阅读说明：本技术 一种筒子纱染色处理工艺 (Cheese dyeing treatment process ) 是由 闫宇 张国华 余爱华 于 2020-05-20 设计创作，主要内容包括：本发明涉及一种筒子纱染色处理工艺,包括工作台、染色池、搅拌装置、驱动装置和固定装置,所述工作台上端安装有染色池,染色池内部下端安装有搅拌装置,染色池上方设置有驱动装置,驱动装置下端左右对称安装有固定装置。本发明提供的一种筒子纱染色处理工艺,可以解决人工对筒子纱进行染色处理时,人工先将筒子纱浸入染色池内,从而对筒子纱进行染色处理,筒子纱染色完成后,再人工将筒子纱取出晾干收集,人工染色过程繁琐,且人工染色易导致筒子纱染色不均匀以及现有筒子纱染色处理设备在染色时,先将筒子纱松筒,在松筒过程中对纱线进行浸染,浸染后直接对纱线进行复卷、晾干,而复卷后的筒子纱难以晾干,从而降低筒子纱染色效率等问题。(The invention relates to a cheese dyeing treatment process which comprises a workbench, a dyeing tank, a stirring device, a driving device and a fixing device, wherein the dyeing tank is installed at the upper end of the workbench, the stirring device is installed at the lower end inside the dyeing tank, the driving device is arranged above the dyeing tank, and the fixing device is installed at the lower end of the driving device in a bilateral symmetry mode. The cheese dyeing process can solve the problems that when cheese is manually dyed, the cheese is manually immersed into a dyeing tank firstly, so that the cheese is dyed, the cheese is taken out manually, dried and collected after the cheese is dyed, the manual dyeing process is complicated, the cheese is dyed unevenly due to manual dyeing, the cheese is firstly loosened during the bobbin loosening process by using the conventional cheese dyeing equipment, the yarn is directly rewound and dried after the dip dyeing, the rewound and dried cheese is difficult to dry, so that the cheese dyeing efficiency is reduced, and the like.)

1. A cheese dyeing treatment process is characterized in that: the specific dyeing treatment process comprises the following steps:

s1, manufacturing cheese: preparing the raw materials into cheese;

s2, an inspection device: before the cheese dyeing device is started to dye the cheese, the cheese dyeing device is checked;

s3, dyeing and spin-drying: the manufactured cheese is locked on a fixing device (5) manually and is driven to descend by a driving device (4), so that the cheese is dyed by dye in a dyeing tank (2), the dye is stirred by a stirring device (3) in the dyeing process, and the cheese is dried by the driving device (4) after dyeing is finished;

s4, blanking collection: after dyeing and spin-drying, manually taking down and collecting dyed cheese, placing the cheese in a drying room or airing the cheese in the sun, and collecting and stacking the cheese after airing;

in the process of dyeing the cheese in the steps S1-S4, the cheese is dyed by a specially designed device, the device specifically comprises a workbench (1), a dyeing tank (2), a stirring device (3), a driving device (4) and a fixing device (5), the dyeing tank (2) is installed at the upper end of the workbench (1), the stirring device (3) is installed at the lower end inside the dyeing tank (2), the driving device (4) is arranged above the dyeing tank (2), the driving device (4) is installed at the upper end of the workbench (1), and the fixing devices (5) are installed at the lower end of the driving device (4) in a bilateral symmetry mode; wherein:

the stirring device (3) comprises a rotating motor (31), a gear shaft (32), a moving plate (33), two compression springs (34) and two rotating mechanisms (35), wherein the rotating motor (31) is installed in the middle of the upper end of the workbench (1) through a motor installation plate, the gear shaft (32) is installed at the output end of the rotating motor (31), the moving plate (33) is arranged at the rear end of the gear shaft (32), the moving plate (33) is installed at the lower end inside the dyeing tank (2) in a sliding fit mode, the compression springs (34) are symmetrically arranged at the left end and the right end of the moving plate (33), and the rotating mechanisms (35) are symmetrically arranged at the left end and the right;

