CN213528131U

CN213528131U - Ozone aging testing equipment exhaust treatment device

Info

Publication number: CN213528131U
Application number: CN202022100442.7U
Authority: CN
Inventors: 周中明; 吴静萍; 李吉祥
Original assignee: Wuxi Xisuoyate Test Equipment Co ltd
Current assignee: Wuxi Xisuoyate Test Equipment Co ltd
Priority date: 2020-09-23
Filing date: 2020-09-23
Publication date: 2021-06-25
Anticipated expiration: 2030-09-23

Abstract

The utility model discloses an ozone aging testing equipment exhaust treatment device, including back organism, organism and the mouth that advances, the front end of organism is provided with preceding import, and the rear end of organism is provided with back organism to the upper portion of back organism is provided with the export, has set gradually dehumidification room, catalytic reaction room, adsorption chamber and cooling chamber in the organism from left to right simultaneously, and four corners in the bottom surface of organism all are provided with the supporting legs. This ozone aging testing equipment exhaust treatment device, the structure sets up rationally, ozone gas is conveniently introduced through the first turbofan in the front inlet, make ozone gas in the organism dehumidify in the back dehumidification layer in proper order, catalytic decomposition in the catalytic reaction room, the absorption is filtered in the adsorption chamber, later the safe cooling of passing through tube fin cooler again, conveniently discharge fast through the second turbofan in the back organism again, it is convenient to handle ozone gas, high durability and convenient use, convenient long-term the use, help reducing economic cost.

Description

Ozone aging testing equipment exhaust treatment device

Technical Field

The utility model relates to an ozone aging testing technical field specifically is an ozone aging testing equipment exhaust treatment device.

Background

After the ozone aging test, the generated ozone waste gas can not be directly discharged into the atmosphere, if the ozone waste gas is directly discharged, serious environmental pollution is caused, but a chemical method and an electric heating decomposition method are generally adopted in the existing ozone waste gas treatment, the first safety coefficient is low, the efficiency is low, the second manufacturing cost is high, and the cost is increased.

In order to solve the defect and the not enough that ozone aging test exists that provide above, the structure sets up rationally, ozone gas is conveniently introduced through the first turbofan in the front import, make ozone gas pass through dehumidification in the back dehumidification layer in proper order in the organism, catalytic decomposition in the catalytic reaction room, the absorption is filtered in the adsorption chamber, later pass through the safe cooling of tube fin cooler again, the second turbofan through in the back organism of the rethread convenience is quick to be discharged, it is convenient to handle the ozone gas, high durability and convenient use, the convenience is used for a long time, help reducing economic cost, thereby provide an ozone aging test equipment exhaust treatment device.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in overcoming the ozone exhaust-gas treatment of prior art and generally adopting chemistry method and electrical heating decomposition method, first factor of safety is low, inefficiency, and second kind cost is high, leads to the defect that the cost improves, provides an ozone aging testing equipment exhaust treatment device. The utility model provides an ozone aging testing equipment exhaust treatment device has that the structure sets up rationally, ozone gas is conveniently introduced through the first turbofan in the front inlet, make ozone gas pass through dehumidification in the back dehumidification layer in proper order in the organism, catalytic decomposition in the catalytic reaction room, the absorption is filtered in the adsorption chamber, later pass through the safe cooling of tube fin cooler again, conveniently discharge fast through the second turbofan in the back organism again, it is convenient to handle ozone gas, high durability and convenient use, convenient long-term use, help reducing characteristics such as economic cost.

In order to achieve the above object, the utility model provides a following technical scheme: the waste gas treatment device of the ozone aging test equipment comprises a rear machine body, a machine body and a front inlet, wherein the front end of the machine body is provided with a front inlet, the rear end of the machine body is provided with a rear machine body, the upper part of the rear machine body is provided with an outlet, a dehumidification chamber, a catalytic reaction chamber, an adsorption chamber and a cooling chamber are sequentially arranged in the machine body from left to right, and supporting legs are arranged at four corners of the bottom surface of the machine body;

the front side of the dehumidification chamber is provided with a first cabinet door, the front side of the catalytic reaction chamber is provided with a second cabinet door, the front side of the adsorption chamber is provided with a third cabinet door, the front side of the cooling chamber is provided with a fourth cabinet door, and the upper part and the lower part of the fourth cabinet door are provided with a group of heat dissipation windows.

Preferably, a first turbofan is mounted inside the front inlet, a first filter screen is arranged on the rear end face of the first turbofan, and the front inlet is communicated with the dehumidification chamber.

