CN108866891B - Diversified adjustable printing equipment - Google Patents

Abstract

The invention relates to printing and dyeing equipment, in particular to multi-azimuth adjustable printing and dyeing equipment, which comprises an integral support, a support plate, a power mechanism, clamping mechanisms, an adjusting mechanism, a driving winding wheel and a printing and dyeing mechanism, wherein cloth can be supported by the support plate, when the diameter of a cloth cylinder changes, the support plate can also support the cloth by the pressure on a compression spring I so as to ensure the tight state of the cloth, the power mechanism can simultaneously drive the two clamping mechanisms and the driving winding wheel to rotate, so that the two clamping mechanisms and the driving winding wheel simultaneously generate power to prevent the cloth from generating wrinkles due to the nonuniform power generated by the excessive slipping of the cloth, the two clamping mechanisms can clamp the cloth cylinders with different diameters by manually rotating the adjusting mechanism, and the printing and dyeing mechanism is pushed to slip on the integral support by manually rotating and a printing and dyeing handle, and adjusting the position of the printing and dyeing pressing plate to enable the printing and dyeing pressing plate to print and dye the cloth on the supporting plate.

Description

Diversified adjustable printing equipment

Technical Field

The invention relates to printing and dyeing equipment, in particular to multi-direction adjustable printing and dyeing equipment.

Background

For example, publication No. CN206793152U discloses a filtration and separation device for wool used in a printing apparatus. The to-be-solved technical problem of the utility model is to provide a filtration abundant broken filament filters separator for printing and dyeing equipment. In order to solve the technical problem, the utility model provides a crude silk filtering and separating device for printing and dyeing equipment, which comprises a first slide rail, a first slide block, a first rack, a first gear, a lifting rod, an iron filter screen, a first magnet, a screen groove, a second magnet, a separating groove, a stop block and the like; the left end welded connection in the top has first slide rail in the support, and the front side sliding type of first slide rail is provided with first slider, and the front side welded connection of first slider has first rack, and the bottom welded connection of first rack has the lifter. The utility model has the advantages of simple structure, smart design and sufficient filtration; the utility model has the defect that the printing and dyeing can not be carried out on any position on the cloth.

Disclosure of Invention

The invention aims to provide multi-direction adjustable printing and dyeing equipment which can clamp cloth cylinders with different sizes, can realize printing and dyeing on any position on cloth and meets more use requirements.

The purpose of the invention is realized by the following technical scheme:

a printing and dyeing device with multi-azimuth adjustment comprises an integral support, a support plate, a power mechanism, a clamping mechanism, an adjusting mechanism, a driving winding wheel and a printing and dyeing mechanism, wherein the integral support comprises side plates, sliding grooves and a connecting plate, the two sides of the connecting plate are fixedly connected with the side plates, and the two side plates are provided with the sliding grooves;

the support plate comprises a support plate body and two sliding columns, wherein the two sliding columns are fixedly connected to the support plate body, are both connected to the connecting plate in a sliding mode, and are sleeved with compression springs I respectively, and the compression springs I are located between the support plate body and the connecting plate;

the power mechanism comprises a motor, a power belt wheel I and a power belt wheel II, the power belt wheel I and the power belt wheel II are respectively and fixedly connected to two ends of an output shaft of the motor, the motor is fixedly connected to one side plate, and two ends of the output shaft of the motor are respectively and rotatably connected to the two side plates;

the clamping mechanism comprises a clamping bottom plate, a clamping barrel, a clamping pressing plate, a clamping sliding column, a clamping belt wheel, clamping supporting rods, clamping connecting rods and L-shaped connecting rods, the clamping barrel is fixedly connected onto the clamping bottom plate, the clamping sliding column is fixedly connected onto the clamping pressing plate and is slidably connected into the clamping barrel, a compression spring II is sleeved on the clamping sliding column and is positioned between the clamping bottom plate and the clamping pressing plate, the clamping belt wheel is fixedly connected onto the clamping barrel, four clamping supporting rods are uniformly and fixedly connected onto the clamping bottom plate in the circumferential direction, the clamping connecting rods and the L-shaped connecting rods are respectively provided with four, one ends of the four clamping connecting rods are respectively hinged onto the clamping pressing plate, the other ends of the four clamping connecting rods are respectively hinged onto the four L-shaped connecting rods, the middle ends of the four L-shaped connecting rods are respectively hinged onto the four clamping, the two clamping cylinders are respectively and rotatably connected to the two side plates, and the two clamping belt wheels are respectively in transmission connection with the power belt wheel I and the power belt wheel II through belts;

the adjusting mechanism comprises an adjusting screw rod, adjusting sliding blocks, adjusting connecting rods, adjusting pushing cylinders and adjusting handles, the two ends of the adjusting screw rod are connected with the adjusting sliding blocks through threads, the lower ends of the two adjusting sliding blocks are fixedly connected with the adjusting connecting rods, the lower ends of the two adjusting connecting rods are fixedly connected with the adjusting pushing cylinders, the two adjusting pushing cylinders are respectively and rotatably connected to the two clamping sliding columns, the adjusting sliding blocks are fixedly connected to the middle ends of the adjusting screw rod, and the two ends of the adjusting screw rod are respectively and rotatably connected to the two side plates;

