CN110567253A

CN110567253A - Quick drying device of net surface fabric

Info

Publication number: CN110567253A
Application number: CN201910685548.7A
Authority: CN
Inventors: 李光耀
Original assignee: Shandong Yuxin New Material Co Ltd
Current assignee: Shandong Shengtong New Materials Co.,Ltd.
Priority date: 2019-07-27
Filing date: 2019-07-27
Publication date: 2019-12-13
Anticipated expiration: 2039-07-27
Also published as: CN110567253B

Abstract

A quick drying device for mesh fabric belongs to the field of fabric processing. Comprises a shell, a drying device in the shell and a fabric guide structure arranged on the shell, wherein the drying device comprises two drying fans, a guide roller, a partition plate and a negative pressure fan, the guide rollers are arranged at the top side by side, the guide rollers are alternately arranged at the lower sides of the drying fans from top to bottom, the partition plates comprise vertical partition plates arranged between the two drying fans and flow guide partition plates positioned at the lower sides of the guide rollers, the negative pressure fan is arranged at the lower side of the flow guide clapboard, the fabric guide structure comprises a rack rail and a guide rod which is arranged on the rack rail, the rack rails are arranged on the front and the back surfaces in the shell, the tail ends of the rack rails are provided with rail extension plates, the guide bar connect the cloth, shell left side and right side be equipped with out the cloth mouth respectively and advance the cloth mouth, the fixed column is installed to four sides of shell.

Description

Quick drying device of net surface fabric

Technical Field

The invention relates to the technical field of fabric processing, in particular to a rapid drying device for mesh fabric.

Background

In recent years, the textile industry in China is rapidly developed, and the development of textile equipment is followed. As is well known, common textile fabrics are cleaned before use, and are dried after being cleaned, and grid fabrics are different from other textile fabrics, and the cloth covers of the grid fabrics are latticed, so that air flow can better pass through the cloth covers during drying, and therefore, a common fabric dryer is designed for a complicated drying structure with a poor ventilation effect, the efficiency for the grid fabrics is low, and for the drying of the grid fabrics, the grid fabrics can be completely dried by directly using hot air flow on the surfaces of the fabrics, and two sides of the fabrics are not required to be dried, but the single drying step can not ensure the complete drying of the fabrics which pass quickly;

The surface fabric can generally use the displacement and dwell time of guide roll increase surface fabric when drying, guarantees better stoving effect, but the comparatively complicated guide roll of arranging just can be very troublesome when putting into the surface fabric, and surface fabric drying device on the market has not similar surface fabric guide structure yet at present, can only connect a roll of surface fabric after last roll of surface fabric is dried, and the operation difficulty goes out the mistake easily, influences work efficiency.

Disclosure of Invention

The invention aims to provide a rapid mesh fabric drying device, which provides a special high-efficiency drying structure for mesh fabrics, ensures the drying effect by using two-stage drying, and also provides a fabric guide structure guide rod, so that the fabrics can be easily put into the device for working, and the working efficiency is greatly improved.

The technical scheme adopted by the invention for solving the technical problems is as follows: a mesh fabric rapid drying device comprises a shell, a drying device inside the shell and a fabric guide structure arranged on the shell, wherein the drying device comprises two drying fans, a guide roller, a partition plate and a negative pressure fan, the two drying fans are arranged at the top side by side, the guide roller is alternately arranged at the lower side of each drying fan from top to bottom, the partition plate comprises a vertical partition plate arranged between the two drying fans and a flow guide partition plate positioned at the lower side of the guide roller, the negative pressure fan is arranged at the lower side of the flow guide partition plate, the fabric guide structure comprises a rack rail and guide rods arranged on the rack rail in an operation mode, the rack rail is arranged on the front side and the back side inside the shell, the tail end of the rack rail is provided with a rail extension plate, the guide rods are connected with fabric, the left side and the right side of the shell are respectively provided with a fabric outlet and a, fixed columns are arranged on four side edges of the shell.

As optimization, drying blower include air inlet fan, air-supply line, air inlet filter screen, electrostatic chuck and heating wire, air inlet fan be located the top, the air-supply line install in air inlet fan below, air inlet filter screen, electrostatic chuck and heating wire be located the air-supply line, from the top down is air inlet filter screen, electrostatic chuck and heating wire in proper order, electrostatic chuck distribute in the air-supply line both sides.

Preferably, the number of the guide rollers is 7, the guide rollers are alternately distributed up and down, and the grid fabric sequentially bypasses each guide roller to be dried.

