CN215328782U - Normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing - Google Patents

Abstract

The utility model relates to the technical field of jig dyeing machines, in particular to a normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing, which comprises a machine body, wherein a glass cover is clamped above the machine body, a printing and dyeing mechanism and two spreading rollers are respectively arranged in the machine body and positioned at the inner side of the glass cover, the two spreading rollers are arranged and distributed in a left-right arrangement manner, the printing and dyeing mechanism is positioned between the two spreading rollers, a square block is pushed into a groove at the upper part of a support frame, so that the driving gear is contacted with the transmission gear to be meshed, the first motor drives the rotating shaft to rotate to roll and unreel the textile, the spring enables the driving roller at the lower end to be close to the driving roller at the upper end, the second motor drives the driving roller at the upper end to rotate, thereby remove the fabrics, the printing and dyeing mechanism of being convenient for prints and dyes the fabrics, thereby solved present normal atmospheric temperature and pressure dye jigger and be not convenient for load the fabrics and unload, thereby lead to fabrics printing and dyeing in-process too inconvenient problem.

Description

Normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing

Technical Field

The utility model relates to the technical field of jig dyeing machines, in particular to a normal-temperature and normal-pressure jig dyeing machine for textile printing and dyeing.

Background

In the dyeing process of the jig dyeing machine, a cloth roller is used as power, a fabric to be dyed is unwound from a left cloth roller and discharged, is colored in a dye liquor in a dye vat through a cloth guide roller, is wound on a right cloth roller, and is rewound after the fabric on the left cloth roller is completely run; the dyeing is achieved by reciprocating operation. Early jig dyeing machines were made of wood or iron, and were gradually made of stainless steel in the late 20 th century, 70 s. The jig dyeing machine has three types of opening, capping, high temperature and high pressure, etc. according to different types of cloth to be processed. With the continuous development of the clothing industry, the production requirements of people on clothing textiles are higher and higher, the textile needs to be dyed by a jig dyeing machine in the textile processing process, and the jig dyeing machine provides conveying power for the textile through two alternative cloth rollers, so that the textile passes through dye at a constant speed, and the dyeing of the textile is completed.

However, when the existing normal-temperature normal-pressure jig dyeing machine winds and rolls the textile, the textile is not convenient to unwind, and the textile is not convenient to roll up before being dyed and is not convenient to take out after being dyed.

Therefore, how to design a normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing becomes a problem to be solved currently.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing, which solves the problem that the normal-temperature normal-pressure jig dyeing machine provided in the background technology is inconvenient for loading and unloading textiles, so that the textile printing and dyeing process is inconvenient.

In order to achieve the purpose, the utility model provides the following technical scheme: a normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing comprises a machine body, wherein a glass cover is clamped above the machine body, a printing and dyeing mechanism and a flattening roller are respectively arranged in the machine body and positioned on the inner side of the glass cover, the flattening roller is provided with two flattening rollers which are distributed in a left-right arrangement mode, the printing and dyeing mechanism is positioned between the two flattening rollers, the front end and the rear end of each flattening roller are respectively provided with a second square frame fixed at the bottom end in the machine body, the inner end of each second square frame is provided with a sliding cavity, the inner side of each second square frame is connected with a second rotating block in a sliding mode, and the second rotating block is rotatably connected with the front end and the rear end of each flattening roller;

the left end and the right end of the machine body are respectively clamped with a square frame penetrating into the machine body, a pair of driving rollers distributed up and down are arranged at the inner ends of the two square frames and positioned in the machine body, a motor II is arranged at the front side of the inner ends of the two square frames and positioned in front of the driving rollers, the driving roller at the upper end is rotatably connected with the square frames, square frames I are arranged at the front end and the rear end of the driving roller at the lower end in an inserting mode, a rotating block I is connected to the inner side of each square frame I in a sliding mode, and the rotating block I is rotatably connected with the front end and the rear end of the driving roller;

