CN111645414A

CN111645414A - Intelligent clothes pattern printing equipment

Info

Publication number: CN111645414A
Application number: CN202010631452.5A
Authority: CN
Inventors: 蔡金兰
Original assignee: Fuzhou Mawei Haoli Garment Co ltd
Current assignee: Fuzhou Mawei Haoli Garment Co ltd
Priority date: 2020-07-03
Filing date: 2020-07-03
Publication date: 2020-09-11

Abstract

The invention discloses an intelligent clothes image printing device which comprises a machine body, wherein a water tank is arranged in the machine body, a crankshaft space is arranged on the lower side of the water tank, three regression spaces are arranged on the lower side of the crankshaft space, a pigment box is arranged on the lower side of each regression space, a communication space is arranged on the lower side of each pigment box, a linkage space is arranged on the left side of the crankshaft space, a selection device in the device can select different colors for spraying, a worker does not need to select the colors, the workload of the worker is reduced, a mixing device can mix the colors to obtain the desired colors, and the color which is difficult to find is not needed to find.

Description

Intelligent clothes pattern printing equipment

Technical Field

The invention relates to the field of clothes, in particular to intelligent clothes pattern printing equipment.

Background

Clothes appear in the early stage of the development of human society, at the moment, some materials are made into rough 'clothes', the clothes are worn on the human body, the original clothes of the human body are made of animal skins, the earliest 'fabric' of the clothes is made of fibers such as hemp, grass and the like, for the society, the clothes are necessities of life of shielding bodies and decoration, not only are the clothes worn, but also an identity, a life attitude and an expression for showing personal charm, at present, the clothes are mostly designed by designers, and then are produced by a production line, so the clothes are identical in style and are not personalized.

Disclosure of Invention

The invention aims to provide intelligent clothes printing equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent clothes printing device comprises a machine body, wherein a water tank is arranged in the machine body, a crankshaft space is arranged on the lower side of the water tank, three returning spaces are arranged on the lower side of the crankshaft space, a pigment box is respectively arranged on the lower side of each returning space, a communicating space is respectively arranged on the lower side of each pigment box, a linkage space is arranged on the left side of the crankshaft space, a mixing space is arranged on the upper side of the linkage space, a printing and dyeing space is arranged on the right side of the mixing space, a belt wheel space is arranged on the upper side of the printing and dyeing space, a reciprocating space is arranged on the left side of the belt wheel space, a printing and dyeing device for printing and dyeing patterns is arranged in the printing and dyeing space, the printing and dyeing device comprises a power motor fixedly arranged on the rear wall of the printing and dyeing space, an elastic belt wheel space is arranged on the rear side of the printing, an elliptic wheel is fixedly connected to the elliptic wheel shaft, a power shaft is rotatably connected to the front wall of the elastic belt wheel space, a rotating main belt wheel is fixedly connected to the power shaft, an upper and lower sliding block is slidably connected to the rear wall of the elastic belt wheel space, a rebound spring is connected between the upper and lower sliding block and the bottom wall of the elastic belt wheel space, a moving rod is rotatably connected to the upper and lower sliding block, a swinging rod is rotatably connected to the moving rod, an eccentric wheel space is arranged in the swinging rod, the moving rod extends forwards to penetrate through the rear side surface of the swinging rod to enter the eccentric wheel space, an eccentric wheel and a rotating auxiliary belt wheel are fixedly connected to the front and rear sides of the moving rod, a transmission belt is connected between the rotating auxiliary belt wheel and the rotating main belt wheel, a rebound space is arranged on the right side of the eccentric wheel space, and, the printing and dyeing device is characterized in that a small spring is connected with the right wall of the rebound space, the right side of the jacking sliding rod extends rightwards to penetrate through the right wall of the rebound space and enters the printing and dyeing space, the left side of the jacking sliding rod extends leftwards to penetrate through the left wall of the rebound space and enters the eccentric wheel space, the right side of the jacking sliding rod is abutted against the eccentric wheel, a jacking wheel is rotatably connected to the oscillating rod and abutted against the elliptical wheel, the left side of the oscillating rod is hinged to the left wall of the printing and dyeing space, a printing plate is hinged to the right side of the oscillating rod, the jacking sliding rod can be abutted against the printing plate, a tension spring is connected between the oscillating rod and the left wall of the printing and dyeing space, a heating plate is fixedly connected to the left wall of the printing and dyeing space, three pigment boxes, three return spaces, a, A selecting device for selecting dye is arranged among the three communicated spaces, a mixing device is arranged between the linkage space and the mixing space, a replacing device for replacing a pattern grinding tool, a belt wheel space, a water tank and a spraying device for spraying dye and washing water are arranged in the printing and dyeing space.

