CN113020002A

CN113020002A - Static electricity generating device for melt-blown fabric screen transportation

Info

Publication number: CN113020002A
Application number: CN202110154759.5A
Authority: CN
Inventors: 杨一川
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-02-04
Filing date: 2021-02-04
Publication date: 2021-06-25

Abstract

The invention provides a static electricity generating device for melt-blown fabric curtain transportation, which relates to the technical field of melt-blown fabric processing and solves the problems that automatic wind collection cannot be realized through structural improvement and the automatic wind collection capability is strengthened; the cleaning of the electrostatic roller can not be automatically realized in the cloth conveying process. A static electricity generating device for melt-blown fabric curtain transportation comprises a frame body; the frame body is provided with two rollers, and the two rollers are conveyed with cloth. The wind collecting holes are arranged on the pipe body in an annular array shape, and are obliquely arranged, and the inclination angle of the wind collecting holes is 45 degrees; the auxiliary plates are welded on the pipe body in an annular array shape, and the auxiliary plates and the wind collecting holes are arranged in a staggered shape; the wind collecting holes arranged in an annular array form the wind collecting of the pipe body; the auxiliary plates welded in an annular array form a wind collecting reinforcing structure of the wind collecting holes together, so that automatic wind collection of the tube body can be realized through the wind collecting holes and the auxiliary plates when the tube body rotates.

Description

Static electricity generating device for melt-blown fabric screen transportation

Technical Field

The invention belongs to the technical field of melt-blown fabric processing, and particularly relates to a static electricity generating device for melt-blown fabric curtain transportation.

Background

The static electricity generating device is a static electricity application device and has the function of electrifying a material, so that the material has certain static electricity adsorption capacity.

As in application No.: the invention discloses a uniform static electricity generating device for a melt-blown fabric curtain conveyer, which comprises a shell, wherein the shell is tubular, a strip-shaped nozzle is arranged on the lower surface of the shell, one end of the shell is connected with an electric appliance cabinet, and the other end of the shell is connected with a rotating motor; a plurality of static electricity generating rods are arranged in the shell, two ends of each static electricity generating rod are connected with the rotating disc, and the middle part of the rotating disc at the left end is connected with a rotating shaft of the rotating motor; the middle part that is annular array's a plurality of static electricity generation stick is equipped with the body frame, the body frame be the cross, be equipped with a plurality of air jet on the outer wall of body frame, the air jet all link to each other with the air pump through gas piping. During the production and processing of the melt-blown fabric, direct current electric fields are generated on the plurality of static electricity generating rods and directly act on the surface of the melt-blown fabric, so that uniform static electric fields are directly formed on the surface of the melt-blown fabric, and the melt-blown fabric becomes a permanently charged electret.

Similar to the electrostatic generator for melt-blown fabric curtain transportation in the above application, the following disadvantages still exist at present:

one is that the existing device can not eliminate the lint on the cloth in the conveying process, thereby reducing the electrostatic adsorption capacity of the cloth; moreover, the existing device can not realize automatic wind collection and the strengthening of the automatic wind collection capability through the structural improvement; finally, the existing devices do not allow for automatic cleaning of the electrostatic roller during the cloth transport process.

In view of the above, the present invention provides an electrostatic generator for transporting a meltblown fabric curtain, which is improved based on the existing structure and defects, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a static electricity generating device for melt-blown fabric curtain transportation, which aims to solve the problem that the existing device can not eliminate the fuzz on the fabric in the conveying process, so that the static electricity adsorption capacity of the fabric is reduced; moreover, the existing device can not realize automatic wind collection and the strengthening of the automatic wind collection capability through the structural improvement; finally, the existing device can not automatically realize the cleaning of the electrostatic roller in the process of cloth conveying.

