CN110319675B - Automatic change high-efficient drying device of fabrics - Google Patents

Abstract

The invention relates to the field of textile drying, in particular to an automatic efficient textile drying device, wherein an air outlet groove is formed in a drying block, a roller groove is formed in the drying block and is opposite to the upper end of the air outlet groove, a roller is movably arranged in the roller groove, a rectangular lug is fixedly connected to the surface of the roller, an inclined groove is formed in the surface of the roller, an air blocking lug is fixedly connected in the inclined groove, the air blocking lug is enabled to be arranged through a hexagon roller on the drying device, when the drying device rotates to drive the textile cloth to move, the textile cloth between the two drying blocks can be stretched through the hexagonal water caltrops, drying efficiency is higher when making weaving cloth's fibre clearance enlarge to lead to hot-blast passing through, and the gyro wheel of a gyro wheel inslot of rethread is total five, and the gyro wheel is installed rectangle lug and rectangle lug on the surface and is the crisscross setting of height slope for can further promotion weaving cloth drag efficiency when the gyro wheel rotates.

Description

Automatic change high-efficient drying device of fabrics

Technical Field

The invention relates to the field of textile drying, in particular to an automatic efficient textile drying device.

Background

The textile industry is an industry with high labor intensity and large external dependence in China, is mainly divided into two types of woven fabric and knitted fabric, and generally needs two procedures of washing and dewatering after the textile fabric is processed, so as to remove moisture in clothes and other textiles.

But present stoving mostly is personnel manual puts into the stoving case, and the stoving mode also only be simple heating, and very big reduction drying efficiency when wasting time and energy, and the phenomenon that drying process is not in place appears easily.

Disclosure of Invention

The utility model provides an automatic change high-efficient drying device of fabrics, the device make weaving cloth make drying efficiency higher by dynamic dragging of removal messenger through drying device circular and oval crisscross setting, and the setting of a plurality of hexagon gyro wheel of rethread makes and drags drying efficiency and further improves.

The utility model provides an automatic change high-efficient drying device of fabrics, includes device main part, weaving cloth, its characterized in that: the device is characterized in that a condensation cavity is formed in the upper end of the device main body, a steam inlet channel is fixedly connected to the lower end of the condensation cavity, a motor is fixedly mounted below the condensation cavity, breather pipes are fixedly connected to two ends of the condensation cavity, an air inlet cavity is fixedly connected to the lower ends of the breather pipes, a fan is fixedly mounted in the air inlet cavity, an air inlet pipe is fixedly connected to the upper end of the air inlet cavity, a drying device is fixedly mounted inside the device main body, and transmission rods are fixedly connected to two ends of:

fixed mounting has the stoving piece on the drying device, set up out the air slot in the stoving piece, set up the gyro wheel groove for the upper end that goes out the air slot in the stoving piece, gyro wheel inslot movable mounting has the gyro wheel, gyro wheel fixed surface is connected with rectangle lug, the chute has been seted up on the gyro wheel surface, fixedly connected with choke lug in the chute, air jet groove has been seted up on the stoving piece front and back both ends, air jet groove upper end fixedly connected with air jet, set up flutedly on the air jet, the both ends fixedly connected with of stoving piece rotates the wheel, the inside fixed mounting of drying device has the heating pipe, the inside fixed mounting of heating pipe has the electric heat bar.

Preferably, the air injection groove is arranged in an arc shape and gradually becomes smaller from bottom to top.

Preferably, the grooves are distributed around the air injection port in a rectangular shape and are inclined outwards.

Preferably, the drying devices are four in the same arrangement, and the first and the third are circular, and the second and the fourth are oval.

Preferably, the top of the upper end of the drying device is inclined towards the steam inlet channel.

Preferably, the roller is arranged on one side of the roller groove, and the upper end of the air outlet groove is obliquely arranged and connected with the roller groove at the end far away from the roller.

Preferably, the number of the rollers in the roller groove is five, and the rectangular lugs are arranged in a staggered manner in a high-low inclined manner.

Preferably, the inclined groove is obliquely arranged in a circular arc shape, and the depth of the inclined groove gradually decreases from bottom to top.