the rotating mechanism (35) comprises an installation shaft (351), two sliding blocks (352), two connecting springs (353), two cylindrical gears (354), two reversing bevel gears (355), two bevel gear rods (356), a fixing plate (357), two return springs (358) and a stirring blade (359), the sliding blocks (352) are symmetrically installed at the front end and the rear end of the installation shaft (351), the sliding blocks (352) are installed at the lower end inside the dyeing tank (2) in a sliding fit mode, the upper ends of the sliding blocks (352) are connected with the dyeing tank (2) through the connecting springs (353), the cylindrical gears (354) are symmetrically installed on the installation shaft (351) in the front-rear direction, the reversing bevel gears (355) are arranged between the cylindrical gears (354), the reversing bevel gears (355) are symmetrically installed on the installation shaft (351) in the front-rear direction, the bevel gear rods (356) are meshed, a fixing plate (357) is arranged above the mounting shaft (351), a bevel gear rod (356) is arranged on the fixing plate (357) in a sliding fit manner in a front-back manner, the middle part of the bevel gear rod (356) is connected with the fixing plate (357) through a return spring (358), and a stirring blade (359) is arranged at the upper end of the bevel gear rod (356);

the driving device (4) comprises an air pump (41), a U-shaped mounting plate (42), a lifting air cylinder (43), a clip frame (44), two guide blocks (45), two guide rods (46), a driving motor (47), a driving gear (48) and a driven gear (49), wherein the air pump (41) is mounted on the left side of the upper end of the workbench (1) in a threaded connection mode, the U-shaped mounting plate (42) is mounted in the middle of the upper end of the workbench (1), the lifting air cylinder (43) is mounted at the upper end of the inner side of the U-shaped mounting plate (42) in a threaded connection mode, the clip frame (44) is mounted at the extending end of the lifting air cylinder (43), the guide blocks (45) are symmetrically mounted at the left end and the right end of the clip frame (44), the guide rods (46) are mounted in the middle of the guide blocks (45) in a sliding fit mode, a driving motor (47) is installed at the upper end inside the square-shaped frame (44) in a threaded connection mode, a driving gear (48) is installed at the output end of the driving motor (47), and driven gears (49) are symmetrically meshed at the left end and the right end of the driving gear (48);

the fixing device (5) comprises two rotating disks (51) and a locking mechanism (52), the upper ends of the rotating disks (51) are mounted at the lower end of the driving device (4) through bearings, and the locking mechanism (52) is uniformly mounted at the lower end of the rotating disks (51).

2. The cheese dyeing process according to claim 1, wherein: the front end of the moving plate (33) is provided with a gear groove, the gear shaft (32) is installed in the gear groove, racks are symmetrically arranged at the front and back of the upper end of the moving plate (33), and the racks are meshed with the cylindrical gear (354).

3. The cheese dyeing process according to claim 1, wherein: the dyeing pond is characterized in that rectangular rods are symmetrically arranged at the front and back of the lower end in the dyeing pond (2), rectangular grooves are symmetrically formed at the front and back of the lower end of the movable plate (33), the rectangular rods are arranged in the rectangular grooves in a sliding fit mode, sliding grooves are symmetrically formed at the front and back of the upper end of the movable plate (33), and the lower end of the reversing bevel gear (355) is arranged in the sliding grooves in a sliding fit mode.

4. The cheese dyeing process according to claim 1, wherein: the upper end of the rotating disc (51) is connected with a driven gear (49).

5. The cheese dyeing process according to claim 1, wherein: the locking mechanism (52) comprises a fixed rod (521), a pressure plate (522), a sliding sleeve (523), four connecting rods (524), four rotating rods (525) and four arc-shaped supporting plates (526), dead lever (521) upper end is installed at rotary disk (51) lower extreme, pressure disk (522) are installed through screw-thread fit's mode in dead lever (521) middle part, pressure disk (522) lower extreme is provided with sliding sleeve (523), sliding sleeve (523) establish in dead lever (521) middle part through sliding fit's mode cover, sliding sleeve (523) lower extreme evenly is provided with connecting rod (524) along its circumference, hinge mounting is passed through on sliding sleeve (523) in connecting rod (524) upper end, there is dwang (525) connecting rod (524) lower extreme through the hinge mounting, hinge mounting is passed through at dead lever (521) lower extreme in dwang (525) inboard, there is arc backup pad (526) in dwang (525) outside through the.

