CN222605777U - Large-air-volume integrated filter cylinder dust removal equipment - Google Patents

Abstract

The utility model relates to a large-volume integrated filter cartridge dust removal device. The large-volume integrated filter cartridge dust removal device includes a casing structure, a filter cartridge assembly, a fan and an ash hopper. A partition structure is provided inside the casing structure to divide the space inside the casing structure into a filter chamber, a fan chamber and an ash collecting chamber. An air inlet connecting the filter chamber and the fan chamber and an ash collecting port connecting the filter chamber and the ash collecting chamber are provided on the partition structure. The filter cartridge assembly is installed horizontally in the filter chamber and is located above the ash collecting port. The open end of the filter cartridge assembly is connected to the air inlet. The fan assembly is installed in the fan chamber. The air outlet of the fan is connected to the exhaust port. The air inlet of the fan is located in the fan chamber. The ash collecting hopper is installed in the ash collecting chamber. The large end of the ash collecting hopper is connected to the ash collecting port. The above-mentioned large-volume integrated filter cartridge dust removal device has the advantages of simple structure and small footprint.

Description

Large-air-volume integrated filter cylinder dust removal equipment

Technical Field

The utility model relates to the technical field of dust removal and purification equipment, in particular to large-air-volume integrated filter cylinder dust removal equipment.

Background

At present, in the production process of industries such as metal polishing, grain processing, welding manufacturing, and the like, a large amount of particle dust is easy to generate, dust particles are scattered in the air and are inhaled by people, the physical health of people can be greatly endangered, and some dust also has the characteristics of inflammability and explosiveness, and hidden danger endangering life and property safety exists, so that dust removal and purification treatment are needed.

At present, dust collectors are mostly adopted as dust removal and purification treatment means for dust, namely, air mixed with the dust is introduced into the dust collectors, and dust is separated and filtered by a filter element, so that clean air is discharged into the external environment.

However, in the traditional dust removing equipment, the dust removing part and the fan part are often connected through the connecting air pipe, so that the occupied area of the installation site is large, and the air inlet pipe and the connecting air pipe are complex in manufacture, high in installation requirement and sealing requirement, so that the manufacturing cost is high.

Disclosure of utility model

Based on the above, it is necessary to provide a large-air-volume integrated filter cartridge dust removal device with simple structure, good sealing performance and small occupied area.

A large air volume integrated filter cartridge dust removal apparatus comprising:

A shell structure with a hollow structure, wherein a baffle structure is arranged in the shell structure to divide the space in the shell structure into a filter cavity, a fan cavity and an ash collecting cavity; the baffle plate structure is provided with an air passing port communicated with the filter cavity and the fan cavity and an ash collecting port communicated with the filter cavity and the ash collecting cavity; the side wall of the shell structure is respectively provided with an air inlet communicated with the filter cavity and an air outlet communicated with the fan cavity;

The filter cartridge assembly is transversely arranged in the filter cavity and is positioned above the dust collecting port, and the open end of the filter cartridge assembly is communicated with the air passing port;

The fan assembly is arranged in the fan cavity; the air outlet of the fan is communicated with the air outlet, and the air inlet of the fan is positioned in the fan cavity;

The ash collecting hopper is arranged in the ash collecting cavity, and the large end of the ash collecting hopper is communicated with the ash collecting opening.

In one embodiment, the partition plate structure is provided with a plurality of air inlets, the filter cartridge assemblies are in a plurality of, and the open ends of the filter cartridge assemblies are respectively communicated with the air inlets in a one-to-one correspondence manner.

In one embodiment, the shell structure comprises a base, a filter shell, a fan shell, a baffle plate shell and a flower plate, wherein the filter shell is internally provided with a filter cavity with one end open;

The separator shell is fixed in the filter shell, and forms the dust collecting cavity with the bottom wall in the filter shell in a surrounding way;

the top wall of the filtering shell is provided with the air inlet; the top wall of the fan cavity is provided with the exhaust port;

The flower plate is fixed in the filtering shell and fixedly connected with the baffle plate shell so as to completely separate the filtering cavity from the fan cavity, and the air passing port is formed in the flower plate.

In one embodiment, a mounting rod is further arranged in the filter shell, two ends of the mounting rod are fixedly connected with the top wall of the filter cavity and one end, far away from the flower plate, of the partition plate shell respectively, and two ends of the filter cylinder assembly are detachably connected with the mounting rod and the flower plate respectively.