As optimization, the negative pressure fan include fan shell, the screen panel that induced drafts, baffle, air-out filter screen, air-out fan and play tuber pipe, fan shell top be equipped with the screen panel and the baffle that induced drafts, the screen panel that induced drafts is located the baffle, the play tuber pipe install in fan shell side, air-out filter screen and air-out fan establish on going out the tuber pipe, the air-out filter screen be located air-out fan front end and be close to the fan shell.

As optimization, the rack rail include spacing track board, rack and axle track, spacing track board include spacing board and lower limiting plate, the rack establish on lower limiting plate, the axle track establish on the shell of spacing track board rear side, the axle track passes the shell and divide into upper and lower two parts with the shell.

Preferably, the rack rail is in a smooth curve shape, and the curve shape and the position of the rack rail are the same as the projection of the grid fabric on the side face of the shell.

Preferably, the guide rod comprises a cloth clamping device, connecting shafts, gear shafts, gears, sliding shafts and handheld sliding handles are symmetrically and sequentially arranged at two ends of the cloth clamping device, the gear shafts, the gears, the sliding shafts and the handheld sliding handles are all coaxially and fixedly connected, and the gear shafts are connected with the cloth clamping device through the connecting shafts.

Preferably, the cloth clamping device comprises an outer pipe and an inner pipe, an outer cloth clamping opening is formed in the cylindrical surface of the outer pipe, the inner pipe is installed inside the outer pipe, an inner cloth clamping opening is formed in the inner pipe, a locking opening is further formed in the middle of the outer pipe, a locking block is arranged in the middle of the inner pipe, and the locking block is installed in the locking opening.

Preferably, the locking port comprises a locking position port and a releasing position port, and the inner tube is rotated to switch the locking position port and the releasing position port.

Preferably, the fixed columns comprise transverse columns and vertical columns, the transverse columns are fixedly connected to the shell along the side degree direction of the shell, each side is provided with an upper transverse column and a lower transverse column which are connected with the shell, and the vertical columns are fixedly connected between the two transverse columns.

The invention has the beneficial effects that: compared with the prior art, the rapid mesh fabric drying device provided by the invention aims at the drying problem that: (1) the partition plate structure is used for dividing the drying into two relatively independent stages of drying, so that the drying effect is ensured; (2) the upper drying fan and the lower negative pressure fan correspond up and down, so that the flowing speed of airflow is increased, and the drying efficiency is greatly improved; (3) the air inlet filter screen on the drying fan can filter floating objects with larger diameters in air inlet, the electrostatic chuck can adsorb particles with smaller diameters in air inlet, double filtration ensures that fabrics are not polluted in the drying process, the air outlet filter screen is arranged during air outlet, fabric scraps on the fabrics can be prevented from being discharged into air, and the cleanness of the air is ensured without causing harm to human bodies; aiming at the fabric guide structure: (1) a detachable guide rod structure with special design is used, so that the use is convenient; (2) the rack rail is in a smooth curve shape, so that the operation is smooth when the fabric is guided, and the time is greatly saved; (3) the cloth clamping device on the guide rod structure can complete operation only by slightly shifting the position of the locking block when clamping the fabric, so that the cloth clamping device is convenient and quick, and the working efficiency is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic structural diagram of a drying fan according to the present invention.

FIG. 3 is a schematic view of the structure of the negative pressure fan of the present invention.

FIG. 4 is an enlarged partial view of the side of the shaft and rack track of the present invention.

Fig. 5 is a partially enlarged view of the rack rail of the present invention.

FIG. 6 is a schematic side view of a guide bar according to the present invention.

Fig. 7 is a schematic structural view of a guide bar of the present invention.

FIG. 8 is a partially enlarged schematic view of a cutting part of the cloth clamping device.

FIG. 9 is a schematic view of the inner tube structure of the present invention.

Fig. 10 is a schematic view of the structure of the locking port of the present invention.

FIG. 11 is a schematic view of a connecting shaft according to the present invention.

Fig. 12 is a front view of the housing of the present invention.

FIG. 13 is a left side view of the housing of the present invention.