the active winding wheel comprises an active winding shaft, an active winding belt wheel, an active winding wheel, active winding side plates, an active winding connecting plate, a pressing plate, a threaded column, a sliding column and a threaded cylinder, wherein two ends of the active winding shaft are respectively and rotatably connected to the two side plates;

the printing and dyeing mechanism comprises printing and dyeing columns, a printing and dyeing slide block I, a printing and dyeing plate, printing and dyeing sliding columns, a printing and dyeing pressing plate, a printing and dyeing top plate, printing and dyeing side plates, a printing and dyeing motor, a printing and dyeing screw rod, a printing and dyeing slide block II, a printing and dyeing connecting plate, a printing and dyeing handle, a sector cam and a printing and dyeing pushing column, wherein the two ends of the printing and dyeing column are both rotatably connected with the printing and dyeing slide block I, the two printing and dyeing slide blocks I are respectively and slidably connected in two sliding grooves, the printing and dyeing plate is in clearance fit on the printing and dyeing column, the two printing and dyeing sliding columns are slidably connected with the printing and dyeing sliding columns, the lower ends of the two printing and dyeing sliding columns are both fixedly connected to the printing and dyeing pressing plate, the upper ends of the two printing and dyeing sliding columns are both fixedly connected to the printing and, the both ends of printing and dyeing motor output shaft rotate respectively and connect on two printing and dyeing curb plates, there is the printing and dyeing lead screw through threaded connection on the printing and dyeing board, the both ends of printing and dyeing lead screw all rotate and are connected with printing and dyeing slider II, two printing and dyeing sliders II are sliding connection respectively in two sliding trays, the printing and dyeing connecting plate is provided with two, the both ends of two printing and dyeing connecting plates rotate respectively and connect the both ends at printing and dyeing post and printing and dyeing lead screw, the one end fixedly connected with printing and dyeing handle of printing and dyeing lead screw, fan-shaped cam fixed connection is on the output shaft of printing and dyeing motor, the lower extreme fixed connection that promotes the post of.

As a further optimization of the technical scheme, the printing and dyeing equipment is adjustable in multiple directions, the motor is a motor with double output shafts, and the motor and the printing and dyeing motor are both provided with electromagnetic band-type brakes.

As a further optimization of the technical scheme, the multi-direction adjustable printing and dyeing equipment is characterized in that the diameters of the power belt wheel I, the power belt wheel II, the clamping belt wheel and the driving winding belt wheel are equal.

As a further optimization of the technical scheme, the printing and dyeing equipment with the multi-direction adjustable function is characterized in that the thread turning directions of the two ends of the adjusting screw rod are opposite.

As a further optimization of the technical scheme, the printing and dyeing equipment with the multi-direction adjustable function is characterized in that the printing and dyeing slide block II and the printing and dyeing slide block I are made of rubber materials.

The printing and dyeing equipment with the multi-direction adjustment function has the beneficial effects that:

according to the printing and dyeing equipment with the multi-azimuth adjustable function, the cloth can be supported through the supporting plate, when the diameter of the cloth barrel changes, the supporting plate can also support the cloth through the pressure on the compression spring I, the tight state of the cloth is guaranteed, the power mechanism can simultaneously drive the two clamping mechanisms and the active winding wheel to rotate, the two clamping mechanisms and the active winding wheel can simultaneously generate power to prevent the cloth from wrinkling due to the fact that the power is not uniform due to the fact that the cloth slides over, the two clamping mechanisms can clamp the cloth barrels with different diameters through the manual rotation of the adjusting mechanism, the printing and dyeing mechanism is pushed to slide on the whole support through the manual rotation and the printing and dyeing handle, the position of the printing and dyeing pressing plate is adjusted, and the printing and dyeing pressing plate can print the cloth on the supporting plate.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall structure of the multi-directional adjustable printing and dyeing equipment of the present invention;

FIG. 2 is a schematic view of the overall structure of the multi-directional adjustable printing and dyeing apparatus of the present invention;

FIG. 3 is a schematic view of the overall stent structure of the present invention;

FIG. 4 is a schematic view of the support plate construction of the present invention;

FIG. 5 is a schematic diagram of a power mechanism according to the present invention;

FIG. 6 is a schematic structural view of a clamping mechanism of the present invention;

FIG. 7 is a schematic structural view of a cross-sectional view of a clamping mechanism of the invention;

FIG. 8 is a schematic view of the L-shaped linkage of the present invention;

FIG. 9 is a schematic view of the adjustment mechanism of the present invention;

FIG. 10 is a schematic view of the active winding wheel configuration of the present invention;

FIG. 11 is a first schematic view of the printing mechanism of the present invention;

FIG. 12 is a second schematic view of the printing mechanism of the present invention;

figure 13 is a schematic view of the sector cam configuration of the present invention.