In one embodiment, the fan housing comprises a fan bottom plate, a fan top plate, a first fan side plate, a second fan side plate and a fan panel, wherein the fan bottom plate is arranged at intervals with the fan top plate, the first fan side plate and the second fan side plate are arranged at intervals and are connected between the fan bottom plate and the fan top plate, the fan panel is respectively in sealing and detachable connection with the fan bottom plate, the fan top plate, the first fan side plate and the second fan side plate, and a fan cavity with one end open is formed by enclosing the fan bottom plate, the fan top plate, the first fan side plate, the second fan side plate and the fan panel.

In one embodiment, the fan housing further comprises elastic sealing strips arranged along the circumferential direction of the fan panel, and the elastic sealing strips are respectively clamped between the fan panel and the fan bottom plate, between the fan panel and the first fan side plate, between the fan panel and the fan top plate and between the fan panel and the second fan side plate.

In one embodiment, the filter housing is spaced apart from the blower housing, the housing structure further includes a coupling plate sealingly connected to the open end of the filter housing and the open end of the blower housing, and/or

The top of filtering the casing all be provided with rings structure at the top of fan casing.

In one embodiment, the side wall of the shell structure is respectively provided with a first access hole communicated with the filter cavity and a second access hole communicated with the fan cavity, the edge part of the first access hole is provided with a first access door, the edge part of the second access hole is provided with a second access door, and/or

The bottom of the fan is detachably connected with the bottom wall of the fan shell through elastic support legs.

In one embodiment, the device further comprises an ash collection bucket, wherein the ash collection bucket can be placed right below the ash collection bucket and can receive the particle garbage flowing out of the lower end opening of the ash collection bucket.

In one embodiment, the lower end of the ash collection bucket is further provided with a pressing mechanism, and the pressing mechanism is operable to position the ash collection bucket right below the small end opening of the ash collection bucket and enable the top end of the ash collection bucket to be in tight sealing with the bottom end of the ash collection bucket.

In the large-air-volume integrated filter cylinder dust removing equipment, the shell structure is very simple because the baffle structure is only arranged in the shell structure. Meanwhile, the filter cartridge assembly, the fan, the ash collecting hopper and other structures are integrated in the shell, clean gas obtained after filtering by the filter cartridge assembly directly enters the fan cavity and is discharged from the air outlet by the fan, so that the fan and the filter cavity are not required to be connected by connecting an air pipe and other structures, the equipment structure is further simplified, and the equipment is smaller in volume. Therefore, the large-air-volume integrated filter cylinder dust removal equipment has the advantages of simple structure and small occupied area.

Drawings

FIG. 1 is a schematic diagram of a large air volume integrated filter cartridge dust removal apparatus according to a preferred embodiment of the present utility model;

FIG. 2 is a cross-sectional view of the large air volume integrated filter cartridge dust removal apparatus of FIG. 1;

fig. 3 is an enlarged view of a portion of the large air volume integrated cartridge dust removal apparatus of fig. 2.

The reference numerals are used for describing 100, large-air-volume integrated filter cylinder dust removing equipment, 110, a shell structure, 111, a baffle structure, 1111, a baffle shell, 1112, a flower plate, 112, a filter cavity, 113, a fan cavity, 114, an ash collecting cavity, 115, an air inlet, 116, an air outlet, 117, an ash removing port, 118, a base, 119, a filter shell, 1101, a fan shell, 11011, a fan bottom plate, 11012, a fan top plate, 11013, a first fan side plate, 11014, a second fan side plate, 11015, a fan panel, 11016, an elastic sealing strip, 1102, a mounting rod, 1103, a connecting plate, 1104, a hanging ring structure, 1105, a first access door, 1106, a second access door, 120, a filter cylinder assembly, 130, a fan, 140, an ash collecting hopper, 150, an ash collecting barrel, 151, a moving wheel, 160, a pressing mechanism, 170 and elastic support legs.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. Preferred embodiments of the present utility model are shown in the drawings. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

When an element is referred to as being "on" another element, it can be directly on the other element or intervening elements may also be present unless otherwise specified. It will also be understood that when an element is referred to as being "between" two elements, it can be the only one between the two elements or one or more intervening elements may also be present.

Where the terms "comprising," "having," and "including" are used herein, another component may also be added unless explicitly defined terms such as "only," "consisting of," etc., are used. Unless mentioned to the contrary, singular terms may include plural and are not to be construed as being one in number.