Preferably, the selection means comprises a crank motor fixedly mounted on a left wall of the crank space, the right side surface of the crankshaft motor is in power connection with a crankshaft which is rotationally connected with the left wall and the right wall of the crankshaft space, each regression space is respectively connected with a mandril in a sliding way, the upper side of each mandril extends upwards and respectively penetrates through the top wall meter of the regression space to enter the crankshaft space, each ejector rod can be abutted against the crankshaft, the lower side of each ejector rod extends downwards to penetrate through the bottom wall of the return space and enter the pigment box, the lower side of each ejector rod is fixedly connected with a top plate which is in sliding connection with the left wall and the right wall of the pigment box, a communicating sliding block is connected in each communicating space in a sliding mode, and a strong spring is connected between each communicating sliding block and the bottom wall of each communicating space.

Preferably, the injection device comprises a left rotating shaft which is arranged on the left side surface of the source motor and is in rotating connection with the belt wheel space, a transmission main belt wheel is fixedly connected to the left rotating shaft, a long shaft and a short shaft are rotatably connected between the left wall and the right wall of the belt wheel space, a transmission auxiliary belt wheel and an output main belt wheel are fixedly connected to the left side and the right side of the long shaft, a transmission pair is connected between the transmission auxiliary belt wheel and the transmission main belt wheel, a reciprocating space is arranged on the left side of the belt wheel space, the short shaft extends leftwards to penetrate through the right wall of the belt wheel space to enter the reciprocating space, a main bevel gear and an output auxiliary belt wheel are fixedly connected to the left side and the right side of the short shaft, a transmission belt is connected between the output auxiliary belt wheel and the output main belt wheel, the rear wall of the reciprocating space is rotatably connected with a reciprocating wheel shaft, the printing and dyeing machine comprises a large reciprocating wheel and a small reciprocating wheel, wherein an auxiliary bevel gear is meshed with a main bevel gear, the bottom wall of a reciprocating space is rotatably connected with a reciprocating wheel disc, the reciprocating wheel disc can be meshed with the small reciprocating wheel and the large reciprocating wheel, the reciprocating wheel disc extends downwards to penetrate through the bottom wall of the reciprocating space to enter the printing and dyeing space, a spray gun is fixedly connected onto the reciprocating wheel disc, a reversing valve is arranged on the right wall of a water tank, a pump is arranged on the right side face of the reversing valve, and a liquid pipe is connected between the water tank, the mixing space and the spray gun.

Preferably, the replacing device comprises a source motor fixedly installed on the left wall of the printing and dyeing space, a grooved pulley shaft rotatably connected with the left wall of the printing and dyeing space is in power connection with the source motor, a grooved pulley pinion is fixedly connected onto the grooved pulley shaft, a rotating shaft is rotatably connected onto the left wall of the printing and dyeing space, a pattern plate wheel and a grooved pulley gearwheel are fixedly connected to the left side and the right side of the rotating shaft, the grooved pulley pinion is meshed with the grooved pulley gearwheel, and two pattern plates are fixedly connected onto the pattern plate wheel.

Preferably, the injection device comprises a left rotating shaft which is arranged on the left side surface of the source motor and is in rotating connection with the belt wheel space, a transmission main belt wheel is fixedly connected to the left rotating shaft, a long shaft and a short shaft are rotatably connected between the left wall and the right wall of the belt wheel space, a transmission auxiliary belt wheel and an output main belt wheel are fixedly connected to the left side and the right side of the long shaft, a transmission pair is connected between the transmission auxiliary belt wheel and the transmission main belt wheel, a reciprocating space is arranged on the left side of the belt wheel space, the short shaft extends leftwards to penetrate through the right wall of the belt wheel space to enter the reciprocating space, a main bevel gear and an output auxiliary belt wheel are fixedly connected to the left side and the right side of the short shaft, a transmission belt is connected between the output auxiliary belt wheel and the output main belt wheel, the rear wall of the reciprocating space is rotatably connected with a reciprocating wheel shaft, the auxiliary bevel gear is meshed with the main bevel gear, a reciprocating wheel disc is rotatably connected to the bottom wall of the reciprocating space, the reciprocating wheel disc can be meshed with the small reciprocating wheel and the large reciprocating wheel, the reciprocating wheel disc extends downwards to penetrate through the bottom wall of the reciprocating space to enter the printing and dyeing space, a spray gun is fixedly connected to the reciprocating wheel disc, a reversing valve is arranged on the right wall of the water tank, a pump is arranged on the right side face of the reversing valve, a liquid pipe is connected between the water tank, the mixing space and the spray gun, the reversing valve is used for communicating the mixing space with the spray gun and starting the pump when dye needs to be sprayed, so that the dye can enter the spray gun through the liquid pipe, the source motor is started in the forward direction, the left rotating shaft and the step-up main belt wheel rotate, and power is transmitted to the step-up auxiliary belt wheel through the step-up pair, thereby making the major axis rotate and consequently making the defeated primary pulley rotate, thereby transmitting power to defeated moving secondary pulley through defeated area, thereby making minor axis, the primary cone gear, the secondary cone gear rotate, thereby make the reciprocating wheel axle, the little reciprocating wheel, the big reciprocating wheel rotates, thereby make the reciprocating wheel dish swing back and forth, thereby it is even injection to get the spray gun back and forth swing.

