CN112411079B

CN112411079B - Dyeing equipment for jute cloth

Info

Publication number: CN112411079B
Application number: CN202011422407.5A
Authority: CN
Inventors: 黄友清
Original assignee: Chenzhou Xiangnan Ramie Industry Co ltd
Current assignee: Chenzhou Xiangnan Ramie Industry Co ltd
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2022-12-09
Anticipated expiration: 2040-12-08
Also published as: CN112411079A

Abstract

The invention discloses a jute cloth dyeing device which comprises a dye stirrer and a cloth dyeing machine. The jute cloth dyeing equipment can improve the jute cloth dyeing effect.

Description

Dyeing equipment for jute cloth

Technical Field

The invention relates to a jute cloth processing device, in particular to jute cloth dyeing equipment.

Background

The jute cloth has wide effect, can be used for packaging tobacco leaves, processing into jute bags for packaging grain crops and the like, and is woven embryonic cloth without any post treatment; some jute cloths used in decorative materials, home furnishing and home textile industries need to be dyed.

The dye stirring process is an important link in the textile process. However, the existing dye stirrer is single in structure, the movement mode of the adopted stirring roller is single, the stirring effect is poor, and the quality of the produced dye cannot reach the standard.

In addition, the existing jute fabric processing equipment can often cause the jute fabric to carry excessive dye when drying and fixing due to lack of extrusion when the jute fabric is dyed and processed, on one hand, if the jute fabric is wet for a long time, part of the undried jute fabric is completely degraded, the jute fabric can completely lose strength, the use value of the jute fabric is reduced, and on the other hand, the dye is wasted to a certain extent.

Therefore, finding a feasible dyeing device for jute cloth to improve the dyeing effect is a technical problem which needs to be solved urgently in the field.

Disclosure of Invention

The invention aims to provide feasible jute cloth dyeing equipment.

In order to solve the technical problem, the jute cloth dyeing equipment comprises a dye stirrer and a cloth dyeing machine;

the dye stirrer comprises a machine body and a base; the machine body is movably arranged on the base; a stirring mechanism is arranged in the machine body; the stirring mechanism comprises a stirring roller which is rotatably arranged in the machine body and a plurality of stirring units which are circumferentially arranged on the outer wall of the stirring roller at equal intervals; a stepping motor for driving the stirring roller is arranged on the machine body; the stirring unit comprises a main stirring blade and two auxiliary stirring blades; the main stirring blade is fixedly arranged on the outer wall of the stirring roller; telescopic rods with one end connected with the main stirring blades She Jiaojie are symmetrically arranged in the main stirring blades; the auxiliary stirring blades She Huadong are inserted into the main stirring blades and fixedly connected with the telescopic rods; two sliding grooves are symmetrically arranged on the main stirring blade; a sliding block is arranged in the sliding groove in a sliding manner; the sliding block is connected with one side of the sliding groove through a spring; a group of electromagnets which are electrified and attracted are arranged between the sliding chute and the sliding block;

the cloth dyeing machine comprises a dip dyeing box, a driven roller I, a driving roller and a pressure roller; openings are formed in two sides of the dip-dyeing box, and driven rollers I and driven rollers II are arranged at the positions of the openings in the two sides of the dip-dyeing box respectively; the driven roller I and the driven roller II are respectively connected with the side wall of the dip dyeing box in a rotary connection mode, and a driving roller is rotatably connected to the side wall of the dip dyeing box right below the middle position of the driven roller I and the driven roller II; a pressure roller is arranged on the left side of the driven roller II at the same horizontal height; after entering the dip-dyeing box from the left opening of the dip-dyeing box, the cloth passes through the right opening of the dip-dyeing box after being clamped and driven by the driven roller I, the driving roller, the driven roller II and the pressure roller in sequence; two ends of the pressure roller penetrate through the side wall of the dip dyeing box and are connected with the movable block in a rotary connection mode; the moving block is connected inside the moving box in a sliding mode, and the middle of the moving block is connected with the long screw rod in a threaded connection mode; the two ends of the long screw are rotationally connected with the side wall of the movable box; the end part of the long screw is provided with a hexagonal head; the inner side and the outer side of the hexagonal head are both in a hexagonal structure.

