CN217121106U - Cyclone dry type dust removal system - Google Patents

Abstract

The utility model discloses a cyclone dry dust removal system, which relates to the technical field of cyclone dry dust removal equipment and comprises an equipment body, at least one group of dust collection module, an air pipe module, a conveying module and an electric control module, wherein the conveying module comprises a plurality of conveying rollers which are arranged along the length direction of the equipment body, and the conveying rollers are driven by a driving piece; each group of dust collection modules is arranged on the conveying module, each dust collection module comprises two dust collection heads which are correspondingly arranged on the upper side and the lower side of each conveying roller, each two corresponding dust collection heads are arranged between two adjacent conveying rollers, and the dust collection ends of the two dust collection heads face the conveying rollers; the air pipe module equipment is arranged beside the equipment body. The utility model discloses having and not only having realized treating the two-way dust removal of dust removal thing, having avoided the upset of dust removal in-process, improving dust collection efficiency, realized moreover treating the continuity of dust removal thing to the batch, formed the industrialization of continuity and removed dust, further improved dust removal efficiency and production efficiency's effect.

Description

Cyclone dry type dust removal system

Technical Field

The utility model relates to a whirlwind dry-type dust collecting equipment technical field especially relates to a whirlwind dry-type dust pelletizing system.

Background

Cyclone dust collectors are a type of dust removing device. The dust removing mechanism is that the dust-containing airflow makes a rotary motion, the dust particles are separated from the airflow by means of centrifugal force and collected on the wall of the device, and then the dust particles fall into the dust hopper by means of gravity. The efficiency of a cyclone is significantly higher than a gravity settling chamber. Among the mechanical dust collectors, a cyclone dust collector is the most efficient one. The multi-cyclone dust remover is suitable for removing non-viscous and non-fibrous dust, is mostly used for removing particles with the particle size of more than 5 micrometers, and has 80-85% of dust removal efficiency on the particles with the particle size of 3 micrometers by the multi-cyclone dust remover devices connected in parallel.

However, when the existing cyclone dust removal equipment is used, the dust suction port of the cyclone dry dust removal system is unique and unidirectional, and only one-way and fixed-position dust removal can be performed on a certain fixed object to be removed in one working process, so that the dust removal comprehensiveness is poor, and for a plate-shaped object to be removed, if the plate-shaped object to be removed is subjected to double-sided dust removal, the dust removal surface of the plate-shaped object needs to be turned over once in the dust removal process, so that the dust removal efficiency is greatly reduced; after the two-sided dust removal work of the plate-shaped object to be removed is finished, the next dust removal work can be continued only after the dust removal equipment is stopped and the object to be removed is transferred, and continuous industrial production is difficult to form when large-scale objects are removed, so that the dust removal efficiency is low.

Based on the problem, the utility model designs a whirlwind dry-type dust pelletizing system that can two-wayly remove dust, the continuity is removed dust solves above problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a cyclone dry dust removal system.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a whirlwind dry-type dust pelletizing system, includes the equipment body and installs at least a set of dust absorption module, tuber pipe module, transport module and automatically controlled module on the equipment body, wherein:

the conveying module comprises a plurality of conveying rollers which are arranged along the length direction of the equipment body, the conveying rollers are driven by a driving piece, and the conveying module is used for conveying a plate-shaped object to be dedusted;

each group of dust collection modules is arranged on the conveying module, each dust collection module comprises two dust collection heads correspondingly arranged on the upper side and the lower side of each conveying roller, each two corresponding dust collection heads are arranged between two adjacent conveying rollers, the dust collection ends of the two dust collection heads face the conveying rollers, and the two dust collection heads are used for carrying out double-sided dust collection on objects to be subjected to dust collection in conveying;

the air pipe module is arranged beside the equipment body and used for supplying air to the dust collection module so as to realize cyclone dust collection;

the electric control module is electrically connected with the dust collection module, the air pipe module and the conveying module.

