CN210187999U - Sulfuration chamber waste gas collecting cover and sulfuration machine waste gas treatment system - Google Patents

Abstract

The utility model provides a cover and vulcanizer exhaust-gas treatment system are collected to vulcanization room waste gas belongs to tire curing equipment technical field, this vulcanization room waste gas is collected the cover and can be installed outside the vulcanization room of single vulcanizer under the prerequisite that does not change the vulcanizer structure, directly collect waste gas from the waste gas source, contain this vulcanizer exhaust-gas treatment system that the cover was collected to vulcanization room waste gas, can carry out high-efficient and accurate waste gas collection to single vulcanizer, and carry out exhaust-gas treatment in the concentration, the energy consumption is little, exhaust-gas treatment is with low costs. The waste gas collecting cover of the vulcanizing chamber comprises a first cover body sleeved outside the vulcanizing chamber of the vulcanizing machine, the first cover body is in a cylindrical shape with upper and lower ends open, the first cover body comprises an inner wall plate, an outer wall plate, a top plate and a bottom plate, a first waste gas collecting cavity is defined by the inner wall plate, the outer wall plate, the top plate and the bottom plate, a plurality of waste gas collecting holes communicated with the first waste gas collecting cavity are formed in the inner wall plate, and a first waste gas collecting pipe communicated with the first waste gas collecting cavity is connected to the top plate.

Description

Sulfuration chamber waste gas collecting cover and sulfuration machine waste gas treatment system

Technical Field

The utility model belongs to the technical field of tire curing equipment, especially, relate to a cover and vulcanizer exhaust treatment system are collected to vulcanization room waste gas.

Background

The main raw materials of the tire production are rubber, carbon black, sulfur, an accelerator, an anti-aging agent and the like, the emission of waste gas is large in the production process, the pollution components in the waste gas are complex and changeable, and particularly the foul components in the waste gas cause certain pollution to a factory and the surrounding environment.

How to realize the waste gas treatment of the vulcanizing machine group is a great subject which troubles many tire manufacturers, and some tire equipment manufacturers have researched in the aspect and are applied to a vulcanizing workshop at present. For example: patent CN208390614U discloses a sulfuration waste gas collecting hood, which is covered outside a vulcanizing machine cluster in a sulfuration workshop, however, it has large floor area, high cost, low collecting efficiency and huge energy consumption, and when a certain vulcanizing machine needs to be adjusted in parameters or maintained, an operator still can be damaged by waste gas when entering the operation of the sulfuration workshop. And patent CN206373142U provides a tire vulcanizer exhaust gas collection device, it installs upper and lower gas collecting hood respectively on upper and lower mould in order to collect waste gas, however, this kind of exhaust gas collection device's installation needs to reform transform the structure of vulcanizer, and the installation of upper and lower gas collecting hood is comparatively loaded down with trivial details.

Therefore, how to carry out efficient and accurate waste gas collection on a single vulcanizing machine on the premise of not changing the structure of the vulcanizing machine is a technical problem which is urgently needed to be solved at present.

SUMMERY OF THE UTILITY MODEL

The utility model aims at foretell technical problem, a vulcanize room waste gas and collect cover and vulcanizer exhaust-gas treatment system is proposed, this vulcanize room waste gas and collect the cover and can install outside the vulcanising room of single vulcanizer under the prerequisite that does not change the vulcanizer structure, directly collect waste gas from the waste gas source, waste gas spills over fewly, the collection efficiency is high, contain this vulcanize room waste gas and collect the vulcanizer exhaust-gas treatment system of cover, can carry out high-efficient and accurate waste gas collection to single vulcanizer, and carry out exhaust-gas treatment in the concentration, the energy consumption is little, exhaust-gas treatment is with low costs.

