CN215947679U - Dustproof equipment of high white non-woven fabrics production usefulness - Google Patents

Abstract

The utility model relates to the field of non-woven fabric production, in particular to dustproof equipment for producing high-white non-woven fabric, which comprises the following components: frame and dust extraction, frame include roll up feed cylinder and driving drum, and roll up feed cylinder and driving drum are the cylinder, roll up feed cylinder and driving drum both ends and frame rotation connection, and dust collecting equipment still includes: the driving device comprises a rotary driver and a first transmission assembly, the rotary driver is fixedly installed on the rack and provides rotary driving force for the first transmission assembly, the first transmission assembly is fixed on the rack and is used for converting the driving force provided by the rotary driver into linear reciprocating driving force, and the driving direction of the first transmission assembly is vertically arranged; the flapping device comprises a first flapping plate which is a square plate, and the first flapping plate is fixedly connected with the driving end of the first transmission component. The technical problem of solving ordinary dust collector and being difficult to drive and adhere to at non-woven fabrics surface dust and batting has been solved in this application.

Description

Dustproof equipment of high white non-woven fabrics production usefulness

Technical Field

The utility model relates to the field of non-woven fabric production, in particular to dustproof equipment for producing high-white non-woven fabrics.

Background

Nonwoven fabrics, also known as nonwovens, are composed of oriented or random fibers. The high-whiteness non-woven fabric is added with a high-whiteness layer on the surface of a common non-woven fabric, and the high-whiteness non-woven fabric has higher requirements on the surface smoothness of the non-woven fabric, so that the surface of the high-whiteness non-woven fabric can be dedusted during processing, an existing dedusting device can only clean most of dust on the surface, which is easy to clean, and the dust and the wool attached to the surface of the non-woven fabric are difficult to solve, so that dedusting equipment for producing the high-whiteness non-woven fabric is needed.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the dustproof equipment for producing the high-white non-woven fabric is provided.

In order to achieve the above purposes, the technical scheme adopted by the utility model is as follows:

a dustproof device for producing high-whiteness non-woven fabrics comprises a frame and a dust suction device, wherein the frame comprises a rolling cylinder and a transmission cylinder, the rolling cylinder and the transmission cylinder are cylinders, two ends of the rolling cylinder and two ends of the transmission cylinder are rotationally connected with the frame,

the dust removing apparatus further includes:

the driving device comprises a rotary driver and a first transmission assembly, the rotary driver is fixedly installed on the rack and provides rotary driving force for the first transmission assembly, the first transmission assembly is fixed on the rack and is used for converting the driving force provided by the rotary driver into linear reciprocating driving force, and the driving direction of the first transmission assembly is vertically arranged;

the flapping device comprises a first flapping plate which is a square plate, and the first flapping plate is fixedly connected with the driving end of the first transmission component.

Preferably, the first transmission assembly comprises:

the first main shaft is fixed on the rack, the axis direction of the first main shaft is horizontally arranged, and the first main shaft is fixedly connected with the driving end of the rotary driver and the axis of the first main shaft is collinear;

the driving wheel is fixedly sleeved on the first main shaft;

the second main shaft is fixedly arranged on the rack, and the axis of the second main shaft is parallel to the first main shaft;

the driving wheel is fixedly sleeved on the second spindle, and the outer diameter of the driving wheel is larger than that of the driving wheel;

the transmission belt is an elastic transmission belt and is connected with the driving wheel and the transmission belt, and the transmission belt transmits the driving force of the driving wheel to the transmission wheel;

the third main shaft is eccentrically and fixedly arranged on the driving wheel, and the axis of the third main shaft is parallel to the axis of the driving wheel;

the flapping device further comprises a first guide rail, the first guide rail is fixedly arranged on the rack, and the working direction of the first guide rail is vertically arranged; the first clapper comprises a first guide rod and a first annular groove, the first guide rod is an L-shaped strip-shaped plate, the short end of the first guide rod is fixedly arranged on the side surface of the first clapper, the long end of the first guide rod is connected with a first guide rail in a sliding manner, the long end of the first guide rod is fixedly connected with the first annular groove, and the first annular groove is connected with a third main shaft in a sliding manner.