Furthermore, the conveying roller comprises a driving shaft, locking wheels and a driving wheel, wherein the driving shaft is provided with a plurality of locking wheels along the length direction of the driving shaft, each locking wheel is provided with the driving wheel, one end of the driving shaft is rotatably connected to the equipment body, and the other end of the driving shaft is sleeved with a driven magnetic wheel;

the driving piece includes driving motor, driving belt, transmission shaft and initiative magnetic wheel, driving motor installs on the equipment body, the transmission shaft sets up along the length direction of a plurality of conveying rollers, driving motor's output passes through driving belt and is connected with the transmission shaft transmission, the cover is equipped with a plurality of initiative magnetic wheels on the transmission shaft, and every initiative magnetic wheel corresponds a driven magnetic wheel.

Further, the tuber pipe module includes total tuber pipe, first branch tuber pipe and second branch tuber pipe, the external air supply equipment of total tuber pipe, the bottom of total tuber pipe intercommunication has a plurality of quantity and the corresponding first branch tuber pipe of dust absorption module in proper order, is close to all the intercommunication of its both ends department on every first branch tuber pipe and has the second branch tuber pipe, and two upper and lower dust absorption heads on the two second branch tuber pipes correspond a set of dust absorption module.

Further, the dust absorption module still includes mounting bracket and altitude mixture control spare, be equipped with altitude mixture control spare on the mounting bracket, altitude mixture control spare includes hand wheel, position display, lift lead screw and connecting plate, the position display is fixed in on the mounting bracket, hand wheel connection lift lead screw, the other end of lift lead screw runs through position display, mounting bracket and downwardly extending in proper order, and downwardly extending end screw nut is vice to be connected with the connecting plate, the connecting plate is connected the dust absorption head.

Further, still include the tuber pipe filter, the tuber pipe filter is installed on total tuber pipe, the tuber pipe filter includes body, lower body, connecting net and filter tube, total tuber pipe runs through the body, and the two communicates each other, transversely be equipped with the connecting net between last body and the lower body, this internal detachable connection of being connected with filter tube, a plurality of the bottom of connecting net is located down the even setting of angles such as filter tube, the body is the diameter from last to the toper structure that reduces gradually down, and is a plurality of the length outside-in of filter tube increases gradually.

Further, the tail end of the conveying module further comprises a turnover part, the turnover part comprises a driving cylinder and a turnover frame, the driving cylinder is obliquely arranged on the equipment body, one end of the turnover plate is rotatably connected to the equipment body, and the other end of the turnover plate is rotatably connected with the output end of the driving cylinder.

Furthermore, dust collection baffles are arranged at the air outlets of the two dust collection heads which are correspondingly arranged up and down, and the height of each dust collection baffle is lower than that of the conveying roller;

and a panel is arranged at the lower position of the conveying roller in the equipment body.

Furthermore, the mounting frame is also provided with a guide piece, and the guide piece is used for guiding the lifting of the dust collection head;

the guide part comprises a fixed block, a chute, a slide rail fixed block and a slide rail,

the fixed block is fixed on the mounting frame and provided with a sliding groove;

the dust collection head is provided with a slide rail fixing block, and a slide rail is arranged on the slide rail fixing block;

the sliding rail is connected to the sliding groove in a sliding mode.

Furthermore, the electric control module adopts a PLC controller.

Further, the device also comprises an inner protective cover and an outer protective cover;

the inner protective cover covers the outside of each dust collection module;

the outer protective cover covers the dust collection modules, the conveying modules and the air pipe modules.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses in, through setting up the transport module of compriseing the conveying roller, carry and set up the three dust absorption module that can carry out two-sided dust absorption on the module, carry the platelike dust excluding object of treating of transport module continuity, and with this carry out two-sided dust removal through the dust removal module, not only realized treating the two-way dust removal of dust excluding object, the upset of dust removal in-process has been avoided, and the efficiency of dust removal is improved, and realized treating the continuity dust removal of dust excluding object to the batch, form the industrialization of continuity and remove dust, further improve dust removal efficiency and production efficiency.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a top view of the present invention (with the outer protective cover removed);

FIG. 3 is a perspective view of the present invention (with the outer protective cover removed);

fig. 4 is a schematic structural diagram of a conveying module according to the present invention;

fig. 5 is a cross-sectional view of the dust-removing module of the present invention;

FIG. 6 is a schematic structural view of a height adjusting member of the present invention;

fig. 7 is a cross-sectional view of the dust-removing module of the present invention;

fig. 8 is an internal schematic view of the middle air duct filter according to the present invention.