And a trigger mechanism is arranged between the stepping motor and the machine body.

The trigger mechanism comprises a plurality of conducting strips and conducting balls; a trigger disc is fixedly arranged on the machine body; the triggering disc is concentric with the output end of the stepping motor; the conducting strips are circumferentially distributed in the triggering disc and are fixedly connected with the triggering disc; the outer wall of the output end of the stepping motor is fixedly sleeved with a turntable; the conductive ball is rotatably arranged on the turntable and matched with the conductive sheet.

The machine body is slidably inserted on the base and is elastically connected with the base, and an adjusting mechanism is arranged between the machine body and the base.

Adjustment mechanism includes rack and the rotation gear of installing in the base of fixed mounting on the organism, rack one end inserts in the base and meshes mutually with the gear, fixed mounting has the conducting rod on the gear, it has the conducting ring still to lie in the gear outside fixed mounting in the base, the equidistance is equipped with a plurality ofly and conducting rod matched with contact on the conducting ring, and the contact of different positions makes the electric current at electro-magnet both ends increase gradually with the conducting rod contact along anticlockwise.

And a long notch for the pressure roller to move horizontally is arranged on the side wall of the dip dyeing box.

And the side walls of the dip dyeing box on the two sides of the driving roller are rotatably connected with a stirring assembly.

One end of the driving roller penetrates through the side wall of the dip dyeing box to be connected with a driving motor, and the other end of the driving roller penetrates through the side wall of the dip dyeing box to be provided with a chain wheel; the chain wheel is connected with the stirring assembly through the chain transmission assembly.

A synchronous belt wheel is coaxially arranged on the outer side of the chain wheel; and the synchronous belt wheel is connected with the end part of the driven roller II through a belt transmission assembly.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

1. the dye stirrer is provided with the stirring roller, the stirring unit, the main stirring blade, the telescopic rod, the auxiliary stirring blade, the sliding chute, the sliding block, the spring, the electromagnet, the stepping motor, the trigger mechanism, the trigger disc, the conducting strip, the rotary disc and the conducting ball, wherein the stirring roller is driven to rotate through the rotation of the stepping motor, so that the main stirring blade rotates to stir dye, the rotary disc is driven to rotate in the rotating process of the stepping motor, the conducting ball is driven to rotate, the conducting ball is in contact with the conducting strip in an intermittent mode, the electromagnets are electrified and attracted, the sliding block is driven to do reciprocating motion along the sliding chute under the action of attraction force, the auxiliary stirring blade and the telescopic rod are driven to do reciprocating opening and closing motion along the hinged position of the telescopic rod, the stirring effect on the dye is improved, and the stirring and mixing period is shortened.

2. According to the dye stirrer, the rack, the gear, the conducting ring, the contact and the conducting rod are arranged, the rack moves downwards along with the machine body under the action of gravity according to different volumes of dyes poured into the machine body, the gear rotates under the meshing relationship between the rack and the gear, and the conducting rod is further contacted with the contact at the position corresponding to the dye volume at the moment, so that the auxiliary stirring blade is unfolded by a corresponding angle, the contact area between the stirring unit and the dyes is changed, and further the stirring mechanism can be adjusted according to the volume of single injection of the dyes, so that the dyes with different volumes can be fully stirred in the same period.

3. The cloth dyeing machine disclosed by the invention has the advantages that the cloth can be fully contacted with the dye in the dip dyeing box through the clamping transmission of the driven roller I, the driving roller, the driven roller II and the pressure roller, so that the dip dyeing work of the cloth is completed, in addition, after the dip dyeing is completed, the pressure roller is used for pressing the cloth passing through the driven roller II, so that the redundant dye in the cloth flows downwards under the dual action of the gravity of the pressure and is converged in the dip dyeing box again, the problem of dye waste is solved, and meanwhile, the cloth is convenient to perform subsequent drying and color fixing; in addition, the device drives all the parts to be driven to synchronously rotate in the device by arranging one driving motor, so that the device is simple and efficient, and saves the cost.