The invention relates to a static electricity generating device for melt-blown fabric curtain transportation, which is realized by the following specific technical means:

a static electricity generating device for melt-blown fabric curtain transportation comprises a frame body; the frame body is provided with two rollers, and the two rollers are used for conveying cloth; the frame body is also provided with an electrostatic roller which is in contact with the cloth; the frame body is provided with a cleaning structure, and the frame body is also provided with an auxiliary structure; the auxiliary structure comprises air collecting holes and an auxiliary plate, wherein the air collecting holes are arranged on the pipe body in an annular array shape, the air collecting holes are obliquely arranged, and the inclination angle of the air collecting holes is 45 degrees; the auxiliary plates are welded on the pipe body in an annular array shape, and the auxiliary plates and the wind collecting holes are arranged in a staggered shape; the wind collecting holes arranged in an annular array form the wind collecting of the pipe body; the auxiliary plates welded in an annular array form a wind collecting reinforcing structure of the wind collecting hole.

Further, the frame body comprises a sliding rod A and a fixed block, two sliding rods A are welded on the frame body, and the two sliding rods A are of rectangular rod-shaped structures; two slots are formed in the fixing block and are connected with the sliding rod A in an inserting mode, and the slots and the sliding rod A jointly form an auxiliary fixing structure of the frame body and the fixing block.

Further, the frame body also comprises fixing holes and fixing bolts, and the frame body is symmetrically provided with two fixing holes; the number of the fixing bolts is two, and the two fixing bolts are symmetrically inserted into the fixing block; when the slot on the fixing block is connected with the sliding rod A in an inserting mode, the fixing bolt is aligned to the fixing hole.

Furthermore, the fixing bolt comprises an adjusting groove and an adjusting hole, the tail end of the fixing bolt is of a hexagonal prism structure, the fixing bolt is provided with the adjusting groove, and the adjusting groove is of a hexagonal groove structure; the adjusting holes are formed in the head end of the fixing bolt in an annular array shape, the adjusting holes are of cylindrical hole structures, and the adjusting holes and the adjusting grooves which are formed in the annular array shape jointly form an auxiliary adjusting structure of the fixing bolt.

Further, the roller comprises a belt wheel A, and the belt wheel A is mounted on the roller; the electrostatic roller comprises a belt wheel B and a belt wheel C, the belt wheel B and the belt wheel C are mounted on the electrostatic roller, and the belt wheel B is connected with the belt wheel A through a belt.

Furthermore, the cleaning structure comprises a sliding plate, sliding rods B, an adhesion block and an elastic piece, wherein the sliding plate is welded on the frame body, the sliding plate is symmetrically and slidably connected with the two sliding rods B, and the head ends of the two sliding rods B are welded and connected with the adhesion block; the elastic pieces are totally provided with two elastic pieces which are respectively sleeved on the two sliding rods B, and the two elastic pieces form an elastic stretching structure of the adhesion block.

Furthermore, the cleaning structure also comprises a cleaning block, the cleaning block is adhered to the bottom end face of the adhering block, and the cleaning block is of a rectangular block structure; the bottom end face of the cleaning block is in contact with the electrostatic roller, and the cleaning block forms a wiping cleaning type structure of the electrostatic roller.

Furthermore, the auxiliary structure comprises a pipe body, blades and a belt wheel D, the pipe body is rotatably connected to the frame body, the belt wheel D is mounted on the pipe body, and the belt wheel D is connected with the belt wheel C through a belt; the blades are mounted on the pipe body and form a wind power cleaning type structure of batting on the cloth and a cooling structure of the electrostatic roller.

Furthermore, the auxiliary structure also comprises spray holes, wherein the spray holes are arranged on the pipe body in an annular array and are of a cylindrical hole-shaped structure; the jet holes and the blades are arranged in a staggered mode, and the jet holes arranged in an annular array form a diffusion type jet structure of the pipe body.