In the figure: 1. an apparatus body; 2. a dust collection module; 21. a dust collection head; 22. a mounting frame; 23. a height adjustment member; 24. a hand wheel; 25. a position display; 26. a lifting screw rod; 27. a connecting plate; 28. a dust collection baffle; 29. a panel; 210. a guide member; 211. a fixed block; 212. a slide rail fixing block; 3. an air duct module; 31. a main branch pipe; 32. a first branch air duct; 33. a second branch air duct; 4. a conveying module; 41. a conveying roller; 42. a drive shaft; 43. a locking wheel; 44. a driving wheel; 45. a driven magnetic wheel; 46. a drive member; 47. a drive motor; 48. a drive belt; 49. a drive shaft; 410. a driving magnetic wheel; 411. a turnover piece; 5. an electric control module; 6. an air duct filter; 61. an upper body; 62. a lower body; 63. connecting a net; 64. a filter tube; 7. an inner shield; 8. an outer shield.

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.

As shown in fig. 1-8, a cyclone dry dust removal system includes an apparatus body 1, and at least one set of dust collection module 2, air duct module 3, conveying module 4, and electric control module 5 mounted on the apparatus body 1.

The dust collection modules 2 are arranged along the length direction of the conveying module 4, and preferably, the dust collection modules 2 are arranged in three numbers. The air pipe module 3 is connected with the dust collection module 2 and used for providing a conveying pipeline for the power air of the dust collection module 2. Automatically controlled module 5 adopts the PLC controller, and automatically controlled module 5 electric connection dust absorption module 2, tuber pipe module 3 and carry module 4.

The object to be cleaned, especially the plate-shaped object to be cleaned, is conveyed forwards by the conveying module 4, passes through the dust collection module 2 in the conveying process, is subjected to double-sided dust collection by the dust collection module 2, and is controlled by the electric control module 5 in the process to realize automatic operation.

Specifically, in one possible embodiment, the conveying module 4 includes several conveying rollers 41 disposed along the length direction of the apparatus body 1, the conveying rollers 41 are driven by the driving member 46, and the conveying module 4 is used for conveying the plate-shaped object to be cleaned. During transportation, the object to be cleaned is placed on the transportation roller 41. The conveying mode with the roller-shaped structure is adopted, and the influence of the conveying module 4 on the normal work of the dust collection module 2 is avoided by utilizing the gap between the conveying roller 41 and the conveying roller 41.

The conveying roller 41 comprises a driving shaft 42, locking wheels 43 and a driving wheel 44, wherein the driving shaft 42 is provided with a plurality of locking wheels 43 along the length direction thereof, each locking wheel 43 is provided with the driving wheel 44, one end of the driving shaft 42 is rotatably connected to the equipment body 1, and the other end of the driving shaft is sleeved with a driven magnetic wheel 45; the driving piece 46 comprises a driving motor 47, a transmission belt 48, a transmission shaft 49 and driving magnetic wheels 410, the driving motor 47 is installed on the equipment body 1, the transmission shaft 49 is arranged along the length direction of the plurality of conveying rollers 41, the output end of the driving motor 47 is in transmission connection with the transmission shaft 49 through the transmission belt 48, the transmission shaft 49 is sleeved with the plurality of driving magnetic wheels 410, and each driving magnetic wheel 410 corresponds to one driven magnetic wheel 45. Preferably, the driving motor 47 is provided in several numbers along the length direction of the driving shaft 49.

When the conveying module 4 works, the driving motor 47 drives the transmission shaft 49 to rotate, so as to drive the driving magnetic wheel 410 to rotate, so as to drive the driven magnetic wheel 45 to rotate, further drive the driving shaft 42 to rotate, and the rotation of the driving shaft 42 drives the driving wheel 44 to rotate, so as to convey the objects to be cleaned.