6. The cheese dyeing process according to claim 5, wherein: the outer side of the arc-shaped supporting plate (526) is provided with a soft rubber layer, and the outer side of the soft rubber layer is provided with anti-skid grains.

Technical Field

The invention relates to the technical field of textile dyeing, in particular to a cheese dyeing treatment process.

Background

The cheese is the output product of the winding process of the spinning mill in the textile industry, and is the cop fallen from the spinning frame or the twisting frame of the previous process, according to the requirements of the subsequent process of using yarn in the weaving mill, the knitting mill or the towel mill, etc., the length of the yarn is lengthened, the defects and impurities on the yarn are removed, the cheese is rewound into the cheese with a large volume, which is not edge or edge, is wound into a certain shape (such as a cone shape and a cylinder shape) and has a certain winding density, and is generally called as 'cheese', the cheese has white yarn and colored yarn, and the colored yarn can be obtained after the white yarn is dyed.

When the existing cheese dyeing equipment is used for dyeing cheese, the following problems are often caused:

(1) when the cheese is dyed manually, the cheese is usually soaked into a dyeing tank manually, so that the cheese is dyed, and after the cheese is dyed, the cheese is taken out manually, dried and collected, so that the manual dyeing process is complicated, and the cheese is dyed unevenly easily in the manual dyeing process, so that the dyeing efficiency of the cheese is reduced;

(2) when the existing cheese dyeing equipment is used for dyeing cheese, the cheese is usually firstly loosened, the yarn on the cheese is dip-dyed in the process of loosening the cheese, the yarn is directly rewound after dip-dyeing, and finally the yarn is dried, and the rewound cheese is difficult to dry, so that the cheese dyeing efficiency is reduced.

In order to make up the defects of the prior art, the invention provides a cheese dyeing treatment process.

Disclosure of Invention

The technical scheme adopted by the invention to solve the technical problem is as follows: a cheese dyeing treatment process comprises the following specific steps:

s1, manufacturing cheese: preparing the raw materials into cheese;

s2, an inspection device: before the cheese dyeing device is started to dye the cheese, the cheese dyeing device is checked;

s3, dyeing and spin-drying: the manufactured cheese is locked on the fixing device manually, and is driven to descend by the driving device, so that the cheese is dyed by the dye in the dyeing tank, the dye is stirred by the stirring device in the dyeing process, and the cheese is dried by the driving device after dyeing is finished;

s4, blanking collection: after dyeing and spin-drying, manually taking down and collecting dyed cheese, placing the cheese in a drying room or airing the cheese in the sun, and collecting and stacking the cheese after airing;

in the process of dyeing the cheese in the steps S1-S4, dyeing the cheese by adopting a specially designed device, wherein the device specifically comprises a workbench, a dyeing tank, a stirring device, a driving device and a fixing device, the dyeing tank is installed at the upper end of the workbench, the stirring device is installed at the lower end inside the dyeing tank, the driving device is arranged above the dyeing tank and is installed at the upper end of the workbench, and the fixing devices are installed at the lower end of the driving device in a bilateral symmetry manner; wherein:

the stirring device comprises a rotating motor, a gear shaft, a movable plate, two compression springs and two rotating mechanisms, wherein the rotating motor is arranged in the middle of the upper end of a workbench through a motor mounting plate, the gear shaft is arranged at the output end of the rotating motor, the movable plate is arranged at the rear end of the gear shaft and is arranged at the lower end inside a dyeing tank in a sliding fit mode, the compression springs are symmetrically arranged at the left end and the right end of the movable plate and play roles of buffering, damping and resetting protection, the rotating mechanisms are symmetrically arranged at the left end and the right end of the movable plate, during specific work, the manufactured cheese is manually placed on a fixing device, so that a driving device drives the cheese to dip and dye in the dyeing tank, the dye dyes the cheese, the gear shaft is driven to rotate through the rotating motor, the movable plate, therefore, the moving plate and the rotating mechanism are used for stirring the dye in the dyeing tank, and the moving plate and the rotating mechanism are used for overturning the dye at the bottom in the dyeing tank to the upper part, so that the dye is prevented from precipitating to the bottom and the dyeing process of the dye on the cheese is accelerated.