Compared with the prior art, the invention has the following beneficial effects:

through the arrangement of the auxiliary structure, firstly, the pipe body is connected to the frame body in a rotating mode, the pipe body is provided with a belt wheel D, and the belt wheel D is connected with the belt wheel C through a belt; the blades are arranged on the pipe body and form a wind power cleaning type structure of the batting on the cloth and a cooling structure of the electrostatic roller; secondly, the pipe body is provided with jet holes in an annular array, and the jet holes are in a cylindrical hole-shaped structure; the jet holes and the blades are arranged in a staggered manner, and the jet holes arranged in an annular array form a diffusion type jet structure of the pipe body; thirdly, the wind collecting holes are arranged on the pipe body in an annular array shape, are obliquely arranged, and have an inclination angle of 45 degrees; the auxiliary plates are welded on the pipe body in an annular array shape, and the auxiliary plates and the wind collecting holes are arranged in a staggered shape; the wind collecting holes arranged in an annular array form the wind collecting of the pipe body; the auxiliary plates welded in an annular array form a wind collecting reinforcing structure of the wind collecting holes together, so that automatic wind collection of the tube body can be realized through the wind collecting holes and the auxiliary plates when the tube body rotates.

Through the arrangement of the cleaning structure, firstly, the sliding plate is welded on the frame body, the sliding plate is symmetrically and slidably connected with two sliding rods B, and the head ends of the two sliding rods B are welded and connected with the adhesion block; the elastic pieces are provided with two elastic pieces which are respectively sleeved on the two sliding rods B, and the two elastic pieces form an elastic extension structure of the adhesion block; the cleaning block is adhered to the bottom end face of the adhering block and is of a rectangular block structure; the bottom end face of the cleaning block is contacted with the electrostatic roller, and the cleaning block forms a wiping cleaning type structure of the electrostatic roller.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention in another direction of fig. 1.

Fig. 3 is a left side view of the present invention.

Fig. 4 is an enlarged schematic view of fig. 3 a according to the present invention.

Fig. 5 is a schematic view of an axial disassembled structure of the frame body of the present invention.

Fig. 6 is an enlarged view of the structure of fig. 5B according to the present invention.

Fig. 7 is an enlarged axial view of the auxiliary structure of the present invention.

Fig. 8 is an enlarged view of the structure of fig. 7 at C according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a frame body; 101. a slide bar A; 102. a fixing hole; 103. a fixed block; 104. fixing the bolt; 10401. an adjustment groove; 10402. an adjustment hole; 2. a roller; 201. a pulley A; 3. distributing; 4. an electrostatic roller; 401. a belt pulley B; 402. a pulley C; 5. cleaning the structure; 501. a sliding plate; 502. a slide bar B; 503. an adhesive block; 504. an elastic member; 505. a cleaning block; 6. an auxiliary structure; 601. a pipe body; 602. a blade; 603. a wind collecting hole; 604. spraying a hole; 605. an auxiliary plate; 606. and a pulley D.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a static electricity generating device for melt-blown fabric curtain transportation, which comprises a frame body 1; two rollers 2 are arranged on the frame body 1, and cloth 3 is conveyed on the two rollers 2; the frame body 1 is also provided with an electrostatic roller 4, and the electrostatic roller 4 is contacted with the cloth 3; the frame body 1 is provided with a cleaning structure 5, and the frame body 1 is also provided with an auxiliary structure 6; referring to fig. 7 and 8, the auxiliary structure 6 includes wind collecting holes 603 and an auxiliary plate 605, the wind collecting holes 603 are arranged on the tube 601 in an annular array, the wind collecting holes 603 are formed in an inclined manner, and an inclination angle of the wind collecting holes 603 is 45 degrees; the auxiliary plates 605 are welded on the tube body 601 in an annular array, and the auxiliary plates 605 and the wind collecting holes 603 are arranged in a staggered manner; the wind collecting holes 603 arranged in an annular array form wind collecting of the pipe body 601; the auxiliary plates 605 welded in an annular array form a wind collecting reinforcing structure of the wind collecting holes 603 together, so that automatic wind collection of the tube body 601 can be realized through the wind collecting holes 603 and the auxiliary plates 605 when the tube body 601 rotates.

