CN218190266U - Dust removal module of plate purification cabin tail gas treatment system - Google Patents

Abstract

The utility model discloses a panel clean room tail gas processing system's dust removal module relates to panel clarification plant technical field, and it can be at least the part to solve among the prior art dust content in the clean room exhaust tail gas high, probably leads to ceramic catalysis piece's honeycomb passageway jam's problem. The utility model discloses panel purification cabin tail gas processing system's dust removal module, include with the clean room of the exhaust end intercommunication of the cabin body, be equipped with the dust removal cloth and the ion generator that are used for filtering the dust in the clean room, dust removal cloth sets gradually along waste gas flow direction with ion generator.

Description

Dust removal module of plate purification cabin tail gas treatment system

Technical Field

The utility model relates to a panel clarification plant technical field, concretely relates to panel purifies cabin tail gas processing system's dust removal module.

Background

The artificial board contains a large amount of volatile harmful substances such as formaldehyde, and in order to rapidly reduce the formaldehyde content in the artificial board, the artificial board is generally placed in a high-temperature purifying cabin environment at present to rapidly volatilize the formaldehyde, and in order to avoid the phenomenon that the formaldehyde concentration in the purifying cabin is too high and the formaldehyde in the purifying cabin is re-adsorbed into the artificial board, the gas in the purifying cabin needs to be continuously discharged out of the cabin to reduce the formaldehyde concentration in the cabin, and the gas in the purifying cabin is directly discharged to seriously pollute the atmospheric environment, therefore, a tail gas purifying device or system needs to be arranged at the exhaust end of the purifying cabin, and the problem of purifying the tail gas discharged by the purifying cabin is solved.

At present, because the dust is attached to the board, the dust can float to the air in the cabin when the board is purified, and the cabin body is discharged along with the exhaust port of the purification cabin, and in the tail gas treatment system of the board purification cabin, because the concentration of formaldehyde in the tail gas discharged from the purification cabin is relatively low, and the temperature in the cabin is relatively high, therefore, the honeycomb ceramic catalysis block is mainly adopted as a catalyst in the tail gas treatment system to carry out catalytic combustion on the formaldehyde in the tail gas, therefore, the honeycomb channel of the ceramic catalysis block is blocked by the dust in the cabin, the tail gas treatment effect of the whole tail gas treatment system is ensured, and the operation and maintenance cost of the tail gas treatment system is reduced at the same time.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a panel clean cabin tail gas processing system's dust removal module for dust is clear away before getting into the catalytic reaction room in the tail gas in the clean cabin, and the dust content is high in the exhaust tail gas of clean cabin among the solution prior art, probably leads to the problem of the honeycomb passageway jam of ceramic catalysis piece.

In order to solve the technical problem, the utility model adopts the following scheme:

the utility model discloses a panel purifies cabin tail gas processing system's dust removal module, include with the clean room of the exhaust end intercommunication of the cabin body, be equipped with the dust removal cloth and the ion generator that are used for filtering the dust in the clean room, dust removal cloth sets gradually along waste gas flow direction with ion generator.

Optionally, the ion generator is embedded on the side wall of the dust chamber, and the output end of the ion generator faces the leeward side of the dust removing cloth.

Optionally, the cloth-collecting device further comprises a cloth-releasing rotary drum and a cloth-collecting rotary drum which are parallel to each other, the cloth-releasing rotary drum and the cloth-collecting rotary drum are respectively arranged on two opposite sides of the dust removal chamber, one end of the dust-removing cloth winds on the cloth-releasing rotary drum, the other end of the dust-removing cloth is fixed on the cloth-collecting rotary drum, and the ion generator is located between the cloth-releasing rotary drum and the cloth-collecting rotary drum.

Optionally, the clean room includes the clean room main part and puts the cloth ear room and receive the cloth ear room with the clean room main part intercommunication, put the cloth ear room and receive the cloth ear room and be used for the installation respectively put the cloth rotary drum with receive the cloth rotary drum.

Optionally, the cloth collecting device further comprises a clamping piece which is parallel to the dust removing cloth and is pressed against the leeward side of the dust removing cloth, and the clamping piece and the cloth collecting rotary drum are both arranged in the cloth collecting lug chamber;

the ion generator and the cloth placing rotary drum are located on the same side of the dust removing chamber, and the output end of the ion generator faces the clamping piece and the lee side of the dust removing cloth between the cloth collecting rotary drums.

Optionally, the blocking member includes a blocking lever, a blocking rotating shaft, or a blocking drum.

Optionally, the detent element is located upstream of the spreading drum or flush with it in the exhaust gas flow direction.