Preferably, the first and second liquid crystal materials are,

the driving device further comprises a second transmission assembly, the second transmission assembly comprises a first transmission shaft, a transmission rod, a third annular groove, a rotating hole and a second transmission shaft, the first transmission shaft is fixedly installed on the rack, the axis of the first transmission shaft is horizontally parallel to the axis of the first main shaft, the transmission rod is a strip-shaped rod, the third annular groove is arranged in the middle of the transmission rod, the transmission rod is sleeved on the first transmission shaft through the third annular groove, the rotating hole is formed in one end of the transmission rod, the rotating hole is sleeved on the third main shaft, and the second transmission shaft is arranged at the other end of the transmission rod;

the flapping device further comprises a second flapping plate and a second guide rail, the second flapping plate is a square plate, the second guide rail is fixedly installed on the rack, a second guide rod is fixedly installed on one side of the second flapping plate and is an L-shaped strip plate, the short end of the second guide rod is fixedly installed on the side face of the second flapping plate, the long end of the second guide rod is slidably connected with the second guide rail, the long end of the first guide rod is fixedly connected with a second annular groove, and the second annular groove is slidably connected with a second transmission shaft.

Preferably, the first clapper further comprises a first elastic plate, the first elastic plate is fixedly attached to the lower surface of the first clapper, and the first elastic plate is an elastic plate; the second clapper comprises a second elastic plate, the second elastic plate is fixedly attached to the lower surface of the second clapper, and the second elastic plate is an elastic plate.

Preferably, the dust suction device comprises an upper dust suction port and a lower dust suction port, the upper dust suction port is fixedly arranged right above the frame, and the lower dust suction port is fixedly arranged right below the frame.

Preferably, the rack further comprises an electrostatic elimination device, the electrostatic elimination device comprises a mounting seat and an ion wind rod, the mounting seat is fixedly mounted on the outer side of the rack close to the material rolling barrel, the ion wind rod is fixedly mounted on the mounting seat, and the working direction of the ion wind rod horizontally faces the material rolling barrel.

Compared with the prior art, the application has the beneficial effects that:

1. this application is used for carrying out the dust removal step to the non-woven fabrics through frame, drive arrangement and patting device, has solved and has solved ordinary dust collector and be difficult to clear away the technical problem who adheres to at non-woven fabrics surface dust and batting.

2. This application has solved first transmission assembly how to convert the rotatory drive power that rotary actuator provided into the technical problem of vertical direction drive power through first transmission assembly is used for carrying out the step of drive rotary actuator.

3. This application is used for eliminating the beat interval of patting the device to the non-woven fabrics through second transmission assembly, second clappers and second guide rail, has solved the rotary drive power who first transmission assembly how provides rotary drive and has turned into the technical problem of vertical direction drive power.

4. This application is used for carrying out the step of patting the non-woven fabrics through first elastic plate and second elastic plate, has solved first clapper and second clapper and has patted the technical problem that the non-woven fabrics may cause the injury.

5. This application has solved first clapper and second clapper and has patted the technical problem that the non-woven fabrics may cause the injury through last dust absorption mouth and lower dust absorption mouth for carrying out the dust and the batting step of absorbing and removing the aerial floating.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view B-B of FIG. 2;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is a front view of the first drive assembly of the present invention;

FIG. 6 is an elevational view of a second transmission assembly of the present invention;

the reference numbers in the figures are:

1-a frame; 1 a-a winding drum; 1 b-a transmission cylinder;

2-a drive device; 2 a-a rotary drive; 2 b-a first transmission assembly; 2b1 — first spindle; 2b2 — capstan; 2b3 — second spindle; 2b 4-drive wheel; 2b 5-drive belt; 2b 6-third spindle; 2 c-a second transmission assembly; 2c1 — first drive shaft; 2c2 — transfer bar; 2c 3-third annular groove; 2c 4-rotating hole; 2c 5-second drive shaft;

3-a flapping device; 3 a-a first clapper; 3a1 — first guide bar; 3a2 — first annular groove; 3a 3-a first resilient plate; 3 b-a first guide rail; 3 c-a second clapper; 3c1 — second guide bar; 3c2 — second annular groove; 3c 3-a second resilient plate; 3 d-a second guide rail;

4-dust suction device; 4 a-upper dust suction port; 4 b-a lower dust suction port;

5-a static elimination device; 5 a-a mounting seat; 5 b-ion wind rod.