Preferably, the middle part of the left side surface of the dehumidification chamber is provided with a front dehumidification layer, the inner side wall of the dehumidification chamber is provided with a rear dehumidification layer, a third port is arranged between the dehumidification chamber and the catalytic reaction chamber, and the dehumidification chamber and the catalytic reaction chamber are communicated with each other.

Preferably, the middle part of catalytic reaction chamber is provided with two sets of horizontal catalyst layers, parallel arrangement about two sets of horizontal catalyst layers, and install three vertical catalyst layers of group between the horizontal catalyst layer of top and the top of catalytic reaction chamber to install three vertical catalyst layers of group between the horizontal catalyst layer of below and the bottom surface of catalytic reaction chamber, the rear end of two sets of horizontal catalyst layers is fixed on well baffle simultaneously, and is provided with the second opening between the top surface of well baffle and catalytic reaction chamber, is provided with first opening between the interior bottom surface of well baffle and catalytic reaction chamber.

Preferably, install active adsorption layer in the adsorption chamber, and the rear end of active adsorption layer is fixed between last baffle and lower baffle to install the tube fin cooler in the cooling chamber, transport the nozzle stub before the left surface middle part of tube fin cooler is provided with the multiunit, transport the nozzle stub after the right side door middle part of tube fin cooler is provided with the multiunit, install radiator fan and radiator fan down on the leading flank of tube fin cooler simultaneously.

Preferably, an inner pipe body is arranged in the rear machine body, a clean air conveying channel is arranged in the inner pipe body, a protective layer is arranged on the outer side face of the inner pipe body, the upper end of the protective layer is communicated with the outlet, a second turbofan is arranged in the upper portion of the rear machine body, and a second filter screen is arranged on the lower end face of the second turbofan.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the waste gas treatment device of the ozone aging test equipment is reasonable in overall structure arrangement, the equipment is mainly provided with an organism, a front inlet and a rear organism are respectively arranged at the front end and the rear end of the organism, ozone gas is conveniently introduced through a first turbofan in the front inlet, so that the ozone gas sequentially passes through dehumidification in a rear dehumidification layer, catalytic decomposition in a catalytic reaction chamber, adsorption and filtration in an adsorption chamber in the organism, then is safely cooled through a pipe fin cooler, and is conveniently and quickly discharged through a second turbofan in the rear organism, the ozone gas treatment is convenient, and the use is convenient;

2. this equipment installs first cabinet door, second cabinet door, third cabinet door and fourth cabinet door in proper order at the leading flank of dehumidification room, catalytic reaction room, adsorption chamber and cooling chamber to change and fill and filtering material, help long-term the use, help reducing economic cost.

Drawings

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

FIG. 2 is a left side view of the structure of the present invention;

FIG. 3 is a schematic top view of the structure of the present invention;

fig. 4 is a schematic sectional structure diagram of the structure of the present invention.