Optionally, the screens piece along waste gas flow direction with put the cloth rotary drum and flush the setting, put the cloth rotary drum with dust removal cloth between the screens piece is perpendicular with waste gas flow direction, the screens piece with receive dust removal cloth between the cloth rotary drum and waste gas flow direction parallel.

Optionally, the cloth placing rotary drum and the cloth collecting rotary drum are detachably arranged in the dust removing chamber.

Optionally, the cloth feeding device further comprises a cloth collecting motor for driving the cloth collecting rotary drum to rotate to collect the cloth, and the cloth releasing rotary drum is a damping rotary drum.

Optionally, the cloth collecting motor is a servo motor or a stepping motor.

The utility model has the advantages that:

the utility model discloses a panel purifies cabin tail gas processing system's dust removal module, include with the clean room of cabin body exhaust end intercommunication, be equipped with the dust removal cloth and the ion generator that are used for filtering the dust in the clean room, dust removal cloth sets gradually along waste gas flow direction with ion generator.

The effect is as follows: through set gradually dust removal cloth and ion generator along waste gas flow direction in the dust removal chamber, can carry out a lot of combination to the dust in the exhaust end exhaust tail gas of clean room and remove dust, effectively promote dust removal effect, avoid clean room exhaust end exhaust tail gas to get into catalytic reaction room after, form the honeycomb passageway to the honeycomb ceramic catalysis piece in the catalytic reaction room and block up, influence subsequent tail gas treatment effect.

Drawings

FIG. 1 is a schematic front view of the present embodiment;

fig. 2 is a schematic right-view structure diagram of the embodiment.

Description of reference numerals:

1-a dust removal chamber, 11-a dust removal chamber main body, 12-a cloth releasing lug chamber, 13-a cloth collecting lug chamber, 2-dust removal cloth, 3-an ion generator, 41-a cloth releasing rotary drum, 42-a cloth collecting rotary drum and 43-a clamping piece.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "longitudinal", "lateral", "horizontal", "inner", "outer", "front", "rear", "top", "bottom", etc. are directions or positional relationships based on the directions or positional relationships shown in the drawings, or directions or positional relationships conventionally placed when the products of the present invention are used, and are only for convenience of description of the present invention and simplification of the description, but not for indication or suggestion that the indicated device or element must have a specific direction, be constructed and operated in a specific direction, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it should be further noted that, unless otherwise explicitly specified or limited, the terms "disposed," "opened," "installed," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The invention is explained in detail below with reference to the figures and with reference to exemplary embodiments:

as shown in fig. 1 and 2, a dust removal module of a board purification cabin tail gas treatment system comprises a dust removal chamber 1 with an air inlet end communicated with an exhaust end of a cabin body, an air outlet end of the dust removal chamber 1 is communicated with an air inlet end of a heat exchange chamber of the tail gas treatment system, dust removal cloth 2 and an ion generator 3 for filtering dust are arranged in the dust removal chamber 1, and the dust removal cloth 2 and the ion generator 3 are sequentially arranged along a waste gas flowing direction. Through setting gradually dust removal cloth 2 and ion generator 3 along the waste gas flow direction in clean room 1, can carry out a lot of combination to the dust in the exhaust end exhaust tail gas of clean room and remove dust, effectively promote dust removal effect, avoid clean room exhaust end exhaust tail gas to get into the catalytic reaction room after, form the jam to the honeycomb passageway in the honeycomb ceramic catalysis piece in the catalytic reaction room, influence subsequent tail gas treatment effect. The dust removing cloth 2 and the ionizer 3 in this embodiment are commercially available dust removing cloth 2 and ionizer 3.

In a preferred embodiment, the ion generator 3 is embedded in the side wall of the dust removing chamber 1, and the output end of the ion generator 3 faces the leeward side of the dust removing cloth 2, in this embodiment, the dust removing cloth 2 is located at the upstream of the ion generator 3 along the flowing direction of the exhaust gas, so that most of the dust in the exhaust gas can be directly attached to the windward side of the dust removing cloth 2, and meanwhile, the output end of the ion generator 3 faces the leeward side of the dust removing cloth 2, so that the negative ions output by the ion generator 3 can be combined with the dust in the exhaust gas and then attached to the leeward side of the dust removing cloth 2, and a large amount of dust can be attached to both the windward side and the leeward side of the dust removing cloth 2, so that the windward side and the leeward side of the dust removing cloth 2 can be cooperatively utilized, thereby effectively improving the utilization efficiency of the dust removing cloth 2.