Detailed Description

The following description is presented to disclose the utility model so as to enable any person skilled in the art to practice the utility model. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

In order to solve the technical problem that the common dust removing device is difficult to remove dust and flocks attached to the surface of the non-woven fabric, as shown in fig. 1, fig. 2 and fig. 3, the following preferred technical solutions are provided:

a dustproof device for producing high-whiteness non-woven fabrics comprises a frame 1 and a dust suction device 4, wherein the frame 1 comprises a winding cylinder 1a and a transmission cylinder 1b, the winding cylinder 1a and the transmission cylinder 1b are cylinders, two ends of the winding cylinder 1a and two ends of the transmission cylinder 1b are rotatably connected with the frame 1,

the dust removing apparatus further includes:

the driving device 2, the driving device 2 includes a rotary driver 2a and a first transmission assembly 2b, the rotary driver 2a is fixedly installed on the frame 1, the rotary driver 2a provides rotary driving force for the first transmission assembly 2b, the first transmission assembly 2b is fixed on the frame 1, the first transmission assembly 2b is used for converting the driving force provided by the rotary driver 2a into linear reciprocating driving force, and the driving direction of the first transmission assembly 2b is vertically arranged;

the flapping device 3, the flapping device 3 includes a first flapping plate 3a, the first flapping plate 3a is a square plate, and the first flapping plate 3a is fixedly connected with the driving end of the first transmission component 2 b.

Specifically, the rotary driver 2a is specifically a servo motor, the servo motor is electrically connected with the controller, and the dust collection device 4 is connected with a dust collector; the operator fixes high and white non-woven fabrics one end to a material rolling barrel 1a department, start the machine, the non-woven fabrics is through the guide of transmission barrel 1b and then on the material rolling barrel 1a, the machine starts the back, the operator sends signal for servo motor through the controller, servo motor starts the back and drives first transmission assembly 2b, first transmission assembly 2b converts rotary drive power into vertical direction's reciprocating motion drive power, the first clapper 3a of drive patting device 3 is reciprocating motion in the vertical direction, pat the non-woven fabrics on material rolling barrel 1a and transmission barrel 1b simultaneously, make dust and the batting attached to high and white non-woven fabrics surface drop, and simultaneously, dust extraction 4 after the start-up siphons away the dust and the batting that float in the air, reach the dust removal effect to the non-woven fabrics.

Further, in order to solve the technical problem of how the first transmission assembly 2b converts the rotational driving force provided by the rotational driver 2a into the vertical driving force, as shown in fig. 3 and 5, the following preferred technical solutions are provided:

the first transmission assembly 2b comprises:

the first main shaft 2b1, the first main shaft 2b1 is fixed on the frame 1, the axial direction of the first main shaft 2b1 is horizontally arranged, the first main shaft 2b1 is fixedly connected with the driving end of the rotary driver 2a, and the axial lines are collinear;

the driving wheel 2b2, the driving wheel 2b2 is fixedly sleeved on the first main shaft 2b 1;

the second main shaft 2b3, the second main shaft 2b3 is fixedly installed on the frame 1, the axis of the second main shaft 2b3 is parallel to the first main shaft 2b 1;

the driving wheel 2b4, the driving wheel 2b4 is fixedly sleeved on the second main shaft 2b3, and the outer diameter of the driving wheel 2b4 is larger than that of the driving wheel 2b 2;