Moreover, the figures are not drawn to a 1:1 scale, and the relative sizes of elements are drawn in the figures by way of example only and are not necessarily drawn to true scale.

Referring to fig. 1 and 2, a large air volume integrated filter cartridge dust removal apparatus 100 according to a preferred embodiment of the present utility model includes a housing structure 110, a filter cartridge assembly 120, a fan 130, and an ash bucket 140.

The housing structure 110 is a hollow structure. A partition structure 111 is disposed inside the housing structure 110 to divide the space inside the housing structure 110 into a filter chamber 112, a fan chamber 113 and an ash collection chamber 114. Specifically, the filter cavity 112 is laterally spaced from the blower cavity 113. The partition structure 111 is provided with an air outlet (not shown) which communicates with the filter chamber 112 and the fan chamber 113, and an ash collecting port (not shown) which communicates with the filter chamber 112 and the ash collecting chamber 114. Specifically, the dust collection port is located at the top of the dust collection chamber 114. The side walls of the housing structure 110 are respectively provided with an air inlet 115 communicated with the filter cavity 112 and an air outlet 116 communicated with the fan cavity 113. The side wall of the housing structure 110 is also formed with a soot cleaning port 117 in communication with the soot collection chamber 114. Wherein the ash removal port 117 communicates with the ash collection chamber 114 and the exterior of the housing structure 110.

The filter cartridge assembly 120 is mounted transversely within the filter cavity 112 and above the dust collection port. The open end of the cartridge assembly 120 communicates with the air port. The cartridge assembly 120 is laterally installed, facilitating installation and replacement of the cartridge assembly 120, while facilitating reduction in the volume of the apparatus.

The blower 130 assembly is mounted within the blower cavity 113. The air outlet of the blower 130 communicates with the air outlet 116. The intake of the blower 130 is located within the blower cavity 113.

An ash collection hopper 140 is mounted within the ash collection chamber 114. The large end of the dust collection hopper 140 is communicated with the dust collection port. The small end opening of the ash bucket 140 is located within the ash chamber 114.

In the large-air-volume filter cartridge filtering device, the air inlet 115, the filter cavity 112, the filter cartridge assembly 120, the air outlet, the fan cavity 113, the fan 130 and the air outlet 116 are sequentially communicated to form an air flow passage, and after the fan 130 is started, negative pressure air flow (the air flow direction is shown by an arrow in fig. 2) is formed in the air flow passage, so that external dust gas is sucked into the filter cavity 112 through the air inlet 115, and the dust gas in the filter cavity 112 is filtered and separated by the filter cartridge assembly 120, wherein particle dust, heavy dust and the like are separated into the dust collecting hopper 140, and the filtered clean gas is sent into the fan cavity 113 through the air outlet and is discharged through the air outlet 116 by the fan 130.

In the large air volume integrated filter cartridge dust removing apparatus 100, only the partition structure 111 is provided in the housing structure 110, so the structure of the housing structure 110 is very simple. Meanwhile, the filter cartridge assembly 120, the fan 130, the ash collecting hopper 140 and other structures are integrated in the shell, clean gas obtained after filtering by the filter cartridge assembly 120 directly enters the fan cavity 113 and is discharged from the air outlet by the fan 130, so that the fan 130 and the filter cavity 112 are not connected by a connecting air pipe and other structures, the equipment structure is further simplified, and the equipment volume is smaller. Therefore, the large-air-volume integrated filter cartridge dust removal device 100 has the advantages of simple structure and small occupied area.

In some embodiments, the partition structure 111 is provided with a plurality of air vents. The cartridge assembly 120 is plural. The plurality of filter cartridge assemblies 120 have their open ends in communication with the plurality of air vents, respectively, in a one-to-one correspondence. Specifically, a plurality of filter cartridge assemblies 120 are spaced apart. The plurality of filter cartridge assemblies 120 are arranged, so that the large-air-quantity integrated filter cartridge equipment has a large filtering area in an effective space, and the requirements of purifying and dedusting work of dust and gas with large air quantity are met, thereby being beneficial to the promotion of dedusting efficiency.

In some embodiments, the housing structure 110 includes a base 118, a filter housing 119, a blower housing 1101, a baffle housing 1111, and a faceplate 1112. The filter housing 119 has a filter chamber 112 therein which is open at one end. The blower housing 1101 has a blower chamber 113 therein that is open at one end. The filter housing 119 and the blower housing 1101 are both fixed to the base 118, and the open ends of the two are hermetically connected.