The tail end of the conveying module 4 further comprises a turnover part 411, the turnover part 411 comprises a driving cylinder and a turnover frame, the driving cylinder is obliquely arranged on the equipment body 1, one end of the turnover plate is rotatably connected to the equipment body 1, and the other end of the turnover plate is rotatably connected with the output end of the driving cylinder.

The last section of the whole conveying module 4 can be turned over by 90 degrees, and when the conveying module is not used, the turning method is controlled by a manual valve beside the controller.

Carry module 4 and pass through three dust absorption module 2 in proper order in the transportation process of conveyer belt dust removal thing, carry out cyclone in proper order and remove dust.

The main power driving source for cyclone dust removal comes from wind energy, the air pipe module 3 is arranged beside the equipment body 1, and the air pipe module 3 is used for supplying air to the dust collection module 2 so as to realize cyclone dust removal.

The air pipe module 3 comprises a main air pipe, a first branch air pipe 32 and a second branch air pipe 33, the main air pipe is externally connected with an air supply device, the air supply device can adopt a fan, the fan is used for providing driving force for dust removal, and the main air pipe is arranged along the length direction of the conveying device.

The bottom of total tuber pipe communicates in proper order has the first branch tuber pipe 32 that a plurality of quantity and dust absorption module 2 correspond, is close to its both ends department on every first branch tuber pipe 32 and all communicates with second branch tuber pipe 33, and two upper and lower dust absorption heads 21 on two second branch pipes correspond a set of dust absorption module 2. The number of the first branch air ducts 32 and the second branch air ducts 33 is three corresponding to the number of the dust collection module 2. The three first branch air ducts 32 and the dust collection module 2 are all arranged at equal intervals along the length direction of the conveying device.

Every group dust absorption module 2 all sets up on carrying module 4, and dust absorption module 2 sets up two dust absorption heads 21 in the upper and lower both sides of conveying roller 41 including corresponding, and every two corresponding dust absorption heads 21 set up between two adjacent conveying rollers 41, and two dust absorption heads 21 dust absorption ends are towards conveying roller 41, and two dust absorption heads 21 are arranged in treating the two-sided dust removal of dirt in carrying.

The two dust suction heads 21 arranged on the upper side and the lower side of the conveying roller 41 respectively remove dust on the upper surface and the lower surface of the plate-shaped object to be removed, and by adopting the dust removing mode, the object to be removed does not need to be turned over in the dust removing process, so that the work efficiency is improved. The dust is sucked out by the dust suction head 21 and is discharged by the second branch air duct 33, the first branch air duct 32 and the main air duct in sequence, so that a multi-stage dust removal structure is provided, and the primary dust removal effect is realized.

The horizontal height of the conveying roller 41 is between the horizontal heights of the end faces of the dust suction ends of the two dust suction heads 21 which are correspondingly arranged up and down. Thus, the object to be cleaned conveyed by the conveying roller 41 can be ensured to normally pass between the two dust collection heads 21, so that the normal dust collection can be ensured.

And because dust absorption module 2 is provided with threely, at the during operation, will treat the dust removal thing and place on conveying roller 41, conveying roller 41 drives and treats the dust removal thing and pass through three dust removal module in proper order, and when every dust removal module, the homoenergetic removes dust to this dust removal thing, can not only enlarge the scope of removing dust, strengthens the effect of removing dust moreover gradually.

It should be noted that the dust collection principle of the cyclone dry dust collection is the prior art, and the dust collection module 2 at the dust collection end is only improved in the application, and the dust collection principle is not improved, so that the dust collection principle of the cyclone dry dust collection equipment is not repeated in the application.

