AU2019201661B1 - A clothing printing device - Google Patents

Abstract

This invention discloses a clothing printing device, including a main body 100, a working cavity 200 in a top of the main body 100, a workbench 121 on a middle buttom wall of the working cavity 200, a connection rod cavity 119 in the workbench 121, a connection rod mechanism on end surfaces of the workbench 121, clamp cavities 109 in end walls of the working cavity 200, and clamp mechanisms in the clamp cavities 109. The connection rod mechanism can make two ends of the clothing horizontal to facilitate the clamping of the clamp mechanisms that clamp the clothing tightly for printing. The switching sliders 156 are able to move vertically, so that the slider mechanism controls the printing mechanism 110 to print, improving the printing effect, and the transmission structure of the device is relatively simple, which is not easy to malfunction and is easy to maintain.

Description

A CLOTHING PRINTING DEVICE

TECHNICAL FIELD [0001] The present invention relates to the technical field of printing, in particular to a clothing printing device.

BACKGROUND OF THE INVENTION [0002] Clothes are differently worn on different occasions, and there are many styles. Clothes have become an indispensable thing in today's world. China often says “clothing, food, housing and transportation” are basic necessities of life and clothing is in the first place. And in order to express personality, clothes are usually printed with a variety of patterns on them.

[0003] Therefore, the present invention devises a clothing printing device. The connection rod mechanism of the device can make the two ends of the clothing horizontally to facilitate the clamping of the clamp mechanisms and the clamp mechanisms clamp the clothing tightly for printing. The switching sliders are able to move up and down, so that the slider mechanism controls the printing mechanism to print, which improves the printing effect, and the transmission structure of the device is relatively simple, which is not easy to malfunction and is easy to maintain.

BRIEF SUMMARY OF THE INVENTION [0004] The purpose of the invention is to provide a clothing printing device so as to overcome the problems existing in the prior art.

[0005] A clothing printing device according to the present invention includes a main body; a

2019201661 18 Jun 2019 working cavity is formed in an end surface of a top of the main body; a workbench is fixedly disposed on a bottom wall of a middle part of the working cavity; a connection rod cavity is formed in the workbench; a connection rod mechanism is disposed on end surfaces of both sides of the workbench; clamp cavities are formed in end walls of both sides of the working cavity; clamp mechanisms are disposed in the corresponding clamp cavities; a sliding rod which extends upward is fixedly disposed on an end surface of the main body on tops of the corresponding clamp cavities; clamp gear grooves are formed in the main body on bottoms of the corresponding clamp cavities, wherein the clamp gear grooves are disposed in a bilateral symmetry manner; switching slider cavities are formed in the main body on bottoms of the clamp gear grooves, wherein the switching slider cavities are disposed in a bilateral symmetry manner; detailed description is performed by taking a right switching slider cavity as an example: a top wire winding cavity is formed in a first side wall of the right switching slider cavity; a printing screw cavity is formed in the main body on a second side of the right switching slider cavity; a bottom driven cavity is formed in the main body on a bottom of the right switching slider cavity; a bottom wire winding cavity is formed in the main body on a first side of the bottom driven cavity, and a slider mechanism is disposed in the right switching slider cavity; the bottom driven cavity, the bottom wire winding cavity, the top wire winding cavity and mechanisms in the cavities all have a respective same part symmetrically set relative to the working cavity; a power cavity is formed in a bottom wall of the working cavity; a printing screw which extends upward is rotationally disposed in a top wall of the printing screw cavity, wherein a top extension section of the printing screw extends out of the main body and a bottom extension section of the printing screw extends into the printing screw cavity and is fixedly provided with a printing screw conical tooth; a right rotary shaft which extends horizontally is rotationally disposed between the right switching slider cavity and the printing screw cavity; a first extension section of the right rotary shaft extends into the right switching slider cavity and is fixedly provided with a right rotary shaft left tooth and a second extension section of the right rotary shaft extends into the printing screw cavity and is fixedly provided with a right rotary shaft right tooth which is engaged with the printing screw conical tooth; wherein the right rotary shaft left tooth, the right rotary shaft and the

2019201661 18 Jun 2019 right rotary shaft right tooth do not have another symmetry parts; a supporting plate is connected to the top extension section of the printing screw in a threaded fitting manner and the supporting plate is connected with the sliding rod in a slidably fitting manner; and a printing block is fixedly disposed at a bottom end of the supporting plate.