In conclusion, the beneficial effects of the invention are as follows: the invention relates to an intelligent clothes pattern printing device, wherein a selection device in the device can select different colors for spraying, workers do not need to select the colors, the workload of the workers is reduced, a mixing device can mix the colors to obtain the desired colors, and the colors which are difficult to find are not needed, so that the time is greatly saved, a replacing device can replace different patterns according to the requirements of customers, a spraying device can uniformly spray the colors on a spraying plate to form various patterns, and a printing and dyeing device can print the patterns on clothes without the work of the printing and dyeing device by the workers, thereby greatly improving the efficiency.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic view of the whole full-section main view structure of an intelligent clothes printing device of the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1 in accordance with the present invention;

FIG. 3 is an enlarged view of the invention at B of FIG. 1;

FIG. 4 is a cross-sectional view taken along the line C-C of FIG. 3 in accordance with the present invention;

FIG. 5 is a cross-sectional view taken along line D-D of FIG. 2 in accordance with the present invention;

figure 6 is a right side view of the sheave of figure 1 of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

Any feature disclosed in this specification (including any accompanying claims, abstract and drawings), may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

The invention will now be described in detail with reference to fig. 1-5, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, front and rear directions described below correspond to the front, back, left, right, top and bottom directions of the view direction of fig. 1, fig. 1 is a front view of the apparatus of the present invention, and the directions shown in fig. 1 correspond to the front, back, left, right, top and bottom directions of the apparatus of the present invention.

Referring to fig. 1-5, an embodiment of the present invention is shown: an intelligent clothes printing device comprises a machine body 21, wherein a water tank 22 is arranged in the machine body 21, a crankshaft space 75 is arranged on the lower side of the water tank 22, three regression spaces 41 are arranged on the lower side of the crankshaft space 75, a pigment box 37 is arranged on the lower side of each regression space 41, a communication space 34 is arranged on the lower side of each pigment box 37, a linkage space 23 is arranged on the left side of the crankshaft space 75, a mixing space 80 is arranged on the upper side of the linkage space 23, a printing and dyeing space 82 is arranged on the right side of the mixing space 80, a belt wheel space 46 is arranged on the upper side of the printing and dyeing space 82, a reciprocating space 84 is arranged on the left side of the belt wheel space 46, a printing and dyeing device for printing and dyeing patterns is arranged in the printing and dyeing space 82, the printing and dyeing device comprises a power motor 73 fixedly arranged on the rear wall of the printing and dyeing space, an elliptical wheel shaft 67 which is rotatably connected with the rear wall of the printing and dyeing space 82 is in power connection with the front side surface of the power motor 73, an elliptical wheel 68 is fixedly connected on the elliptical wheel shaft 67, a power shaft 72 is rotatably connected with the front wall of the elastic belt wheel space 70, a rotating main belt wheel 71 is fixedly connected on the power shaft 72, an up-down sliding block 77 is slidably connected with the rear wall of the elastic belt wheel space 70, a rebound spring 78 is connected between the up-down sliding block 77 and the bottom wall of the elastic belt wheel space 70, a moving rod 83 is rotatably connected on the up-down sliding block 77, a swinging rod 65 is rotatably connected with the moving rod 83, an eccentric wheel space 87 is arranged in the swinging rod 65, the moving rod 83 extends forwards to penetrate through the rear side surface of the swinging rod 65 to enter the eccentric wheel space 87, and

