becomes purification state, valve 185e is closed.Then, it passes sequentially through opening/closing unit 150e and opens Unit 150c is closed, purification gas pipe 145e is opened, purification gas tank 145c is closed, single by opening/closing unit 150c and opening and closing First 150a, pernicious gas pipe 141c is opened, pernicious gas pipe 141a is closed.At this point, pernicious gas by region 115b, 115c flows into combustion chamber 111a, and purification gas is discharged by region 115d, 115e.Since purge gas region 115e is net Change state, therefore pernicious gas will not be mixed into the purification gas being discharged by region 115e.

In such a state, when valve 185a is opened, remain on the pernicious gas and purge gas one of region 115a It rises and flows into combustion chamber 111a, region 115a becomes purification state.

Then, pass sequentially through opening/closing unit 150a and opening/closing unit 150d purification gas pipes 145a be opened, purification gas Tank 145d is closed, and is opened by opening/closing unit 150d and opening/closing unit 150b pernicious gas pipes 141d, pernicious gas pipe 141b is closed.At this point, pernicious gas flows into combustion chamber 111a by region 115c, 115d, purification gas passes through region 115e, 115a are discharged.Since purge gas region 115a is purification state, in the purification gas being discharged by region 115a Pernicious gas will not be mixed into.

By repeating action as described above, pernicious gas becomes purification gas and is discharged, and accumulation of heat component 120 passes through purification Gas carries out accumulation of heat.

In the heat-accumulation combustion oxidation unit of the first embodiment of the present invention, main body 110 can be formed with polygonal, accumulation of heat Component 120 can be formed with shape corresponding with each region 115a, 115b, 115c, 115d, 115e.

The heat storage type combustion oxidation unit of the first embodiment of the present invention using opening/closing unit 150 open and close with The pernicious gas pipe 141 and purification gas pipe 145 that each region 115a, 115b, 115c, 115d, 115e are correspondingly arranged.Therefore it only needs The opening/closing unit 150 for the quantity for being equivalent to each region 115a, 115b, 115c, 115d, 115e is set, it is possible thereby to reduce opening and closing The quantity of unit 150.Cost can be reduced therewith.

Second embodiment

Fig. 6 is the perspective view of the opening/closing unit of the second embodiment of the present invention, and Fig. 7 a and Fig. 7 b are the front cross-sectionals of Fig. 6 Figure only pair is illustrated with the difference of first embodiment.

As shown, the opening/closing unit 250 of the heat storage type combustion oxidation unit of the second embodiment of the present invention may include shell The structure of body 251 and open and close member 255, the structure of shell 251 and the shell 151 of first embodiment can be same or similar.

Open and close member 255 is set to the inside of shell 251, can be in a manner of passing in and out the open side of shell 251 with can The state of sliding is set, and can make the top that shell 251 is set on the basis of shell 251 and the pernicious gas pipe of lower section 241 be interconnected or be not connected to, can make positioned at shell 251 top and lower section purification gas pipe 245 be interconnected or It is not connected to.Open and close member 255 can be slided by the driving portions such as cylinder or motor 260.

In order to make to be interconnected positioned at the pernicious gas pipe 241 of the top of shell 251 and lower section, make to be located at shell 251 Top and lower section purification gas pipe 245 be connected to, the first intercommunicating pore 255a and second can be formed on open and close member 255 Intercommunicating pore 255b.Therefore, with open and close member 255 slide, when intercommunicating pore 255a be in positioned at shell 251 top and under When between the pernicious gas pipe 241 of side, the pernicious gas pipe 241 of the top and lower section that are located at shell 251 is interconnected, when even When through-hole 255a is between the top positioned at shell 251 and the purification gas pipe 245 of lower section, it is located at the top of shell 251 And the purification gas pipe 245 of lower section is interconnected.

As shown in Figure 7a, when open and close member 255 being slided towards a direction, be positioned above on the basis of shell 251 and The pernicious gas tank 241 of lower section can be interconnected, and be positioned above and the purification gas pipe 245 of lower section can be connected to mutually.

In addition, being positioned above on the basis of by shell 251 and Fig. 7 a that the pernicious gas pipe 241 of lower section is interconnected In the state of shown, when open and close member 255 is slided towards other direction, it is positioned above and the pernicious gas pipe 241 of lower section It is not connected to mutually, is positioned above and the purification gas pipe 245 of lower section can be interconnected.