In order to achieve the above object, the utility model discloses a technical scheme be:

the utility model provides a sulfuration chamber waste gas collecting cover, which comprises a first cover body sleeved outside a sulfuration chamber of a sulfuration machine, wherein the first cover body is in a cylinder shape with both open upper and lower ends, the first cover body comprises an inner wall plate for forming the inner wall of the first cover body, an outer wall plate for forming the outer wall of the first cover body, a top plate connected between the top end edges of the inner wall plate and the outer wall plate, and a bottom plate connected between the bottom end edges of the inner wall plate and the outer wall plate; a first waste gas collecting cavity is defined by the inner wall plate, the outer wall plate, the top plate and the bottom plate, a plurality of waste gas collecting holes communicated with the first waste gas collecting cavity are formed in the inner wall plate, and a first waste gas collecting pipe communicated with the first waste gas collecting cavity is connected to the top plate.

Preferably, the first cover is connected with a connecting plate for connecting the vulcanizing chamber.

Preferably, a heat insulation layer is arranged between the inner wall plate and the outer wall plate.

Preferably, the thickness of the heat insulation layer is smaller than that of the first waste gas collecting cavity, and the heat insulation layer is attached to the inner wall plate; the height of the heat insulation layer is smaller than that of the inner wall plate, and the heat insulation layer is located in the middle of the inner wall plate.

Preferably, the waste gas collecting holes are arranged in a plurality of rows, and the waste gas collecting holes are distributed above and below the heat insulation layer in a plurality of rows.

The utility model also provides a vulcanizing machine waste gas treatment system, which comprises the vulcanizing chamber waste gas collecting cover, waste gas treatment equipment for treating waste gas and a first fan for providing suction power, wherein the vulcanizing chamber waste gas collecting cover is arranged on the vulcanizing chamber waste gas collecting cover; the waste gas treatment equipment is connected with the first waste gas collecting pipe through a waste gas conveying pipe, and the first fan is connected with the waste gas treatment equipment.

As preferred, the vulcanizer exhaust gas treatment system still collects the cover including unloading child waste gas, unload the child waste gas and collect the cover and locate the vulcanizer and unload the second cover body on the child roll table including the cover, the second cover body with unload and form the second waste gas between the child roll table and collect the chamber, the second cover body lies in two opposite side on the tire direction of delivery and all is equipped with and supplies the tire to get into or leave the soft curtain in chamber is collected to second waste gas, second cover body top be connected with the second waste gas collection pipe that the chamber is linked together is collected to second waste gas, the other end of second waste gas collection pipe connect in waste gas conveying pipe.

Preferably, the waste gas treatment equipment comprises a filter box and an adsorption tower which are connected in sequence, and the adsorption tower is filled with an adsorbent.

Preferably, the adsorption column includes a first adsorption column and a second adsorption column connected in parallel.

Preferably, the first adsorption tower and the second adsorption tower are both connected with regeneration equipment for adsorbent regeneration, and the regeneration equipment comprises a second fan for providing fresh air to desorb the adsorbent and catalytic combustion equipment for treating desorbed waste gas; the second fan, the adsorption tower and the catalytic combustion equipment are connected in sequence.

Compared with the prior art, the utility model discloses an advantage and beneficial effect lie in:

1. the utility model provides a vulcanization chamber waste gas collecting cover, through the first cover body that sets up can directly overlap and locate the vulcanization chamber of single vulcanizer, occupation space is little, simple to operate, need not to change the vulcanizer structure, also need not to change the overall arrangement of the original vulcanizer in the vulcanization workshop, its dead weight is lighter, is suitable for the vulcanization workshop of different operating modes of different scales;

2. in the waste gas collecting cover for the vulcanizing chamber, the first cover body is of a hollow structure, waste gas can be directly sucked into the first waste gas collecting cavity in the first cover body through the waste gas collecting hole formed by the inner wall plate when the vulcanizing chamber is opened, and then the waste gas can be led out through the first waste gas collecting pipe so as to be conveniently treated subsequently, the waste gas is directly collected from a waste gas source, the waste gas overflow is less, and the collecting efficiency is high;

3. the utility model provides a vulcanizer exhaust-gas treatment system, the waste gas that produces when providing suction through first fan and making the vulcanization room die sinking is sucked in vulcanization room waste gas collection cover, and then handles the waste gas of collecting through exhaust-gas treatment equipment, has realized that the required amount of wind is few to the high-efficient accurate collection and the centralized processing of the produced waste gas of single vulcanizer, can practice thrift the suction power energy consumption in a large number, and exhaust-gas treatment is with low costs.