In a preferred embodiment, the dust removing device further comprises a cloth releasing rotating drum 41 and a cloth collecting rotating drum 42 which are parallel to each other, the cloth releasing rotating drum 41 and the cloth collecting rotating drum 42 are respectively arranged on two opposite sides of the dust removing chamber 1, one end of the dust removing cloth 2 is wound on the cloth releasing rotating drum 41, the other end of the dust removing cloth is fixed on the cloth collecting rotating drum 42, and the ion generator 3 is positioned between the cloth releasing rotating drum 41 and the cloth collecting rotating drum 42. Put cloth rotary drum 41 and receive cloth rotary drum 42 through the setting, and dust removal cloth 2 is around locating on putting cloth rotary drum 41, can be so that after dust removal cloth 2 filters the dust of a period, rotate through the drive rotary drum, make and receive cloth rotary drum 42 will be attached to the dust removal cloth 2 roll-up that has a large amount of dusts, simultaneously, make and put clean dust removal cloth 2 on the cloth rotary drum 41 and released, thereby avoided the frequent change of dust removal cloth 2, reduce fortune dimension cost.

In a preferred embodiment, the dust chamber 1 includes a dust chamber main body 11, and a cloth placing lug chamber 12 and a cloth receiving lug chamber 13 communicated with the dust chamber main body 11, wherein the cloth placing lug chamber 12 and the cloth receiving lug chamber 13 are respectively used for installing the cloth placing drum 41 and the cloth receiving drum 42. By arranging the cloth placing lug chamber 12 and the cloth collecting lug chamber 13, the cloth placing rotary drum 41 and the cloth collecting rotary drum 42 can be prevented from being arranged in the dust removal chamber main body 11 to influence the flow of tail gas and the dust removal effect.

In this embodiment, the side walls of the cloth releasing lug chamber 12 and the cloth receiving lug chamber 13 are respectively provided with a lug chamber cover capable of being opened and closed, and the cloth releasing rotary drum 41 and the cloth receiving rotary drum 42 can be replaced conveniently by arranging the lug chamber covers.

In a preferred embodiment, the dust removing device further comprises a blocking member 43 which is parallel to the dust removing cloth 2 and is pressed against the leeward side of the dust removing cloth 2, and the blocking member 43 and the cloth collecting rotary drum 42 are positioned in the cloth placing lug chamber 12;

the ion generator 3 and the cloth releasing rotary drum 41 are positioned on the same side of the dust chamber 1, and the output end of the ion generator 3 faces the leeward side of the dust removing cloth 2 between the clamping piece 43 and the cloth collecting rotary drum 42.

Through setting up and receiving the screens piece 43 that cloth rotary drum 42 is located same one side of clean room 1, and screens piece 43 supports and presses on the leeward side of dust cloth 2, can make dust cloth 2 use screens piece 43 to be divided into windward dust removal section and leeward dust collection section as the parting line, thereby make the dust removal of dust cloth 2 windward side and the collection dirt of leeward side be distinguished, make the dust removal of dust cloth 2 windward side and the collection dirt of leeward side be in the different regional position of clean room 1, thereby can avoid ion generator 3's output anion and dust to combine behind the leeward side of attaching to dust cloth 2, when the dust is attached to not steady enough, lead to the dust attached to the leeward side along with the problem that the waste gas that flows is blown away.

Optionally, the detent member 43 includes a detent lever or a detent pivot or a detent drum. When the clamping piece 43 is a clamping rod, two ends of the clamping rod are fixed on the side wall of the dust chamber 1; when screens piece 43 is the screens pivot, the both ends of screens pivot all rotate with the lateral wall of clean room 1 and be connected, and when screens piece 43 was the screens rotary drum, the screens rotary drum included that both ends are fixed in the fixed axle on the lateral wall of clean room 1, and the screens rotary drum still includes the cover and locates the fixed epaxial rotary drum, and the axis rotation on the fixed axle of screens rotary drum can follow its rotary drum.

Alternatively, the locking element 43 is located upstream of the spreading drum 41 in the exhaust gas flow direction or flush with it. When the blocking part 43 is positioned at the upstream of the cloth releasing rotary drum 41 along the flow direction of the waste gas, the included angle between the dust removing cloth 2 between the blocking part 43 and the cloth releasing rotary drum 41 and the flow direction of the waste gas is less than 90 degrees; when the blocking element 43 is flush with the cloth discharge drum 41 in the exhaust gas flow direction, the dust cloth 2 between the blocking element 43 and the cloth discharge drum 41 is perpendicular to the exhaust gas flow direction.

Optionally, the blocking member 43 is disposed flush with the cloth discharge rotating drum 41 in the exhaust gas flowing direction, the dust removing cloth 2 between the cloth discharge rotating drum 41 and the blocking member 43 is perpendicular to the exhaust gas flowing direction, and the dust removing cloth 2 between the blocking member 43 and the cloth collection rotating drum 42 is parallel to the exhaust gas flowing direction.