The baffle housing 1111 is fixed in the filter housing 119, and forms an ash collecting chamber 114 with the bottom wall of the filter housing 119. The top of the partition casing 1111 is formed with an ash collecting port. Specifically, the filter cartridge assembly 120 is transversely mounted directly above the dust collection port, so that dust, etc. on the surface of the filter cartridge assembly 120 can fall directly into the dust collection hopper 140.

The top wall of the filter housing 119 is formed with an air inlet 115. The filter housing 119 has a dust removing port 117 formed in a side wall thereof. The top wall of the fan 130 opening is provided with an exhaust opening 116.

The faceplate 1112 is secured within the filter housing 119 and is fixedly connected to the baffle housing 1111 to completely isolate the filter chamber 112 from the fan chamber 113. The flower plate 1112 is provided with an air port. Specifically, the sliding plate is vertically disposed in the filter cavity 112 and is fixedly connected to the top walls of the partition board casing 1111 and the filter casing 119, respectively. When the filter cartridge assembly 120 is multiple, the flower plate 1112 is provided with multiple air inlets at intervals.

Thus, in practical application, the baffle housing 1111 can be installed in the filter housing 119, then the filter cartridge assembly 120, the fan 130 and the ash collecting hopper 140 are installed in the filter cavity 112, the fan cavity 113 and the ash collecting cavity 114 respectively, and then the filter housing 119 and the fan housing 1101 are only required to be installed on the base 118 at a working site, and the open end of the filter housing 119 and the open end of the fan housing 1101 are in sealing connection, so that the difficulty of equipment transportation is greatly reduced, the site installation work is simplified, and the workload of site installation is greatly reduced.

Further, in some embodiments, a mounting rod 1102 is also disposed within the filter housing 119. The ends of the mounting rod 1102 are fixedly connected to the top wall of the filter chamber 112 and the end of the partition plate casing 1111 remote from the faceplate 1112, respectively. Both ends of the cartridge assembly 120 are detachably connected to the mounting bar 1102 and the flower plate 1112, respectively. In this way, the filter cartridge assembly 120 is fixed at two ends in the filter cavity 112 while the dust gas flowing in the filter cavity 112 is not affected, so as to improve the installation stability of the filter cartridge assembly 120.

Further, in some embodiments, the fan housing 1101 includes a fan bottom plate 11011, a fan top plate 11012, a first fan side plate 11013, a second fan side plate 11014, and a fan panel 11015. The fan bottom plate 11011 is disposed at a distance from the fan top plate 11012. The first fan side plate 11013 and the second fan side plate 11014 are disposed at intervals and are connected between the fan bottom plate 11011 and the fan top plate 11012. The fan panel 11015 is hermetically and detachably connected to the fan bottom plate 11011, the fan top plate 11012, the first fan side plate 11013, and the second fan side plate 11014, respectively. A fan cavity 113 with one open end is formed between the fan bottom plate 11011, the fan top plate 11012, the first fan side plate 11013, the second fan side plate 11014 and the fan panel 11015.

In the actual use process, if the fan 130 needs to be overhauled, the fan panel 11015 can be detached, so that a worker can conveniently enter the fan housing 1101 to overhaul the fan 130, the use convenience of the large-air-volume integrated filter cylinder dust removal device 100 is improved, and the service life is prolonged.

Referring also to FIG. 3, in some embodiments, the fan housing 1101 further includes an elastic seal 11016 disposed along the circumference of the fan panel 11015. The elastic seal bars 11016 are clamped between the fan panel 11015 and the fan bottom plate 11011, between the fan panel 11015 and the first fan side plate 11013, between the fan panel 11015 and the fan top plate 11012, and between the fan panel 11015 and the second fan side plate 11014, respectively.

In this way, when the fan panel 11015 is detachably connected to the fan bottom plate 11011, the fan top plate 11012, the first fan side plate 11013, and the second fan side plate 11014, the sealing effect between the fan panel 11015 and the fan bottom plate 11011, the fan top plate 11012, the first fan side plate 11013, and the second fan side plate 11014 are ensured by the elastic sealing strips 11016, so as to improve the sealing performance of the fan housing 1101.

Further, in some embodiments, the filter housing 119 is spaced apart from the blower housing 1101. The housing structure 110 also includes a gusset 1103. The coupling plate 1103 is sealingly connected to the open end of the filter housing 119 and the open end of the blower housing 1101.