The rotating mechanism comprises an installation shaft, two sliding blocks, two connecting springs, two cylindrical gears, two reversing bevel gears, two bevel gear rods, a fixed plate, two reset springs and a stirring blade, the sliding blocks are symmetrically installed at the front end and the rear end of the installation shaft and are installed at the lower end in the dyeing tank in a sliding fit mode, the upper ends of the sliding blocks are connected with the dyeing tank through the connecting springs, the cylindrical gears are symmetrically installed on the installation shaft from front to back, the reversing bevel gears are arranged between the cylindrical gears and are symmetrically installed on the installation shaft from front to back, the bevel gear rods are meshed at the upper ends of the reversing bevel gears, the fixed plate is arranged above the installation shaft, the bevel gear rods are installed on the fixed plate from front to back in a sliding fit mode, the middle parts of the bevel gear rods are connected with the fixed, the movable plate is driven by the rotating motor to move left and right, so that the movable plate drives the cylindrical gear to rotate, the mounting shaft drives the reversing bevel gear to rotate, the reversing bevel gear drives the bevel gear rod to rotate, the bevel gear rod drives the stirring blade to rotate, the stirring blade is used for stirring dye in the dye pool, the flowing of the dye is accelerated, the dyeing process of the dye on cheese is accelerated, the movable plate moves in the process, the gear shaft is always connected with the movable plate, the mounting shaft is extruded by the movable plate, the mounting shaft drives the sliding block to extrude the connecting spring, the mounting shaft is lifted upwards, one end of the movable plate is lifted upwards, and the gear shaft is used for reversing the movable plate.

The fixing device comprises two rotating disks and a locking mechanism, the upper ends of the rotating disks are mounted at the lower end of the driving device through bearings, the locking mechanism is uniformly mounted at the lower end of the rotating disks, when the cheese dyeing machine works specifically, cheese is clamped and fixed through the locking mechanism, after the cheese is clamped and fixed, the rotating disks are driven to rotate through the driving device, the rotating disks drive the locking mechanism to rotate, the locking mechanism drives the cheese to dye in a rotating mode, the cheese dyeing process is accelerated, after the cheese is separated from dye, the cheese is driven to rotate through the driving device, redundant dye on the cheese is thrown off, and then the cheese dye is accelerated to dry.

According to a preferred technical scheme, a gear groove is formed in the front end of the moving plate, a gear shaft is installed in the gear groove, racks are symmetrically arranged on the front and back of the upper end of the moving plate, the racks are meshed with the cylindrical gear, the gear shaft rotates in the gear groove, the moving plate is driven by the gear shaft to move left and right, and in the process of moving left and right of the moving plate, the cylindrical gear drives the installation shaft to rotate, the reversing bevel gear drives the bevel gear rod to rotate, the bevel gear rod drives the stirring blade to rotate, the stirring blade is used for stirring dye in the dye pool, so that the flowing of the dye is accelerated, and the dyeing process of the cheese by the dye is accelerated.

According to a preferable technical scheme, the lower end of the inner portion of the dyeing tank is symmetrically provided with rectangular rods in the front-back direction, the lower end of the movable plate is symmetrically provided with rectangular grooves in the front-back direction, the rectangular rods are installed in the rectangular grooves in a sliding fit mode, the upper end of the movable plate is symmetrically provided with sliding grooves in the front-back direction, the lower end of the reversing bevel gear is installed in the sliding grooves in a sliding fit mode, the rectangular rods and the rectangular grooves play a role in guiding and limiting, and the sliding grooves avoid the situation that the movable plate collides with the reversing bevel gear in the process that.