Referring to fig. 5 and 6, the frame body 1 includes a sliding rod a101 and a fixing block 103, two sliding rods a101 are welded on the frame body 1, and both the two sliding rods a101 are in a rectangular rod-shaped structure; two slots are formed in the fixing block 103, the slots are connected with the sliding rod A101 in an inserting mode, and the slots and the sliding rod A101 jointly form an auxiliary fixing structure of the frame body 1 and the fixing block 103.

Referring to fig. 5 and 6, the frame body 1 further includes fixing holes 102 and fixing bolts 104, and two fixing holes 102 are symmetrically formed in the frame body 1; the number of the fixing bolts 104 is two, and the two fixing bolts 104 are symmetrically inserted into the fixing block 103; when the slot on the fixing block 103 is connected with the sliding rod a101 in an inserting manner, the fixing bolt 104 is aligned with the fixing hole 102, so that the convenience of fixing the fixing bolt 104 by threads is improved.

Referring to fig. 6, the fixing bolt 104 includes an adjusting slot 10401 and an adjusting hole 10402, the tail end of the fixing bolt 104 is a hexagonal prism structure, the fixing bolt 104 is provided with an adjusting slot 10401, and the adjusting slot 10401 is a hexagonal slot structure; adjusting holes 10402 are formed in the head end of the fixing bolt 104 in an annular array shape, the adjusting holes 10402 are in a cylindrical hole-shaped structure, and the adjusting holes 10402 and the adjusting grooves 10401 which are formed in the annular array shape jointly form an auxiliary adjusting structure of the fixing bolt 104.

Referring to fig. 2, the roller 2 comprises a belt pulley a201, and the belt pulley a201 is mounted on the roller 2; the electrostatic roller 4 comprises a belt wheel B401 and a belt wheel C402, the belt wheel B401 and the belt wheel C402 are installed on the electrostatic roller 4, and the belt wheel B401 is connected with the belt wheel A201 through a belt.

Referring to fig. 3 and 4, the cleaning structure 5 comprises a sliding plate 501, sliding rods B502, an adhesive block 503 and an elastic member 504, wherein the sliding plate 501 is welded on the frame body 1, two sliding rods B502 are symmetrically and slidably connected on the sliding plate 501, and the head ends of the two sliding rods B502 are both connected with the adhesive block 503 in a welding manner; the number of the elastic members 504 is two, the two elastic members 504 are respectively sleeved on the two sliding rods B502, and the two elastic members 504 jointly form an elastic extending structure of the adhesion block 503.

Referring to fig. 4, the cleaning structure 5 further comprises a cleaning block 505, the cleaning block 505 is adhered to the bottom end face of the adhering block 503, and the cleaning block 505 is a rectangular block structure; the bottom end face of the cleaning block 505 is in contact with the electrostatic roller 4, and the cleaning block 505 constitutes a wiping cleaning type structure of the electrostatic roller 4.

Referring to fig. 2, the auxiliary structure 6 includes a tube 601, a blade 602 and a pulley D606, the tube 601 is rotatably connected to the frame 1, the pulley D606 is mounted on the tube 601, and the pulley D606 is connected to the pulley C402 through a belt; the body 601 is provided with blades 602, and the blades 602 form a wind cleaning structure of the batting on the cloth 3 and a cooling structure of the electrostatic roller 4.

Referring to fig. 7, the auxiliary structure 6 further includes nozzles 604, the tubular body 601 has a circular array of nozzles 604, and the nozzles 604 are cylindrical; the nozzles 604 and the blades 602 are arranged in a staggered manner, and the nozzles 604 arranged in an annular array form a diffusion type air injection structure of the pipe 601.