The device comprises a shell 1, a drying fan 2, a guide roller 3, a partition plate 4, a negative pressure fan 5, a rack track 6, a guide rod 7, a fixed column 8, a track extension plate 9, a cloth outlet 10, a cloth inlet 11, a mesh fabric 12, an air inlet fan 201, an air inlet pipe 202, an air inlet filter screen 203, an electrostatic chuck 204, a heating wire 205, a vertical partition plate 401, a flow guide partition plate 402, a fan shell 501, an air suction mesh enclosure 502, a baffle 503, an air outlet filter screen 504, an air outlet fan 505, an air outlet pipe 506, a spacing track plate 601, a rack 602, a track of a 603 shaft 603, a spacing plate 604, a spacing plate 605 lower, a cloth clamping device 701, a connecting shaft 702, a gear shaft 703, a gear, a 705 sliding shaft 706 handheld sliding handle, an outer pipe 707, an inner pipe 708, an outer cloth clamping opening 709, an inner cloth clamping opening 710, a 711 locking opening, a 712 locking block, a 713 locking positioning opening, a 714.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or the orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

In the embodiment shown in fig. 1, a mesh fabric rapid drying device comprises a shell 1, a drying device inside the shell 1 and a fabric guide structure arranged on the shell 1, wherein the drying device comprises two drying fans 2, guide rollers 3, partition plates 4 and negative pressure fans 5, the two drying fans 2 are arranged at the top side by side, the guide rollers 3 are alternately arranged at the lower side of the drying fans 2 from top to bottom, the partition plates 4 comprise vertical partition plates 4 arranged between the two drying fans 2 and flow guide partition plates 4 positioned at the lower sides of the guide rollers 3, the negative pressure fans 5 are arranged at the lower sides of the flow guide partition plates 4, the fabric guide structure comprises rack rails 6 and guide rods 7 arranged on the rack rails 6, the rack rails 6 are arranged on the front and back surfaces inside the shell 1, the tail ends of the rack rails 6 are provided with rail extension plates 9, the guide rod 7 is connected with the cloth, the left side and the right side of the shell 1 are respectively provided with a cloth outlet 10 and a cloth inlet 11, and four sides of the shell 1 are provided with fixing columns 8.

As shown in fig. 2, drying fan 2 include air intake fan 201, air-supply line 202, air intake filter screen 203, electrostatic chuck 204 and heating wire 205, air intake fan 201 be located the top, air-supply line 202 install in air intake fan 201 below, air intake filter screen 203, electrostatic chuck 204 and heating wire 205 be located air-supply line 202, be air intake filter screen 203, electrostatic chuck 204 and heating wire 205 from the top down in proper order, electrostatic chuck 204 distribute both sides in air-supply line 202.

As shown in fig. 1, in order to increase the moving distance and the retention time of the fabric, the number of the guide rollers 3 is 7, the guide rollers are alternately distributed up and down, and the grid fabric 12 sequentially bypasses each guide roller 3 to be dried.

As shown in fig. 3, the negative pressure fan 5 includes a fan housing 501, an air suction mesh enclosure 502, a baffle 503, an air outlet filter screen 504, an air outlet fan 505 and an air outlet pipe 506, the air suction mesh enclosure 502 and the baffle 503 are disposed above the fan housing 501, the air suction mesh enclosure 502 is located in the baffle 503, the air outlet pipe 506 is installed on the side surface of the fan housing 501, the air outlet filter screen 504 and the air outlet fan 505 are disposed on the air outlet pipe 506, and the air outlet filter screen 504 is located at the front end of the air outlet fan 505 and close to the fan housing 501.

As shown in fig. 4 or 5, the rack rail 6 includes a limiting rail plate 601, a rack 602, and a shaft rail 603, where the limiting rail plate 601 includes an upper limiting plate 604 and a lower limiting plate 605, the rack 602 is disposed on the lower limiting plate 605, the shaft rail 603 is disposed on the housing 1 at the rear side of the limiting rail plate 601, and the shaft rail 603 penetrates through the housing 1 to divide the housing 1 into an upper portion and a lower portion.

As shown in fig. 5, in order to guide the fabric to the corresponding position, the rack rail 6 is a smooth curve, and the curve shape and position are the same as the projection of the mesh fabric 12 on the side of the shell 1.

As shown in fig. 7 or fig. 11, the guide rod 7 includes a cloth clamping device 701, a connecting shaft 702, a gear shaft 703, a gear 704, a sliding shaft 705 and a handheld sliding handle 706 are symmetrically and sequentially installed at two ends of the cloth clamping device 701, the gear shaft 703, the gear 704, the sliding shaft 705 and the handheld sliding handle 706 are all coaxially and fixedly connected, and the gear shaft 703 is connected with the cloth clamping device 701 through the connecting shaft 702.