Drawings

FIG. 1 is a schematic view of a dye mixer;

FIG. 2 is a schematic view of the structure of a stirring unit in the dye stirrer;

FIG. 3 is a schematic diagram of the trigger mechanism of the dye mixer;

FIG. 4 is an enlarged partial structural view at A in the dye mixer;

FIG. 5 is a schematic structural view of a telescopic rod and an auxiliary stirring blade in the dye stirring machine;

FIG. 6 is a schematic view of the internal structure of the dip dyeing tank of the cloth dyeing machine;

FIG. 7 is a schematic structural view of a driving part of the cloth dyeing machine;

FIG. 8 is a schematic structural view of an adjustment structure of a cloth dyeing machine;

FIG. 9 is a partial structure diagram of the dip tank of the dyeing machine.

Detailed Description

The present invention is described in detail below:

the invention relates to a jute cloth dyeing device which comprises a dye stirrer and a cloth dyeing machine. The dye stirring machine and the cloth dyeing machine can be connected through a conveying pipe, and stirred dye is conveyed to the cloth dyeing machine.

As shown in fig. 1, 2, 3, 4 and 5, the dye mixer includes a body 1 and a base 2. The machine body 1 is movably arranged on the base 2. The machine body is internally provided with a stirring mechanism. The stirring mechanism comprises a stirring roller 3 which is rotatably arranged in the machine body and a plurality of stirring units 4 which are circumferentially and equidistantly arranged on the outer wall of the stirring roller 3. The machine body is provided with a stepping motor 5 for driving the stirring roller.

The stirring unit 4 includes a main stirring blade 401 and two auxiliary stirring blades 403. The main stirring blade 401 is fixedly installed on the outer wall of the stirring roller 3. The main stirring blade is internally and symmetrically provided with telescopic rods 402 with one end thereof being equal to the main stirring blade She Jiaojie. The auxiliary stirring blade 403 is slidably inserted into the main stirring blade 401 and is fixedly connected with the telescopic rod 402. Two chutes 404 are symmetrically arranged on the main stirring blade. A slider 405 is slidably mounted in the chute. The slider is connected to one side of the chute by a spring 406. A group of electromagnets 407 which are electrified and attracted are arranged between the sliding chute and the sliding block.

When practical application, rotate through step motor 5, drive stirring roller 3 and rotate, make main stirring leaf 401 rotate and carry out stirring work to the dyestuff, at this in-process, through making electro-magnet 407 intermittent type formula circular telegram, under the effect of attraction, make slider 405 be reciprocating motion along spout 404, and drive and assist stirring leaf 403 and telescopic link 402 and do reciprocating opening and shutting motion along telescopic link 402's articulated department, and then improve the stirring effect to the dyestuff, shorten stirring mixing cycle.

A trigger mechanism 6 is arranged between the stepping motor 5 and the machine body 1.

The trigger mechanism 6 includes a plurality of conductive plates 2 and conductive balls 604. The trigger plate 601 is fixedly arranged on the machine body. The trigger plate 601 is concentric with the output of the stepper motor. The conducting strip 2 is circumferentially arranged in the trigger plate 601 and fixedly connected with the trigger plate. The outer wall of the output end of the stepping motor is fixedly sleeved with a turntable 603. The conductive ball 604 is rotatably mounted on the turntable 603, and the conductive ball is engaged with the conductive sheet.

The machine body is inserted on the base 2 in a sliding way and is elastically connected with the base. An adjusting mechanism is arranged between the machine body and the base.

The adjusting mechanism comprises a rack 7 fixedly arranged on the machine body and a gear 8 rotatably arranged in the base 2. One end of the rack is inserted into the base and meshed with the gear. The gear is fixedly provided with a conductive rod 11. And a conducting ring 9 is fixedly arranged on the outer side of the gear in the base. A plurality of contacts 10 matched with the conducting rod 11 are equidistantly arranged on the conducting ring 9, and the contacts 10 at different positions along the counterclockwise direction are contacted with the conducting rod 11, so that the current at the two ends of the electromagnet 407 is increased gradually.