eccentric wheels

81, 81 and, A secondary rotating pulley 79, a transmission belt 76 is connected between the secondary rotating pulley 79 and the primary rotating pulley 71, a rebound space 88 is arranged on the right side of the eccentric space 87, a jacking slide bar 90 is connected to each of the rebound spaces 88 in a sliding manner, a small spring 89 is connected to each of the jacking slide bar 90 and the right wall of the rebound space 88, the jacking slide bar 90 extends rightward and penetrates through the right wall of the rebound space 88 to enter the printing and dyeing space 82, the jacking slide bar 90 extends leftward and penetrates through the left wall of the rebound space 88 to enter the eccentric space 87, the right side of the jacking slide bar 90 abuts against the eccentric 81, a jacking wheel 66 is rotatably connected to the oscillating rod 65, the jacking wheel 66 abuts against the elliptical wheel 68, the left side of the oscillating rod 65 is hinged to the left wall of the printing and dyeing space 82, and the right side of the oscillating rod 65 is hinged to the printing plate 63, the jacking sliding rod 90 can be abutted against the printing plate 63, a tension spring 69 is connected between the swinging rod 65 and the left wall of the printing and dyeing space 82, a heating plate 62 is fixedly connected to the left wall of the printing and dyeing space 82, a dye selecting device is arranged among the crankshaft space 75, the three pigment boxes 37, the three returning spaces 41 and the three communicating spaces 34, a mixing device is arranged between the linkage space 23 and the mixing space 80, a replacing device for replacing a pattern grinding tool is arranged in the printing and dyeing space 82, the belt wheel space 46, the water tank 22 and the reciprocating space 84 are sprayed with dye and washed with water.

In addition, in one embodiment, the selecting device includes a crankshaft motor 27 fixedly installed on the left wall of the crankshaft space 75, a crankshaft 40 rotatably connected to the left and right walls of the crankshaft space 75 is connected to the right side of the crankshaft motor 27, a top rod 39 is slidably connected to each of the returning spaces 41, an upper side of each of the top rods 39 extends upward to penetrate through a top wall of the returning space 41 to enter the crankshaft space 75, each of the top rods 39 is capable of abutting against the crankshaft 40, a lower side of each of the top rods 39 extends downward to penetrate through a bottom wall of the returning space 41 to enter the paint box 37, a top plate 38 slidably connected to the left and right walls of the paint box 37 is fixedly connected to a lower side of each of the top rods 39, a communicating slider 36 is slidably connected to each of the communicating spaces 34, a strong spring 35 is connected between each of the communicating slider 36 and the bottom wall of the communicating space 34, when a dye is required to be selected, the crankshaft motor 27 is reversely started, so that the crankshaft 40 rotates, the ejector pins 39 required to open the dye box 37 abut against the crankshaft 40, the corresponding ejector pins 39 move downwards, the top plate 38 moves downwards, the dye is pressed into the communication space 34, the communication slide 36 moves downwards, the dye box 37 is communicated with the mixing space 80, and the dye enters the mixing space 80.

In addition, in one embodiment, the mixing device includes a rotating shaft 26 rotatably connected to the left side surface of the rotating shaft 26 and the right wall of the interlocking space 23, a interlocking primary pulley 24 is fixedly connected to the rotating shaft 26, a bevel gear shaft 28 is rotatably connected to the left wall of the interlocking space 23, interlocking secondary pulleys 29 and meshing primary bevel gears 30 are fixedly connected to the left and right sides of the bevel gear shaft 28, the interlocking primary pulley 24 is connected between the interlocking secondary pulleys 29 and the interlocking primary pulley 24, a mixing fan shaft 32 is rotatably connected to the top wall of the interlocking space 23, the mixing fan shaft 32 extends upward to penetrate through the top wall of the interlocking space 23 to enter the mixing space 80, an meshing secondary bevel gear 31 is fixedly connected to the lower side of the mixing fan shaft 32, the meshing secondary bevel gear 31 meshes with the meshing primary bevel gears 30, three mixing fans 33 are vertically symmetrically arranged on the upper side of the mixing fan shaft 32, when mixing is required, the crank motor 27 is started in the forward direction, so that the rotary shaft 26 and the interlocking primary pulley 24 are rotated, and power is transmitted to the interlocking secondary pulley 29 through the secondary pulley 25, so that the bevel gear shaft 28 is rotated, so that the meshing primary bevel gear 30 and the meshing secondary bevel gear 31 are rotated, so that the mixing fan shaft 32 is rotated, so that the three mixing fans 33 are rotated, and mixing is started.

