CN115108286B

CN115108286B - Nonwoven filter material processing system and processing method thereof

Info

Publication number: CN115108286B
Application number: CN202210789420.7A
Authority: CN
Inventors: 程骐
Original assignee: Yancheng Shibang Trade Co ltd
Current assignee: Yancheng Shibang Trade Co ltd
Priority date: 2022-07-06
Filing date: 2022-07-06
Publication date: 2023-12-19
Anticipated expiration: 2042-07-06
Also published as: CN115108286A

Abstract

The invention relates to a nonwoven filter material processing system and a processing method thereof, wherein the nonwoven filter material processing system comprises a hopper body, a guide groove is obliquely arranged on the hopper body, the guide groove is arranged and used for guiding filter materials, and a quantitative mechanism is arranged on the guide groove; according to the invention, the structure of the existing hopper body is improved, and the improved hopper body can perform the function of circulating quantitative material guiding in the feeding process, so that excessive filter materials entering the hopper body at one time are prevented, and the filter materials can be effectively prevented from being blocked in the hopper body.

Description

Nonwoven filter material processing system and processing method thereof

Technical Field

The invention relates to the technical field of nonwoven filter materials, in particular to a nonwoven filter material processing system and a processing method thereof.

Background

The filter material is a general term of water treatment filter material, is mainly used for filtering domestic sewage, industrial sewage, pure water and drinking water, is mainly divided into two main types, one type is granular material for filtering inflow water in water treatment equipment, generally refers to quartz sand, gravel, anthracite, granular activated carbon, fiber balls, fiber bundle filter materials, comet-type fiber filter materials and the like, and the other type is physically separated filter medium, and mainly comprises filter cloth, a filter screen, a filter element, filter paper and a latest film, and is required to be used for an edge opener in the process of processing the filter material. In the filter material processing process, in order to improve the processing efficiency, the filter material is excessively thrown into the hopper, so that the hopper is easy to be blocked. In order to solve the problems, the invention provides a processing system and a processing method of a nonwoven filter material.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects of the prior art, adapt to the actual needs, and provide a non-woven filter material processing system and a processing method thereof so as to solve the technical problems.

(2) Technical proposal

In order to achieve the purpose of the invention, the technical scheme adopted by the invention is as follows:

the nonwoven filter material processing system comprises a hopper body, wherein a guide chute is obliquely arranged on the hopper body, the guide chute is arranged and used for guiding the filter material, and a quantifying mechanism is arranged on the guide chute.

The quantitative mechanism comprises a plugging plate and a plugging groove, wherein the plugging plate is movably inserted in the plugging groove, the plugging groove is formed in the guide groove, the upper end of the plugging plate is fixedly connected with a first vertical rod, the upper end of the first vertical rod is fixedly connected with a transverse supporting plate, the lower end face of the transverse supporting plate is fixedly connected with a driving cylinder arm, the lower end of the driving cylinder arm is connected with a driving cylinder, and the driving cylinder is fixedly connected to the outer side wall of the guide groove.

Further, a pushing mechanism is arranged on the guide chute and used for pushing the filter material, so that the filter material is prevented from being blocked in the guide chute.

Further, pushing mechanism includes actuating mechanism and dwang, actuating mechanism is used for dwang and the drive connection of a vertical pole, dwang fixed connection is in the axis of rotation, and the axis of rotation rotates and peg graft on the baffle box, be provided with the stirring in the axis of rotation and grab.

Further, actuating mechanism includes driving worm and drive turbine, driving worm meshes with drive turbine, and the fixed cover of driving worm establishes outside No. one vertical pole, the fixed cover of drive turbine is established on No. two vertical poles, and No. two vertical poles rotate and set up on the mounting groove diapire of seting up on the baffle box, no. two vertical pole external fixation cover is equipped with a flywheel, and rolls on the flywheel and be provided with drive belt, drive belt's free end transmission is provided with No. two flywheels, and No. two flywheel fixation cover is established outside No. three vertical poles, no. three vertical poles rotate and set up on the diapire of mounting groove, no. three vertical pole external fixation cover is equipped with No. one bevel gear, and No. one bevel gear meshes with No. two bevel gears, no. two bevel gears fixed cover is established outside No. one dwang.

Further, be provided with on the No. three vertical pole and strike the mechanism, strike the setting of mechanism for realize striking the baffle box, can prevent through the conduction of vibration that the filter material from blocking up in the hopper body.