As shown in fig. 8, the cloth clamping device 701 includes an outer tube 707 and an inner tube 708, an outer cloth clamping opening 709 is arranged on a cylindrical surface of the outer tube 707, the inner tube 708 is installed inside the outer tube 707, an inner cloth clamping opening 710 is arranged on the inner tube 708, a locking opening 711 is further arranged in the middle of the outer tube 707, a locking block 712 is arranged in the middle of the inner tube 708, and the locking block 712 is installed in the locking opening 711.

As shown in fig. 10, the locking hole 711 includes a locking hole 713 and a releasing hole 714, and the inner tube 708 is rotated to switch between the locking hole 713 and the releasing hole 714.

as shown in fig. 4, the cloth outlet 10, the cloth inlet 11 and the shaft rail 603 divide the housing 1 into an upper part and a lower part, so that the fixing structure of the device needs to be externally added, the normal entering and exiting of the fabric and the use of the guide bar are not affected, the fixing column 8 comprises a transverse column 801 and a vertical column 802, the transverse column 801 is fixedly connected to the housing 1 along the 45-degree direction of the side edge of the housing 1, each side edge is provided with the upper transverse column 801 and the lower transverse column 801 connected with the housing 1, and the vertical column 802 is fixedly connected between the two transverse columns 801.

When the device is used: putting the grid fabric into the outer cloth clamping port 709 and the inner cloth clamping port 710, rotating the locking block 712 to convert the grid fabric from the release position port 714 to the lock positioning port 713, clamping the fabric, putting the guide rod 7 on the track extension plate 9 in the cloth inlet 11 direction, engaging the gear 704 on the rack 602, putting the sliding shaft 705 on the shaft track 603, sliding the handheld sliding handle 706 on the track extension plate 9 at the other end of the rack track 6, taking down the guide rod 7, operating the locking block 712 to return to the release position port 714, releasing the grid fabric 12, and ending the guiding work of the grid fabric 12;

During drying, airflow is firstly sucked into an air inlet pipe 202 by an air inlet fan 201, floaters with large diameters in inlet air are filtered through an air inlet filter screen 203, particles with small diameters in the inlet air are adsorbed by an electrostatic chuck 204, heating of the airflow is finally carried out through a heating wire 205, finally, the airflow is blown out of a drying fan 2 to dry a mesh fabric 12 on a guide roller 3, the airflow is sucked into a fan shell by an air outlet fan after passing through the mesh fabric 12, the airflow passes through an air outlet filter screen to filter fabric scraps on the fabric, the fabric scraps are prevented from being discharged into the air, and finally, the air is discharged through an air outlet pipe 506.

The invention relates to a rapid mesh fabric drying device, which aims at the drying problem: (1) the partition plate structure is used for dividing the drying into two relatively independent stages of drying, so that the drying effect is ensured; (2) the upper drying fan and the lower negative pressure fan correspond up and down, so that the flowing speed of airflow is increased, and the drying efficiency is greatly improved; (3) the air inlet filter screen on the drying fan can filter floating objects with larger diameters in air inlet, the electrostatic chuck can adsorb particles with smaller diameters in air inlet, double filtration ensures that fabrics are not polluted in the drying process, the air outlet filter screen is arranged during air outlet, fabric scraps on the fabrics can be prevented from being discharged into air, and the cleanness of the air is ensured without causing harm to human bodies; aiming at the fabric guide structure: (1) a detachable guide rod structure with special design is used, so that the use is convenient; (2) the rack rail is in a smooth curve shape, so that the operation is smooth when the fabric is guided, and the time is greatly saved; (3) the cloth clamping device on the guide rod structure can complete operation only by slightly shifting the position of the locking block when clamping the fabric, so that the cloth clamping device is convenient and quick, and the working efficiency is improved.

The above embodiments are only specific cases of the present invention, and the protection scope of the present invention includes but is not limited to the product form and style of the above embodiments, and any suitable changes or modifications of the mesh fabric rapid drying device according to the claims of the present invention and those of ordinary skill in the art should fall within the protection scope of the present invention.