In short, in Fig. 7 a and Fig. 7 b, the pernicious gas pipe of one side and the other side is located on the basis of by shell 251 241 are not connected to mutually, in the state that the purification gas pipe 245 of one side and the other side is not connected to mutually, make opening and closing structure Part 255 is towards a direction or other direction slides, and thus adjusts the opening and closing of pernicious gas pipe 241 and opening for purification gas pipe 245 It closes.If the spacing, the first intercommunicating pore 255a and second suitably between adjustment pernicious gas pipe 241 and purification gas pipe 245 connect Spacing between through-hole 255b and the first intercommunicating pore 255a and relative to pernicious gas pipe 241 and purification gas pipe 245 The position of two intercommunicating pore 255b, the then state action as shown in Fig. 7 a and Fig. 7 b.

Naturally, one side is located on the basis of by shell 251 and the pernicious gas pipe 241 of the other side does not connect mutually It is logical, it is located under the mutually disconnected state of purification gas pipe 245 of one side or the other side, it can be by making open and close member 255 It only slides towards a direction, the opening and closing of pernicious gas pipe 241 and the opening and closing of purification gas pipe 245 is adjusted with this.

In the opening/closing unit 250 of the heat storage type combustion oxidation unit of the second embodiment of the present invention, the first intercommunicating pore 255a and the second intercommunicating pore 255b are connected to pernicious gas pipe 241 and purification gas pipe 245 respectively.Therefore, purification gas is arranged When going out, remaining in the pernicious gas of the first intercommunicating pore 255a will not be mixed into purification gas.

3rd embodiment

Fig. 8 is the perspective view of the opening/closing unit of the third embodiment of the present invention, and Fig. 9 a and Fig. 9 b are the plan cross-sections of Fig. 8 Figure only pair is illustrated with the difference of first embodiment.

As shown, the opening/closing unit 350 of the heat storage type combustion oxidation unit of the third embodiment of the present invention may include shell Body 351 and open and close member 355.

Shell 351 can be formed as cylindric, can be with cut-out and each region 115a, 115b, 115c, 115d, 115e The mode of the middle section for the pernicious gas pipe 341 that (with reference to Fig. 4) is correspondingly arranged and the middle section of purification gas pipe 345 is set It sets.The pernicious gas pipe 341 positioned at the top of shell 351 and lower section on the basis of shell 351 can be via shell 351 as a result, It is interconnected, the purification gas pipe 345 of the top and lower section that are located at shell 351 can be interconnected via shell 351.

Open and close member 355 can be set to discoid, can make with shell 351 in the internal rotating of shell 351 On the basis of be set to shell 351 top and lower section pernicious gas pipe 341 be interconnected or be not connected to, can make to be located at shell The top of body 351 and the purification gas pipe 345 of lower section are interconnected or are not connected to.Open and close member 355 can pass through cylinder or horse It is rotated up to equal driving portions 360.

In order to make to be interconnected positioned at the pernicious gas pipe 341 of the top of shell 351 and lower section, make to be located at shell 351 Top and lower section purification gas pipe 345 be connected to, intercommunicating pore 355a can be formed on open and close member 355.Therefore, with Open and close member 355 rotates, when intercommunicating pore 355a is between the top positioned at shell 351 and the pernicious gas pipe 341 of lower section When, the pernicious gas pipe 341 of the top and lower section that are located at shell 351 is interconnected, and is located at shell when intercommunicating pore 355a is in When between 351 top and the purification gas pipe 345 of lower section, it is located at the top of shell 351 and the purification gas pipe of lower section 345 are interconnected.

As illustrated in fig. 9, it when open and close member 355 being rotated in the direction of the clock, is positioned above on the basis of shell 351 And the pernicious gas tank 341 of lower section is interconnected, and is positioned above and the purification gas pipe 345 of lower section can not connect mutually It is logical.

In addition, being positioned above on the basis of by shell 351 and Fig. 9 a that the pernicious gas pipe 341 of lower section is interconnected In the state of shown, when making open and close member 355 in the direction of the clock or counterclockwise rotating, it is positioned above and lower section Pernicious gas pipe 341 be not connected to mutually, be positioned above and the purification gas pipe 345 of lower section can be by intercommunicating pore 355a phase It is intercommunicated.

In short, in Fig. 9 a and Fig. 9 b, the pernicious gas pipe of one side and the other side is located on the basis of by shell 351 341 are not connected to mutually, in the state that the purification gas pipe 345 of one side and the other side is not connected to mutually, make opening and closing structure Part 355 is towards a direction or other direction rotates, and thus adjusts the opening and closing of pernicious gas pipe 341 and opening for purification gas pipe 345 It closes, or open and close member 355 is made only to rotate towards a direction, opening and closing and the purification gas pipe of pernicious gas pipe 341 are adjusted with this 345 opening and closing.