[0006] Advantageously, the connection rod mechanism includes a motor which is fixedly inlaid into a bottom wall of the power cavity, wherein a top end of the motor is in power connection with a power conical tooth; a power gear end toothed block is fixedly disposed at a top end of the power conical tooth; a power end toothed groove is formed in a top end of the power gear end toothed block; a power slider cavity is formed in a top wall of the power cavity; a power slider is slidably disposed in the power slider cavity; a power spline sleeve is rotationally disposed in the power slider; a screw which extends upward is splined-fitted in the power spline sleeve; a connection rod middle slider is slidably disposed in the connection rod cavity; the connection rod middle slider is in threaded connection with the screw;

clothing supporting rods are hinged to end surfaces of both sides of the workbench respectively; clothing sliding plates are slidably disposed on outer walls of first extension sections of the clothing supporting rods; clothing sliding plate cavities are formed in the clothing sliding plates, and the first extension sections of the clothing supporting rods extend into the clothing sliding plate cavities; sliding plate springs are elastically connected between tail ends of first sides of the clothing supporting rods and end walls of first sides of the clothing sliding plate cavities; top sliders are slidably disposed on outer walls of the clothing supporting rods on sides of the clothing sliding plates; driven connection rods are hinged to lower positions of the end surfaces of the workbench, wherein the driven connection rods are hinged with bottom ends of the top sliders; bottom sliders are slidably disposed on outer walls of the driven connection rods, and drive connection rods are hinged between the bottom sliders and the connection rod middle slider.

[0007] Advantageously, the clamp mechanisms include sliding clamping blocks which are slidably disposed in the corresponding clamp cavities and the sliding clamping blocks are

2019201661 18 Jun 2019 disposed in the bilateral symmetry manner; clamping plate cavities are formed in end surfaces of the sliding clamping blocks, and clamp sliding guide rods which extend up and down are fixedly disposed in the clamping plate cavities, wherein top ends of the clamp sliding guide rods are fixedly connected with top walls of the clamping plate cavities and bottom ends of the clamp sliding guide rods are fixedly connected with bottom ends of the clamping plate cavities; bottom clamping plates are slidably disposed in the clamping plate cavities, and the clamp sliding guide rods are penetrated through the bottom clamping plates and are slidaby fit with the bottom clamping plates; top clamping plates are slidably disposed in the clamping plate cavities on top of the bottom clamping plates, and the clamp sliding guide rods are penetrated through the top clamping plates and are slidably fit with the top clamping plates; clamp springs are elastically arranged between the top clamping plates and the bottom clamping plates; pneumatic pumps are fixedly inlaid into the top walls of the clamping plate cavities, and the pneumatic pumps are in power connection with top ends of the top clamping plates.

[0008] Advantageously, the slider mechanism includes switching sliders which are slidably disposed in the corresponding switching slider cavities; switching slider spline sleeves which extend up and down are rotationally disposed in the corresponding switching sliders; top ends of the switching slider spline sleeves extend into the corresponding switching slider cavities and are fixedly provided with right spline sleeve gear blocks at tail ends thereof respectively; extension sections of bottoms of the switching slider spline sleeves extend into the corresponding switching slider cavities and are fixedly provided with spline sleeve conical teeth at tail ends thereof respectively; bottom spline shafts which extend downward are connected in the corresponding switching slider spline sleeves in splined fitting manner; the bottom spline shafts are penetrated through the corresponding spline sleeve conical teeth; extension sections of bottoms of the bottom spline shafts, each of which extends into a corresponding bottom driven cavity, are fixedly provided with bottom spline shaft conical teeth at tail ends thereof respectively; transmission shafts, each of which is between the corresponding bottom driven cavity and the power cavity, are horizontally and rotationally

2019201661 18 Jun 2019 disposed; extension sections of the transmission shafts extend into the corresponding bottom driven cavity and the power cavity and are fixedly provided with driven shaft right teeth which are engaged with the corresponding bottom spline shaft conical teeth and are fixedly provided with transmission shaft left teeth which are engaged with the power conical tooth ; the transmission shaft left teeth, the transmission shafts and the driven shaft right teeth are all disposed in the bilateral symmetry manner; a driven wire winding wheel groove is formed in an end surface of the power slider cavity; a driven wire winding gear is rotationally disposed in the driven wire winding wheel groove; the driven wire winding gear is engaged fit with an end surface of the power slider; and the driven wire winding gear is coupled with bottom large wire winding wheels, each of which rotationally disposed in the corresponding bottom wire winding cavity, through wires;