In addition, in one embodiment, the replacing device includes a source motor 52 fixedly installed on the left wall of the printing and dyeing space 82, a sheave shaft 53 rotatably connected to the left wall of the printing and dyeing space 82 is power-connected to the source motor 52, a sheave pinion 54 is fixedly connected to the sheave shaft 53, a rotation shaft 56 is rotatably connected to the left wall of the printing and dyeing space 82, pattern plate wheels 61 and sheave large gears 55 are fixedly connected to the left and right sides of the rotation shaft 56, the sheave pinion 54 is engaged with the sheave large gears 55, two pattern plates 60 are fixedly connected to the pattern plate wheels 61, when different patterns are required, the source motor 52 is reversely activated to rotate the sheave shaft 53 and the sheave pinion 54, thereby rotating the sheave large gears 55 and the rotation shaft 56 to rotate the pattern plate wheels 61, thereby replacing the pattern.

In addition, in one embodiment, the spraying device comprises a left rotating shaft 51 which is power-installed on the left side surface of the source motor 52 and is rotatably connected with the pulley space 46, a transmission primary pulley 50 is fixedly connected on the left rotating shaft 51, a long shaft 48 and a short shaft 74 are rotatably connected between the left wall and the right wall of the pulley space 46, a transmission secondary pulley 47 and an output primary pulley 57 are fixedly connected on the left side and the right side of the long shaft 48, a transmission pair 49 is connected between the transmission secondary pulley 47 and the transmission primary pulley 50, a reciprocating space 84 is arranged on the left side of the pulley space 46, the short shaft 74 extends leftwards to penetrate through the right wall of the pulley space 46 and enters the reciprocating space 84, a primary bevel gear 98 and an output secondary pulley 59 are fixedly connected on the left side and the right side of the short shaft 74, a transmission belt 58 is connected between the output secondary pulley 59 and the output primary pulley 57, the rear wall of the reciprocating space 84 is rotatably connected with a reciprocating wheel shaft, a secondary bevel gear 97, a large reciprocating wheel 95 and a small reciprocating wheel 94 are fixedly connected with the front side and the rear side of the reciprocating wheel shaft 93, the secondary bevel gear 97 is meshed with the main bevel gear 98, a reciprocating wheel disc 91 is rotatably connected with the bottom wall of the reciprocating space 84, the reciprocating wheel disc 91 can be meshed with the small reciprocating wheel 94 and the large reciprocating wheel 95, the reciprocating wheel disc 91 extends downwards to penetrate through the bottom wall of the reciprocating space 84 to enter the printing and dyeing space 82, a spray gun 92 is fixedly connected with the reciprocating wheel disc 91, a reversing valve 43 is arranged on the right wall of the water tank 22, a pump 44 is arranged on the right side face of the reversing valve 43, a liquid pipe 45 is connected between the water tank 22, the mixing space 80 and the spray gun 92, when dye needs to be sprayed, the reversing valve 43 is communicated with the mixing space 80 and the spray gun 92 to start the pump 44, so that the dye can enter the spray gun 92 through the liquid pipe 45, forward-actuating the source motor 52 to rotate the left rotation shaft 51 and the driving primary pulley 50 to transmit power to the driving secondary pulley 47 through the driving secondary 49 to rotate the long shaft 48 to rotate the driving primary pulley 57 to transmit power to the driving secondary pulley 59 through the driving belt 58 to rotate the short shaft 74, the primary bevel gear 98 and the secondary bevel gear 97 to rotate the shuttle shaft 93, the small shuttle wheel 94 and the large shuttle wheel 95 to oscillate the shuttle wheel disc 91 back and forth to oscillate the spray gun 92 back and forth to evenly spray, and when water washing is required, the direction switching valve 43 connects the water tank 22 with the spray gun 92 to actuate the pump 44 to allow dye to pass through the liquid pipe 45 into the spray gun 92, the source motor 52 is positively operated to rotate the left rotating shaft 51 and the driving primary pulley 50, thereby transmitting power to the driving secondary pulley 47 through the driving secondary 49, thereby rotating the long shaft 48, thereby rotating the driving primary pulley 57, thereby transmitting power to the driving secondary pulley 59 through the driving belt 58, thereby rotating the short shaft 74, the primary bevel gear 98, and the secondary bevel gear 97, thereby rotating the reciprocating wheel shaft 93, the small reciprocating wheel 94, and the large reciprocating wheel 95, thereby swinging the reciprocating wheel disc 91 back and forth, thereby achieving uniform spray cleaning by swinging the spray gun 92 back and forth.