the transmission belt 2b5, the transmission belt 2b5 is an elastic transmission belt, the transmission belt 2b5 is connected with the driving wheel 2b2 and the transmission belt 2b5, and the transmission belt 2b5 transmits the driving force of the driving wheel 2b2 to the transmission wheel 2b 4;

the third main shaft 2b6, the third main shaft 2b6 is eccentrically and fixedly arranged on the driving wheel 2b4, and the axis of the third main shaft 2b6 is parallel to the axis of the driving wheel 2b 4;

the flapping device 3 further comprises a first guide rail 3b, the first guide rail 3b is fixedly arranged on the rack 1, and the first guide rail 3b is vertically arranged in the working direction; the first racket plate 3a includes a first guide rod 3a1 and a first annular groove 3a2, the first guide rod 3a1 is an L-shaped strip, the short end of the first guide rod 3a1 is fixedly installed at the side of the first racket plate 3a, the long end of the first guide rod 3a1 is slidably connected with the first guide rail 3b, the long end of the first guide rod 3a1 is fixedly connected with the first annular groove 3a2, and the first annular groove 3a2 is slidably connected with the third main shaft 2b 6.

Specifically, after an operator starts the rotary driver 2a by sending a signal through the controller, the rotary driver 2a rotationally drives the first spindle 2b1 fixedly connected to the driving end thereof, the first spindle 2b1 rotationally drives the driving wheel 2b2 to rotate, the driving wheel 2b2 transmits driving force to the driving wheel 2b4 through the driving belt 2b5, the driving wheel 2b4 is driven to rotate, so as to drive the third spindle 2b6 to rotate, the third spindle 2b6 rotates to slide in the first annular groove 3a2, due to the structural design of the first annular groove 3a2, the driving force of the third spindle 2b6 is divided into horizontal driving force and vertical driving force, the horizontal driving force drives the third spindle 2b6 to slide in the horizontal direction in the first annular groove 3a2, the vertical driving force drives the first annular groove 3a2 to move in the vertical direction, and the third spindle 2b6 rotates, therefore, the first annular groove 3a2 is driven to reciprocate along the vertical direction, so as to drive the first guide rod 3a1 and the first clapper 3a which are fixedly connected with the first annular groove to reciprocate along the vertical direction, the first clapper 3a carries out reciprocating flapping on the high-white non-woven fabric, dust and batting attached to the surface of the non-woven fabric fall off, and the dust and batting floating in the air are sucked away by the dust suction device 4.

Further, in order to solve the technical problem that the beating device 3 beats the non-woven fabric with an interval to reduce the dust removing effect, as shown in fig. 2, 3, 4 and 6, the following preferred technical solutions are provided:

the driving device 2 further comprises a second transmission assembly 2c, the second transmission assembly 2c comprises a first transmission shaft 2c1, a transmission rod 2c2, a third annular groove 2c3, a rotating hole 2c4 and a second transmission shaft 2c5, the first transmission shaft 2c1 is fixedly installed on the rack 1, the axis of the first transmission shaft 2c1 is horizontally parallel to the axis of the first spindle 2b1, the transmission rod 2c2 is a strip-shaped rod, the third annular groove 2c3 is arranged in the middle of the transmission rod 2c2, the transmission rod 2c2 is sleeved on the first transmission shaft 2c1 through the third annular groove 2c3, one end of the transmission rod 2c2 is provided with a rotating hole 2c4, the rotating hole 2c4 is sleeved on the third spindle 2b6, and the second transmission shaft 2c5 is arranged at the other end of the transmission rod 2c 2;

the flapping device 3 further comprises a second flapping plate 3c and a second guide rail 3d, the second flapping plate 3c is a square plate, the second guide rail 3d is fixedly installed on the frame 1, one side of the second flapping plate 3c is fixedly installed with a second guide rod 3c1, the second guide rod 3c1 is an L-shaped strip plate, the short end of the second guide rod 3c1 is fixedly installed on the side surface of the second flapping plate 3c, the long end of the second guide rod 3c1 is slidably connected with the second guide rail 3d, the long end of the first guide rod 3a1 is fixedly connected with a second annular groove 3c2, and the second annular groove 3c2 is slidably connected with a second transmission shaft 2c 5.