In addition, for further improving the application scope of dust absorption head 21, dust absorption module 2 still includes mounting bracket 22 and height adjustment spare 23, be equipped with height adjustment spare 23 on the mounting bracket 22, height adjustment spare 23 is used for adjusting the height of dust absorption module 2, height adjustment spare 23 includes hand wheel 24, position display 25, lift lead screw 26 and connecting plate 27, position display 25 is fixed in on the mounting bracket 22, hand wheel 24 connects lift lead screw 26, lift lead screw 26's the other end runs through position display 25 in proper order, mounting bracket 22 and downwardly extending, downwardly extending end screw nut pair is connected with connecting plate 27, dust absorption head 21 is connected to connecting plate 27.

When the height of the dust collection head 21 is adjusted, the handle is manually adjusted, so that the lifting screw rod 26 is rotated, the lifting screw rod 26 is connected with the screw nut pair of the connecting plate 27, and the connecting plate 27 is connected with the dust collection head 21, so that the connecting plate 27 is lifted along the length direction of the lifting screw rod 26 under the condition that the rotation does not occur, the dust collection head 21 is driven to lift, and the height of the dust collection head 21 is adjusted. During the height adjustment, position monitoring is performed by the position display 25.

It should be noted that the position display 25 may be a type 0414 machine, which is known in the art and will not be described herein.

In order to prevent dust from flying during dust removal, dust suction flaps 28 are further provided at the outlets of the two dust suction heads 21 disposed vertically in correspondence with each other, and the height of the dust suction flaps 28 is lower than that of the conveying rollers 41 (with respect to the dust suction flaps 28 located below the conveying rollers 41). And a panel 29 is provided in the apparatus body 1 at a position below the conveying roller 41.

The dust suction baffle 28 and the panel 29 are arranged to block dust above or below an object to be cleaned, and also to prevent the dust from flying, thereby completely inhibiting the dust.

The mounting frame 22 is also provided with a guide member 210, and the guide member 210 is used for guiding the lifting of the dust collection head 21; the guide member 210 includes a fixing block 211, a sliding groove, a sliding rail fixing block 212 and a sliding rail, the fixing block 211 is fixed on the mounting frame 22, and the fixing block 211 is provided with the sliding groove; the dust collection head 21 is provided with a slide rail fixing block 212, and a slide rail is arranged on the slide rail fixing block 212; the slide rail is connected on the chute in a sliding way.

Like this, in the lift adjustment process of dust absorption head 21, the slide rail slides from top to bottom in the spout, can play the effect of direction, guarantees lift stability and equilibrium.

This application still includes tuber pipe filter 6, and tuber pipe filter 6 is installed on total tuber pipe, and tuber pipe filter 6 includes body 61, lower body 62, connecting net 63 and filter tube 64, and total tuber pipe runs through body 61, and the two communicates each other. Preferably, the number of the air pipe filters 6 is two, the two air pipe filters 6 are transversely arranged in parallel, and the total air pipe penetrates through the two air pipe filters 6. Namely, the total air pipe transversely penetrates through the two air pipe filters 6, and the total air pipe is communicated with the two air pipe filters 6.

During operation, air enters the main air pipe through the air inlet end, circulates in the main air pipe to sequentially pass through the air pipe filter 6, is filtered by the air pipe filter 6, and is finally guided out through the air outlet end.

The structure of tuber pipe filter 6 specifically, transversely is equipped with connecting network 63 between last body 61 and the lower body 62, and connecting network 63's bottom just is located and can dismantle in the lower body 62 and be connected with a plurality of filter tubes 64, and a plurality of filter tubes 64 wait the even setting of angle. And, the length of the plurality of filtering tubes 64 is gradually increased from the outside to the inside.

Like this, after the air gets into the lower body 62 of tuber pipe filter 6 by the tuber pipe, at first, be in filter tube 64 on lower body 62 upper portion and be in the state of arranging entirely, clean degree to the air is high, can satisfy the cleanness of a large amount of air, along with the air is gradually at the sunken in-process of lower body 62, the volume of air reduces gradually, demand to filter tube 64 reduces, and in this application, because the length outside-in of a plurality of filter tubes 64 increases gradually, make the filter of lower body 62 lower part arrange more less, just in time correspond with the demand that lower part air volume reduces gradually, can not only play normal clean air's effect, can also guarantee the setting that reduces equipment, reduce the cost.