a pair of support frames which are distributed front and back are arranged at the left end and the right end of the machine body and positioned outside the frame, a motor I is arranged at the front end of each support frame at the same horizontal line at the front end, a driving gear is connected to the power output end of the motor I in a rotating way, a sliding groove is formed at the front end of the support frame at the front end, a slot is formed at the upper part of each support frame, an opening which penetrates through the front end of each support frame is formed at the upper end of each support frame and positioned above the slot, a pair of baffle rings which are distributed front and back are arranged between the front support frame and the rear support frame at the same side, a cloth rolling sleeve is arranged between the front support frame and the rear support frame at the same side in an inserting way, a strip is fixed inside the cloth rolling sleeve, a transmission pipe is arranged inside the cloth rolling sleeve in an inserting way, a through groove which penetrates through the front end and the rear end of the transmission pipe is formed at any one side of the outer wall of the transmission pipe, and a rotating shaft is arranged inside the transmission pipe in an inserting way, the front ends of the two rotating shafts are fixedly provided with a transmission gear, the front end and the rear end of each rotating shaft penetrate through the outer end of the support frame and are sleeved with square blocks, the square blocks are pushed into the grooves to be connected with the grooves in a sliding mode, and the front end and the rear end of each rotating shaft are sleeved with a limiting ring between the square blocks and the transmission gear.

Furthermore, the driving gear is in meshed transmission connection with the transmission gear, and the limit ring is located between the transmission gear and the square block at the front end.

Further, two motor lower ends are fixed with the slider, slider rear end and the inside sliding connection of spout, two slider outer end threaded connection has bolt two, two tail ends of bolt run through to spout inner wall and rather than contacting.

Furthermore, the upper end of the square is in threaded connection with a first bolt penetrating through the upper part of the opening, the upper end of the first bolt is in threaded connection with a first nut, and the first nut of the first bolt is in contact with the upper end of the support frame.

Furthermore, the transmission pipe is connected with the rotating shaft through a key.

Furthermore, a third bolt is inserted into each sliding cavity, the tail end of the third bolt is in threaded connection with the second rotating block, and the head end of the third bolt is in contact with the second square frame.

Further, it is rectangular to be located logical inslot, rectangular and logical groove sliding connection.

Further, two keep off the ring inside arbitrary one side and be fixed with the transmission piece, the transmission piece is located logical inslot portion and rather than sliding connection, it is rectangular to be located two between the transmission piece.

Furthermore, the front end of the transmission roller at the upper end is connected with the power output end of the motor II, and a spring is fixed between the upper end of the first rotating block and the top end of the inner side of the first square frame.

Compared with the prior art, the utility model has the beneficial effects that:

the textile is connected to the cloth rolling sleeve, the cloth rolling sleeve is sleeved on the transmission pipe, the transmission pipe is sleeved on the rotating shaft, the square block is pushed into the groove in the upper portion of the support frame, the driving gear is in contact with the transmission gear to be meshed, the rotating shaft is driven to rotate through the motor, the textile can be rolled and unreeled, and the textile only needs to be taken down and reversed, so that the textile can be conveniently loaded and unloaded, and the production efficiency is improved;

thereby unscrew the height that the nip roll can be adjusted to bolt three, thereby it can stabilize the nip roll to screw up bolt three, can make the driving roller of lower extreme and the driving roller of upper end draw close through the spring, make the fabrics pass between two upper and lower driving rollers, the fabrics passes nip roll lower extreme, the driving roller that motor two drove the upper end rotates, thereby remove the fabrics, the nip roll can make the fabrics expand and keep leveling, the printing and dyeing machine of being convenient for prints and dyes the fabrics, can see the condition that the fabrics printed and dyed through the glass cover.

Drawings

FIG. 1 is a schematic view of the overall external structure of the present invention;

FIG. 2 is a schematic view of the overall internal structure of the present invention;

FIG. 3 is an assembly view of the support bracket of the present invention;

FIG. 4 is a top view of the support of the present invention;

FIG. 5 is an exploded view of the support bracket of the present invention;

FIG. 6 is an enlarged view of a portion of structure A of the present invention;

FIG. 7 is an enlarged partial view of structure B of the present invention;

FIG. 8 is an enlarged partial view of structure C of the present invention;

fig. 9 is a partially enlarged view of structure D of the present invention.