As a preferred technical scheme of the invention, the driving device comprises an air pump, a U-shaped mounting plate, a lifting air cylinder, a square frame, two guide blocks, two guide rods, a driving motor, a driving gear and a driven gear, wherein the air pump is arranged on the left side of the upper end of a workbench in a threaded connection mode, the U-shaped mounting plate is arranged in the middle of the upper end of the workbench, the lifting air cylinder is arranged on the upper end of the inner side of the U-shaped mounting plate in a threaded connection mode, the square frame is arranged at the extending end of the lifting air cylinder, the guide blocks are symmetrically arranged at the left end and the right end of the square frame, the guide rods are arranged in the middle of the guide blocks in a sliding fit mode, the upper ends of the guide rods are arranged on the upper end of the inner side of the U-shaped mounting plate, the driving, during specific work, the cheese clamp is fixed through the locking mechanism, after the cheese clamp is fixed, the lifting cylinder is driven by the air pump to descend, the lifting cylinder drives the clip frame to descend, the clip frame descends in the process, the clip frame slides in the guide block through the guide rod, the clip frame is guided and limited, the clip frame drives the cheese to descend and dip into dye, the driving gear is driven to rotate through the driving motor, the driven gear drives the locking mechanism to rotate, the locking mechanism drives the cheese to rotate, and the dyeing process of the dye on the cheese is accelerated.

As a preferable technical scheme of the invention, the upper end of the rotating disc is connected with the driven gear, so that the driven gear drives the rotating disc to rotate, and the locking mechanism drives the cheese to rotate.

As a preferred technical scheme of the invention, the locking mechanism comprises a fixed rod, a pressure plate, a sliding sleeve, four connecting rods, four rotating rods and four arc-shaped supporting plates, wherein the upper end of the fixed rod is arranged at the lower end of the rotating disk, the pressure plate is arranged at the middle part of the fixed rod in a threaded fit manner, the sliding sleeve is arranged at the lower end of the pressure plate and sleeved at the middle part of the fixed rod in a sliding fit manner, the connecting rods are uniformly arranged at the lower end of the sliding sleeve along the circumferential direction of the sliding sleeve, the upper end of the connecting rod is arranged on the sliding sleeve through a hinge, the rotating rod is arranged at the lower end of the connecting rod through a hinge, the inner side of the rotating rod is arranged at the lower end of the fixed rod through a hinge, the arc-shaped supporting plates support the, in the pressure disk decline process, extrude the sliding sleeve through the pressure disk for the sliding sleeve drives the connecting rod decline, thereby makes the connecting rod drive the rotatory decline of dwang, and then makes the dwang drive the arc backup pad and support fixedly to the cheese inner wall, and extrudes the sliding sleeve through the pressure disk, makes the sliding sleeve extrude fixedly to the cheese upper end.

As a preferred technical scheme of the invention, the outer side of the arc-shaped supporting plate is provided with the soft rubber layer, the outer side of the soft rubber layer is provided with the anti-skid grains, the soft rubber layer prevents the arc-shaped supporting plate from scratching the inner wall of the cheese, and the anti-skid grains prevent the condition that the cheese is separated from the fixed rod when rotating because the arc-shaped supporting plate and the inner wall of the cheese slide.

Compared with the prior art, the invention has the following advantages:

1. according to the cheese dyeing treatment process provided by the invention, cheese is dyed in a rotary dip dyeing mode, so that the cheese is uniformly dyed, and the movable plate and the rotating mechanism are driven to move left and right through the arranged gear shaft, so that the dye is stirred by the movable plate, the dye at the bottom in the dyeing tank is overturned to the upper part by the movable plate and the rotating mechanism, and the dyeing process of the cheese by the dye is accelerated while the dye is prevented from precipitating to the bottom;