When the dye stirring device is used, the stirring roller 3 is driven to rotate through the rotation of the stepping motor 5, so that the main stirring blade 401 rotates to stir dye, in the rotating process of the stepping motor 5, the rotating disc 603 is driven to rotate, and the conductive ball 604 is driven to rotate, so that the conductive ball 604 is contacted with the conductive sheet 602 intermittently, so that the electromagnet 407 is electrified and attracted, under the action of attraction force, the sliding block 405 is made to reciprocate along the sliding groove 404, the auxiliary stirring blade 403 and the telescopic rod 402 are driven to make reciprocating opening and closing movement along the hinged part of the telescopic rod 402, so that the stirring effect on the dye is improved, the stirring and mixing period is shortened, according to the difference of the volume of the dye poured into the machine body 1, under the action of gravity, the rack 7 moves downwards along the machine body 1, under the meshing relationship between the rack 7 and the gear 8, the gear 8 rotates, so that the conductive rod 11 is contacted with the contact point 10 at the position corresponding to the dye volume, so that the auxiliary stirring blade 403 is unfolded at a corresponding angle, the contact area between the stirring unit 4 and the dye can be changed, so that the volume of the same stirring mechanism can be fully stirred in the same stirring period.

As shown in fig. 6, 7, 8, and 9, the cloth dyeing machine includes a dip dyeing tank 2001, a driven roller i 2003, a drive roller 2004, and a pressure roller 2006.

Openings are formed in two sides of the dip-dyeing box, and driven rollers I and driven rollers II 2005 are arranged at the positions of the openings in the two sides of the dip-dyeing box respectively. Driven roll I and driven roll II are connected with the dip-dyeing box lateral wall respectively with the mode of rotation connection. And the side wall of the dip dyeing box right below the middle positions of the driven roller I and the driven roller II is rotatably connected with a driving roller. And a pressure roller 2006 is arranged on the left side of the driven roller II at the same horizontal height. The cloth 2002 enters the dip-dyeing box from the left opening of the dip-dyeing box 2001, and then passes through the right opening of the dip-dyeing box after passing through the clamping transmission of the driven roller I, the driving roller, the driven roller II and the pressure roller in sequence. Both ends of the pressure roller are connected with the moving block 2013 in a rotary connection mode through the side wall of the dip dyeing box. The moving block 2013 is slidably connected inside the moving box 2010, and the middle of the moving block 2013 is connected with the long screw 2011 in a threaded connection mode. The two ends of the long screw 2011 are rotatably connected with the side wall of the movable box 2010. The end of the long screw 2011 is provided with a hexagonal head 2012. The inner and outer sides of the hex head 2012 are of hexagonal configuration.

The side wall of the dip-dyeing box is provided with a long notch 2101 for the pressure roller 2006 to move horizontally.

An agitation assembly 2007 is rotatably connected to the side walls of the dip tank on either side of the drive roller 2004. Can prevent the dye from generating precipitation delamination after being used for a long time, which causes the reduction of dyeing quality, thereby reducing the product quality.

One end of the driving roller penetrates through the side wall of the dip-dyeing box to be connected with the driving motor, and the other end of the driving roller penetrates through the side wall of the dip-dyeing box to be provided with a chain wheel 2041. The sprocket 2041 is connected to the stirring assembly 2007 by a chain drive assembly (2008).

A synchronous belt wheel 2042 is coaxially arranged outside the chain wheel. The timing pulley 2042 is connected to the end of the driven roller ii 2005 by a belt drive assembly 2009. Therefore, the device drives all the parts to be driven to synchronously rotate in the device by arranging one driving motor, is simple and efficient, and saves the cost.

Claims

1. A jute cloth dyeing equipment is characterized in that: comprises a dye stirrer and a cloth dyeing machine;

the dye stirrer comprises a machine body (1) and a base (2); the machine body (1) is movably arranged on the base (2); a stirring mechanism is arranged in the machine body (1); the stirring mechanism comprises a stirring roller (3) rotatably arranged in the machine body (1) and a plurality of stirring units (4) which are circumferentially and equidistantly arranged on the outer wall of the stirring roller (3); a stepping motor (5) for driving the stirring roller (3) is arranged on the machine body (1); the stirring unit (4) comprises a main stirring blade (401) and two auxiliary stirring blades (403); the main stirring blade (401) is fixedly arranged on the outer wall of the stirring roller (3); telescopic rods (402) with one ends hinged with the main stirring blades (401) are symmetrically arranged in the main stirring blades (401); the auxiliary stirring blade (403) is slidably inserted into the main stirring blade (401) and is fixedly connected with the telescopic rod (402); two sliding grooves (404) are symmetrically arranged on the main stirring blade (401); a sliding block (405) is arranged in the sliding groove (404) in a sliding manner; the sliding block (405) is connected with one side of the sliding groove (404) through a spring (406); a group of electromagnets (407) which are electrified and attracted are arranged between the sliding chute (404) and the sliding block (405);