Further, strike the mechanism and including rotating the supporting disk and removing the supporting groove, rotate the fixed cover of supporting disk and establish outside No. three vertical poles, it is provided with the striking pole to remove the supporting groove and offer on rotating the supporting disk, and remove the sliding in the supporting groove, it has offered the support through-hole to strike on the pole, and the slip is provided with spacing supporting shoe in the support through-hole, spacing supporting shoe is fixed to be set up on the diapire that removes the supporting groove, the activity is pegged graft on the spacing supporting shoe has the support slide bar, and support slide bar fixed connection in the support through-hole, the outside winding of support slide bar is connected with a supporting spring, and a supporting spring's both ends respectively fixed connection on the lateral wall of spacing supporting shoe and on the lateral wall of support slide bar.

Further, the impact mechanism is arranged on the rotary supporting disc and used for assisting the knocking mechanism to increase the vibration frequency of the guide chute, so that a better anti-blocking effect is achieved.

Further, the impact mechanism comprises a linkage mechanism and a support slide plate, the support slide plate and the knocking rod are connected through the linkage mechanism, the support slide plate is arranged in a support slide groove in a sliding mode, the support slide groove is formed in a rotary support disc, the side wall of the support slide groove is fixedly connected with a second support spring, the free end of the second support spring is fixedly connected to the side wall of the support slide plate, a vertical plate is fixedly connected to the upper end face of the support slide plate, an impact column is fixedly connected to the side wall of the vertical plate, the linkage mechanism comprises a first straight rack, a driving gear, a second rotary rod, a rotary groove and a second straight rack, the first straight rack is fixedly connected to the side wall of the knocking rod, the first straight rack is meshed with the driving gear, the driving gear is fixedly sleeved outside the second rotary rod, the second rotary rod is rotatably arranged on the rotary groove, the rotary groove is formed in the rotary support disc, one end of the driving gear, which is far away from the first straight rack, is meshed with the second straight rack, and the second straight rack is fixedly connected to the side wall of the support slide plate.

Further, the processing method of the non-woven filter material is characterized by comprising the following steps:

step one: the filter material enters the hopper body through the guide chute;

step two: starting the quantifying mechanism, and ensuring the quantifying function of the filter material in the entering process by the quantifying mechanism so as to prevent the filter material from being blocked in the hopper body;

step three: the quantitative mechanism works and drives the pushing mechanism to work so as to push the filter materials in the guide chute into the hopper body and prevent the filter materials from being blocked in the guide chute;

step four: the pushing mechanism works and synchronously controls the knocking mechanism to knock the guide chute, so that the filter material is prevented from being blocked in the hopper body through vibration transmission;

step five: when the knocking mechanism is knocked, the linkage of the knocking mechanism can be realized and is used for assisting the knocking mechanism, so that the vibration frequency is increased, and a better anti-blocking effect is achieved.

(3) The beneficial effects are that:

according to the invention, the structure of the existing hopper body is improved, and the improved hopper body can perform the function of circulating quantitative material guiding in the feeding process, so that excessive filter materials entering the hopper body at one time are prevented, and the filter materials can be effectively prevented from being blocked in the hopper body.

The pushing mechanism is additionally arranged, and can be linked with the quantifying mechanism, so that the pushing mechanism can be driven to push the filter material in the guide chute in the motion process of the quantifying mechanism, and the filter material is prevented from being blocked in the guide chute.

The invention is additionally provided with the knocking mechanism, and the knocking mechanism is arranged for knocking the guide chute, so that the vibration of the guide chute can be realized through knocking, and the hopper body also vibrates through the conduction of the vibration, thereby effectively preventing the filter material from being blocked in the hopper body.

According to the invention, the impact mechanism is additionally arranged, and the impact mechanism is used for achieving the impact effect on the guide chute and assisting the knocking mechanism to increase the vibration frequency of the guide chute, so that the filter material can be better prevented from being blocked in the hopper body.

The invention has reasonable structural design, and simultaneously drives the pushing mechanism, the knocking mechanism and the impacting mechanism to work when the quantitative mechanism works, thus not only reducing the operation difficulty of the equipment, but also improving the operation performance of the equipment.

Drawings

FIG. 1 is a schematic diagram of a nonwoven filter material processing system and a processing method thereof according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1 illustrating a nonwoven filter material processing system and a processing method thereof according to the present invention;

FIG. 3 is a schematic view of the partially enlarged structure of FIG. 1 illustrating a nonwoven filter material processing system and a processing method thereof according to the present invention;

FIG. 4 is an enlarged schematic view of the structure B in FIG. 3 showing the nonwoven filter material processing system and processing method according to the present invention.