2. according to the cheese dyeing treatment process provided by the invention, the slide sleeve is extruded through the arranged pressure plate, so that the connecting rod drives the rotating rod to rotate and descend, the inner wall of the cheese is supported and fixed by the arc-shaped support plate, the soft rubber layer is arranged on the outer side of the arc-shaped support plate, the arc-shaped support plate is prevented from scratching the inner wall of the cheese by the soft rubber layer, and the anti-skid lines arranged on the outer side of the arc-shaped support plate prevent the arc-shaped support plate and the inner wall of the cheese from sliding;

3. according to the cheese dyeing treatment process provided by the invention, the moving plate is driven to move left and right by the gear shaft, so that the rack drives the cylindrical gear to rotate, the reversing bevel gear drives the bevel gear rod to rotate, the bevel gear rod drives the stirring blade to rotate, the moving plate and the stirring blade stir the dye in the dyeing tank, the flowing of the dye is accelerated, and the dyeing process of the cheese by the dye is accelerated.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

FIG. 2 is a schematic perspective view of the present invention in its working state;

FIG. 3 is a front view of the working state of the present invention;

FIG. 4 is a cross-sectional view (from the front to the back) of the working state of the present invention;

FIG. 5 is a cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 6 is a top view of the dyeing bath and the stirring device of the present invention;

FIG. 7 is a schematic perspective view of the dyeing tank and the stirring device of the present invention;

FIG. 8 is a cross-sectional view taken along line B-B of FIG. 6 in accordance with the present invention;

FIG. 9 is a schematic perspective view of the gear shaft and the moving plate according to the present invention;

FIG. 10 is an enlarged view of the N-direction portion of FIG. 4 in accordance with the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 5 according to the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to fig. 11.

A cheese dyeing treatment process comprises the following specific steps:

s1, manufacturing cheese: preparing the raw materials into cheese;

s2, an inspection device: before the cheese dyeing device is started to dye the cheese, the cheese dyeing device is checked;

s3, dyeing and spin-drying: the manufactured cheese is locked on a fixing device 5 manually and is driven to descend by a driving device 4, so that the cheese is dyed by the dye in a dyeing tank 2, the dye is stirred by a stirring device 3 in the dyeing process, and the cheese is dried by the driving device 4 after dyeing is finished;

s4, blanking collection: after dyeing and spin-drying, manually taking down and collecting dyed cheese, placing the cheese in a drying room or airing the cheese in the sun, and collecting and stacking the cheese after airing;

in the process of dyeing the cheese in the steps S1-S4, the cheese is dyed by a specially designed device, the device specifically comprises a workbench 1, a dyeing tank 2, a stirring device 3, a driving device 4 and a fixing device 5, the dyeing tank 2 is installed at the upper end of the workbench 1, the stirring device 3 is installed at the lower end inside the dyeing tank 2, the driving device 4 is arranged above the dyeing tank 2, the driving device 4 is installed at the upper end of the workbench 1, and the fixing devices 5 are installed at the lower end of the driving device 4 in a bilateral symmetry manner; wherein:

the stirring device 3 comprises a rotating motor 31, a gear shaft 32, a moving plate 33, two compression springs 34 and two rotating mechanisms 35, the rotating motor 31 is installed in the middle of the upper end of the workbench 1 through a motor installation plate, the gear shaft 32 is installed at the output end of the rotating motor 31, the moving plate 33 is arranged at the rear end of the gear shaft 32, the moving plate 33 is installed at the lower end inside the dyeing tank 2 in a sliding fit mode, the compression springs 34 are symmetrically arranged at the left end and the right end of the moving plate 33, the compression springs 34 play a role in buffering, shock absorption and reset protection, the rotating mechanisms 35 are symmetrically arranged at the left end and the right end of the upper end of the moving plate 33, during specific work, manufactured cheese is manually placed on the fixing device 5, so that the driving device 4 drives the cheese to be dip-dyed in dye in the dyeing tank 2, the cheese is dyed by the dye, the gear shaft 32 drives the moving plate 33 to move left and right, so that the moving plate 33 and the rotating mechanism 35 stir the dye in the dyeing tank 2, the moving plate 33 and the rotating mechanism 35 enable the dye at the bottom in the dyeing tank 2 to be overturned to the upper part, and the dyeing process of the dye on cheese is accelerated when the dye is prevented from precipitating to the bottom.