Preferably, the gas barrier protrusions are arranged in a staggered manner in a circular arc manner.

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

1. the gyro wheel that sets up through hexagon on the drying device makes, can make weaving cloth between two stoving pieces stretch through hexagonal water caltrop when drying device rotates and drives weaving cloth and remove, drying efficiency is higher when making weaving cloth's fibrous clearance enlarge to lead to hot-blast passing through, gyro wheel in a gyro wheel inslot of rethread is total five, the gyro wheel is installed rectangle lug and rectangle lug on the surface and is the crisscross setting of height slope, the efficiency of dragging that can further promotion weaving cloth when making the gyro wheel rotate.

2, install in one side of gyro wheel groove through the gyro wheel, and go out the slope setting that the gas groove upper end is connected for keeping away from the gyro wheel of one end with the gyro wheel, make when the piece of drying moves to the heating pipe below, the air current can be through the one side contact of going out gas groove and gyro wheel, the circular arc slope chute of seting up by supreme degree of depth reduction gradually makes the air current get into back pressure crescent on the rethread gyro wheel, make the air current to the effect grow of gyro wheel, the effect to the gyro wheel is further improved when the crisscross convex choke lug that sets up in the chute makes the air current pass through, it carries out further tear to drive the gyro wheel rotation when reaching through air current stoving weaving cloth.

3. Set up and diminish by supreme down for the arc through the air jet groove for pressure crescent makes spun air current speed dry the effect better more soon after the air current after the heating can be easier the entering and get into, and the rethread recess just leans out for rectangular distribution around the air jet, makes the air current range that sprays wider after air current pressure increases, reaches further promotion drying efficiency's purpose.

Drawings

FIG. 1 is an overall front view of the present invention;

FIG. 2 is an overall perspective view of the present invention;

FIG. 3 is a plan view of the drying apparatus of the present invention;

FIG. 4 is a perspective view of the drying apparatus of the present invention;

FIG. 5 is an internal view of the drying apparatus according to the present invention;

FIG. 6 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

FIG. 7 is a left perspective view of the drying apparatus of the present invention;

FIG. 8 is a perspective view of the roller of the present invention;

FIG. 9 is an enlarged view of the invention at B in FIG. 8.

In the figure: 1-device body, 2-woven cloth, 3-drying device, 301-drying block, 4-transmission rod, 5-air inlet pipe, 6-fan, 7-motor, 8-condensation chamber, 9-air inlet chamber, 10-air vent pipe, 11-steam inlet channel, 12-roller, 1201-rectangular lug, 13-air jet, 1301-groove, 14-rotating wheel, 15-heating pipe, 16-electric heating rod, 17-air jet groove, 18-roller groove, 19-air outlet groove, 20-chute and 21-air blocking lug.

Detailed Description

Referring to fig. 1 to 9, a schematic plan structure and a schematic perspective structure of an automatic efficient textile drying device are shown.

The utility model provides an automatic change high-efficient drying device of fabrics, including device main part 1, weaving cloth 2, condensation chamber 8 has been seted up to 1 upper end of device main part, condensation chamber 8 lower extreme fixedly connected with steam intake duct 11, condensation chamber 8 below fixed mounting has motor 7, condensation chamber 8 both ends fixedly connected with breather pipe 10, breather pipe 10 lower extreme fixedly connected with air intake chamber 9, fixed mounting has fan 6 in the air intake chamber 9, air intake chamber 9 upper end fixedly connected with intake pipe 5, 1 inside fixed mounting of device main part has drying device 3, 3 both ends fixedly connected with transfer line 4 of drying device: last fixed mounting of drying device 3 has stoving piece 301, it goes out air groove 19 to have seted up in stoving piece 301, roller groove 18 has been seted up for going out air groove 19's upper end in stoving piece 301, movable mounting has gyro wheel 12 in the roller groove 18, gyro wheel 12 fixed surface is connected with rectangle lug 1201, chute 20 has been seted up on the gyro wheel 12 surface, fixedly connected with choke lug 21 in the chute 20, air jet groove 17 has been seted up on stoving piece 301 front and back both ends, air jet groove 17 upper end fixedly connected with air jet 13, seted up recess 1301 on the air jet 13, the both ends fixedly connected with runner 14 of stoving piece 301, the inside fixed mounting of drying device 3 has heating pipe 15, the inside fixed mounting of heating pipe 15 has electrical bar 16.