In the figure: 1-glass cover, 2-machine body, 3-support frame, 4-baffle ring, 5-cloth rolling sleeve, 6-motor I, 7-driving gear, 8-transmission gear, 9-slot, 10-opening, 11-bolt I, 12-sliding groove, 13-bolt II, 14-sliding block, 15-square, 16-limit ring and 17-rotating shaft, 18-driving pipe, 19-through groove, 20-strip, 21-driving block, 22-flattening roller, 23-driving roller, 24-square frame, 25-motor two, 26-square frame one, 27-rotating block one, 28-spring, 29-sliding cavity, 30-bolt three, 31-rotating block two, 32-square frame two and 33-dyeing mechanism.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

Referring to fig. 1-9, the present invention provides a technical solution: a normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing comprises a machine body 2, wherein a glass cover 1 is clamped above the machine body 2, a printing and dyeing mechanism 33 and a flattening roller 22 are respectively arranged inside the machine body 2 and on the inner side of the glass cover 1, the flattening rollers 22 are provided with two, the two flattening rollers are arranged and distributed in a left-right mode, the printing and dyeing mechanism 33 is positioned between the two flattening rollers 22, the front end and the rear end of each flattening roller 22 are respectively provided with a second frame 32 fixed at the bottom end inside the machine body 2, the inner end of each second frame 32 is provided with a sliding cavity 29, the inner side of each second frame 32 is connected with a second rotating block 31 in a sliding mode, and the second rotating block 31 is rotatably connected with the front end and the rear end of each flattening roller 22;

the left end and the right end of the machine body 2 are respectively clamped with a square frame 24 penetrating into the machine body 2, a pair of driving rollers 23 distributed up and down are arranged at the inner ends of the two square frames 24 and positioned in the machine body 2, a motor II 25 is arranged on the front side of the inner ends of the two square frames 24 and positioned in front of the driving rollers 23, the driving rollers 23 at the upper end are rotatably connected with the square frames 24, square frames I26 are respectively arranged at the front end and the rear end of the driving rollers 23 at the lower end in an inserting mode, a rotating block I27 is slidably connected to the inner side of each square frame I26, and the rotating block I27 is rotatably connected with the front end and the rear end of the driving rollers 23;

a pair of support frames 3 which are distributed front and back are arranged at the left end and the right end of the machine body 2 and positioned outside a frame 24, a motor 6 is arranged at the front end of each support frame 3 at the same horizontal line at the front end, a driving gear 7 is rotatably connected to the power output end of the motor 6, a sliding groove 12 is formed at the front end of each support frame 3 at the front end, a slot 9 is formed at the upper part of each support frame 3, an opening 10 which penetrates through the front end of each support frame 3 is formed at the upper end of each support frame 3 and positioned above the slot 9, a pair of retaining rings 4 which are distributed front and back are arranged between the two support frames 3 at the front end and the rear end at the left end and the right end, a cloth rolling sleeve 5 is arranged between the two retaining rings 4 at the front end and the rear end at the left end and the right end, a strip 20 is fixed inside the cloth rolling sleeve 5, a transmission pipe 18 is arranged inside the cloth rolling sleeve 5 in an inserting manner, and a through groove 19 which penetrates through the front end and the rear end of the transmission pipe 18 is formed at any one side of the outer wall of the transmission pipe 18, rotating shafts 17 are inserted into the transmission pipes 18, transmission gears 8 are fixed at the front ends of the two rotating shafts 17, the front ends and the rear ends of the rotating shafts 17 penetrate through the outer end of the support frame 3 and are sleeved with square blocks 15, the square blocks 15 are pushed into the grooves 9 and are in sliding connection with the grooves, and limit rings 16 are sleeved at the front ends and the rear ends of the two rotating shafts 17 and between the square blocks 15 and the transmission gears 8;

the transmission pipe 18 is connected with the rotating shaft 17 through a key; a transmission block 21 is fixed on any one side of the inner parts of the two baffle rings 4, the transmission block 21 is positioned in the through groove 19 and is connected with the through groove in a sliding manner, and the strip 20 is positioned between the two transmission blocks 21; the strip 20 is positioned inside the through groove 19, and the strip 20 is slidably connected with the through groove 19; the textile is connected to the cloth rolling sleeve 5, the cloth rolling sleeve 5 is sleeved on the transmission pipe 18, the transmission pipe 18 is sleeved on the rotating shaft 17, finally the baffle ring 4 is sleeved on the outer surface of the transmission pipe 18, and the transmission block 21 is in transition fit with the through groove 19, so that the baffle ring 4 can be firmly fixed on the transmission pipe 18 by the transmission block 21;