Specifically, as the first clapper 3a performs reciprocating flapping, a period of time is provided between the next flapping after each flapping, and in order to avoid that non-woven fabrics with dust and batting attached to the surfaces pass through the time interval and the dust and batting on the surfaces do not fall off, the dustproof device is provided with a second transmission component 2 c; when an operator sends a signal to start the rotary driver 2a through the controller, the rotary driver 2a transmits a driving force to the first transmission assembly 2b, the first transmission assembly 2b transmits the driving force to the transmission wheel 2b4, the transmission wheel 2b4 drives the third spindle 2b6 to rotate, so that the third spindle 2b6 drives the rotary hole 2c4 sleeved on the third spindle, the rotary hole 2c4 is driven to rotate along the transmission wheel 2b4, so that the transmission rod 2c2 is driven, since the third annular groove 2c3 in the middle of the transmission rod 2c2 is sleeved on the first transmission shaft 2c1 fixedly installed on the frame 1, the transmission rod 2c2 transmits the driving force to the second transmission shaft 2c5 at the other end, the second transmission shaft 2c5 is indirectly driven by the third spindle 2b6 and is limited by the first transmission shaft 2c1, and rotates synchronously with the third spindle 2b6, so as to drive the second annular groove 3c2 sleeved on the third spindle 2b, due to the structural design of the second annular groove 3c2, the driving force of the second transmission shaft 2c5 is divided into horizontal driving force and vertical driving force, the horizontal driving force drives the second transmission shaft 2c5 to slide in the second annular groove 3c2 in the horizontal direction, the vertical driving force drives the second annular groove 3c2 to move in the vertical direction, the second transmission shaft 2c5 rotates, the second annular groove 3c2 is driven to reciprocate in the vertical direction, so that the second guide rod 3c1 and the second clapper 3c fixedly connected with the second guide rod are driven to reciprocate in the vertical direction, the second clapper 3c performs reciprocating flapping on the high-white non-woven fabric, dust and lint attached to the surface of the non-woven fabric fall off, and the dust and lint floating in the air are sucked away by the dust collector 4.

Further, in order to solve the technical problem that the beating of the nonwoven by the first beating plate 3a and the second beating plate 3c may damage the nonwoven, as shown in fig. 5 and 6, the following preferred technical solutions are provided:

the first clapper 3a further comprises a first elastic plate 3a3, the first elastic plate 3a3 is fixedly attached to the lower surface of the first clapper 3a, and the first elastic plate 3a3 is an elastic plate; the second flap 3c includes a second elastic plate 3c3, the second elastic plate 3c3 is fixedly attached to the lower surface of the second flap 3c, and the second elastic plate 3c3 is an elastic plate.

Specifically, since some nonwoven fabrics may have poor elasticity or be relatively thin, the flapping of the first flap plate 3a and the second flap plate 3c may cause plastic deformation of the nonwoven fabrics, thereby affecting the quality of the nonwoven fabrics, and therefore, the first elastic plate 3a3 and the second elastic plate 3c3 are respectively arranged on the lower surfaces of the first flap plate 3a and the second flap plate 3c, and since the first elastic plate 3a3 and the second elastic plate 3c3 have good elasticity, the nonwoven fabrics are further protected

Further, in order to solve the technical problem of how to perform the dust suction step of the dust suction device 4, as shown in fig. 2, the following preferred technical solutions are provided:

the dust suction device 4 comprises an upper dust suction port 4a and a lower dust suction port 4b, the upper dust suction port 4a is fixedly arranged right above the machine frame 1, and the lower dust suction port 4b is fixedly arranged right below the machine frame 1.

Specifically, after operating personnel started dust collecting equipment, patting device 3 made the adnexed dust in high white non-woven fabrics surface and wool flock drop, and then floated in the air, and dust extraction 4's last dust absorption mouth 4a and lower dust absorption mouth 4b are respectively to dust and wool flock absorption away of non-woven fabrics top and below to avoid the secondary pollution of non-woven fabrics.