In the initial state, the communication slider 36 is positioned at the top of the communication space 34, the three pushrods 39 are not abutted by the crankshaft 40, the selector valve 43 is not engaged, and the printing plate 63 is directed downward.

When clothes need to be printed and dyed, the crankshaft motor 27 is started reversely, so that the crankshaft 40 rotates, the ejector rod 39 which needs to open the paint box 37 abuts against the crankshaft 40, the corresponding ejector rod 39 moves downwards, the top plate 38 moves downwards, so that the dye is pressed into the communication space 34, the communication slider 36 moves downwards, the paint box 37 is communicated with the mixing space 80, so that the dye enters the mixing space 80, the crankshaft motor 27 is started positively, the rotating shaft 26 and the linkage main belt wheel 24 rotate, so that the power is transmitted to the linkage auxiliary belt wheel 29 through the connecting rod 25, the bevel gear shaft 28 rotates, the meshing main bevel gear 30 and the meshing auxiliary bevel gear 31 rotate, so that the mixing fan shaft 32 rotates, the three mixing fans 33 rotate, so that mixing starts, the source motor 52 is started reversely, thereby rotating the sheave shaft 53, the sheave pinion 54, the sheave large gear 55, the rotation shaft 56, the pattern plate wheel 61, and thus changing the pattern, reversely starting the power motor 73, thereby rotating the power shaft 72, the rotation primary pulley 71, and thus transmitting the power to the rotation secondary pulley 79 through the transfer belt 76, thereby rotating the moving rod 83, the eccentric 81, and thus moving the knock-out slide 90 rightward, thereby swinging the printing plate 63 upward, from a downward state to a left state, the reversing valve 43 communicating the mixing space 80 with the spray gun 92, starting the pump 44, thereby allowing the dye to come into the spray gun 92 through the liquid pipe 45, positively starting the source motor 52, thereby rotating the left rotation shaft 51, the shift primary pulley 50, and thus transmitting the power to the shift secondary pulley 47 through the shift pair 49, thereby rotating the long shaft 48, thereby rotating the transmission primary pulley 57, transmitting power to the transmission secondary pulley 59 through the transmission belt 58, thereby rotating the stub shaft 74, the primary bevel gear 98, and the secondary bevel gear 97, thereby rotating the shuttle shaft 93, the small shuttle wheel 94, and the large shuttle wheel 95, thereby swinging the shuttle wheel disc 91 back and forth, thereby uniformly spraying the spray gun 92 back and forth, reversely starting the power motor 73, thereby rotating the power shaft 72, the rotating primary pulley 71, thereby transmitting power to the rotating secondary pulley 79 through the transmission belt 76, thereby driving the moving rod 83, the eccentric wheel 81 to rotate, thereby moving the knock-out slide rod 90 to the left, thereby swinging the printing plate 63 downward from a left state, putting clothes on the heating plate 62, starting the heating plate 62 to heat, and positively starting the power motor 73, thereby rotating the elliptical wheel shaft 67, the elliptical wheel 68, so that the top moving wheel 66 moves downwards and consequently the oscillating lever 65 moves downwards and consequently the printing plate 63 moves downwards and the garment is dyed.

When water washing is needed, the water tank 22 and the spray gun 92 are communicated through the reversing valve 43, the pump 44 is started, dye enters the spray gun 92 through the liquid pipe 45, the source motor 52 is started in a forward direction, the left rotating shaft 51 and the transmission primary pulley 50 rotate, power is transmitted to the transmission secondary pulley 47 through the transmission pair 49, the long shaft 48 rotates, the transmission primary pulley 57 rotates, power is transmitted to the transmission secondary pulley 59 through the transmission belt 58, the short shaft 74, the primary bevel gear 98 and the secondary bevel gear 97 rotate, the reciprocating wheel shaft 93, the small reciprocating wheel 94 and the large reciprocating wheel 95 rotate, the reciprocating wheel disc 91 swings back and forth, and the spray gun 92 swings back and forth to spray and clean evenly.