In specific implementation, the air injection groove 17 is arranged in an arc shape and gradually decreases from bottom to top, so that heated air flow can enter more easily, and the pressure is gradually increased after the heated air flow enters, so that the speed of the sprayed air flow is faster, and the drying effect is better.

In specific implementation, the grooves 1301 are distributed around the air injection port 13 in a rectangular shape and are inclined outwards, so that the air injection range is wider after the air pressure is increased, and the aim of further improving the drying efficiency is fulfilled.

In specific implementation, the drying devices 3 are four in the same arrangement, the first and the third are circular, the second and the fourth are oval, so that the textile cloth 2 can be subjected to preliminary dynamic pulling through the rotation speed difference between the oval and the circle when moving between the first and the second, and the moisture in the textile cloth 2 can be removed more easily.

In specific implementation, the top of the upper end of the drying device 3 is arranged in an inclined manner towards the steam inlet 11, so that steam generated by drying can enter the condensation chamber 8 more efficiently.

In the specific implementation, the roller 12 is installed on one side of the roller groove 18, and the upper end of the air outlet groove 19 is arranged obliquely and connected with the roller groove 18 at the end far away from the roller 12, and the air flow is contacted with one side of the roller 12 through the air outlet groove 19.

In the specific implementation, five rollers are arranged in one roller groove 18, and the rectangular bumps 1201 are arranged in a staggered manner with high and low inclinations, so that the pulling efficiency of the textile fabric 2 can be further improved when the rollers 12 rotate.

In specific implementation, the chute 20 is arranged in an inclined manner in a circular arc, and the depth of the chute 20 gradually decreases from bottom to top, so that the pressure gradually increases after the airflow enters, and the effect of the airflow on the roller 12 becomes large.

In the specific implementation, the choke projections 21 are arranged in a staggered manner in an arc, so that the effect on the roller 12 when the air flow passes through is further improved.

The working principle of the automatic efficient textile drying device is as follows.

Firstly, after the textile cloth 2 passes through the drying device in a staggered manner, the starting motor 7 rotates to connect the rotating wheel 14 through the transmission rod 4 to drive the drying device 3 to rotate, the first and the third of the drying device 3 are circular, the second and the fourth are elliptical, so that the textile cloth 2 can be subjected to preliminary dynamic pulling through the rotation speed difference between the ellipses and the circles when moving between the textile cloth, the moisture in the textile cloth is removed more easily, the drying device 3 rotates to drive the textile cloth 2 to dry and move simultaneously, the motor 7 starts the fan 6 and the electric heating rod 16 when starting, so that the fan 6 drives the airflow to enter the heating pipe 15 through the air inlet pipe 5 to be contacted with the electric heating rod 16, the heated airflow moves outwards through the holes of the heating pipe 15, the heated airflow is arc-shaped through the air injection groove 17 and gradually decreases from bottom to top, the heated airflow can more easily enter and the pressure is gradually increased after entering, so that the speed of the ejected airflow is faster and the drying effect, and then through recess 1301 for rectangular distribution around air jet 13 and lean out, make after the air current pressure increases make the air current range of spraying wider, further promotion drying efficiency, when the air current reachs jet 17, through the slope setting that goes out the air groove 19 upper end and be connected for the gyro wheel groove 18 that keeps away from one end with gyro wheel 12, make the air current can contact with one side of gyro wheel 12 through going out the air groove 19, rethread gyro wheel 12 is last to be offered the circular arc slope chute 20 that reduces gradually from bottom to top degree of depth makes the air current get into back pressure and increases gradually, make the effect grow of air current to gyro wheel 12, the effect to gyro wheel 12 when crisscross setting up in the chute 20 makes the air current pass through further improves to the weaving of circular arc choke lug 21, reach the mesh that drives the gyro wheel rotatory when drying device 3 is rotatory, the gyro wheel 12 that the hexagon set up when drying device 3 rotates and drives weaving cloth 2 and remove can make through the hexagon diamond angle make the weaving cloth Get weaving cloth 2 between two stoving pieces 301 and stretch for weaving cloth 2's fibre clearance enlarges and leads to hot-blast drying efficiency when passing through higher, gyro wheel 12 in a gyro wheel groove 18 is total five, gyro wheel 12 installs rectangle lug 1201 on the surface and rectangle lug is the crisscross setting of height slope, makes can further promote weaving cloth 2's the efficiency of dragging when gyro wheel 12 rotates, can produce a large amount of steam after weaving cloth 2 is dried and is accomplished, through the top of drying device 3 upper end is for the slope setting towards steam intake duct 11, makes the stoving produce steam can more efficient get into in the condensation chamber 8.