In the figure: an integral support 1; 1-1 of a side plate; a sliding groove 1-2; connecting plates 1-3; a support plate 2; a support plate body 2-1; 2-2 of a sliding column; a power mechanism 3; a motor 3-1; a power belt pulley I3-2; a power belt pulley II 3-3; a clamping mechanism 4; clamping a bottom plate 4-1; 4-2 of a clamping cylinder; 4-3 of clamping pressing plate; clamping the sliding column 4-4; clamping belt wheels 4-5; clamping support rods 4-6; 4-7 of a clamping connecting rod; 4-8 of an L-shaped connecting rod; an adjusting mechanism 5; adjusting a screw rod 5-1; adjusting a sliding block 5-2; adjusting the connecting rod 5-3; adjusting the pushing cylinder 5-4; 5-5 of an adjusting handle; an active winding wheel 6; a driving winding shaft 6-1; a driving winding belt wheel 6-2; a driving winding wheel 6-3; actively winding the side plates 6-4; actively winding the connecting plate 6-5; 6-6 of a pressing plate; 6-7 of a threaded column; 6-8 of a sliding column; 6-9 parts of a threaded cylinder; a printing mechanism 7; 7-1 of a printing and dyeing column; printing and dyeing slide blocks I7-2; 7-3 of a printing and dyeing plate; 7-4 of printing and dyeing sliding columns; 7-5 of a printing and dyeing pressing plate; 7-6 of a printing and dyeing top plate; 7-7 of a printing and dyeing side plate; 7-8 of a printing and dyeing motor; 7-9 parts of printing and dyeing screw rods; 7-10 parts of a printing and dyeing slide block II; 7-11 of a printing and dyeing connecting plate; 7-12 parts of a printing and dyeing handle; sector cams 7-13; and printing and dyeing pushing columns 7-14.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Before describing the embodiments, to avoid repetitive language, it is explained that the "fixed connection" described below may be: the fixing device is fixed through modes such as bolt connection, welding and rivet connection, and technicians in the field can select different fixing and connecting modes according to different application scenes, and the fixing device is mainly used for fixing two parts.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-13, and a multi-directional adjustable printing and dyeing apparatus comprises a whole support 1, a support plate 2, a power mechanism 3, clamping mechanisms 4, an adjusting mechanism 5, a driving winding wheel 6 and a printing and dyeing mechanism 7, wherein cloth can be supported by the support plate 2, when the diameter of a cloth cylinder changes, the support plate 2 can also support the cloth by the pressure on a compression spring I to ensure the tight state of the cloth, the power mechanism 3 can simultaneously drive the two clamping mechanisms 4 and the driving winding wheel 6 to rotate, so that the two clamping mechanisms 4 and the driving winding wheel 6 simultaneously generate power to prevent the cloth from generating wrinkles due to the nonuniform power generated by the excessive slip of the cloth, the two clamping mechanisms 4 can clamp the cloth cylinders with different diameters by manually rotating the adjusting mechanism 5, and the printing and dyeing handle 7-12 can push the printing and dyeing mechanism 7 to slide on the whole support 1, adjusting the position of the printing and dyeing press plate 7-5 to ensure that the printing and dyeing press plate 7-5 can print and dye the cloth on the supporting plate 2;

the integral support 1 comprises side plates 1-1, sliding grooves 1-2 and connecting plates 1-3, wherein the two sides of each connecting plate 1-3 are fixedly connected with the side plates 1-1, and the sliding grooves 1-2 are arranged on the two side plates 1-1;

the supporting plate 2 comprises a supporting plate body 2-1 and sliding columns 2-2, the two sliding columns 2-2 are fixedly connected to the supporting plate body 2-1, the two sliding columns 2-2 are both connected to the connecting plate 1-3 in a sliding mode, compression springs I are sleeved on the two sliding columns 2-2, and the compression springs I are located between the supporting plate body 2-1 and the connecting plate 1-3;

the power mechanism 3 comprises a motor 3-1, a power belt pulley I3-2 and a power belt pulley II 3-3, the power belt pulley I3-2 and the power belt pulley II 3-3 are respectively and fixedly connected to two ends of an output shaft of the motor 3-1, the motor 3-1 is fixedly connected to one side plate 1-1, and two ends of the output shaft of the motor 3-1 are respectively and rotatably connected to the two side plates 1-1;

the clamping mechanism 4 comprises a clamping bottom plate 4-1, a clamping cylinder 4-2, a clamping pressure plate 4-3, a clamping sliding column 4-4, a clamping belt wheel 4-5, a clamping support rod 4-6, a clamping connecting rod 4-7 and an L-shaped connecting rod 4-8, the clamping bottom plate 4-1 is fixedly connected with the clamping cylinder 4-2, the clamping pressure plate 4-3 is fixedly connected with the clamping sliding column 4-4, the clamping sliding column 4-4 is slidably connected in the clamping cylinder 4-2, the clamping sliding column 4-4 is sleeved with a compression spring II, the compression spring II is positioned between the clamping bottom plate 4-1 and the clamping pressure plate 4-3, the clamping belt wheel 4-5 is fixedly connected on the clamping cylinder 4-2, the clamping bottom plate 4-1 is circumferentially and uniformly and fixedly connected with four clamping support rods 4-6, the clamping mechanism comprises four clamping connecting rods 4-7 and four L-shaped connecting rods 4-8, wherein one ends of the four clamping connecting rods 4-7 are hinged to a clamping pressure plate 4-3, the other ends of the four clamping connecting rods 4-7 are hinged to the four L-shaped connecting rods 4-8 respectively, the middle ends of the four L-shaped connecting rods 4-8 are hinged to four clamping support rods 4-6 respectively, two clamping mechanisms 4 are symmetrically arranged, two clamping cylinders 4-2 are rotatably connected to two side plates 1-1 respectively, and two clamping belt wheels 4-5 are connected with a power belt wheel I3-2 and a power belt wheel II 3-3 through belt transmission respectively;