The rotating mechanism 35 comprises a mounting shaft 351, two sliding blocks 352, two connecting springs 353, two cylindrical gears 354, two reversing bevel gears 355, two bevel gear rods 356, a fixing plate 357, two return springs 358 and a stirring blade 359, the sliding blocks 352 are symmetrically mounted at the front and rear ends of the mounting shaft 351, the sliding blocks 352 are mounted at the lower end inside the dyeing tank 2 in a sliding fit manner, the upper ends of the sliding blocks 352 are connected with the dyeing tank 2 through the connecting springs 353, the cylindrical gears 354 are symmetrically mounted on the mounting shaft 351 in the front and rear direction, the reversing bevel gears 355 are arranged between the cylindrical gears 354, the reversing bevel gears 355 are symmetrically mounted on the mounting shaft 351 in the front and rear direction, the bevel gear rods 356 are engaged with the bevel gear rods 356 at the upper ends of the reversing bevel gears 355, the fixing plate 357 is arranged above the mounting shaft 351, the bevel gear rods 356, the upper end of the bevel gear rod 356 is provided with a stirring blade 359, when in work, the moving plate 33 is driven by the rotating motor 31 to move left and right during the dyeing process, thereby causing the moving plate 33 to rotate the cylindrical gear 354, causing the mounting shaft 351 to rotate the reversing bevel gear 355, causing the reversing bevel gear 355 to rotate the bevel gear rod 356, so that the bevel gear rod 356 drives the stirring blade 359 to rotate, and the stirring blade 359 stirs the dye in the dyeing tank 2, thereby accelerating the flow of the dye, thereby accelerating the dyeing process of the cheese by the dye, and in the moving process of the moving plate 33, the gear shaft 32 is always connected with the moving plate 33, thereby causing the moving plate 33 to press the mounting shaft 351, causing the mounting shaft 351 to drive the slide block 352 to press the connection spring 353, thereby causing the mounting shaft 351 to rise so that one end of the moving plate 33 is lifted upward, thereby causing the gear shaft 32 to reverse the moving plate 33.

The movable plate 33 front end is provided with the gear groove, gear shaft 32 installs at the gear groove, and movable plate 33 upper end longitudinal symmetry is provided with the rack, the rack meshes with cylindrical gear 354 mutually, gear shaft 32 is at the gear inslot rotation, thereby make gear shaft 32 drive movable plate 33 and control the removal, and the removal in-process is controlled to the removal 33, drive cylindrical gear 354 through the rack and rotate, thereby make cylindrical gear 354 drive installation axle 351 rotatory, make reverse bevel gear 355 drive bevel gear pole 356 rotatory, thereby make bevel gear pole 356 drive stirring leaf 359 rotatory, make stirring leaf 359 stir the dyestuff in the dyeing pond 2, thereby accelerate the flow of dyestuff, and then accelerate the dyeing process of dyestuff to the cheese.

The dyeing pond 2 is characterized in that rectangular rods are symmetrically arranged at the front and back of the lower end in the dyeing pond, rectangular grooves are symmetrically formed at the front and back of the lower end of the movable plate 33, the rectangular rods are arranged in the rectangular grooves in a sliding fit mode, sliding grooves are symmetrically formed at the front and back of the upper end of the movable plate 33, the lower end of the reversing bevel gear 355 is arranged in the sliding grooves in a sliding fit mode, the rectangular rods and the rectangular grooves play a role in guiding and limiting, and the sliding grooves avoid the situation that the movable plate 33 collides with the reversing bevel gear 355 during the.

Fixing device 5 includes two rotary disks 51 and locking mechanism 52, install at drive arrangement 4 lower extreme through the bearing in the rotary disk 51 upper end, locking mechanism 52 is evenly installed to rotary disk 51 lower extreme, when concrete work, through locking mechanism 52 with cheese clamp fastening fixed, cheese clamp fastening is fixed the back, it is rotatory to drive rotary disk 51 through drive arrangement 4, it is rotatory to make rotary disk 51 drive locking mechanism 52 rotatory, it is rotatory to make locking mechanism 52 drive cheese, thereby accelerate cheese dyeing process, and after the cheese breaks away from the dyestuff, it is rotatory to drive the cheese through drive arrangement 4, thereby throw off unnecessary dyestuff on the cheese, and then dry behind the acceleration cheese dyestuff.