The reference numerals are as follows:

the hopper body 1, the guide chute 2, the dosing mechanism 3, the plugging plate 31, the plugging slot 32, the first vertical rod 33, the lateral support plate 34, the driving cylinder arm 35, the driving cylinder 36, the pushing mechanism 4, the driving worm 41, the driving turbine 42, the second vertical rod 43, the first flywheel 44, the driving belt 45, the second flywheel 46, the third vertical rod 47, the first bevel gear 48, the second bevel gear 49, the first rotating rod 410, the rotating shaft 411, the stirring grab 412, the knocking mechanism 5, the rotating support disc 51, the moving support groove 52, the knocking rod 53, the support through hole 54, the limiting support block 55, the support slide rod 56, the first support spring 57, the knocking mechanism 6, the first straight rack 61, the driving gear 62, the second rotating rod 63, the rotating groove 64, the second straight rack 65, the support slide plate 66, the support slide groove 67, the second support spring 68, the vertical plate 69, and the knocking column 610.

Detailed Description

The invention is further illustrated by the following examples in connection with figures 1-4:

the non-woven filter material processing system comprises a hopper body 1, wherein a guide chute 2 is obliquely arranged on the hopper body 1, the guide chute 2 is arranged and used for guiding materials of filter materials, and a quantifying mechanism 3 is arranged on the guide chute 2. The quantitative mechanism 3 comprises a plugging plate 31 and a plugging groove 32, wherein the plugging plate 31 is movably inserted into the plugging groove 32, the plugging groove 32 is formed in the guide groove 2, the upper end of the plugging plate 31 is fixedly connected with a first vertical rod 33, the upper end of the first vertical rod 33 is fixedly connected with a transverse supporting plate 34, the lower end face of the transverse supporting plate 34 is fixedly connected with a driving cylinder arm 35, the lower end of the driving cylinder arm 35 is connected with a driving cylinder 36, and the driving cylinder 36 is fixedly connected to the outer side wall of the guide groove 2. According to the invention, the structure of the existing hopper body 1 is improved, and the improved hopper body 1 can perform the function of circulating quantitative material guiding in the feeding process, so that the filter material entering the hopper body 1 is prevented from being excessive at one time, and the filter material can be effectively prevented from being blocked in the hopper body 1.

In this embodiment, be provided with pushing mechanism 4 on baffle box 2, pushing mechanism 4's setting for the promotion of filter material prevents that the filter material from being plugged up in baffle box 2, pushing mechanism 4 includes actuating mechanism and dwang 410, actuating mechanism is used for the drive connection of dwang 410 and vertical pole 33, dwang 410 fixed connection is on axis of rotation 411, and axis of rotation 411 rotates and peg graft on baffle box 2, be provided with stirring on axis of rotation 411 and grab 412, actuating mechanism includes driving worm 41 and drive turbine 42, driving worm 41 meshes with drive turbine 42, and driving worm 41 fixed cover is established outside vertical pole 33, drive turbine 42 fixed cover is established on vertical pole 43 No. two, and No. two vertical pole 43 rotations are set up on the mounting groove diapire of seting up on baffle box 2, no. two vertical pole 43 external fixation cover is equipped with flywheel 44, and No. one flywheel 44 is last to roll and be provided with drive belt 45, the free end transmission of drive belt 45 is provided with No. two flywheels 46, and No. two flywheels 46 fixed cover is established outside No. three vertical pole 47, no. three vertical pole 47 sets up outside vertical pole 47, no. 49 external bevel gear 48 is established on No. two vertical pole 47 external bevel gear 48, no. two external bevel gear 48 fixed cover is established outside the vertical pole 48. The pushing mechanism 4 is additionally arranged in the invention, and the pushing mechanism 4 can be linked with the quantitative mechanism 3, so that the pushing mechanism 4 can be driven to push the filter material in the guide chute 2 in the movement process of the quantitative mechanism 3, thereby preventing the filter material from being blocked in the guide chute 2.