the adjusting mechanism 5 comprises an adjusting screw rod 5-1, adjusting sliding blocks 5-2, adjusting connecting rods 5-3, adjusting pushing cylinders 5-4 and an adjusting handle 5-5, the two ends of the adjusting screw rod 5-1 are connected with the adjusting sliding blocks 5-2 through threads, the lower ends of the two adjusting sliding blocks 5-2 are fixedly connected with the adjusting connecting rods 5-3, the lower ends of the two adjusting connecting rods 5-3 are fixedly connected with the adjusting pushing cylinders 5-4, the two adjusting pushing cylinders 5-4 are respectively and rotatably connected to the two clamping sliding columns 4-4, the adjusting sliding blocks 5-2 are fixedly connected to the middle end of the adjusting screw rod 5-1, and the two ends of the adjusting screw rod 5-1 are respectively and rotatably connected to the two side plates 1-1;

the driving winding wheel 6 comprises a driving winding shaft 6-1, a driving winding belt wheel 6-2, a driving winding wheel 6-3, driving winding side plates 6-4, a driving winding connecting plate 6-5, a pressing plate 6-6, threaded columns 6-7, sliding columns 6-8 and threaded cylinders 6-9, wherein two ends of the driving winding shaft 6-1 are respectively and rotatably connected to the two side plates 1-1, one end of the driving winding shaft 6-1 is fixedly connected with the driving winding belt wheel 6-2, the driving winding belt wheel 6-2 is connected with the power belt wheel II 3-3 through belt transmission, the driving winding wheel 6-3 is fixedly connected to the middle end of the driving winding shaft 6-1, two ends of the driving winding wheel 6-3 are both fixedly connected with the driving winding side plates 6-4, and the driving winding connecting plate 6-5 is fixedly connected between the two driving winding side plates 6-4, the pressure plate 6-6 is fixedly connected with a threaded column 6-7 and a sliding column 6-8, the sliding column 6-8 is connected to the active winding connecting plate 6-5 in a sliding mode, the lower end of the threaded cylinder 6-9 is connected to the active winding connecting plate 6-5 in a rotating mode, and the threaded column 6-7 is connected into the threaded cylinder 6-9 through threads;