Drawings

FIG. 1 is a schematic structural view of a waste gas collecting hood of a vulcanizing chamber provided by an embodiment of the present invention;

fig. 2 is a cross-sectional view of a first cover according to an embodiment of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a schematic structural diagram of a waste gas treatment system of a vulcanizer according to an embodiment of the present invention;

FIG. 5 is a schematic view of a vulcanizer provided with a waste gas collecting cover for a vulcanizing chamber and a waste gas collecting cover for a tire unloading;

in the above figures: 1. a sulfuration chamber waste gas collecting cover; 11. a first cover body; 111. an inner wall panel; 112. an outer wall panel; 113. a top plate; 114. a base plate; 115. a first exhaust gas collection chamber; 12. an exhaust gas collection aperture; 13. a first exhaust gas collection pipe; 14. an exhaust gas outlet; 15. a connecting plate; 16. an opening; 17. a thermal insulation layer; 2. a vulcanizer; 21. a vulcanization chamber; 22. a tire unloading roller way; 3. an exhaust gas delivery pipe; 4. an exhaust gas treatment device; 41. a filter box; 42. an adsorption tower; 421. a first adsorption tower; 422. a second adsorption column; 5. a first fan; 6. a regeneration device; 61. a second fan; 62. a catalytic combustion device; 7. a tire unloading waste gas collecting cover; 71. a second cover body; 72. a soft curtain; 73. a second exhaust gas collection pipe.

Detailed Description

The present invention is specifically described below by way of exemplary embodiments. It should be understood, however, that elements, structures and features of one embodiment may be beneficially incorporated in other embodiments without further recitation.

In the description of the present invention, it should be noted that the terms "inside", "outside", "upper", "lower", "top", "bottom", etc. indicate the positional relationship based on the positional relationship shown in fig. 2, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-2, the embodiment of the present invention relates to a vulcanizing chamber waste gas collecting cover 1, which comprises a first cover 11 sleeved outside a vulcanizing chamber 21 of a vulcanizing machine 2, wherein the first cover 11 is in a cylindrical shape with both upper and lower ends open, the first cover 11 comprises an inner wall plate 111 for forming an inner wall of the first cover 11, an outer wall plate 112 for forming an outer wall of the first cover 11, a top plate 113 connected between the top end edges of the inner wall plate 111 and the outer wall plate 112, and a bottom plate 114 connected between the bottom end edges of the inner wall plate 111 and the outer wall plate 112; a first waste gas collecting cavity 115 is defined by the inner wall plate 111, the outer wall plate 112, the top plate 113 and the bottom plate 114, a plurality of waste gas collecting holes 12 communicated with the first waste gas collecting cavity 115 are formed in the inner wall plate 111, and a first waste gas collecting pipe 13 communicated with the first waste gas collecting cavity 115 is connected to the top plate 113.

Above-mentioned cover 1 is collected to vulcanization room waste gas, outside the vulcanization room 21 of single vulcanizer 2 can directly be located to the cover body 11 through the first that sets up, occupation space is little, simple to operate need not to change vulcanizer 2 structure, also need not to change the overall arrangement of the original vulcanizer in vulcanization workshop, and its dead weight is lighter, is suitable for the vulcanization workshop of the different operating modes of different scales. Moreover, among the above-mentioned cover 1 is collected to vulcanization room waste gas, first cover body 11 is hollow structure, and the waste gas collecting hole 12 that sets up through interior wallboard 111 can be when 21 die sinking of vulcanization room directly with waste gas suction first cover body 11 inside first waste gas collection chamber 115 in, and then accessible first waste gas collecting pipe 13 is derived waste gas so that follow-up processing, and it directly collects waste gas from the waste gas source, and waste gas overflows less, collection efficiency is high.