In this embodiment, the third vertical rod 47 is provided with the knocking mechanism 5, the setting of the knocking mechanism 5 is used for realizing knocking on the guide chute 2, the supporting slide bar 56 is movably inserted on the supporting slide bar 55, and the supporting slide bar 56 is fixedly connected in the supporting through hole 54, the supporting slide bar 56 is externally wound and connected with the first supporting spring 57, two ends of the first supporting spring 57 are fixedly connected on the side wall of the supporting slide bar 55 and the side wall of the supporting slide bar 56 respectively, the setting of the knocking mechanism 5 is additionally provided on the rotating supporting plate 51, the knocking rod 53 is arranged in the sliding supporting groove 52 in a sliding manner, the supporting through hole 54 is formed in the knocking rod 53, the limiting support bar 55 is slidably provided with the limiting support block 55, the supporting slide bar 56 is fixedly connected in the supporting through hole 54, and the supporting slide bar 56 is externally wound and connected with the first supporting spring 57.

In this embodiment, be provided with striking mechanism 6 on the rotation supporting disk 51, striking mechanism 6's setting, be used for assisting striking mechanism 5, increase baffle box 2's vibration frequency, thereby realize better anti-blocking effect, striking mechanism 6 includes link gear and support slide 66, support slide 66 and strike pole 53 are connected through the link gear, and support slide 66 slides and set up in support spout 67, support spout 67 sets up on rotation supporting disk 51, and support spout 67's lateral wall fixedly connected with No. two supporting spring 68, no. two free end fixed connection of supporting spring 68 is on support slide 66's lateral wall, fixedly connected with vertical plate 69 on support slide 66's the up end, and fixedly connected with striking post 610 on vertical plate 69's the lateral wall, link gear includes first straight tooth strip 61, driving gear 62, no. two dwang 63, rotating groove 64 and No. two straight tooth strip 65, first straight tooth strip 61 fixed connection is on the lateral wall of pole 53, and first straight tooth strip 61 meshes with driving gear 62 mutually, driving gear 62 fixed cover is established outside No. two dwang 63, and No. two supporting gear 64 is set up on the lateral wall of support slide 66, thereby the baffle box 6 is used for the impact mechanism is arranged in order to keep away from the side wall of the baffle box 2, the effect is realized, the baffle box is realized to the baffle box is more than 1 is connected with the baffle box 6, and is arranged on the side wall of baffle box is more than 6, the side wall is connected with the baffle box is more than directly changed, and is connected with the baffle box is directly to the baffle box is connected. The invention has reasonable structural design, and simultaneously drives the pushing mechanism 4, the knocking mechanism 5 and the impacting mechanism 6 to work while the quantifying mechanism 3 works, thus not only reducing the operation difficulty of the equipment, but also improving the operation performance of the equipment.

In this embodiment, the processing method of the nonwoven filter material includes the following steps:

step one: the filter material enters the hopper body 1 through the guide chute 2.

Step two: the quantitative mechanism 3 is started, and the quantitative mechanism 3 works to ensure that the filter material realizes the quantitative effect in the entering process, so that the filter material is prevented from being blocked in the hopper body 1; specifically, the driving cylinder 36 works to move in the vertical direction by driving the cylinder arm 35, the transverse bearing plate 34 and the first vertical rod 33, and the driving cylinder 36 adopts a circulating cylinder, so that under the action of the driving cylinder 36, the driving cylinder can move up and down by driving the sealing plate 31, and the sealing plate 31 moves up and down to realize intermittent sealing of the filter material, so that a quantitative effect is realized, and further an anti-blocking effect of the filter material in the hopper body 1 can be realized.

Step three: the quantitative mechanism 3 works to drive the pushing mechanism 4 to work so as to push the filter material in the guide chute 2 into the hopper body 1 and prevent the filter material from being blocked in the guide chute 2; specifically, when the first vertical rod 33 moves in the vertical direction, the driving worm 41 drives the driving turbine 42 to rotate, the driving turbine 42 rotates, the second vertical rod 43, the first flywheel 44, the transmission belt 45 and the second flywheel 46 drive the third vertical rod 47 to rotate, the third vertical rod 47 rotates, the first bevel gear 48, the second bevel gear 49 and the first rotating rod 410 drive the rotating shaft 411 and the stirring grab 412 to rotate, and the rotating shaft 411 and the stirring grab 412 rotate to grab filter materials in the guide chute 2 to prevent the filter materials from being blocked in the guide chute 2.