the printing and dyeing mechanism 7 comprises printing and dyeing columns 7-1, printing and dyeing sliders I7-2, printing and dyeing plates 7-3, printing and dyeing sliding columns 7-4, printing and dyeing pressing plates 7-5, printing and dyeing top plates 7-6, printing and dyeing side plates 7-7, printing and dyeing motors 7-8, printing and dyeing screws 7-9, printing and dyeing sliders II 7-10, printing and dyeing connecting plates 7-11, printing and dyeing handles 7-12, sector cams 7-13 and printing and dyeing pushing columns 7-14, wherein both ends of the printing and dyeing columns 7-1 are respectively and rotatably connected with the printing and dyeing sliders I7-2, the two printing and dyeing sliders I7-2 are respectively and slidably connected into the two sliding grooves 1-2, the printing and dyeing plates 7-3 are in clearance fit on the printing and dyeing columns 7-1, and the two printing and dyeing sliding columns 7-4, the lower ends of two printing and dyeing sliding columns 7-4 are fixedly connected to a printing and dyeing pressing plate 7-5, the upper ends of the two printing and dyeing sliding columns 7-4 are fixedly connected to a printing and dyeing top plate 7-6, compression springs III are sleeved on the two printing and dyeing sliding columns 7-4 and are positioned between the printing and dyeing plates 7-3 and the printing and dyeing top plates 7-6, both sides of the printing and dyeing plate 7-3 are fixedly connected with printing and dyeing side plates 7-7, a printing and dyeing motor 7-8 is fixedly connected to one of the printing and dyeing side plates 7-7, both ends of an output shaft of the printing and dyeing motor 7-8 are respectively and rotatably connected to the two printing and dyeing side plates 7-7, the printing and dyeing plate 7-3 is connected with a printing and dyeing screw 7-9 through threads, and both ends of the printing and dyeing, two printing and dyeing sliders II 7-10 are respectively connected in the two sliding grooves 1-2 in a sliding manner, two printing and dyeing connecting plates 7-11 are arranged, two ends of the two printing and dyeing connecting plates 7-11 are respectively and rotatably connected to two ends of a printing and dyeing column 7-1 and a printing and dyeing screw 7-9, one end of the printing and dyeing screw 7-9 is fixedly connected with a printing and dyeing handle 7-12, a sector cam 7-13 is fixedly connected to an output shaft of a printing and dyeing motor 7-8, the lower end of a printing and dyeing pushing column 7-14 is fixedly connected to a printing and dyeing top plate 7-6, and the upper end of the printing and dyeing pushing column 7-14 is; when in use, the cloth on the cloth barrel is spread, the spread cloth is placed on the supporting plate body 2-1, one end of the spread cloth is placed between the active winding wheel 6-3 and the pressing plate 6-6, the threaded barrel 6-9 is manually rotated, the threaded barrel 6-9 drives the threaded column 6-7 to move through threads, the threaded column 6-7 approaches the active winding wheel 6-3, the threaded column 6-7 drives the pressing plate 6-6 to approach the active winding wheel 6-3, the pressing plate 6-6 compresses the cloth between the active winding wheel 6-3 and the pressing plate 6-6, the cloth barrel is placed between the two clamping mechanisms 4, the adjusting handle 5-5 is manually rotated, the adjusting handle 5-5 drives the adjusting screw rod 5-1 to rotate by taking the axis of the adjusting screw rod 5-1 as the center, the adjusting screw rod 5-1 drives two adjusting sliding blocks 5-2 to rotate through threads, the thread directions of two ends of the adjusting screw rod 5-1 are opposite, the two adjusting sliding blocks 5-2 are close to or far away from each other, when the two adjusting sliding blocks 5-2 are far away from each other, the two adjusting sliding blocks 5-2 respectively push the two adjusting connecting rods 5-3 to be far away from each other, the two adjusting connecting rods 5-3 respectively drive the two adjusting pushing cylinders 5-4 to be far away from each other, the two adjusting pushing cylinders 5-4 respectively drive the two clamping sliding columns 4-4 to slide on the two clamping cylinders 4-2, the two clamping sliding columns 4-4 are far away from each other, the two clamping sliding columns 4-4 respectively drive the two clamping pressing plates 4-3 to be far away from each other, and the clamping pressing plates 4-3 respectively drive the inner ends of the four clamping connecting rods 4, the outer ends of the four clamping connecting rods 4-7 are far away from each other, the outer ends of the four clamping connecting rods 4-7 respectively push one ends of the four L-shaped connecting rods 4-8 to be far away from each other, the four L-shaped connecting rods 4-8 swing around the hinged points of the four clamping supporting rods 4-6, the inner ends of the four L-shaped connecting rods 4-8 are close to each other, and the distributing barrel is clamped; the printing and dyeing mechanism 7 is pushed to slide on the integral support 1, the two printing and dyeing sliders I7-2 and the two printing and dyeing sliders II 7-10 respectively slide in the two sliding grooves 1-2, the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 are made of rubber materials, the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 can generate certain resistance when sliding, when the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 do not slide, certain fixing effect can be generated on the position of the printing and dyeing mechanism 7, the printing and dyeing handle 7-12 is manually rotated, the printing and dyeing handle 7-12 drives the printing and dyeing screw 7-9 to rotate by taking the axis of the printing and dyeing screw 7-9 as the center, the printing and dyeing screw 7-9 drives the printing and dyeing plate 7-3 to move through threads, when the printing and dyeing plate 7-3 moves to, starting a printing and dyeing motor 7-8, starting an output shaft of the printing and dyeing motor 7-8 to rotate, driving a sector cam 7-13 to rotate by the printing and dyeing motor 7-8, driving a printing and dyeing pushing column 7-14 to move downwards by the sector cam 7-13, driving a printing and dyeing top plate 7-6 to move downwards by the printing and dyeing pushing column 7-14, extruding a compression spring III by the printing and dyeing top plate 7-6 to drive a printing and dyeing sliding column 7-4 and a printing and dyeing pressing plate 7-5 to move downwards, contacting the printing and dyeing pressing plate 7-5 with cloth on a supporting plate body 2-1, and fully printing and dyeing the cloth due to the reaction of a compression spring I and the fact that the printing and dyeing time is prolonged by the sector cam 7; when the cloth on the supporting plate body 2-1 is printed and dyed to finish printing and dyeing of the cloth on the cloth cylinder in demand, the power mechanism 3 is started, the output shaft of the motor 3-1 starts to rotate, the motor 3-1 drives the power belt pulley I3-2 and the power belt pulley II 3-3 to simultaneously rotate, the power belt pulley I3-2 and the power belt pulley II 3-3 respectively drive the two clamping belt pulleys 4-5 and the driving winding belt pulley 6-2 to rotate, the driving winding belt pulley 6-2 drives the driving winding shaft 6-1 to rotate by taking the axis of the driving winding shaft 6-1 as the center, the driving winding shaft 6-1 drives the driving winding belt pulley 6-2 to rotate by taking the axis of the driving winding shaft 6-1 as the center, the cloth is wound onto the driving winding belt pulley 6-2 from the cloth cylinder, and the cloth on the supporting plate body 2-1 is, the next time of printing and dyeing is carried out, when the diameter of the cloth barrel changes, the cloth can be supported by the support plate 2 through the pressure on the compression spring I, the tight state of the cloth is guaranteed, the diameters of the power belt wheel I3-2, the power belt wheel II 3-3, the clamping belt wheel 4-5 and the driving winding belt wheel 6-2 are equal to guarantee power synchronization, the power mechanism 3 can simultaneously drive the two clamping mechanisms 4 and the driving winding wheel 6 to rotate, and the two clamping mechanisms 4 and the driving winding wheel 6 can simultaneously generate power to prevent the cloth from generating wrinkles due to the fact that the cloth slides excessively and power is not uniform.