Further, in order to solve the technical problem that the quality of the material is affected by the wrinkles generated when the static electricity on the surface of the non-woven fabric causes the material to be rolled, as shown in fig. 2, the following preferable technical scheme is provided:

the frame 1 further comprises an electrostatic elimination device 5, the electrostatic elimination device 5 comprises a mounting seat 5a and an ion wind rod 5b, the mounting seat 5a is fixedly mounted on the outer side of the frame 1 close to the winding barrel 1a, the ion wind rod 5b is fixedly mounted on the mounting seat 5a, and the working direction of the ion wind rod 5b horizontally faces the winding barrel 1 a.

Specifically, the ion air rod 5b is preferably an AZB-FB1200 explosion-proof static electricity elimination ion air rod which is electrically connected with the controller; because the non-woven fabric is mostly divided into a plurality of layers, static electricity is easily generated on the surface, the non-woven fabric is stuck together due to the static electricity, and folds are generated during material rolling, so that the material quality and subsequent use are influenced; when an operator starts the equipment to start to remove dust on a workpiece, the controller sends a signal to the ion air bar, the ion air bar is started after receiving the signal, the blowing direction of the ion air bar faces the winding barrel 1a, the dust suction devices 4 suck dust from the upper side and the lower side of the middle position of the rack 1, the air direction formed inside the rack 1 is the dust suction devices 4 from the front side and the rear side of the rack 1 to the upper side and the lower side, the ion air continuously exists on one side of the rack 1 close to the winding barrel 1a, and the secondary pollution of the non-woven fabric is further avoided while the static electricity of the non-woven fabric is eliminated.

The foregoing shows and describes the general principles, essential features, and advantages of the utility model. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the utility model, but that various changes and modifications may be made without departing from the spirit and scope of the utility model, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. A dustproof device for producing high-white non-woven fabrics comprises a machine frame (1) and a dust suction device (4), wherein the machine frame (1) comprises a material rolling barrel (1a) and a transmission barrel (1b), the material rolling barrel (1a) and the transmission barrel (1b) are cylinders, two ends of the material rolling barrel (1a) and two ends of the transmission barrel (1b) are rotatably connected with the machine frame (1),

its characterized in that, dust collecting equipment still includes:

the driving device (2), the driving device (2) comprises a rotary driver (2a) and a first transmission assembly (2b), the rotary driver (2a) is fixedly installed on the rack (1), the rotary driver (2a) provides rotary driving force for the first transmission assembly (2b), the first transmission assembly (2b) is fixed on the rack (1), the first transmission assembly (2b) is used for converting the driving force provided by the rotary driver (2a) into linear reciprocating driving force, and the driving direction of the first transmission assembly (2b) is vertically arranged;

the flapping device (3) comprises a first flapping plate (3a), the first flapping plate (3a) is a square plate, and the first flapping plate (3a) is fixedly connected with the driving end of the first transmission component (2 b).

2. The dustproof apparatus for high-whiteness nonwoven fabric production according to claim 1, wherein the first transmission assembly (2b) comprises:

the first main shaft (2b1), the first main shaft (2b1) is fixed on the frame (1), the axial direction of the first main shaft (2b1) is horizontally arranged, the first main shaft (2b1) is fixedly connected with the driving end of the rotary driver (2a), and the axial lines are collinear;

the driving wheel (2b2), the driving wheel (2b2) is fixedly sleeved on the first main shaft (2b 1);

the second main shaft (2b3), the second main shaft (2b3) is fixedly arranged on the frame (1), and the axis of the second main shaft (2b3) is parallel to the first main shaft (2b 1);

the driving wheel (2b4), the driving wheel (2b4) is fixedly sleeved on the second main shaft (2b3), and the outer diameter of the driving wheel (2b4) is larger than that of the driving wheel (2b 2);