In the above-mentioned waste gas collecting hood 1 for a vulcanizing chamber, it should be noted that the first hood 11 is integrally formed by welding the inner wall plate 111, the outer wall plate 112, the top plate 113 and the bottom plate 114, and the vulcanizing chamber 21 needs to be connected with a pipeline such as a steam pipe, so that the opening 16 for passing various pipelines such as a steam pipe is formed on the first hood 11 to avoid affecting the normal operation of the vulcanizing machine 2. In order to facilitate the exhaust gas to be led out from the first exhaust gas collecting cavity 115, a plurality of exhaust gas outlet ports 14 for connecting the first exhaust gas collecting pipe 13 may be disposed on the top plate 113 of the first cover 11, and the plurality of exhaust gas outlet ports 14 are uniformly distributed along the circumferential direction of the first cover 11, in this embodiment, specifically, 4 exhaust gas outlet ports 14 are disposed to facilitate the exhaust gas to be led out.

In order to facilitate the installation of the waste gas collecting hood 1 of the vulcanizing chamber outside the vulcanizing chamber 21, it is preferable that a connecting plate 15 for connecting the vulcanizing chamber 21 is connected to the first hood 11 as shown in fig. 1. During the installation, connect connecting plate 15 in vulcanization chamber 21 outer wall through the bolt, can accomplish the installation of vulcanization chamber waste gas collection cover 1 and fix, simultaneously, the vulcanization chamber waste gas collection cover 1 of installation like this can remove along with vulcanization chamber 21, can not hinder tire vulcanization operation. It should be noted that, the connecting plate 15 can be provided in a plurality of numbers, and a plurality of connecting plates 15 are evenly distributed along the circumference of the first cover 11, and specifically, 4 connecting plates 15 are provided in this embodiment, and 4 connecting plates 15 are evenly distributed along the circumference of the first cover 11. In the present embodiment, the connecting plate 15 is welded on the top plate 113 of the first housing 11, it should be understood that the connecting plate 15 can also be connected on the bottom plate 114 or the inner wall plate 111 of the first housing 11, as long as the first housing 11 is conveniently installed outside the vulcanizing chamber 21 and the normal operation and running of the vulcanizing machine 2 are not hindered.

Further, as shown in fig. 3, a heat insulating layer 17 is provided between the inner wall plate 111 and the outer wall plate 112. After thermal-insulated layer 17 is add, this vulcanization room waste gas is collected cover 1 and can be played the waste gas and collect the effect, still can play the effect of keeping warm to vulcanization room 21, can directly replace the thermal-insulated protection casing that sets up outside vulcanization room 21 to but direct mount need not to set up new mounted position on vulcanizer 2 in the mounted position of former thermal-insulated protection casing, the installation of being more convenient for.

In order to ensure that the waste gas collecting hood 1 of the vulcanizing chamber can take both the waste gas collecting and heat insulating functions into consideration, as shown in fig. 3, preferably, the thickness of the heat insulating layer 17 is smaller than that of the first waste gas collecting cavity 115, the heat insulating layer 17 is attached to the inner wall plate 111, the height of the heat insulating layer 17 is smaller than that of the inner wall plate 111, and the heat insulating layer 17 is located in the middle of the inner wall plate 111 so as to leave a sufficient waste gas collecting space.

Further, as shown in fig. 2 and 3, the exhaust gas collecting holes 12 are arranged in multiple rows, and the multiple rows of exhaust gas collecting holes 12 are distributed above and below the heat insulating layer 17 to prevent the heat insulating layer 17 from affecting the collection of the exhaust gas. In this embodiment, the upper side of the heat insulating layer 17 is provided with one row of waste gas collecting holes 12, and the lower side is provided with two rows of waste gas collecting holes 12, so as to collect waste gas more efficiently.

As shown in fig. 4 and 5, the embodiment of the present invention further relates to a waste gas treatment system of a vulcanizing machine, which comprises the above waste gas collecting cover 1 of the vulcanizing chamber, a waste gas treatment device 4 for treating waste gas, and a first fan 5 for providing suction power; the exhaust gas treatment device 4 is connected to a first exhaust gas collecting pipe 13 through an exhaust gas conveying pipe 3, and a first fan 5 is connected to the exhaust gas treatment device 4.