the cloth dyeing machine comprises a dip dyeing box (2001), a driven roller I (2003), a driving roller (2004) and a pressure roller (2006); openings are formed in two sides of the dip-dyeing box (2001), and a driven roller I (2003) and a driven roller II (2005) are arranged at the positions of the openings in the two sides in the dip-dyeing box (2001) respectively; the driven roller I (2003) and the driven roller II (2005) are respectively connected with the side wall of the dip-dyeing box (2001) in a rotating connection mode, and a driving roller (2004) is connected to the side wall of the dip-dyeing box (2001) right below the middle position of the driven roller I (2003) and the driven roller II (2005) in a rotating connection mode; a pressure roller (2006) is arranged on the left side of the driven roller II (2005) at the same horizontal height; two ends of the pressure roller (2006) penetrate through the side wall of the dip dyeing box (2001) and are connected with the moving block (2013) in a rotating connection mode; the moving block (2013) is connected inside the moving box (2010) in a sliding mode, and the middle of the moving block (2013) is connected with the long screw (2011) in a threaded connection mode; two ends of the long screw (2011) are rotatably connected with the side wall of the movable box (2010); the end part of the long screw (2011) is provided with a hexagonal head (2012); the inner side and the outer side of the hexagonal head (2012) are both in a hexagonal structure;

a trigger mechanism (6) is arranged between the stepping motor (5) and the machine body (1);

the trigger mechanism (6) comprises a plurality of conducting strips (602) and conducting balls (604), a trigger disc (601) is fixedly mounted on the machine body (1), the trigger disc (601) is concentric with the output end of the stepping motor (5), the conducting strips (602) are circumferentially arranged in the trigger disc (601) and fixedly connected with the trigger disc (601), a turntable (603) is fixedly sleeved on the outer wall of the output end of the stepping motor (5), the conducting balls (604) are rotatably mounted on the turntable (603), and the conducting balls (604) are matched with the conducting strips (602);

the side walls of the dip dyeing box (2001) at two sides of the driving roller (2004) are rotatably connected with stirring assemblies (2007);

the machine body (1) is slidably inserted on the base (2) and is elastically connected with the base, and an adjusting mechanism is arranged between the machine body (1) and the base (2);

adjustment mechanism includes rack (7) and the rotation of fixed mounting on organism (1) and installs gear (8) in base (2), rack (7) one end insert in base (2) and mesh mutually with gear (8), fixed mounting has conducting rod (11) on gear (8), it has conducting ring (9) still to be fixed mounting in gear (8) outside in base (2), conducting ring (9) equidistance be equipped with a plurality ofly with conducting rod (11) matched with contact (10), contact (10) along the different positions on the anticlockwise make the electric current at electro-magnet (407) both ends increase gradually with conducting rod (11) contact.

2. The jute cloth dyeing apparatus of claim 1, wherein: the side wall of the dip-dyeing box (2001) is provided with a long notch (2101) for the pressure roller (2006) to move horizontally.

3. The jute cloth dyeing apparatus of claim 1, wherein: one end of the driving roller (2004) penetrates through the side wall of the dip dyeing box (2001) to be connected with a driving motor, and the other end of the driving roller penetrates through the side wall of the dip dyeing box (2001) to be provided with a chain wheel (2041); the sprocket (2041) is connected to the blending assembly (2007) through a chain drive assembly (2008).

4. The jute cloth dyeing apparatus of claim 3, wherein: a synchronous belt wheel (2042) is coaxially arranged on the outer side of the chain wheel (2041); the synchronous belt wheel (2042) is connected with the end part of the driven roller II (2005) through a belt transmission assembly (2009).