the driving gear 7 is in meshed transmission connection with the transmission gear 8, and the limit ring 16 is positioned between the transmission gear 8 and the square block 15 at the front end; the front end and the rear end of the rotating shaft 17 are sleeved with the square 15 and the limiting ring 16 in sequence, and the limiting ring 16 can limit the rotating shaft 17 so as to prevent the square 15 from separating from the rotating shaft 17;

the lower ends of the two first motors 6 are fixedly provided with sliding blocks 14, the rear ends of the sliding blocks 14 are in sliding connection with the inside of the sliding groove 12, the outer ends of the two sliding blocks 14 are in threaded connection with a second bolt 13, and the tail end of the second bolt 13 penetrates through the inner wall of the sliding groove 12 and is in contact with the inner wall; the second bolt 13 is loosened, so that the sliding block 14 can slide in the sliding groove 12, the position of the first motor 6 can be adjusted, the second bolt 13 is tightened, the tail end of the second bolt 13 can be in close contact with the sliding groove 12, the sliding block 14 is enabled to be stable in the sliding groove 12, and the second bolt 13 is tightened, so that the first motor 6 is enabled to be stable;

the upper end of the square 15 is in threaded connection with a first bolt 11 penetrating through the upper part of the opening 10, the upper end of the first bolt 11 is in threaded connection with a nut, and the nut of the first bolt 11 is in contact with the upper end of the support frame 3; screwing a first bolt 11 into the upper end of the block 15 to keep the first bolt 11 loose, pushing the block 15 into the slot 9 on the upper part of the support frame 3, pushing the first bolt 11 loose on the upper end of the block 15 into the opening 10, wherein the block 15 enables the driving gear 7 to be contacted with the transmission gear 8 to be meshed during the process of moving the block 15 in the slot 9, and tightening the first bolt 11 can enable the block 15 to be fixed in the slot 9; meanwhile, the position of the block 15 in the slot 9 can be adjusted by loosening the first bolt 11 to move the block 15 back and forth in the slot 9, so that the position of the rotating shaft 17 in the support frame 3 can be adjusted, the position of the first adjusting motor 6 can be loosened by loosening the second bolt 13, and finally the driving gear 7 is meshed with the transmission gear 8;

a third bolt 30 is inserted and connected in each sliding cavity 29, the tail end of the third bolt 30 is in threaded connection with a second rotating block 31, and the head end of the third bolt 30 is in contact with a second block 32; the third bolt 30 is unscrewed so that the height of the flattening roller 22 can be adjusted, the third bolt 30 is screwed so that the flattening roller 22 can be stabilized, the textile passes through the space between the upper transmission roller 23 and the lower transmission roller 23, the transmission roller 23 at the lower end and the transmission roller 23 at the upper end can be drawn close through the spring 28, the textile passes through the lower end of the flattening roller 22, the first motor 6 drives the driving gear 7 to rotate, the driving gear 7 drives the transmission gear 8 to rotate, the transmission gear 8 drives the rotating shaft 17 to rotate, the rotating shaft 17 drives the transmission pipe 18 to rotate, the transmission pipe 18 drives the cloth rolling sleeve 5 to rotate, the cloth rolling sleeve 5 can roll and unreel the textile, and the textile can be prevented from being thrown out through the baffle ring 4;

the front end of the transmission roller 23 at the upper end is connected with the power output end of the motor II 25, and a spring 28 is fixed between the upper end of the rotating block I27 and the top end of the inner side of the square block I26; the motor II 25 drives the driving roller 23 at the upper end to rotate, so that the textile is moved, the flattening roller 22 can enable the textile to be unfolded and keep flat, the printing and dyeing mechanism 30 can print and dye the textile conveniently, the textile is transferred from the cloth rolling sleeve 5 on the right to the cloth rolling sleeve 5 on the left, and the condition of printing and dyeing of the textile can be seen through the glass cover 1;

the textile needs to be taken down only by reversing the operation, so that the textile can be conveniently loaded and unloaded, and the production efficiency is improved.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a fabrics is normal atmospheric temperature jig dyeing machine for printing and dyeing, includes organism (2), its characterized in that:

a glass cover (1) is clamped above the machine body (2), a printing and dyeing mechanism (33) and flattening rollers (22) are arranged inside the machine body (2) and on the inner side of the glass cover (1) respectively, the flattening rollers (22) are provided with two frames which are distributed in a left-right arrangement mode, the printing and dyeing mechanism (33) is arranged between the two flattening rollers (22), the front end and the rear end of each flattening roller (22) are provided with a second frame (32) fixed at the bottom end inside the machine body (2), the inner end of each second frame (32) is provided with a sliding cavity (29), the inner side of each second frame (32) is connected with a second rotating block (31) in a sliding mode, and the second rotating block (31) is connected with the front end and the rear end of each flattening roller (22) in a rotating mode;