Claims (9)

1. The utility model provides an automatic change high-efficient drying device of fabrics, includes device main part (1), weaving cloth (2), its characterized in that: condensation chamber (8) have been seted up to device main part (1) upper end, condensation chamber (8) lower extreme fixedly connected with steam intake duct (11), condensation chamber (8) below fixed mounting has motor (7), condensation chamber (8) both ends fixedly connected with breather pipe (10), breather pipe (10) lower extreme fixedly connected with chamber (9) of admitting air, chamber (9) of admitting air internal fixation installs fan (6), chamber (9) upper end fixedly connected with intake pipe (5) of admitting air, device main part (1) inside fixed mounting has drying device (3), drying device (3) both ends fixedly connected with transfer line (4):

the drying device is characterized in that a drying block (301) is fixedly mounted on the drying device (3), an air outlet groove (19) is formed in the drying block (301), a roller groove (18) is formed in the drying block (301) relative to the upper end of the air outlet groove (19), rollers (12) are movably mounted in the roller groove (18), rectangular convex blocks (1201) are fixedly connected to the surfaces of the rollers (12), chutes (20) are formed in the surfaces of the rollers (12), air blocking convex blocks (21) are fixedly connected in the chutes (20), air injection grooves (17) are formed in the front end and the rear end of the drying block (301), air injection ports (13) are fixedly connected to the upper ends of the air injection grooves (17), grooves (1301) are formed in the air injection ports (13), rotating wheels (14) are fixedly connected to the two ends of the drying block (301), and heating pipes (15) are fixedly mounted in the drying device, an electric heating rod (16) is fixedly arranged in the heating pipe (15).

2. The automatic efficient textile drying device according to claim 1, characterized in that: the air injection groove (17) is arranged in an arc shape and gradually becomes smaller from bottom to top.

3. The automatic efficient textile drying device according to claim 1, characterized in that: the grooves (1301) are distributed around the air injection port (13) in a rectangular shape and are inclined outwards.

4. The automatic efficient textile drying device according to claim 1, characterized in that: the drying devices (3) are provided with four drying devices, the first drying device and the third drying device are circular, and the second drying device and the fourth drying device are oval.

5. The automatic efficient textile drying device according to claim 1, characterized in that: the top of the upper end of the drying device (3) is arranged in an inclined mode towards the steam inlet channel (11).

6. The automatic efficient textile drying device according to claim 1, characterized in that: the roller (12) is arranged on one side of the roller groove (18), the upper end of the air outlet groove (19) is the roller (12), and the roller groove (18) on the outer side of the roller (12) is obliquely arranged.

7. The automatic efficient textile drying device according to claim 1, characterized in that: the number of the rollers in one roller groove (18) is five, and the rectangular convex blocks (1201) are arranged in a staggered mode in a high-low inclined mode.

8. The automatic efficient textile drying device according to claim 1, characterized in that: the chute (20) is obliquely arranged in a circular arc manner, and the depth of the chute (20) is gradually reduced from bottom to top.

9. The automatic efficient textile drying device according to claim 1, characterized in that: the air blocking convex blocks (21) are arranged in a staggered mode in an arc mode.

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