Reference numbers in the figures: 1. a first turbofan; 2. a first filter screen; 3. a front desiccant layer; 4. a post dehumidification layer; 5. a dehumidification chamber; 6. a catalytic reaction chamber; 7. a vertical catalyst layer; 8. a lateral catalyst layer; 9. a first port; 10. an active adsorption layer; 11. an adsorption chamber; 12. a lower baffle plate; 13. a front conveying short pipe; 14. a tube fin cooler; 15. a lower heat dissipation fan; 16. a cooling chamber; 17. a rear body; 18. a clean gas delivery path; 19. a protective layer; 20. an inner tube body; 21. a second filter screen; 22. a second turbofan; 23. an outlet; 24. a rear conveying short pipe; 25. an upper heat dissipation fan; 26. an upper baffle plate; 27. a second port; 28. a middle baffle plate; 29. a third port; 30. a body; 31. an inlet; 32. supporting legs; 33. a first cabinet door; 34. a second cabinet door; 35. a third cabinet door; 36. a fourth cabinet door; 37. and a heat dissipation window.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an ozone aging test equipment exhaust treatment device comprises a first turbofan 1, a first filter screen 2, a front dehumidification layer 3, a rear dehumidification layer 4, a dehumidification chamber 5, a catalytic reaction chamber 6, a vertical catalyst layer 7, a transverse catalyst layer 8, a first through opening 9, an active adsorption layer 10, an adsorption chamber 11, a lower baffle plate 12, a front conveying short pipe 13, a pipe fin cooler 14, a lower heat radiation fan 15, a cooling chamber 16, a rear machine body 17, a purified gas conveying channel 18, a protective layer 19, an inner pipe body 20, a second filter screen 21, a second turbofan 22, an outlet 23, a rear conveying short pipe 24, an upper heat radiation fan 25, an upper baffle plate 26, a second through opening 27, a middle baffle plate 28, a third through opening 29, a machine body 30, a forward opening 31, a support leg 32, a first cabinet door 33, a second cabinet door 34, a third cabinet door 35, a fourth cabinet door 36 and a heat radiation window 37, wherein the front end of the machine body 30 is provided with a front inlet 31, a first turbofan 1 is installed inside a front inlet 31, a first filter screen 2 is arranged on the rear end face of the first turbofan 1, the front inlet 31 is communicated with a dehumidification chamber 5, a rear body 17 is arranged at the rear end of the body 30, an inner body 20 is arranged in the rear body 17, a clean air conveying channel 18 is arranged in the inner body 20, a protective layer 19 is arranged on the outer side face of the inner body 20, the upper end of the protective layer 19 is communicated with an outlet 23, a second turbofan 22 is installed in the upper portion of the rear body 17, a second filter screen 21 is arranged on the lower end face of the second turbofan 22, an outlet 23 is arranged on the upper portion of the rear body 17, a dehumidification chamber 5, a catalytic reaction chamber 6, an adsorption chamber 11 and a cooling chamber 16 are sequentially arranged in the body 30 from left to right, supporting legs 32 are arranged at four corners of the bottom face of the body 30, a first cabinet door 33 is installed on the front side face of the dehumidification chamber, a second cabinet door 34 is installed on the front side surface of the catalytic reaction chamber 6, a third cabinet door 35 is installed on the front side surface of the adsorption chamber 11, a fourth cabinet door 36 is installed on the front side surface of the cooling chamber 16, a group of heat radiation windows 37 are respectively arranged on the upper part and the lower part of the fourth cabinet door 36, a front dehumidification layer 3 is arranged in the middle of the left side surface of the dehumidification chamber 5, a rear dehumidification layer 4 is arranged on the inner side wall of the dehumidification chamber 5, a third through hole 29 is arranged between the dehumidification chamber 5 and the catalytic reaction chamber 6, the dehumidification chamber 5 and the catalytic reaction chamber 6 are communicated, two groups of transverse catalyst layers 8 are arranged in the middle of the catalytic reaction chamber 6, the two groups of transverse catalyst layers 8 are arranged in parallel up and down, three groups of vertical catalyst layers 7 are installed between the upper transverse catalyst layer 8 and the top of the catalytic reaction chamber 6, and three groups of vertical catalyst layers 7 are installed between the lower transverse catalyst layer 8 and the bottom, meanwhile, the rear ends of the two groups of transverse catalyst layers 8 are fixed on the middle baffle 28, a second through hole 27 is formed between the middle baffle 28 and the top surface of the catalytic reaction chamber 6, a first through hole 9 is formed between the middle baffle 28 and the inner bottom surface of the catalytic reaction chamber 6, an active adsorption layer 10 is installed in the adsorption chamber 11, the rear end of the active adsorption layer 10 is fixed between the upper baffle 26 and the lower baffle 12, a tube fin cooler 14 is installed in the cooling chamber 16, multiple groups of front conveying short tubes 13 are arranged in the middle of the left side surface of the tube fin cooler 14, multiple groups of rear conveying short tubes 24 are arranged in the middle of the right side door of the tube fin cooler 14, and an upper cooling fan 25 and a lower cooling fan 15 are installed on the front side surface of the tube fin cooler 14.

As shown in fig. 1-4, showing the overall structure arrangement of the apparatus, the apparatus is mainly provided with a body 30, a front inlet 31 and a rear body 17 are respectively arranged at the front end and the rear end of the body 30, ozone gas is conveniently introduced through a first turbofan 1 in the front inlet 31, so that the ozone gas sequentially passes through dehumidification in a rear dehumidification layer 4, catalytic decomposition in a catalytic reaction chamber 6, adsorption and filtration in an adsorption chamber 11 in the body 30, then passes through safe cooling of a tube fin cooler 14, and is conveniently and rapidly discharged through a second turbofan 22 in the rear body 17, and the ozone gas is conveniently treated and used;

this equipment installs first cabinet door 33, second cabinet door 34, third cabinet door 35 and fourth cabinet door 36 in proper order at the leading flank of dehumidification room 5, catalytic reaction room 6, adsorption chamber 11 and cooling chamber 16 to change and fill and filtering material, help long-term the use, help reducing economic cost.