The filter pipes 64 with the lengths gradually increasing from outside to inside correspond to the filter body arranged in a conical structure, and the air quantity passing between the filter pipes 64 and the lower body 62 can be ensured to be the same, so that the balanced air cleaning quantity is ensured.

The equipment body 1 of the application is further provided with an inner protective cover 7 and an outer protective cover 8.

The inner protective cover 7 covers the outside of each dust collection module 2. The inner protective cover 7 is used for protecting each dust collection module 2.

The outer protective cover 8 covers the dust collection modules 2, the conveying module 4 and the air pipe module 3. The outer protective cover 8 realizes secondary protection.

The inner protective cover 7 and the outer protective cover 8 are used for preventing dust, insulating sound and gathering wind power, and the structure for protecting the inner part and the outer part plays a role in enhancing the secondary protection.

The protective cover is made of transparent glass materials. Therefore, the dust removal condition can be conveniently observed by a worker, and the working condition can be conveniently mastered.

The utility model discloses a concrete implementation principle is: before dust removal, firstly, the heights of the conveying roller 41 and the dust collection head 21 are adjusted according to the size and thickness of glass to be subjected to dust removal, during operation, firstly, the plate-shaped object to be subjected to dust removal is placed on the conveying module 4 and is conveyed forwards by the conveying roller 41, when the object is conveyed to the dust collection module 2, the dust collection heads 21 positioned on the upper side and the lower side of the conveying roller 41 work, two dust collection heads 21 simultaneously remove dust on the two sides of the object to be subjected to dust removal, the object sequentially passes through the three dust collection modules 2 during conveying, the three dust collection modules 2 sequentially perform dust removal treatment on the object, each dust collection module can perform double-side dust removal on the object, after the dust removal is finished, the plate-shaped object subjected to dust removal is conveyed out by the conveying module 4, the dust removal is finished, the whole cyclone dry dust removal system not only realizes the double-way dust removal on the object to be subjected to dust removal, the overturn in the dust removal process is avoided, and the dust removal efficiency is improved, and continuous dust removal of the objects to be removed in batches is realized, continuous industrial dust removal is formed, and the dust removal efficiency and the production efficiency are further improved.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (10)

1. The utility model provides a whirlwind dry-type dust pelletizing system, its characterized in that includes equipment body (1) and installs at least a set of dust absorption module (2), tuber pipe module (3), transport module (4) and automatically controlled module (5) on equipment body (1), wherein:

the conveying module (4) comprises a plurality of conveying rollers (41) which are arranged along the length direction of the equipment body (1), the conveying rollers (41) are driven by a driving part (46), and the conveying module (4) is used for conveying a plate-shaped object to be subjected to dust removal;

each group of dust collection modules (2) is arranged on the conveying module (4), each dust collection module (2) comprises two dust collection heads (21) correspondingly arranged on the upper side and the lower side of each conveying roller (41), each two corresponding dust collection heads (21) are arranged between every two adjacent conveying rollers (41), the dust collection ends of the two dust collection heads (21) face the conveying rollers (41), and the two dust collection heads (21) are used for carrying objects to be subjected to dust removal in a double-sided manner;

the air pipe module (3) is arranged beside the equipment body (1), and the air pipe module (3) is used for supplying air to the dust collection module (2) so as to realize cyclone dust collection;

the electric control module (5) is electrically connected with the dust collection module (2), the air pipe module (3) and the conveying module (4).

2. A cyclone dry dust removing system according to claim 1, wherein the conveying roller (41) comprises a driving shaft (42), a plurality of locking wheels (43) and a driving wheel (44), the driving shaft (42) is provided with the plurality of locking wheels (43) along the length direction thereof, each locking wheel (43) is provided with the driving wheel (44), one end of the driving shaft (42) is rotatably connected to the equipment body (1), and the other end is sleeved with a driven magnetic wheel (45);

driving piece (46) include driving motor (47), driving belt (48), transmission shaft (49) and initiative magnetic wheel (410), driving motor (47) are installed on equipment body (1), length direction setting along a plurality of conveying rollers (41) is driven along transmission shaft (49), the output of driving motor (47) passes through driving belt (48) and is connected with transmission shaft (49) transmission, the cover is equipped with a plurality of initiative magnetic wheels (410) on transmission shaft (49), and every initiative magnetic wheel (410) corresponds one from magnetic wheel (45).