The pernicious gas for leaking to the inside of shell 351 in order to prevent is flowed into 345 side of purification gas pipe, can be in shell Containment member (not shown) is set in 351 inside upper surface and bottom inner surface in a manner of around harmful flue 341. In addition, 351 part of shell between pernicious gas pipe 341 and containment member 352 can be equipped with the gas suction for including discharge pipe 371 Enter module 370, which is used to suck the pernicious gas for the inside for leaking to shell 351 and is expelled to outside.

Fourth embodiment

Figure 10 a and Figure 10 b are the section plans of the opening/closing unit of the fourth embodiment of the present invention, only pair real with third The difference for applying example illustrates.

As shown, the opening/closing unit 450 of the heat storage type combustion oxidation unit of the second embodiment of the present invention may include shell The structure of body 451 and open and close member 455, the structure of shell 451 and the shell 351 of 3rd embodiment is same or similar.

Open and close member 455 can be set to discoid in the internal rotating of shell 451 can to make with shell 451 On the basis of be set to shell 451 top and lower section pernicious gas pipe 441 be interconnected or be not connected to, can make to be located at shell The top of body 451 and the purification gas pipe 445 of lower section are interconnected or are not connected to.Open and close member 455 can pass through cylinder or horse It is rotated up to equal driving portions 460.

In order to make to be interconnected positioned at the pernicious gas pipe 441 of the top of shell 451 and lower section, make to be located at shell 451 Top and lower section purification gas pipe 445 be connected to, the first intercommunicating pore 455a and second can be formed on open and close member 455 Intercommunicating pore 455b.Therefore, with open and close member 455 rotate, when the first intercommunicating pore 455a be in positioned at shell 451 top with And when between the pernicious gas pipe 441 of lower section, it is located at 441 phase of the pernicious gas pipe interconnection of the top and lower section of shell 451 It is logical, when the second intercommunicating pore 455b is between the top positioned at shell 451 and the purification gas pipe 445 of lower section, it is located at shell The top of body 451 and the purification gas pipe 445 of lower section are interconnected.

As shown in Figure 10 a, it when open and close member 455 being made to rotate in the direction of the clock, is positioned above on the basis of shell 451 And the pernicious gas tank 441 of lower section is interconnected by the first intercommunicating pore 455a, is positioned above and the purified gas of lower section Body pipe 445 can be connected to mutually.

In addition, being positioned above on the basis of by shell 451 and figure that the pernicious gas pipe 441 of lower section is interconnected In the state of shown in 10a, when open and close member 455 being made to rotate counterclockwise, it is positioned above and the pernicious gas of lower section Pipe 441 is not connected to mutually, is positioned above and the purification gas pipe 445 of lower section can be interconnected by intercommunicating pore 455a.

In short, in Figure 10 a and Figure 10 b, the pernicious gas of one side and the other side is located on the basis of by shell 451 Pipe 441 is not connected to mutually, in the state that the purification gas pipe 445 of one side and the other side is not connected to mutually, makes opening and closing Component 455 towards a direction or other direction rotation, thus adjusts opening and closing and the purification gas pipe 445 of pernicious gas pipe 441 Opening and closing.

If spacing, the first intercommunicating pore 455a suitably between adjustment pernicious gas pipe 441 and purification gas pipe 445 and Spacing between second intercommunicating pore 455b and the first intercommunicating pore relative to pernicious gas pipe 441 and purification gas pipe 445 The position of 455a and the second intercommunicating pore 455b, the then state action as shown in Figure 10 a and Figure 10 b.

Naturally, one side is located on the basis of by shell 451 and the pernicious gas pipe 441 of the other side does not connect mutually It is logical, it is located under the mutually disconnected state of purification gas pipe 445 of one side or the other side, it can be by making open and close member 455 It only rotates towards a direction, the opening and closing of pernicious gas pipe 441 and the opening and closing of purification gas pipe 445 is adjusted with this.

Present invention mentioned above is not only restricted to previous embodiment and additional attached drawing, in the technology without departing from the present invention In the range of thought, various displacements, deformation and change can be carried out, this commonly knows the having for technical field for belonging to the present invention It is obvious for the personnel of knowledge.Therefore, it should be interpreted that range of the scope of the present invention based on aftermentioned claims Determine from the meaning and range of claims, also have the form that has altered or deform drawn in its equivalent concepts It is all contained in the scope of the present invention.