The upper end of the rotating disc 51 is connected with the driven gear 49, so that the driven gear 49 drives the rotating disc 51 to rotate, and the locking mechanism 52 drives the cheese to rotate.

The locking mechanism 52 comprises a fixed rod 521, a pressure plate 522, a sliding sleeve 523, four connecting rods 524, four rotating rods 525 and four arc-shaped support plates 526, the upper end of the fixed rod 521 is mounted at the lower end of the rotating disk 51, the pressure plate 522 is mounted at the middle part of the fixed rod 521 in a threaded fit manner, the sliding sleeve 523 is arranged at the lower end of the pressure plate 522, the sliding sleeve 523 is sleeved at the middle part of the fixed rod 521 in a sliding fit manner, the connecting rods 524 are uniformly arranged at the lower end of the sliding sleeve 523 along the circumferential direction of the sliding sleeve 523, the upper end of the connecting rod 524 is mounted on the sliding sleeve 523 through a hinge, the rotating rod 525 is mounted at the lower end of the fixed rod 521 at the lower end of the connecting rod 524 through a hinge, the arc-shaped support plates 526 support the inner wall of, make pressure disk 522 descend along dead lever 521, pressure disk 522 decline in-process, extrude sliding sleeve 523 through pressure disk 522 for sliding sleeve 523 drives connecting rod 524 and descends, thereby makes connecting rod 524 drive the rotatory decline of dwang 525, and then makes dwang 525 drive arc backup pad 526 to support fixedly to the cheese inner wall, and extrudes sliding sleeve 523 through pressure disk 522, makes sliding sleeve 523 extrude fixedly to the cheese upper end.

The arc backup pad 526 outside is provided with soft rubber layer, and the soft rubber layer outside is provided with anti-skidding line, and soft rubber layer avoids arc backup pad 526 fish tail cheese inner wall, and anti-skidding line avoids taking place to slide between arc backup pad 526 and the cheese inner wall, breaks away from the condition of dead lever 521 when leading to the cheese rotation.

The driving device 4 comprises an air pump 41, a U-shaped mounting plate 42, a lifting cylinder 43, a clip frame 44, two guide blocks 45, two guide rods 46, a driving motor 47, a driving gear 48 and a driven gear 49, wherein the air pump 41 is arranged on the left side of the upper end of the workbench 1 in a threaded connection mode, the U-shaped mounting plate 42 is arranged in the middle of the upper end of the workbench 1, the lifting cylinder 43 is arranged at the upper end of the inner side of the U-shaped mounting plate 42 in a threaded connection mode, the clip frame 44 is arranged at the extending end of the lifting cylinder 43, the guide blocks 45 are symmetrically arranged at the left end and the right end of the clip frame 44, the guide rods 46 are arranged in the middle of the guide blocks 45 in a sliding fit mode, the upper end of the guide rods 46 is arranged at the upper end of the inner side of the U-shaped mounting plate 42, the driving motor 47 is arranged at the upper end of the, during specific work, it is fixed with cheese clamp fastening through locking mechanism 52, cheese clamp fastening back, it descends to drive lift cylinder 43 through air pump 41, make lift cylinder 43 drive back shape frame 44 descend, it descends to return shape frame 44 decline in-process, slide in guide block 45 through guide bar 46, thereby it is spacing to lead to returning shape frame 44, it descends and immerses in the dyestuff to return shape frame 44 and drive in-process cheese, it is rotatory to drive gear 48 through driving motor 47, it is rotatory to make driven gear 49 drive locking mechanism 52, thereby it is rotatory to make locking mechanism 52 drive cheese, and then accelerate the dyeing process of dyestuff to cheese.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.