[0009] wherein clamp gears are rotationally disposed on end walls of back sides of the corresponding clamp gear grooves; the clamp gears are engaged with bottom ends of the corresponding sliding clamping blocks; clamp end teeth are fixedly disposed on end surfaces of front sides of the corresponding clamp gears; top rotary shafts which extend up and down are rotationally disposed between the clamp gear grooves and the corresponding switching slider cavities; top rotary shaft conical teeth which are engaged with the corresponding clamp end teeth are fixedly disposed at top ends of the corresponding top rotary shafts; extension sections of bottoms of the top rotary shafts extend into the corresponding switching slider cavities and are fixedly provided with top gears at tail ends thereof respectively; top gear block grooves are formed in bottom ends of the corresponding top gears; top wire winding gears, each of which is on a back wall of the corresponding top wire winding cavity, are rotationally disposed; wherein the top wire winding gears are connected with end surfaces of the corresponding switching sliders in an engaged manner; top small wire winding wheels are fixedly disposed on end surfaces of front sides of the corresponding top wire winding gears; bottom wire winding wheels are fixedly disposed on end surfaces of front sides of the corresponding bottom large wire winding wheels; bottom wire winding wheels are coupled with the corresponding top small wire winding wheels through right winding wires; and small

2019201661 18 Jun 2019 motors are in power connection to back sides of the corresponding bottom large wire winding wheels.

[0010] Hereinafter, the applicant will describe a using method in detail with reference to the accompanying Figures and the clothing printing device described above; firstly, in an initial state, the connection rod middle slider is furthest disposed on the top of the screw to enable the bottom sliders to be furthest disposed on the tops of the corresponding driven connection rods, so that the drive connection rods are close to each other to enable the clothing supporting rods to be furthest lower than the corresponding bottom clamping plates;

meanwhile, the switching sliders are furthest disposed at the bottoms of the corresponding switching slider cavities to enable the spline sleeve conical teeth to be engaged with the right rotary shaft left tooth and the right spline sleeve gear blocks to be separated from the corresponding top gear block grooves; and meanwhile, the power slider is furthest disposed at a bottom of the power slider cavity to enable the power spline sleeve to be fit with the power end toothed groove; and [0011] when the device is used, firstly, clothing is put on the workbench, and the motor is started to enable the power gear end toothed block to rotate, so that the power spline sleeve is rotated. The power spline sleeve drives the screw to rotate, and the screw drives the connection rod middle slider to move down, so that the driven connection rods are far away from each other to enable the corresponding clothing supporting rods to be moved to a horizontal state, and at the time, the clothing is laid out by the clothing supporting rods;

meanwhile, the transmission shafts are driven by the power conical tooth to rotate, so that the driven shaft right teeth are driven to rotate to enable the corresponding bottom spline shafts to rotate; meanwhile, the printing screw are rotated, so that the printing block approaches the clothing, and at the time, the small motors on the back sides of the corresponding bottom large wire winding wheels are started to enable the bottom large wire winding wheels to rotate, so that the top wire winding gears are rotated to enable the corresponding switching sliders to be moved upward, and the spline sleeve conical teeth are separated from the right

2019201661 18 Jun 2019 rotary shaft left tooth, and the right spline sleeve gear blocks are matched with the corresponding top gear block grooves; meanwhile, the driven wire winding gear is rotated, so that the power slider is moved upward to enable the power spline sleeve to be separated from the power end toothed groove; meanwhile, the bottom spline shafts are driven by the corresponding transmission shafts to rotate, the right spline sleeve gear blocks are driven to rotate to drive the corresponding top rotary shafts to rotate, so that the clamp gears are rotated to drive the corresponding sliding clamping blocks to be close to each other, the bottom clamping plates and the top clamping plates approach the corresponding clothing sliding plates, and at the time, the pneumatic pumps work to enable the top clamping plates and the bottom clamping plates to clamp the corresponding clothing sliding plates so as to clamp the clothing; and meanwhile, the motor is rotated in a reverse direction to enable the sliding clamping blocks to be far away from each other, so that the clothing is tensed, and at the time, the printing block works to perform printing and is returned with reverse operation after printing is finished.