The specific use mode and function of the embodiment are as follows:

when the roller 2 rotates and drives the electrostatic roller 4 to rotate, firstly, the sliding plate 501 is welded on the frame body 1, two sliding rods B502 are symmetrically and slidably connected on the sliding plate 501, and the head ends of the two sliding rods B502 are welded and connected with the adhesion block 503; the number of the elastic pieces 504 is two, the two elastic pieces 504 are respectively sleeved on the two sliding rods B502, and the two elastic pieces 504 form an elastic extension structure of the adhesion block 503; the cleaning block 505 is adhered to the bottom end face of the adhering block 503, and the cleaning block 505 is in a rectangular block structure; the bottom end face of the cleaning block 505 is in contact with the electrostatic roller 4, and the cleaning block 505 constitutes a wiping cleaning type structure of the electrostatic roller 4; secondly, the pipe body 601 is rotatably connected to the frame body 1, the belt wheel D606 is mounted on the pipe body 601, and the belt wheel D606 is connected with the belt wheel C402 through a belt; the blades 602 are arranged on the pipe body 601, and the blades 602 form a wind power cleaning type structure of the batting on the cloth 3 and a cooling structure of the electrostatic roller 4; thirdly, the nozzle body 601 is provided with nozzle holes 604 in an annular array, and the nozzle holes 604 are cylindrical hole-shaped structures; the nozzles 604 and the blades 602 are arranged in a staggered manner, and the nozzles 604 arranged in an annular array form a diffusion type air injection structure of the pipe body 601; fourthly, the wind collecting holes 603 are arranged on the pipe body 601 in an annular array shape, the wind collecting holes 603 are obliquely arranged, and the inclination angle of the wind collecting holes 603 is 45 degrees; the auxiliary plates 605 are welded on the tube body 601 in an annular array, and the auxiliary plates 605 and the wind collecting holes 603 are arranged in a staggered manner; the wind collecting holes 603 arranged in an annular array form wind collecting of the pipe body 601; the auxiliary plates 605 welded in an annular array form a wind collecting reinforcing structure of the wind collecting holes 603 together, so that when the pipe body 601 rotates, automatic wind collection of the pipe body 601 can be realized through the wind collecting holes 603 and the auxiliary plates 605;

when the electrostatic roller 4 is disassembled and assembled, two sliding rods A101 are welded on the frame body 1, and the two sliding rods A101 are both in a rectangular rod-shaped structure; two slots are formed in the fixing block 103, the slots are connected with the sliding rod A101 in an inserting mode, and the slots and the sliding rod A101 form an auxiliary fixing structure of the frame body 1 and the fixing block 103; when the slot on the fixing block 103 is connected with the sliding rod a101 in an inserting manner, the fixing bolt 104 is aligned with the fixing hole 102, so that the convenience of fixing the fixing bolt 104 by threads is improved.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an electrostatic generator for melt-blown fabric curtain transportation which characterized in that: comprises a frame body (1); the frame body (1) is provided with two rollers (2), and the two rollers (2) are used for conveying cloth (3); the frame body (1) is also provided with an electrostatic roller (4), and the electrostatic roller (4) is in contact with the cloth (3); the cleaning structure (5) is arranged on the frame body (1), and the auxiliary structure (6) is also arranged on the frame body (1); the auxiliary structure (6) comprises air collecting holes (603) and an auxiliary plate (605), the air collecting holes (603) are arranged on the pipe body (601) in an annular array shape, the air collecting holes (603) are obliquely arranged, and the inclination angle of the air collecting holes (603) is 45 degrees; the auxiliary plates (605) are welded on the pipe body (601) in an annular array shape, and the auxiliary plates (605) and the air collecting holes (603) are arranged in a staggered shape; the wind collecting holes (603) arranged in an annular array form wind collecting of the pipe body (601) together; the auxiliary plates (605) welded in an annular array form a wind collecting reinforcing structure of the wind collecting holes (603).