the driving belt (2b5), the driving belt (2b5) is an elastic driving belt, the driving belt (2b5) is connected with the driving wheel (2b2) and the driving belt (2b5), and the driving belt (2b5) transmits the driving force of the driving wheel (2b2) to the driving wheel (2b 4);

the third main shaft (2b6), the third main shaft (2b6) is eccentrically and fixedly arranged on the driving wheel (2b4), and the axis of the third main shaft (2b6) is parallel to the axis of the driving wheel (2b 4);

the flapping device (3) further comprises a first guide rail (3b), the first guide rail (3b) is fixedly installed on the rack (1), and the working direction of the first guide rail (3b) is vertically arranged; the first clapper (3a) comprises a first guide rod (3a1) and a first annular groove (3a2), the first guide rod (3a1) is an L-shaped strip-shaped plate, the short end of the first guide rod (3a1) is fixedly installed on the side surface of the first clapper (3a), the long end of the first guide rod (3a1) is slidably connected with a first guide rail (3b), the long end of the first guide rod (3a1) is fixedly connected with a first annular groove (3a2), and the first annular groove (3a2) is slidably connected with a third main shaft (2b 6).

3. The dustproof apparatus for high-whiteness nonwoven fabric production according to claim 2,

the driving device (2) further comprises a second transmission assembly (2c), the second transmission assembly (2c) comprises a first transmission shaft (2c1) and a transmission rod (2c2), the first transmission shaft (2c1) is fixedly mounted on the rack (1), the axis of the first transmission shaft (2c1) is horizontally parallel to the axis of the first spindle (2b1), the transmission rod (2c2) is a strip rod, the third annular groove (2c3) is arranged in the middle of the transmission rod (2c2), the transmission rod (2c2) is sleeved on the first transmission shaft (2c1) through the third annular groove (2c3), one end of the transmission rod (2c2) is provided with a rotation hole (2c4), the rotation hole (2c4) is sleeved on the third spindle (2b6), and the second transmission shaft (2c5) is arranged at the other end of the transmission rod (2c 2);

the flapping device (3) further comprises a second flapping plate (3c) and a second guide rail (3d), the second flapping plate (3c) is a square plate, the second guide rail (3d) is fixedly installed on the rack (1), a second guide rod (3c1) is fixedly installed on one side of the second flapping plate (3c), the second guide rod (3c1) is an L-shaped strip plate, the short end of the second guide rod (3c1) is fixedly installed on the side surface of the second flapping plate (3c), the long end of the second guide rod (3c1) is slidably connected with the second guide rail (3d), the long end of the first guide rod (3a1) is fixedly connected with a second annular groove (3c2), and the second annular groove (3c2) is slidably connected with a second transmission shaft (2c 5).

4. The dustproof apparatus for producing high-whiteness nonwoven fabric according to claim 3, wherein the first flap plate (3a) further comprises a first elastic plate (3a3), the first elastic plate (3a3) is fixedly attached to the lower surface of the first flap plate (3a), and the first elastic plate (3a3) is an elastic plate; the second clapper (3c) comprises a second elastic plate (3c3), the second elastic plate (3c3) is fixedly attached to the lower surface of the second clapper (3c), and the second elastic plate (3c3) is an elastic plate.

5. The dustproof device for producing high-whiteness non-woven fabric according to claim 1, wherein the dust suction device (4) comprises an upper dust suction port (4a) and a lower dust suction port (4b), the upper dust suction port (4a) is fixedly arranged right above the machine frame (1), and the lower dust suction port (4b) is fixedly arranged right below the machine frame (1).

6. The dustproof equipment for producing the high-white non-woven fabric according to claim 1, wherein the rack (1) further comprises an electrostatic elimination device (5), the electrostatic elimination device (5) comprises a mounting seat (5a) and an ion wind rod (5b), the mounting seat (5a) is fixedly arranged on the outer side of the rack (1) close to the winding barrel (1a), the ion wind rod (5b) is fixedly arranged on the mounting seat (5a), and the working direction of the ion wind rod (5b) horizontally faces the winding barrel (1 a).

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