3. A cyclone dry dust removal system according to claim 1, wherein the air duct module (3) comprises a main air duct, a first branch air duct (32) and a second branch air duct (33), the main air duct is externally connected with an air supply device, the bottom of the main air duct is sequentially communicated with a plurality of first branch air ducts (32) corresponding to the dust collection module (2), each first branch air duct (32) is communicated with the second branch air duct (33) near two ends thereof, and the two second branch air ducts correspond to the upper and lower dust collection heads (21) of one dust collection module (2).

4. The cyclone dry dust removal system of claim 1, wherein the dust collection module (2) further comprises a mounting frame (22) and a height adjusting member (23), the height adjusting member (23) is arranged on the mounting frame (22), the height adjusting member (23) comprises a hand wheel (24), a position display (25), a lifting screw rod (26) and a connecting plate (27), the position display (25) is fixed on the mounting frame (22), the hand wheel (24) is connected with the lifting screw rod (26), the other end of the lifting screw rod (26) sequentially penetrates through the position display (25), the mounting frame (22) and extends downwards, the screw nut pair at the downwards extending end is connected with the connecting plate (27), and the connecting plate (27) is connected with the dust collection head (21).

5. A dry cyclone dust removal system according to claim 3, further comprising a duct filter (6), wherein the duct filter (6) is mounted on a main duct, the duct filter (6) comprises an upper body (61), a lower body (62), a connecting net (63) and filter tubes (64), the main duct penetrates through the upper body (61) and is communicated with the upper body and the lower body (62), the connecting net (63) is transversely disposed between the upper body (61) and the lower body (62), the bottom of the connecting net (63) is disposed in the lower body (62) and is detachably connected with the filter tubes (64), the filter tubes (64) are uniformly arranged at equal angles, the lower body (62) has a conical structure with a diameter gradually decreasing from top to bottom, and the length of the filter tubes (64) gradually increases from outside to inside.

6. The cyclone dry dust removal system of claim 1, wherein the tail end of the conveying module (4) further comprises a turnover part (411), the turnover part (411) comprises a driving cylinder and a turnover frame, the driving cylinder is obliquely installed on the equipment body (1), one end of the turnover plate is rotatably connected to the equipment body (1), and the other end of the turnover plate is rotatably connected with the output end of the driving cylinder (412).

7. A cyclone dry dust removal system according to claim 4, wherein the air outlets of the two dust collection heads (21) which are correspondingly arranged up and down are also provided with dust collection baffles (28), and the heights of the dust collection baffles (28) are lower than the heights of the conveying rollers (41);

and a panel (29) is arranged at the lower position of the conveying roller (41) in the equipment body (1).

8. A cyclonic dry dusting system as claimed in claim 4, wherein a guide (210) is further provided on the mounting frame (22), the guide (210) being adapted to guide the lifting of the cleaning head (21);

the guide piece (210) comprises a fixed block (211), a sliding groove, a sliding rail fixed block (212) and a sliding rail,

the fixing block (211) is fixed on the mounting frame (22), and a sliding groove is formed in the fixing block (211);

a sliding rail fixing block (212) is arranged on the dust collection head (21), and a sliding rail is arranged on the sliding rail fixing block (212);

the sliding rail is connected to the sliding groove in a sliding mode.

9. A cyclone dry dedusting system according to any one of the claims 1 to 8, characterized in that the electric control module (5) adopts a PLC controller.

10. A cyclonic dry dust extraction system as claimed in claim 1, further comprising an inner shroud (7) and an outer shroud (8);

the inner protective cover (7) covers the outside of each dust collection module (2);

the outer protective cover (8) covers the dust collection modules (2), the conveying modules (4) and the air pipe modules (3).

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