the left end and the right end of the machine body (2) are respectively connected with a square frame (24) penetrating through the interior of the machine body (2) in a clamping mode, a pair of driving rollers (23) distributed vertically are arranged at the inner ends of the two square frames (24) and located in the interior of the machine body (2), a motor II (25) is arranged on the front side of the inner ends of the two square frames (24) and located in front of the driving rollers (23), the driving rollers (23) at the upper end are rotatably connected with the square frames (24), square frame I (26) are arranged at the front end and the rear end of the driving rollers (23) at the lower end in a penetrating mode, a rotating block I (27) is slidably connected to the inner side of each square frame I (26), and the rotating block I (27) is rotatably connected with the front end and the rear end of the driving rollers (23);

a pair of support frames (3) which are distributed front and back are arranged at the left end and the right end of the machine body (2) and positioned at the outer side of a square frame (24), a motor I (6) is arranged at the front end of each support frame (3) on the same horizontal line at the front end, a driving gear (7) is rotatably connected to the power output end of the motor I (6), a sliding groove (12) is formed at the front end of each support frame (3) at the front end, a slot (9) is formed in the upper part of each support frame (3), an opening (10) penetrating through the front end of each support frame (3) is formed in the upper end of each support frame (3) and positioned above the slot (9), a pair of retaining rings (4) which are distributed front and back is arranged between the two retaining rings (4) at the front end and the back of the same side, a cloth rolling sleeve (5) is arranged between the two retaining rings (4) at the front end and the back of the same side in an alternating mode, and a strip (20) is fixed inside the cloth rolling sleeve (5), the cloth rolling sleeve is characterized in that a transmission pipe (18) is arranged inside the cloth rolling sleeve (5) in an inserting mode, a through groove (19) penetrating through the front end and the rear end of the transmission pipe (18) is formed in any one side of the outer wall of the transmission pipe (18), a rotating shaft (17) is arranged inside the transmission pipe (18) in an inserting mode, a transmission gear (8) is fixed to the front end of the rotating shaft (17), a square block (15) is arranged at the front end and the rear end of the rotating shaft (17) in an inserting mode and penetrates through the outer end of the support frame (3) in an inserting mode, the square block (15) is arranged inside the groove (9) in a pushing mode and is connected with the groove in a sliding mode, and a limiting ring (16) is arranged at the front end and the rear end of the rotating shaft (17) in an inserting mode and between the square block (15) and the transmission gear (8).

2. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: the driving gear (7) is in meshed transmission connection with the transmission gear (8), and the limiting ring (16) is located between the transmission gear (8) and the square block (15) at the front end.

3. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: two motor (6) lower extreme is fixed with slider (14), slider (14) rear end and the inside sliding connection of spout (12), two slider (14) outer end threaded connection has bolt two (13), bolt two (13) tail end runs through to spout (12) inner wall and contacts with it.

4. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: the upper end of the square block (15) is in threaded connection with a first bolt (11) penetrating through the upper portion of the opening (10), the upper end of the first bolt (11) is in threaded connection with a nut, and the nut of the first bolt (11) is in contact with the upper end of the support frame (3).

5. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: the transmission pipe (18) is connected with the rotating shaft (17) through a key.

6. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: a third bolt (30) is inserted into each sliding cavity (29), the tail end of the third bolt (30) is in threaded connection with the second rotating block (31), and the head end of the third bolt (30) is in contact with the second square frame (32).

7. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: the strip (20) is located inside the through groove (19), and the strip (20) is connected with the through groove (19) in a sliding mode.

8. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: two keep off ring (4) inside arbitrary one side and be fixed with transmission piece (21), transmission piece (21) are located logical groove (19) inside and rather than sliding connection, it is rectangular (20) to be located two between transmission piece (21).

9. The normal-temperature normal-pressure jig dyeing machine for textile printing and dyeing according to claim 1, characterized in that: the front end of the transmission roller (23) at the upper end is connected with the power output end of the motor II (25), and a spring (28) is fixed between the upper end of the rotating block I (27) and the top end of the inner side of the square block I (26).

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