The invention has the beneficial effects that: the invention relates to an intelligent clothes pattern printing device, wherein a selection device in the device can select different colors for spraying, workers do not need to select the colors, the workload of the workers is reduced, a mixing device can mix the colors to obtain the desired colors, and the colors which are difficult to find are not needed, so that the time is greatly saved, a replacing device can replace different patterns according to the requirements of customers, a spraying device can uniformly spray the colors on a spraying plate to form various patterns, and a printing and dyeing device can print the patterns on clothes without the work of the printing and dyeing device by the workers, thereby greatly improving the efficiency.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. The utility model provides an equipment of intelligence clothes seal drawing, includes the organism, its characterized in that: the machine body is internally provided with a water tank, a crankshaft space is arranged on the lower side of the water tank, three returning spaces are arranged on the lower side of the crankshaft space, a pigment box is arranged on the lower side of each returning space, a communicating space is arranged on the lower side of each pigment box, a linkage space is arranged on the left side of the crankshaft space, a mixing space is arranged on the upper side of the linkage space, a printing and dyeing space is arranged on the right side of the mixing space, a belt wheel space is arranged on the upper side of the printing and dyeing space, a reciprocating space is arranged on the left side of the belt wheel space, a printing and dyeing device for printing and dyeing patterns is arranged in the printing and dyeing space, the printing and dyeing device comprises a power motor fixedly arranged on the rear wall of the printing and dyeing space, an elastic belt wheel space is arranged on the rear side of the printing, an elliptic wheel is fixedly connected to the elliptic wheel shaft, a power shaft is rotatably connected to the front wall of the elastic belt wheel space, a rotating main belt wheel is fixedly connected to the power shaft, an upper and lower sliding block is slidably connected to the rear wall of the elastic belt wheel space, a rebound spring is connected between the upper and lower sliding block and the bottom wall of the elastic belt wheel space, a moving rod is rotatably connected to the upper and lower sliding block, a swinging rod is rotatably connected to the moving rod, an eccentric wheel space is arranged in the swinging rod, the moving rod extends forwards to penetrate through the rear side surface of the swinging rod to enter the eccentric wheel space, an eccentric wheel and a rotating auxiliary belt wheel are fixedly connected to the front and rear sides of the moving rod, a transmission belt is connected between the rotating auxiliary belt wheel and the rotating main belt wheel, a rebound space is arranged on the right side of the eccentric wheel space, and, the printing and dyeing device is characterized in that a small spring is connected with the right wall of the rebound space, the right side of the jacking sliding rod extends rightwards to penetrate through the right wall of the rebound space and enters the printing and dyeing space, the left side of the jacking sliding rod extends leftwards to penetrate through the left wall of the rebound space and enters the eccentric wheel space, the right side of the jacking sliding rod is abutted against the eccentric wheel, a jacking wheel is rotatably connected to the oscillating rod and abutted against the elliptical wheel, the left side of the oscillating rod is hinged to the left wall of the printing and dyeing space, a printing plate is hinged to the right side of the oscillating rod, the jacking sliding rod can be abutted against the printing plate, a tension spring is connected between the oscillating rod and the left wall of the printing and dyeing space, a heating plate is fixedly connected to the left wall of the printing and dyeing space, three pigment boxes, three return spaces, a, A selecting device for selecting dye is arranged among the three communicated spaces, a mixing device is arranged between the linkage space and the mixing space, a replacing device for replacing a pattern grinding tool, a belt wheel space, a water tank and a spraying device for spraying dye and washing water are arranged in the printing and dyeing space.

2. The intelligent clothing impression device of claim 1, wherein: the selection device comprises a crankshaft motor fixedly installed on the left wall of the crankshaft space, the right side face of the crankshaft motor is in power connection with a crankshaft rotatably connected with the left wall and the right wall of the crankshaft space, ejector rods are respectively and slidably connected into the regression space, the upper sides of the ejector rods extend upwards and respectively penetrate through the top wall meter of the regression space and enter the crankshaft space, the ejector rods can be respectively abutted to the crankshaft, the lower sides of the ejector rods extend downwards and respectively penetrate through the bottom wall of the regression space and enter the pigment box, the lower sides of the ejector rods are respectively and fixedly connected with top plates which are slidably connected with the left wall and the right wall of the pigment box, communicating sliders are respectively and slidably connected into the communicating space, and strong springs are respectively connected between the communicating sliders and the bottom wall of the communicating space.