The filter housing 119 is disposed at an interval from the blower housing 1101 so as to form an installation margin between the filter housing 119 and the blower housing 1101, and the open end of the filter housing 119 and the open end of the blower housing 1101 are hermetically connected by the coupling plate 1103, so that the installation difficulty of the filter housing 119 and the blower housing 1101 is reduced, and the sealing performance between the two is further improved.

Further, in some embodiments, the top of the filter housing 119 and the top of the blower housing 1101 are both provided with a sling structure 1104. In the process of assembling and transporting the large-air-volume integrated filter cartridge dust removal device 100, a worker can use a lifting device or a lifting tool to hook the lifting ring structure 1104 to transport the filter housing 119 and the fan housing 1101, so that the field installation difficulty is further reduced.

In some embodiments, the side walls of the housing structure 110 are respectively provided with a first access opening (not shown) in communication with the filter cavity 112 and a second access opening (not shown) in communication with the fan cavity 113. A first access door 1105 is mounted to an edge portion of the first access opening. A second access door 1106 is mounted to an edge portion of the second access opening. The provision of the first access door 1105 and the second access door 1106 facilitates access by personnel to components within the filter cavity 112 and components within the blower cavity 113.

When the housing includes the filter housing 119 and the blower housing 1101, the first access opening and the second access opening are respectively located on a sidewall of the filter housing 119 and a sidewall of the blower housing 1101.

In some embodiments, large air volume integrated cartridge dust extraction apparatus 100 further includes a dust collection tub 150. The ash bucket 150 can be placed just below the ash bucket 140 and can receive the granular waste flowing out of the lower end opening of the ash bucket 140. Specifically, the dust bucket 150 is located directly below the dust hopper 140 and is capable of receiving the granular waste flowing out of the lower end opening of the dust hopper 140.

In practical application, when the granular garbage in the ash bucket 150 is fully collected, the ash bucket 150 can be pulled out of the ash collecting cavity 114 through the ash removing opening 117, so that the granular garbage in the ash bucket 150 can be conveniently removed, and when the granular garbage in the ash bucket 140 needs to be collected, the empty ash bucket 150 needs to be placed into the ash collecting cavity 114 through the ash removing opening 117, and the ash bucket 150 can be ensured to be just positioned below the ash bucket 140, so that the granular garbage falling out of the ash bucket 140 can be conveniently collected.

In order to facilitate the movement of the ash bucket 150, particularly in the present embodiment, a plurality of moving wheels 151 are provided at the bottom of the ash bucket 150. The worker can conveniently put the dust collecting barrel 150 into the dust collecting cavity 114 and pull the dust collecting barrel 150 out of the dust collecting cavity 114, so that the dust collecting barrel 150 can conveniently clean the granular garbage.

Further, in some embodiments, the lower end of the ash bucket 140 is also fitted with a hold down mechanism 160. The hold down mechanism 160 is operable to position the ash bucket 140 directly below the small end opening of the ash bucket 140 and to seal the top end of the ash bucket 150 against the bottom end of the ash bucket 140.

The pressing mechanism 160 may be a claw structure, a buckle structure, or a combination structure formed by a pressing portion disposed at the lower end of the ash collecting bucket 140 and a mating portion disposed on the ash collecting barrel 150, and at this time, the pressing portion and the mating portion cooperate with each other to position the ash collecting barrel 150 directly below the opening of the small end of the ash collecting bucket 140, and make the top end of the ash collecting barrel 150 tightly abut against the bottom end of the ash collecting bucket 140. Therefore, the compressing mechanism 160 can ensure the stable connection between the ash collecting barrel 150 and the ash collecting hopper 140, and ensure better sealing performance of the connection between the ash collecting barrel 150 and the ash collecting hopper 140, thereby reducing the probability of ash lifting in the process of placing the granular garbage in the ash collecting hopper 140 into the ash collecting barrel 150. Moreover, the compressing mechanism 160 is arranged, so that the ash collecting barrel 150 and the ash collecting hopper 140 can be assembled and disassembled more conveniently.