Step four: the pushing mechanism 4 works to synchronously control the knocking mechanism 5 to knock the guide chute 2, so that the filter material is prevented from being blocked in the hopper body 1 through vibration transmission; specifically, the rotation of the third vertical rod 47 also rotates with the rotation support disc 51, the rotation of the rotation support disc 51 rotates with the knocking rod 53, and the knocking of the guide chute 2 is achieved through the knocking rod 53, so that the guide chute 2 vibrates, and the vibration is conducted to the hopper body 1, so that the filter material can be prevented from being blocked in the hopper body 1. In order to prevent the device from being caught, movement occurs in the movement supporting groove 52 during the striking of the striking rod 53.

Step five: when the knocking mechanism 5 is knocked, the linkage of the knocking mechanism 6 can be realized, and the knocking mechanism is used for assisting the knocking mechanism 5, so that the vibration frequency is increased, and a better anti-blocking effect is achieved; specifically, when the knocking rod 53 moves into the moving supporting groove 52, the first straight rack 61, the driving gear 62, the second rotating rod 63, the rotating groove 64 and the second straight rack 65 move with the supporting sliding plate 66, and the supporting sliding plate 66 moves to impact the guide groove 2 with the impact column 610 through the vertical plate 69, so that the vibration frequency of the guide groove 2 can be increased, the blocking process is quickened, and the processing efficiency is improved.

The invention has the beneficial effects that:

according to the invention, the structure of the existing hopper body 1 is improved, and the improved hopper body 1 can perform the function of circulating quantitative material guiding in the feeding process, so that the filter material entering the hopper body 1 is prevented from being excessive at one time, and the filter material can be effectively prevented from being blocked in the hopper body 1.

The pushing mechanism 4 is additionally arranged in the invention, and the pushing mechanism 4 can be linked with the quantitative mechanism 3, so that the pushing mechanism 4 can be driven to push the filter material in the guide chute 2 in the movement process of the quantitative mechanism 3, thereby preventing the filter material from being blocked in the guide chute 2.

According to the invention, the knocking mechanism 5 is additionally arranged, the knocking mechanism 5 is arranged for knocking the guide chute 2, the vibration of the guide chute 2 can be realized through knocking, and the hopper body 1 also vibrates through the conduction of the vibration, so that the filter material is effectively prevented from being blocked in the hopper body 1.

According to the invention, the impact mechanism 6 is additionally arranged, the impact mechanism 6 is arranged to realize impact effect on the guide chute 2 and is used for assisting the knocking mechanism 5 to increase the vibration frequency of the guide chute 2, so that the filter material can be better prevented from being blocked in the hopper body 1.

The invention has reasonable structural design, and simultaneously drives the pushing mechanism 4, the knocking mechanism 5 and the impacting mechanism 6 to work while the quantifying mechanism 3 works, thus not only reducing the operation difficulty of the equipment, but also improving the operation performance of the equipment.

The embodiments of the present invention are disclosed as preferred embodiments, but not limited thereto, and those skilled in the art will readily appreciate from the foregoing description that various extensions and modifications can be made without departing from the spirit of the present invention.

Claims

1. The processing method of the non-woven filter material is characterized in that the processing system of the non-woven filter material comprises a hopper body (1), wherein a guide chute (2) is obliquely arranged on the hopper body (1), the guide chute (2) is arranged and used for guiding the filter material, and a quantitative mechanism (3) is arranged on the guide chute (2);

the quantitative mechanism (3) comprises a plugging plate (31) and a plugging groove (32), wherein the plugging plate (31) is movably plugged in the plugging groove (32), the plugging groove (32) is formed in the guide groove (2), the upper end of the plugging plate (31) is fixedly connected with a first vertical rod (33), the upper end of the first vertical rod (33) is fixedly connected with a transverse supporting plate (34), the lower end face of the transverse supporting plate (34) is fixedly connected with a driving cylinder arm (35), the lower end of the driving cylinder arm (35) is connected with a driving cylinder (36), and the driving cylinder (36) is fixedly connected to the outer side wall of the guide groove (2);

the guide chute (2) is provided with a pushing mechanism (4), and the pushing mechanism (4) is used for pushing filter materials to prevent the filter materials from being blocked in the guide chute (2);

the pushing mechanism (4) comprises a driving mechanism and a first rotating rod (410), the driving mechanism is used for driving and connecting the first rotating rod (410) with a first vertical rod (33), the first rotating rod (410) is fixedly connected to a rotating shaft (411), the rotating shaft (411) is rotationally inserted into the guide chute (2), and the rotating shaft (411) is provided with a stirring grab (412);