Symbol description

110:Main body

111a:Combustion chamber

120:Accumulation of heat component

141:Pernicious gas pipe

145:Purification gas pipe

150:Opening/closing unit.

Claims (8)

1. a kind of heat storage type combustion oxidation unit, which is characterized in that including：

Main body, an internal side section are formed as flowing into the combustion chamber of pernicious gas and burning, internal other side partial segmentation At multiple regions；

Accumulation of heat component is respectively arranged at the region of the main body, wherein being fired by pernicious gas, in the combustion chamber The purification gas and purge gas burnt pernicious gas and generated, the pernicious gas flow into 1 or more the region simultaneously Combustion chamber is flowed into, the purification gas flows into the region and is expelled to outside but the purification gas inflow of the main body To pernicious gas not by 1 region described above and pass through, the purge gas is flowed into pernicious gas and purified gas Body not by 1 area above and flow into the combustion chamber；

Multiple pernicious gas pipes, are correspondingly arranged with the region respectively, and pernicious gas is guided to flow into each region；

Multiple purification gas pipes, are correspondingly arranged with the region respectively, and the purification gas of the combustion chamber is guided to flow into respectively The outside of the main body is expelled to behind the region；

Multiple purge gas tubes are correspondingly arranged with the region respectively, and purge gas is guided to flow into each region；

Opening/closing unit opens and closes the pernicious gas pipe being correspondingly arranged respectively with each region and the purification gas Pipe, to control the inflow of pernicious gas and the discharge of purification gas,

The opening/closing unit closes all pernicious gas pipes and the purification gas pipe, or opens one and close another One.

2. heat storage type combustion oxidation unit described in claim 1, which is characterized in that

The opening/closing unit includes：

Shell, with the side section for cutting off the pernicious gas pipe being correspondingly arranged respectively with each region and the purification gas The mode of one side section of pipe is arranged, and the pernicious gas pipe and the purification gas pipe are interconnected, and the side of the shell is opened It puts；

Open and close member is set to the inside of the shell in a manner of it can slide, and makes to be located at one on the basis of the shell The pernicious gas pipe of side and the other side is interconnected or is not connected to, or makes to be located at the described net of one side or the other side Change flue to be interconnected or be not connected to.

3. heat storage type combustion oxidation unit as claimed in claim 2, which is characterized in that

The open and close member is formed with intercommunicating pore, with the sliding of the open and close member, the intercommunicating pore make be with the shell The pernicious gas pipe that benchmark is located at one side and the other side is interconnected, or makes to be located at one side and the other side Purification gas pipe is interconnected.

4. heat storage type combustion oxidation unit as claimed in claim 2, which is characterized in that

The open and close member is formed with the first intercommunicating pore and the second intercommunicating pore, with the sliding of the open and close member, described One intercommunicating pore makes the pernicious gas pipe for being located at one side and the other side on the basis of the shell be interconnected, and described the Two intercommunicating pores make the purification gas pipe for being located at one side and the other side be interconnected.

5. heat storage type combustion oxidation unit as described in claim 1, which is characterized in that

The opening/closing unit includes：

Cylinder shell, to cut off a side section of the pernicious gas pipe being correspondingly arranged respectively with each region and described net The mode for changing a side section of flue is arranged, and is connected to respectively with the pernicious gas pipe and the purification gas pipe,

Open and close member is set to the inside of the shell in a manner of it can rotate, and makes to be located at one on the basis of the shell The pernicious gas pipe of side and the other side is interconnected or is not connected to, or makes to be located at the described of one side and the other side Purification gas pipe is interconnected or is not connected to.

6. heat storage type combustion oxidation unit as claimed in claim 5, which is characterized in that

The open and close member is formed with intercommunicating pore, with the rotation of the open and close member, the intercommunicating pore make be with the shell The pernicious gas pipe that benchmark is located at one side and the other side is interconnected, or makes to be located at one side and the other side Purification gas pipe is interconnected.

7. heat storage type combustion oxidation unit as claimed in claim 5, which is characterized in that

The open and close member is formed with intercommunicating pore, with the rotation of the open and close member, the intercommunicating pore make be with the shell The pernicious gas pipe that benchmark is located at one side and the other side is interconnected, or makes to be located at one side and the other side Purification gas pipe is interconnected.

8. the heat storage type combustion oxidation unit as described in claim 2 or 5, which is characterized in that

Gas suction module, institute are additionally provided on the housing parts between the pernicious gas pipe and the purification gas pipe The pernicious gas that the sucking of gas suction module leaks to the inside of the shell is stated, the pernicious gas of the pernicious gas pipe is prevented Flow into purification gas pipe side.