2. The electrostatic generator for meltblown web transport of claim 1, further comprising: the frame body (1) comprises sliding rods A (101) and a fixing block (103), two sliding rods A (101) are welded on the frame body (1), and the two sliding rods A (101) are of rectangular rod-shaped structures; two slots are formed in the fixing block (103), the slots are connected with the sliding rod A (101) in an inserting mode, and the slots and the sliding rod A (101) jointly form an auxiliary fixing structure of the frame body (1) and the fixing block (103).

3. The electrostatic generator for meltblown web transport of claim 1, further comprising: the frame body (1) further comprises fixing holes (102) and fixing bolts (104), and the frame body (1) is symmetrically provided with two fixing holes (102); the number of the fixing bolts (104) is two, and the two fixing bolts (104) are symmetrically inserted into the fixing block (103); when the slot on the fixing block (103) is connected with the sliding rod A (101) in an inserting way, the fixing bolt (104) is aligned with the fixing hole (102).

4. The electrostatic generator for meltblown web transport of claim 3, wherein: the fixing bolt (104) comprises an adjusting groove (10401) and an adjusting hole (10402), the tail end of the fixing bolt (104) is of a hexagonal prism-shaped structure, the fixing bolt (104) is provided with the adjusting groove (10401), and the adjusting groove (10401) is of a hexagonal groove-shaped structure; adjusting holes (10402) are formed in the head end of the fixing bolt (104) in an annular array shape, the adjusting holes (10402) are in a cylindrical hole structure, and the adjusting holes (10402) and the adjusting grooves (10401) in the annular array shape jointly form an auxiliary adjusting structure of the fixing bolt (104).

5. The electrostatic generator for meltblown web transport of claim 1, further comprising: the roller (2) comprises a belt wheel A (201), and the belt wheel A (201) is installed on the roller (2); the electrostatic roller (4) comprises a belt wheel B (401) and a belt wheel C (402), the belt wheel B (401) and the belt wheel C (402) are installed on the electrostatic roller (4), and the belt wheel B (401) is connected with the belt wheel A (201) through a belt.

6. The electrostatic generator for meltblown web transport of claim 1, further comprising: the cleaning structure (5) comprises a sliding plate (501), sliding rods B (502), an adhesion block (503) and an elastic piece (504), wherein the sliding plate (501) is welded on the frame body (1), the sliding plate (501) is symmetrically connected with the two sliding rods B (502) in a sliding mode, and the head ends of the two sliding rods B (502) are connected with the adhesion block (503) in a welding mode; the number of the elastic pieces (504) is two, the two elastic pieces (504) are respectively sleeved on the two sliding rods B (502), and the two elastic pieces (504) form an elastic extension structure of the adhesion block (503).

7. The electrostatic generator for meltblown web transport of claim 1, further comprising: the cleaning structure (5) further comprises a cleaning block (505), the cleaning block (505) is adhered to the bottom end face of the adhering block (503), and the cleaning block (505) is of a rectangular block structure; the bottom end surface of the cleaning block (505) is contacted with the electrostatic roller (4), and the cleaning block (505) forms a wiping cleaning type structure of the electrostatic roller (4).

8. The electrostatic generator for meltblown web transport of claim 1, further comprising: the auxiliary structure (6) comprises a pipe body (601), blades (602) and a belt wheel D (606), the pipe body (601) is rotatably connected to the frame body (1), the belt wheel D (606) is mounted on the pipe body (601), and the belt wheel D (606) is connected with the belt wheel C (402) through a belt; the blade (602) is installed on the pipe body (601), and the blade (602) forms a wind-force cleaning structure of the batting on the cloth (3) and a cooling structure of the electrostatic roller (4).

9. The electrostatic generator for meltblown web transport of claim 1, further comprising: the auxiliary structure (6) further comprises spray holes (604), the pipe body (601) is provided with the spray holes (604) in an annular array, and the spray holes (604) are cylindrical hole-shaped structures; the jet holes (604) and the blades (602) are arranged in a staggered manner, and the jet holes (604) arranged in an annular array form a diffusion type jet structure of the pipe body (601).