Claims

1. The utility model provides a net surface fabric quick drying device which characterized in that: the drying device comprises a shell (1), a drying device inside the shell (1) and a fabric guide structure arranged on the shell (1), wherein the drying device comprises two drying fans (2), a guide roller (3), a partition plate (4) and a negative pressure fan (5), the two drying fans (2) are arranged on the top side by side, the guide roller (3) is alternately arranged on the lower side of the drying fans (2) from top to bottom, the partition plate (4) comprises a vertical partition plate (4) arranged between the two drying fans (2) and a flow guide partition plate (4) positioned on the lower side of the guide roller (3), the negative pressure fan (5) is arranged on the lower side of the flow guide partition plate (4), the fabric guide structure comprises a rack rail (6) and a guide rod (7) arranged on the rack rail (6), and the rack rail (6) is arranged on the front surface and the back surface inside the shell (1), rack rail (6) the end be equipped with track extension plate (9), guide bar (7) connect the cloth, shell (1) left side and right side be equipped with out cloth mouth (10) and advance cloth mouth (11) respectively, fixed column (8) are installed to four sides of shell (1).

2. The quick drying device for the mesh fabric according to claim 1, is characterized in that: drying fan (2) include air inlet fan (201), air-supply line (202), air inlet filter screen (203), electrostatic chuck (204) and heating wire (205), air inlet fan (201) be located the top, air-supply line (202) install in air inlet fan (201) below, air inlet filter screen (203), electrostatic chuck (204) and heating wire (205) be located air-supply line (202), from the top down be air inlet filter screen (203), electrostatic chuck (204) and heating wire (205) in proper order, electrostatic chuck (204) distribute both sides in air-supply line (202).

3. the quick drying device for the mesh fabric according to claim 1, is characterized in that: the number of the guide rollers (3) is 7, the guide rollers are alternately distributed up and down, and the grid fabric (12) sequentially bypasses each guide roller (3) to be dried.

4. The quick drying device for the mesh fabric according to claim 1, is characterized in that: negative-pressure air fan (5) including fan shell (501), induced draft screen panel (502), baffle (503), air-out filter screen (504), air-out fan (505) and play tuber pipe (506), fan shell (501) top be equipped with induced draft screen panel (502) and baffle (503), induced draft screen panel (502) are located baffle (503), play tuber pipe (506) install in fan shell (501) side, air-out filter screen (504) and air-out fan (505) establish on going out tuber pipe (506), air-out filter screen (504) be located air-out fan (505) front end and be close to fan shell (501).

5. The quick drying device for the mesh fabric according to claim 1, is characterized in that: the rack rail (6) comprises a limiting rail plate (601), a rack (602) and a shaft rail (603), the limiting rail plate (601) comprises an upper limiting plate (604) and a lower limiting plate (605), the rack (602) is arranged on the lower limiting plate (605), the shaft rail (603) is arranged on the shell (1) at the rear side of the limiting rail plate (601), and the shaft rail (603) penetrates through the shell (1) to divide the shell (1) into an upper part and a lower part.

6. The mesh fabric quick drying device of claim 1 or 5, which is characterized in that: the rack rail (6) is smooth and curved, and the curve shape and the position of the rack rail are the same as the projection of the grid fabric (12) on the side surface of the shell (1).

7. The quick drying device for the mesh fabric according to claim 1, is characterized in that: the guide rod (7) comprises a cloth clamping device (701), connecting shafts (702), gear shafts (703), gears (704), sliding shafts (705) and handheld sliding handles (706) are symmetrically and sequentially mounted at two ends of the cloth clamping device (701), the gear shafts (703), the gears (704), the sliding shafts (705) and the handheld sliding handles (706) are all coaxially and fixedly connected, and the gear shafts (703) are connected with the cloth clamping device (701) through the connecting shafts (702).

8. The mesh fabric quick drying device of claim 7, characterized in that: the cloth clamping device (701) comprises an outer pipe (707) and an inner pipe (708), an outer cloth clamping opening (709) is formed in the cylindrical surface of the outer pipe (707), the inner pipe (708) is installed in the outer pipe (707), an inner cloth clamping opening (710) is formed in the inner pipe (708), a locking opening (711) is further formed in the middle of the outer pipe (707), a locking block (712) is arranged in the middle of the inner pipe (708), and the locking block (712) is installed in the locking opening (711).

9. The mesh fabric quick drying device of claim 8, characterized in that: the locking port (711) comprises a locking position port (713) and a releasing position port (714), and the inner tube (708) is rotated to switch the locking position port (713) and the releasing position port (714).

10. The quick drying device for the mesh fabric according to claim 1, is characterized in that: fixed column (8) including horizontal post (801) and vertical post (802), horizontal post (801) link firmly on shell (1) along shell (1) side 45 degrees direction, every side all is equipped with two upper and lower horizontal posts (801) of connecting shell (1), vertical post (802) link firmly between two horizontal posts (801).