Above-mentioned vulcanizer exhaust-gas treatment system provides the waste gas that produces when suction makes vulcanization chamber 21 die sinking through first fan 5 and is inhaled vulcanization chamber waste gas and collect in the cover 1, and then handles the waste gas of collecting through exhaust-gas treatment equipment 4, has realized that required amount of wind is few to the high-efficient accurate collection and the concentrated processing of single vulcanizer 2 produced waste gas, can practice thrift the aerodynamic energy consumption in a large number, and exhaust-gas treatment is with low costs.

In order to fully collect the residual waste gas on the vulcanized tire, as a preferable choice, as shown in fig. 5, the waste gas treatment system of the vulcanizing machine further includes a tire unloading waste gas collecting cover 7, the tire unloading waste gas collecting cover 7 includes a second cover body 71 covering the tire unloading roller way 22 of the vulcanizing machine 2, a second waste gas collecting cavity is formed between the second cover body 71 and the tire unloading roller way 22, two opposite side surfaces of the second cover body 71 in the tire conveying direction are respectively provided with a soft curtain 72 for the tire to enter or leave the second waste gas collecting cavity, the top of the second cover body 71 is connected with a second waste gas collecting pipe 73 communicated with the second waste gas collecting cavity, and the other end of the second waste gas collecting pipe 73 is connected to the waste gas conveying pipe 3.

As for the exhaust gas treatment device 4, as shown in fig. 4, the exhaust gas treatment device 4 includes a filter tank 41 and an adsorption tower 42 connected in sequence, and the adsorption tower 42 is filled with an adsorbent. Particulate matters such as smoke and dust in the waste gas can be got rid of to the rose box 41 of setting, and harmful substance such as Volatile Organic Compounds (VOCs) in the adsorption tower 42 of setting can adsorbing waste gas has realized the processing of vulcanization waste gas. In the present embodiment, the adsorbent to be loaded is an activated carbon adsorbent, but those skilled in the art may also load other types of adsorbents. Preferably, as shown in fig. 4, the adsorption tower 42 includes a first adsorption tower 421 and a second adsorption tower 422 connected in parallel, when the adsorbent of the first adsorption tower 421 loses its effectiveness, the adsorption tower is switched to the second adsorption tower 422 for adsorption, and the first adsorption tower 421 performs a regeneration operation, so as to realize a continuous process. It should be noted that, the switching operation during the double-column adsorption is well known by those skilled in the art, and is not an improvement point of the present application, and is not described herein again. It is understood that the embodiment of the present invention is not limited to the above-mentioned exhaust gas treatment device 4, and those skilled in the art may also adopt other exhaust gas treatment devices 4 as long as they can treat the exhaust gas generated by the vulcanization. In order to facilitate the regeneration of the adsorbent, as shown in fig. 4, the first adsorption tower 421 and the second adsorption tower 422 are both connected with a regeneration device 6 for regenerating the adsorbent, and the regeneration device 6 comprises a second fan 61 for providing fresh air to desorb the adsorbent and a catalytic combustion device 62 for treating the desorbed exhaust gas; the second fan 61, the adsorption tower 42 and the catalytic combustion device 62 are connected in sequence.

The working process of the waste gas treatment system of the vulcanizing machine is as follows:

the vulcanizing machine 2 finishes vulcanizing, the first fan 5 is started, the vulcanizing chamber waste gas collecting cover 1 starts to collect waste gas generated by vulcanizing, then the mold opening is carried out, the mold opening is stopped for 3-5 seconds at the beginning of the mold opening so as to collect and convey a large amount of waste gas, then the mold opening is continued, the first fan 5 and the vulcanizing chamber waste gas collecting cover 1 continuously work in the mold opening process, when the tire is unloaded to the tire unloading roller way 22 by the tire unloading trolley, the waste gas is collected by the tire unloading waste gas collecting cover 7, the tire is always placed in the tire unloading waste gas collecting cover 7 for cooling, and the vulcanizing machine 2 normally loads the tire to enter the next pot vulcanizing stage. The collected exhaust gas is delivered to the exhaust gas treatment device 4 through the first exhaust gas collection pipe 13 and the second exhaust gas collection pipe 73, specifically, the exhaust gas is delivered to the filter box 41 to remove particulate matters such as soot, and then enters the adsorption tower 42. After adsorption tower 42 is full load, start second fan 61 and carry the new trend to adsorption tower 42 so that the adsorbent desorption, the waste gas of desorption gets into catalytic combustion equipment 62 and becomes carbon dioxide and water through catalytic combustion, then the evacuation or as the new trend of adsorbent desorption.