In some embodiments, the bottom of the blower 130 is removably connected to the bottom wall of the blower housing 1101 by resilient legs 170. That is, the bottom of the blower 130 is provided with a plurality of elastic legs 170, and the elastic legs 170 are detachably connected with the blower housing 1101. The elastic support legs 170 are used for absorbing vibration generated in the working process of the fan 130, so that the noise of the whole fan is greatly reduced.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A large air volume integrated filter cartridge dust removal device, comprising:

A shell structure with a hollow structure, wherein a baffle structure is arranged in the shell structure to divide the space in the shell structure into a filter cavity, a fan cavity and an ash collecting cavity; the baffle plate structure is provided with an air passing port communicated with the filter cavity and the fan cavity and an ash collecting port communicated with the filter cavity and the ash collecting cavity; the side wall of the shell structure is respectively provided with an air inlet communicated with the filter cavity and an air outlet communicated with the fan cavity;

The filter cartridge assembly is transversely arranged in the filter cavity and is positioned above the dust collecting port, and the open end of the filter cartridge assembly is communicated with the air passing port;

The fan assembly is arranged in the fan cavity; the air outlet of the fan is communicated with the air outlet, and the air inlet of the fan is positioned in the fan cavity;

The ash collecting hopper is arranged in the ash collecting cavity, and the large end of the ash collecting hopper is communicated with the ash collecting opening.

2. The large-air-volume integrated filter cartridge dust removal device according to claim 1, wherein a plurality of air inlets are formed in the partition plate structure, the filter cartridge assemblies are multiple, and the open ends of the filter cartridge assemblies are respectively communicated with the air inlets in a one-to-one correspondence manner.

3. The large-air-volume integrated filter cartridge dust removal device according to claim 1, wherein the shell structure comprises a base, a filter shell, a fan shell, a baffle plate shell and a flower plate, wherein the filter shell is internally provided with a filter cavity with one end open;

The separator shell is fixed in the filter shell, and forms the dust collecting cavity with the bottom wall in the filter shell in a surrounding way;

the top wall of the filtering shell is provided with the air inlet; the top wall of the fan cavity is provided with the exhaust port;

The flower plate is fixed in the filtering shell and fixedly connected with the baffle plate shell so as to completely separate the filtering cavity from the fan cavity, and the air passing port is formed in the flower plate.

4. The large-air-volume integrated filter cartridge dust removal device according to claim 3, wherein a mounting rod is further arranged in the filter housing, two ends of the mounting rod are fixedly connected with the top wall of the filter cavity and one end, far away from the flower plate, of the partition housing respectively, and two ends of the filter cartridge assembly are detachably connected with the mounting rod and the flower plate respectively.

5. The large-air-volume integrated filter cylinder dust removal device according to claim 3, wherein the fan shell comprises a fan bottom plate, a fan top plate, a first fan side plate, a second fan side plate and a fan panel, the fan bottom plate and the fan top plate are arranged at intervals, the first fan side plate and the second fan side plate are arranged at intervals and are connected between the fan bottom plate and the fan top plate, the fan panel is respectively connected with the fan bottom plate, the fan top plate, the first fan side plate and the second fan side plate in a sealing and detachable mode, and a fan cavity with one end open is formed by surrounding the fan bottom plate, the fan top plate, the first fan side plate, the second fan side plate and the fan panel.

6. The large air volume integrated filter cartridge dust removal apparatus of claim 5, wherein the blower housing further comprises an elastic sealing strip disposed along a circumferential direction of the blower panel, the elastic sealing strip being clamped between the blower panel and the blower bottom plate, between the blower panel and the first blower side plate, between the blower panel and the blower top plate, and between the blower panel and the second blower side plate, respectively.

7. The large air volume integrated filter cartridge dust removing apparatus as set forth in claim 3, wherein said filter housing is disposed at a distance from said blower housing, said housing structure further comprises a coupling plate, said coupling plate being sealingly connected to said filter housing open end and said blower housing open end, and/or

The top of filtering the casing all be provided with rings structure at the top of fan casing.

8. The large-air-volume integrated filter cartridge dust removal device according to claim 1, wherein a first access hole communicated with the filter cavity and a second access hole communicated with the fan cavity are respectively formed in the side wall of the shell structure, a first access door is installed at the edge part of the first access hole, a second access door is installed at the edge part of the second access hole, and/or

The bottom of the fan is detachably connected with the bottom wall of the fan shell through elastic support legs.

9. The large air volume integrated filter cartridge dust removal apparatus of claim 1, further comprising an ash collection bucket, wherein the ash collection bucket can be placed just below the ash collection bucket and can receive particulate waste flowing out of a lower end opening of the ash collection bucket.

10. The large air volume integrated filter cartridge dust removal apparatus of claim 9, wherein a hold-down mechanism is further mounted to the lower end of the dust hopper, the hold-down mechanism being operable to position the dust hopper directly below the small end opening of the dust hopper and to seal the top end of the dust hopper against the bottom end of the dust hopper.