the driving mechanism comprises a driving worm (41) and a driving turbine (42), the driving worm (41) is meshed with the driving turbine (42), the driving worm (41) is fixedly sleeved outside a first vertical rod (33), the driving turbine (42) is fixedly sleeved on a second vertical rod (43), the second vertical rod (43) is rotatably arranged on the bottom wall of a mounting groove formed in the guide groove (2), a first flywheel (44) is fixedly sleeved outside the second vertical rod (43), a driving belt (45) is arranged on the first flywheel (44) in a rolling mode, a second flywheel (46) is arranged at the free end of the driving belt (45) in a transmission mode, the second flywheel (46) is fixedly sleeved outside a third vertical rod (47), the third vertical rod (47) is rotatably arranged on the bottom wall of the mounting groove, a first bevel gear (48) is rotatably sleeved outside the third vertical rod (47), the first bevel gear (48) is meshed with a second bevel gear (49), and the second bevel gear (49) is fixedly sleeved outside the third vertical rod (47);

the third vertical rod (47) is provided with a knocking mechanism (5), and the knocking mechanism (5) is used for knocking the guide chute (2) and preventing filter materials from being blocked in the hopper body (1) through vibration conduction;

the knocking mechanism (5) comprises a rotating supporting disc (51) and a moving supporting groove (52), the rotating supporting disc (51) is fixedly sleeved outside a third vertical rod (47), the moving supporting groove (52) is formed in the rotating supporting disc (51), a knocking rod (53) is arranged in the moving supporting groove (52) in a sliding mode, a supporting through hole (54) is formed in the knocking rod (53), a limiting supporting block (55) is arranged in the supporting through hole (54) in a sliding mode, the limiting supporting block (55) is fixedly arranged on the bottom wall of the moving supporting groove (52), a supporting sliding rod (56) is movably inserted on the limiting supporting block (55), the supporting sliding rod (56) is fixedly connected in the supporting through hole (54), a first supporting spring (57) is wound outside the supporting sliding rod (56), and two ends of the first supporting spring (57) are fixedly connected to the side wall of the limiting supporting block (55) and the side wall of the supporting sliding rod (56) respectively;

the rotary supporting disc (51) is provided with an impact mechanism (6), and the impact mechanism (6) is used for assisting the knocking mechanism (5) to increase the vibration frequency of the guide chute (2), so that a better anti-blocking effect is realized;

the impact mechanism (6) comprises a linkage mechanism and a support slide plate (66), the support slide plate (66) and the knocking rod (53) are connected through the linkage mechanism, the support slide plate (66) is arranged in a support slide groove (67) in a sliding mode, the support slide groove (67) is arranged on a rotary support disc (51), a second support spring (68) is fixedly connected to the side wall of the support slide groove (67), the free end of the second support spring (68) is fixedly connected to the side wall of the support slide plate (66), a vertical plate (69) is fixedly connected to the upper end face of the support slide plate (66), an impact column (610) is fixedly connected to the side wall of the vertical plate (69), the linkage mechanism comprises a first straight tooth bar (61), a driving gear (62), a second rotary rod (63), a rotary groove (64) and a second straight tooth bar (65), the first straight tooth bar (61) is fixedly connected to the side wall of the knocking rod (53), the first straight tooth bar (61) is meshed with the driving gear (62), the driving gear (62) is fixedly arranged on the second rotary groove (64) in the rotary groove (64), one end of the driving gear (62) far away from the first straight rack (61) is meshed with a second straight rack (65), and the second straight rack (65) is fixedly connected to the side wall of the supporting sliding plate (66);

the processing method of the nonwoven filter material comprises the following steps:

step one: the filter material enters the hopper body (1) through the guide chute (2);

step two: starting a quantifying mechanism (3), and enabling the quantifying mechanism (3) to work to realize the quantifying function, so as to prevent the filter material from being blocked in the hopper body (1);

step three: the quantitative mechanism (3) works to drive the pushing mechanism (4) to work so as to push the filter material in the guide chute (2) into the hopper body (1) and prevent the filter material from being blocked in the guide chute (2);

step four: the pushing mechanism (4) synchronously controls the knocking mechanism (5) to knock the guide chute (2), so that the filter material is prevented from being blocked in the hopper body (1) through vibration transmission;

step five: when the knocking mechanism (5) is knocked, the linkage of the knocking mechanism (6) can be realized, and the knocking mechanism is used for assisting the knocking mechanism (5), increasing the vibration frequency and playing a better anti-blocking effect.