3. The intelligent clothing impression device of claim 1, wherein: the injection device comprises a left rotating shaft which is arranged on the left side surface of the source motor and is in rotary connection with the belt wheel space, a transmission main belt wheel is fixedly connected to the left rotating shaft, a long shaft and a short shaft are rotatably connected between the left wall and the right wall of the belt wheel space, a transmission auxiliary belt wheel and an output main belt wheel are fixedly connected to the left side and the right side of the long shaft, a transmission pair is connected between the transmission auxiliary belt wheel and the transmission main belt wheel, a reciprocating space is arranged on the left side of the belt wheel space, the short shaft extends leftwards to penetrate through the right wall of the belt wheel space to enter the reciprocating space, a main bevel gear and an output auxiliary belt wheel are fixedly connected to the left side and the right side of the short shaft, a transmission belt is connected between the output auxiliary belt wheel and the output main belt wheel, the rear wall of the reciprocating space is in rotary connection with a reciprocating wheel shaft, and auxiliary, The printing and dyeing machine comprises a small reciprocating wheel, an auxiliary bevel gear, a main bevel gear, a reciprocating wheel disc, a reversing valve, a pump and a liquid pipe, wherein the auxiliary bevel gear is meshed with the main bevel gear, the bottom wall of a reciprocating space is rotatably connected with the reciprocating wheel disc, the reciprocating wheel disc can be meshed with the small reciprocating wheel and the large reciprocating wheel, the reciprocating wheel disc extends downwards to penetrate through the bottom wall of the reciprocating space to enter the printing and dyeing space, the spraying gun is fixedly connected onto the reciprocating wheel disc, the reversing valve is arranged on the right wall of the water tank, the pump is arranged on the right side face of the reversing valve, and the.

4. The intelligent clothing impression device of claim 1, wherein: the replacing device comprises a source motor fixedly installed on the left wall of the printing and dyeing space, a grooved pulley shaft rotatably connected with the left wall of the printing and dyeing space is in power connection with the source motor, a grooved pulley pinion is fixedly connected onto the grooved pulley shaft, a rotating shaft is rotatably connected onto the left wall of the printing and dyeing space, a pattern plate wheel and a grooved pulley gearwheel are fixedly connected to the left side and the right side of the rotating shaft, the grooved pulley pinion is meshed with the grooved pulley gearwheel, and two pattern plates are fixedly connected onto the pattern plate wheel.

5. The intelligent clothing impression device of claim 1, wherein: the injection device comprises a left rotating shaft which is arranged on the left side surface of the source motor and is in rotary connection with the belt wheel space, a transmission main belt wheel is fixedly connected to the left rotating shaft, a long shaft and a short shaft are rotatably connected between the left wall and the right wall of the belt wheel space, a transmission auxiliary belt wheel and an output main belt wheel are fixedly connected to the left side and the right side of the long shaft, a transmission pair is connected between the transmission auxiliary belt wheel and the transmission main belt wheel, a reciprocating space is arranged on the left side of the belt wheel space, the short shaft extends leftwards to penetrate through the right wall of the belt wheel space to enter the reciprocating space, a main bevel gear and an output auxiliary belt wheel are fixedly connected to the left side and the right side of the short shaft, a transmission belt is connected between the output auxiliary belt wheel and the output main belt wheel, the rear wall of the reciprocating space is in rotary connection with a reciprocating wheel shaft, and auxiliary, The small reciprocating wheel, the secondary bevel gear and the main bevel gear are engaged, the bottom wall of the reciprocating space is rotatably connected with a reciprocating wheel disc, the reciprocating wheel disc can be engaged with the small reciprocating wheel and the large reciprocating wheel, the reciprocating wheel disc extends downwards to penetrate through the bottom wall of the reciprocating space to enter the printing and dyeing space, a spray gun is fixedly connected onto the reciprocating wheel disc, a reversing valve is arranged on the right wall of the water tank, a pump is arranged on the right side face of the reversing valve, a liquid pipe is connected between the water tank, the mixing space and the spray gun, the reversing valve is communicated with the mixing space and the spray gun to start the pump when dye needs to be sprayed, so that the dye can enter the spray gun through the liquid pipe, the source motor is started in the forward direction, the left rotating shaft and the step-up main belt wheel are rotated, and power is transmitted to the step-up secondary belt wheel through the step-up pair, thereby making the major axis rotate and consequently making the defeated primary pulley rotate, thereby transmitting power to defeated moving secondary pulley through defeated area, thereby making minor axis, the primary cone gear, the secondary cone gear rotate, thereby make the reciprocating wheel axle, the little reciprocating wheel, the big reciprocating wheel rotates, thereby make the reciprocating wheel dish swing back and forth, thereby it is even injection to get the spray gun back and forth swing.