Claims (10)

1. The cover is collected to vulcanization room waste gas, its characterized in that: the first cover body is sleeved outside a vulcanizing chamber of the vulcanizing machine, is cylindrical and has upper and lower open ends, and comprises an inner wall plate for forming the inner wall of the first cover body, an outer wall plate for forming the outer wall of the first cover body, a top plate connected between the top end edges of the inner wall plate and the outer wall plate, and a bottom plate connected between the bottom end edges of the inner wall plate and the outer wall plate; a first waste gas collecting cavity is defined by the inner wall plate, the outer wall plate, the top plate and the bottom plate, a plurality of waste gas collecting holes communicated with the first waste gas collecting cavity are formed in the inner wall plate, and a first waste gas collecting pipe communicated with the first waste gas collecting cavity is connected to the top plate.

2. The curing chamber exhaust collection hood as set forth in claim 1, wherein: and the first cover body is connected with a connecting plate for connecting the vulcanizing chamber.

3. The vulcanization chamber exhaust gas collection hood according to claim 1 or 2, wherein: and a heat insulation layer is arranged between the inner wall plate and the outer wall plate.

4. The curing chamber exhaust collection hood as set forth in claim 3, wherein: the thickness of the heat insulation layer is smaller than that of the first waste gas collecting cavity, and the heat insulation layer is attached to the inner wall plate; the height of the heat insulation layer is smaller than that of the inner wall plate, and the heat insulation layer is located in the middle of the inner wall plate.

5. The curing chamber exhaust collection hood as set forth in claim 4, wherein: the waste gas collecting holes are arranged in a plurality of rows, and the waste gas collecting holes are distributed above and below the heat insulation layer in the plurality of rows.

6. Vulcanizer exhaust treatment system, its characterized in that: comprising a vulcanization chamber exhaust gas collection hood according to any one of claims 1 to 5, an exhaust gas treatment device for treating exhaust gas, and a first fan for supplying suction power; the waste gas treatment equipment is connected with the first waste gas collecting pipe through a waste gas conveying pipe, and the first fan is connected with the waste gas treatment equipment.

7. The vulcanizer exhaust gas treatment system as set forth in claim 6, wherein: the vulcanizer exhaust gas treatment system still collects the cover including unloading child waste gas, unload child waste gas and collect the cover and locate the vulcanizer and unload the second cover body on the child roll table including the cover, the second cover body with unload and form second waste gas between the child roll table and collect the chamber, the second cover body lies in two opposite flanks on the tire direction of delivery and all is equipped with and supplies the tire to get into or leave the soft curtain in chamber is collected to second waste gas, second cover body top be connected with the second waste gas is collected the second waste gas collecting pipe that the chamber is linked together, the other end of second waste gas collecting pipe connect in waste gas conveying pipe.

8. The vulcanizer exhaust gas treatment system according to claim 6 or 7, wherein: the waste gas treatment equipment comprises a filter box and an adsorption tower which are sequentially connected, wherein the adsorption tower is filled with an adsorbent.

9. The vulcanizer exhaust gas treatment system as set forth in claim 8, wherein: the adsorption tower comprises a first adsorption tower and a second adsorption tower which are connected in parallel.

10. The vulcanizer exhaust gas treatment system as set forth in claim 9, wherein: the first adsorption tower and the second adsorption tower are both connected with regeneration equipment for adsorbent regeneration, and the regeneration equipment comprises a second fan for providing fresh air to desorb the adsorbent and catalytic combustion equipment for treating desorbed waste gas; the second fan, the adsorption tower and the catalytic combustion equipment are connected in sequence.

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