The second embodiment is as follows:

the present embodiment will be described with reference to fig. 1 to 13, and the present embodiment further describes the first embodiment, where the motor 3-1 is a dual output shaft motor, and both the motor 3-1 and the printing and dyeing motor 7-8 are provided with electromagnetic band-type brakes.

The third concrete implementation mode:

the second embodiment is further described with reference to fig. 1-13, wherein the diameters of the power pulley i 3-2, the power pulley ii 3-3, the clamping pulley 4-5 and the driving winding pulley 6-2 are all equal.

The fourth concrete implementation mode:

the third embodiment will be further described with reference to fig. 1 to 13, in which the thread directions of the two ends of the adjusting screw rod 5-1 are opposite.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1 to 13, and the present embodiment will further describe a fourth embodiment in which the printing sliders ii 7 to 10 and the printing slider i 7 to 2 are both made of a rubber material.

The invention relates to a multi-direction adjustable printing and dyeing device, which has the working principle that:

when in use, the cloth on the cloth barrel is spread, the spread cloth is placed on the supporting plate body 2-1, one end of the spread cloth is placed between the active winding wheel 6-3 and the pressing plate 6-6, the threaded barrel 6-9 is manually rotated, the threaded barrel 6-9 drives the threaded column 6-7 to move through threads, the threaded column 6-7 approaches the active winding wheel 6-3, the threaded column 6-7 drives the pressing plate 6-6 to approach the active winding wheel 6-3, the pressing plate 6-6 compresses the cloth between the active winding wheel 6-3 and the pressing plate 6-6, the cloth barrel is placed between the two clamping mechanisms 4, the adjusting handle 5-5 is manually rotated, the adjusting handle 5-5 drives the adjusting screw rod 5-1 to rotate by taking the axis of the adjusting screw rod 5-1 as the center, the adjusting screw rod 5-1 drives two adjusting sliding blocks 5-2 to rotate through threads, the thread directions of two ends of the adjusting screw rod 5-1 are opposite, the two adjusting sliding blocks 5-2 are close to or far away from each other, when the two adjusting sliding blocks 5-2 are far away from each other, the two adjusting sliding blocks 5-2 respectively push the two adjusting connecting rods 5-3 to be far away from each other, the two adjusting connecting rods 5-3 respectively drive the two adjusting pushing cylinders 5-4 to be far away from each other, the two adjusting pushing cylinders 5-4 respectively drive the two clamping sliding columns 4-4 to slide on the two clamping cylinders 4-2, the two clamping sliding columns 4-4 are far away from each other, the two clamping sliding columns 4-4 respectively drive the two clamping pressing plates 4-3 to be far away from each other, and the clamping pressing plates 4-3 respectively drive the inner ends of the four clamping connecting rods 4, the outer ends of the four clamping connecting rods 4-7 are far away from each other, the outer ends of the four clamping connecting rods 4-7 respectively push one ends of the four L-shaped connecting rods 4-8 to be far away from each other, the four L-shaped connecting rods 4-8 swing around the hinged points of the four clamping supporting rods 4-6, the inner ends of the four L-shaped connecting rods 4-8 are close to each other, and the distributing barrel is clamped; the printing and dyeing mechanism 7 is pushed to slide on the integral support 1, the two printing and dyeing sliders I7-2 and the two printing and dyeing sliders II 7-10 respectively slide in the two sliding grooves 1-2, the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 are made of rubber materials, the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 can generate certain resistance when sliding, when the printing and dyeing sliders II 7-10 and the printing and dyeing sliders I7-2 do not slide, certain fixing effect can be generated on the position of the printing and dyeing mechanism 7, the printing and dyeing handle 7-12 is manually rotated, the printing and dyeing handle 7-12 drives the printing and dyeing screw 7-9 to rotate by taking the axis of the printing and dyeing screw 7-9 as the center, the printing and dyeing screw 7-9 drives the printing and dyeing plate 7-3 to move through threads, when the printing and dyeing plate 7-3 moves to, starting a printing and dyeing motor 7-8, starting an output shaft of the printing and dyeing motor 7-8 to rotate, driving a sector cam 7-13 to rotate by the printing and dyeing motor 7-8, driving a printing and dyeing pushing column 7-14 to move downwards by the sector cam 7-13, driving a printing and dyeing top plate 7-6 to move downwards by the printing and dyeing pushing column 7-14, extruding a compression spring III by the printing and dyeing top plate 7-6 to drive a printing and dyeing sliding column 7-4 and a printing and dyeing pressing plate 7-5 to move downwards, contacting the printing and dyeing pressing plate 7-5 with cloth on a supporting plate body 2-1, and fully printing and dyeing the cloth due to the reaction of a compression spring I and the fact that the printing and dyeing time is prolonged by the sector cam 7; when the cloth on the supporting plate body 2-1 is printed and dyed to finish printing and dyeing of the cloth on the cloth cylinder in demand, the power mechanism 3 is started, the output shaft of the motor 3-1 starts to rotate, the motor 3-1 drives the power belt pulley I3-2 and the power belt pulley II 3-3 to simultaneously rotate, the power belt pulley I3-2 and the power belt pulley II 3-3 respectively drive the two clamping belt pulleys 4-5 and the driving winding belt pulley 6-2 to rotate, the driving winding belt pulley 6-2 drives the driving winding shaft 6-1 to rotate by taking the axis of the driving winding shaft 6-1 as the center, the driving winding shaft 6-1 drives the driving winding belt pulley 6-2 to rotate by taking the axis of the driving winding shaft 6-1 as the center, the cloth is wound onto the driving winding belt pulley 6-2 from the cloth cylinder, and the cloth on the supporting plate body 2-1 is, the next time of printing and dyeing is carried out, when the diameter of the cloth barrel changes, the cloth can be supported by the support plate 2 through the pressure on the compression spring I, the tight state of the cloth is guaranteed, the diameters of the power belt wheel I3-2, the power belt wheel II 3-3, the clamping belt wheel 4-5 and the driving winding belt wheel 6-2 are equal to guarantee power synchronization, the power mechanism 3 can simultaneously drive the two clamping mechanisms 4 and the driving winding wheel 6 to rotate, and the two clamping mechanisms 4 and the driving winding wheel 6 can simultaneously generate power to prevent the cloth from generating wrinkles due to the fact that the cloth slides excessively and power is not uniform.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (5)