In a preferred embodiment, the cloth placing drum 41 and the cloth collecting drum 42 are both detachably disposed in the dust chamber 1. Put cloth rotary drum 41 and receive cloth rotary drum 42 and all can dismantle with clean room 1 and be connected, can be so that put the dust cloth 2 on the cloth rotary drum 41 and release the back, be convenient for put cloth rotary drum 41 and receive the change of cloth rotary drum 42.

Specifically, the cloth collecting device further comprises a cloth collecting motor for driving the cloth collecting rotary drum 42 to rotate and collect the cloth, and the cloth releasing rotary drum 41 is a rotary drum with damping. The cloth releasing rotary drum 41 has a certain damping, so that the dust removing cloth 2 between the cloth releasing rotary drum 41 and the cloth collecting rotary drum 42 is in a tense state, thereby achieving a better dust removing effect.

Specifically, the cloth collecting motor is a servo motor or a stepping motor. In particular, the cloth collecting motor in the embodiment is a stepping motor.

It is to be understood that the above embodiments are merely exemplary embodiments adopted to illustrate the principles of the present invention, and the present invention is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention, and such changes and modifications are to be considered as within the scope of the invention.

Claims (10)

1. The utility model provides a panel purifies cabin tail gas processing system's dust removal module which characterized in that, including dust removal chamber (1) with cabin body exhaust end intercommunication, be equipped with in dust removal chamber (1) and be used for filtering dust cloth (2) and ionizer (3), dust cloth (2) and ionizer (3) set gradually along the waste gas flow direction.

2. The dust removal module of a board purification cabin tail gas treatment system according to claim 1, characterized in that the ion generator (3) is embedded on the side wall of the dust removal chamber (1), and the output end of the ion generator (3) is arranged towards the lee side of the dust removal cloth (2).

3. The dust removal module of a board purge bin tail gas treatment system according to claim 1, further comprising a cloth releasing rotating drum (41) and a cloth receiving rotating drum (42) which are parallel to each other, wherein the cloth releasing rotating drum (41) and the cloth receiving rotating drum (42) are respectively disposed on two opposite sides of the dust removal chamber (1), one end of the dust removal cloth (2) is wound on the cloth releasing rotating drum (41), the other end of the dust removal cloth is fixed on the cloth receiving rotating drum (42), and the ion generator (3) is located between the cloth releasing rotating drum (41) and the cloth receiving rotating drum (42).

4. The dust removal module of a board cleaning cabin tail gas treatment system according to claim 3, characterized in that the dust removal chamber (1) comprises a dust removal chamber main body (11) and a cloth releasing lug chamber (12) and a cloth receiving lug chamber (13) communicated with the dust removal chamber main body (11), and the cloth releasing lug chamber (12) and the cloth receiving lug chamber (13) are respectively used for installing the cloth releasing rotary drum (41) and the cloth receiving rotary drum (42).

5. The dust removal module of the board cleaning cabin tail gas treatment system according to claim 4, further comprising a blocking member (43) parallel to the dust removal cloth (2) and pressed against the leeward side of the dust removal cloth (2), wherein the blocking member (43) and the cloth collection drum (42) are both arranged in the cloth collection lug chamber (13);

the ion generator (3) and the cloth placing rotary drum (41) are located on the same side of the dust removing chamber (1), and the output end of the ion generator (3) faces towards the lee side of the dust removing cloth (2) between the clamping piece (43) and the cloth collecting rotary drum (42).

6. The dust removal module of a panel-cleaning cabin tail gas treatment system according to claim 5, characterized in that the detent element (43) comprises a detent lever or a detent spindle or a detent drum.

7. The dust removal module of a panel-cleaning cabin tail gas treatment system according to claim 5, characterized in that the detent (43) is located upstream of the spreader drum (41) or flush therewith in the exhaust gas flow direction.

8. The dust removal module of a board purification cabin tail gas treatment system according to claim 7, characterized in that the blocking piece (43) is flush with the cloth discharge rotary drum (41) along the flow direction of the exhaust gas, the dust removal cloth (2) between the cloth discharge rotary drum (41) and the blocking piece (43) is perpendicular to the flow direction of the exhaust gas, and the dust removal cloth (2) between the blocking piece (43) and the cloth collection rotary drum (42) is parallel to the flow direction of the exhaust gas.

9. The dust removal module of a board clean room tail gas treatment system according to claim 3, characterized in that the cloth releasing rotary drum (41) and the cloth collecting rotary drum (42) are both detachably arranged in the dust removal chamber (1).

10. The dust removal module of a board clean room tail gas treatment system according to claim 3, further comprising a cloth collection motor for driving a cloth collection drum (42) to rotate for collecting cloth, wherein the cloth discharge drum (41) is a drum with damping.

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