The working principle is as follows: when the ozone aging test equipment exhaust gas treatment device is used, ozone gas is conveyed into the front inlet 31 through a pipeline, the ozone gas is conveniently and quickly introduced through the rotation of the first turbofan 1, and can be subjected to dehumidification treatment of the front dehumidification layer 3 and the rear dehumidification layer 4 in the dehumidification chamber 5 to help dry the gas, and then the gas enters the catalytic reaction chamber 6 through the third port 29, can be subjected to catalytic decomposition of the vertical catalyst layer 7 and the transverse catalyst layer 8, and the decomposed gas enters the adsorption chamber 11 through the second ports 27 and the first ports 9 on the upper side and the lower side, is adsorbed by the active adsorption layer 10 to remove residual ozone, and then is conveyed into the tube fin cooler 14 through the front conveying short pipe 13, is subjected to safe cooling of the tube fin cooler 14 to reduce the temperature, and then is conveyed through the inner pipe body 20.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an ozone aging testing equipment exhaust treatment device, includes back organism (17), organism (30) and advances mouthful (31), its characterized in that: the front end of the machine body (30) is provided with a front inlet (31), the rear end of the machine body (30) is provided with a rear machine body (17), the upper part of the rear machine body (17) is provided with an outlet (23), meanwhile, a dehumidification chamber (5), a catalytic reaction chamber (6), an adsorption chamber (11) and a cooling chamber (16) are sequentially arranged in the machine body (30) from left to right, and supporting legs (32) are arranged at four corners of the bottom surface of the machine body (30);

first cabinet door (33) is installed to the leading flank of dehumidification room (5), and the leading flank of catalytic reaction room (6) installs second cabinet door (34) to the leading flank of adsorption chamber (11) installs third cabinet door (35), and the leading flank of cooling chamber (16) installs fourth cabinet door (36) simultaneously, and the upper and lower two portions of fourth cabinet door (36) all are provided with a set of heat dissipation window (37).

2. The exhaust gas treatment device of the ozone aging test equipment according to claim 1, characterized in that: the internal installation of preceding import (31) has first turbofan (1), and the rear end face of first turbofan (1) is provided with first filter screen (2) to be linked together the setting between preceding import (31) and dehumidification room (5).

3. The exhaust gas treatment device of the ozone aging test equipment according to claim 1, characterized in that: the dehumidification layer (3) before being provided with in the middle part of the left surface of dehumidification room (5), and be provided with back dehumidification layer (4) on the inside wall of dehumidification room (5) to be provided with third opening (29) between dehumidification room (5) and catalytic reaction room (6), be linked together the setting between dehumidification room (5) and catalytic reaction room (6) simultaneously.

4. The exhaust gas treatment device of the ozone aging test equipment according to claim 1, characterized in that: the middle part of catalytic reaction room (6) is provided with two sets of horizontal catalyst layer (8), parallel arrangement about two sets of horizontal catalyst layer (8), and install three vertical catalyst layer (7) of group between the top of horizontal catalyst layer (8) of top and catalytic reaction room (6), and install three vertical catalyst layer (7) of group between the bottom surface of horizontal catalyst layer (8) of below and catalytic reaction room (6), the rear end of two sets of horizontal catalyst layer (8) is fixed on well baffle (28) simultaneously, and be provided with second opening (27) between the top surface of well baffle (28) and catalytic reaction room (6), be provided with first opening (9) between the interior bottom surface of well baffle (28) and catalytic reaction room (6).

5. The exhaust gas treatment device of the ozone aging test equipment according to claim 1, characterized in that: install active adsorption layer (10) in adsorption chamber (11), and the rear end of active adsorption layer (10) is fixed between last baffle (26) and lower baffle (12), and install tube fin cooler (14) in cooling chamber (16), carry nozzle stub (13) before the left surface middle part of tube fin cooler (14) is provided with the multiunit, carry nozzle stub (24) after the right side door middle part of tube fin cooler (14) is provided with the multiunit, install radiator fan (25) and radiator fan (15) down on the leading flank of tube fin cooler (14) simultaneously.

6. The exhaust gas treatment device of the ozone aging test equipment according to claim 1, characterized in that: an inner pipe body (20) is arranged in the rear machine body (17), a clean air conveying channel (18) is arranged in the inner pipe body (20), a protective layer (19) is arranged on the outer side face of the inner pipe body (20), the upper end of the protective layer (19) is communicated with an outlet (23) and is arranged, a second turbofan (22) is installed in the upper portion of the rear machine body (17), and a second filter screen (21) is arranged on the lower end face of the second turbofan (22).