1. The utility model provides a diversified adjustable printing and dyeing equipment, includes monolith support (1), backup pad (2), power unit (3), clamping machine structure (4), guiding mechanism (5), initiative winding wheel (6) and printing and dyeing machine structure (7), its characterized in that: the integral support (1) comprises side plates (1-1), sliding grooves (1-2) and connecting plates (1-3), wherein the side plates (1-1) are fixedly connected to the two sides of each connecting plate (1-3), and the sliding grooves (1-2) are arranged on the two side plates (1-1);

the supporting plate (2) comprises a supporting plate body (2-1) and two sliding columns (2-2), the two sliding columns (2-2) are fixedly connected to the supporting plate body (2-1), the two sliding columns (2-2) are both connected to the connecting plate (1-3) in a sliding mode, compression springs I are sleeved on the two sliding columns (2-2), and the compression springs I are located between the supporting plate body (2-1) and the connecting plate (1-3);

the power mechanism (3) comprises a motor (3-1), a power belt wheel I (3-2) and a power belt wheel II (3-3), the power belt wheel I (3-2) and the power belt wheel II (3-3) are fixedly connected to two ends of an output shaft of the motor (3-1) respectively, the motor (3-1) is fixedly connected to one side plate (1-1), and two ends of the output shaft of the motor (3-1) are rotatably connected to the two side plates (1-1) respectively;

the clamping mechanism (4) comprises a clamping bottom plate (4-1), a clamping cylinder (4-2), a clamping pressure plate (4-3), a clamping sliding column (4-4), a clamping belt wheel (4-5), a clamping support rod (4-6), a clamping connecting rod (4-7) and an L-shaped connecting rod (4-8), wherein the clamping bottom plate (4-1) is fixedly connected with the clamping cylinder (4-2), the clamping pressure plate (4-3) is fixedly connected with the clamping sliding column (4-4), the clamping sliding column (4-4) is slidably connected into the clamping cylinder (4-2), the clamping sliding column (4-4) is sleeved with a compression spring II, the compression spring II is positioned between the clamping bottom plate (4-1) and the clamping pressure plate (4-3), and the clamping belt wheel (4-5) is fixedly connected onto the clamping cylinder (4-2), four clamping support rods (4-6) are uniformly and fixedly connected to the clamping bottom plate (4-1) in the circumferential direction, four clamping connecting rods (4-7) and four L-shaped connecting rods (4-8) are arranged, one ends of the four clamping connecting rods (4-7) are hinged to the clamping pressure plate (4-3), the other ends of the four clamping connecting rods (4-7) are hinged to the four L-shaped connecting rods (4-8) respectively, the middle ends of the four L-shaped connecting rods (4-8) are hinged to the four clamping support rods (4-6) respectively, two clamping mechanisms (4) are symmetrically arranged, two clamping cylinders (4-2) are rotatably connected to the two side plates (1-1) respectively, and the two clamping belt wheels (4-5) are connected with the power belt wheel I (3-2) and the power belt wheel II (3-3) through belt transmission respectively;

the adjusting mechanism (5) comprises an adjusting screw rod (5-1), an adjusting sliding block (5-2), an adjusting connecting rod (5-3), an adjusting pushing cylinder (5-4) and an adjusting handle (5-5), two ends of the adjusting screw rod (5-1) are respectively connected with an adjusting sliding block (5-2) through threads, the lower ends of the two adjusting sliding blocks (5-2) are respectively and fixedly connected with an adjusting connecting rod (5-3), the lower ends of the two adjusting connecting rods (5-3) are respectively and fixedly connected with an adjusting pushing cylinder (5-4), the two adjusting pushing cylinders (5-4) are respectively and rotatably connected onto the two clamping sliding columns (4-4), the adjusting sliding block (5-2) is fixedly connected to the middle end of the adjusting screw rod (5-1), and two ends of the adjusting screw rod (5-1) are respectively and rotatably connected onto the two side plates (1-1);

the driving winding wheel (6) comprises a driving winding shaft (6-1), a driving winding belt wheel (6-2), a driving winding wheel (6-3), driving winding side plates (6-4), a driving winding connecting plate (6-5), a pressing plate (6-6), a threaded column (6-7), a sliding column (6-8) and a threaded cylinder (6-9), wherein two ends of the driving winding shaft (6-1) are respectively and rotatably connected to the two side plates (1-1), one end of the driving winding shaft (6-1) is fixedly connected with the driving winding belt wheel (6-2), the driving winding belt wheel (6-2) is connected with the power belt wheel II (3-3) through belt transmission, the driving winding wheel (6-3) is fixedly connected to the middle end of the driving winding shaft (6-1), two ends of the active winding wheel (6-3) are fixedly connected with active winding side plates (6-4), an active winding connecting plate (6-5) is fixedly connected between the two active winding side plates (6-4), a threaded column (6-7) and a sliding column (6-8) are fixedly connected to the pressing plate (6-6), the sliding column (6-8) is slidably connected to the active winding connecting plate (6-5), the lower end of the threaded cylinder (6-9) is rotatably connected to the active winding connecting plate (6-5), and the threaded column (6-7) is connected to the interior of the threaded cylinder (6-9) through threads;

the printing and dyeing mechanism (7) comprises printing and dyeing columns (7-1), printing and dyeing sliders I (7-2), printing and dyeing plates (7-3), printing and dyeing sliding columns (7-4), printing and dyeing press plates (7-5), printing and dyeing top plates (7-6), printing and dyeing side plates (7-7), printing and dyeing motors (7-8), printing and dyeing screws (7-9), printing and dyeing sliders II (7-10), printing and dyeing connecting plates (7-11), printing and dyeing handles (7-12), sector cams (7-13) and printing and dyeing pushing columns (7-14), wherein the printing and dyeing sliders I (7-2) are rotatably connected to two ends of each printing and dyeing column (7-1), the two printing and dyeing sliders I (7-2) are respectively and slidably connected into the two sliding grooves (1-2), the printing and dyeing plates (7-3) are in clearance fit on the printing and dyeing columns (7-, the printing and dyeing plate (7-3) is connected with two printing and dyeing sliding columns (7-4) in a sliding manner, the lower ends of the two printing and dyeing sliding columns (7-4) are fixedly connected to the printing and dyeing press plate (7-5), the upper ends of the two printing and dyeing sliding columns (7-4) are fixedly connected to the printing and dyeing top plate (7-6), the two printing and dyeing sliding columns (7-4) are sleeved with compression springs III, the compression springs III are positioned between the printing and dyeing plate (7-3) and the printing and dyeing top plate (7-6), both sides of the printing and dyeing plate (7-3) are fixedly connected with printing and dyeing side plates (7-7), a printing and dyeing motor (7-8) is fixedly connected to one of the printing and dyeing side plates (7-7), and both ends of output shafts of the printing and dyeing motor (7-8) are respectively and rotatably connected to, the printing and dyeing plate (7-3) is connected with a printing and dyeing screw rod (7-9) through threads, two ends of the printing and dyeing screw rod (7-9) are respectively and rotatably connected with printing and dyeing sliders II (7-10), the two printing and dyeing sliders II (7-10) are respectively and slidably connected into two sliding grooves (1-2), two printing and dyeing connecting plates (7-11) are arranged, two ends of the two printing and dyeing connecting plates (7-11) are respectively and rotatably connected with two ends of a printing and dyeing column (7-1) and the printing and dyeing screw rod (7-9), one end of the printing and dyeing screw rod (7-9) is fixedly connected with a printing and dyeing handle (7-12), a sector cam (7-13) is fixedly connected on an output shaft of a printing and dyeing motor (7-8), and the lower end of a printing and dyeing pushing column (7-, the upper ends of the printing and dyeing pushing columns (7-14) are contacted with the sector cams (7-13).

2. The multi-orientation adjustable printing and dyeing equipment as claimed in claim 1, wherein: the motor (3-1) is a motor with double output shafts, and electromagnetic band-type brakes are arranged on the motor (3-1) and the printing and dyeing motor (7-8).

3. The multi-orientation adjustable printing and dyeing equipment as claimed in claim 2, wherein: the diameters of the power belt wheel I (3-2), the power belt wheel II (3-3), the clamping belt wheel (4-5) and the driving winding belt wheel (6-2) are equal.

4. The multi-orientation adjustable printing and dyeing equipment as claimed in claim 3, wherein: the thread directions of the two ends of the adjusting screw rod (5-1) are opposite.

5. The multi-orientation adjustable printing and dyeing equipment as claimed in claim 4, wherein: the printing and dyeing sliding block II (7-10) and the printing and dyeing sliding block I (7-2) are both made of rubber materials.

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