[0012] In conclusion, the connection rod mechanism can enable the driven connection rods to swing left and right through the rotation of the screw, so that the clothing supporting rods swing up and down to enable the two ends of the clothing to be horizontal and be conveniently clamped with the clamp mechanisms respectively; the clamp mechanisms can be close to and far away from each other through left-and-right movement of the clamp cavities, so that the top clamping plates and the bottom clamping plates can approach the corresponding clothing sliding plates to be convenient to clamp the clothing, and at the time, the work of the pneumatic pumps can enable the top clamping plates to clamp the clothing, so that the clothing is tensed and is convenient to print; the slider mechanism can be moved up and down through the corresponding switching sliders, so that the right spline sleeve gear blocks are engaged with the corresponding top gear block grooves to enable the clamp mechanisms to be capable of moving left and right, and meanwhile, the switching sliders are moved downward to enable the spline sleeve conical teeth to be engaged with the corresponding right rotary shaft left teeth, so that the printing screw are rotated to enable the

2019201661 18 Jun 2019 printing block to be capable of performing printing; and in addition, the transmission structure is relatively single and is difficult to occur faults and convenient to maintain.

BRIEF DESCRIPTION OF THE DRAWINGS [0013] For better explaining the technical proposal in the present invention embodiments or the prior art, the drawings to be used in the description of the embodiments or the prior art will be briefly described below. Obviously, the drawings in the following description are only some embodiments of the present invention. For those common technicians in this field, other drawings may also be obtained based on these drawings without any creative work.

[0014] FIG. 1 is the overall structural diagram of a clothing printing device in this invention;

[0015] FIG. 2 is the enlarged structural diagram of “A” in FIG. 1 in the invention;

[0016] FIG. 3 is the enlarged structural diagram of “B” in FIG. 1 in the invention.

DETAILED DESCRIPTION OF THE INVENTION [0017] All of the features described herein, or all of the steps of any method or process so described, may be combined in any ways, except some of such features and / or steps are mutually exclusive.

[0018] Any of the features described in this specification may be replaced by an alternative feature serving the equivalent, or similar purpose, unless otherwise stated. That is, unless otherwise stated, each feature is only one embodiment of a generic series of equivalent or similar features.

[0019] For better explain the technical proposal in the present invention embodiments,

2019201661 18 Jun 2019

Figure 1 to Figure 3 in the embodiments will be briefly described below. Obviously, the embodiment described is only part of the embodiments of the present invention. All other embodiments obtained by persons of ordinary skill in the art based on the embodiment of the present invention without creative efforts shall fall within the protection scope of the present invention.

[0020] Referring to Figures 1-3, a clothing printing device according to the present invention includes a main body 100; a working cavity 200 is formed in an end surface of a top of the main body 100; a workbench 121 is fixedly disposed on a bottom wall of a middle part of the working cavity 200; a connection rod cavity 119 is formed in the workbench 121; a connection rod mechanism is disposed on end surfaces of both sides of the workbench 121; clamp cavities 109 are formed in end walls of both sides of the working cavity 200; clamp mechanisms are disposed in the corresponding clamp cavities 109; a sliding rod 106 which extends upward is fixedly disposed on an end surface of the main body 100 on tops of the corresponding clamp cavities 109; clamp gear grooves 128 are formed in the main body 100 on bottoms of the corresponding clamp cavities 109, wherein the clamp gear grooves 128 are disposed in a bilateral symmetry manner; switching slider cavities 135 are formed in the main body 100 on bottoms of the clamp gear grooves 128, wherein the switching slider cavities 135 are disposed in a bilateral symmetry manner; detailed description is performed by taking a right switching slider cavity 135 as an example: a top wire winding cavity 137 is formed in a first side wall of the right switching slider cavity 135; a printing screw cavity 153 is formed in the main body 100 on a second side of the right switching slider cavity 135; a bottom driven cavity 146 is formed in the main body 100 on a bottom of the right switching slider cavity 135; a bottom wire winding cavity 141 is formed in the main body 100 on a first side of the bottom driven cavity 146, and a slider mechanism is disposed in the right switching slider cavity 135; the bottom driven cavity 146, the bottom wire winding cavity 141, the top wire winding cavity 137 and mechanisms in the cavities all have a respective same part symmetrically set relative to the working cavity 200; a power cavity 126 is formed in a bottom wall of the working cavity 200; a printing screw 155 which extends upward is

2019201661 18 Jun 2019 rotationally disposed in a top wall of the printing screw cavity 153, wherein a top extension section of the printing screw 155 extends out of the main body 100 and a bottom extension section of the printing screw 155 extends into the printing screw cavity 153 and is fixedly provided with a printing screw conical tooth 154; a right rotary shaft 151 which extends horizontally is rotationally disposed between the right switching slider cavity 135 and the printing screw cavity 153; a first extension section of the right rotary shaft 151 extends into the right switching slider cavity 135 and is fixedly provided with a right rotary shaft left tooth 150 and a second extension section of the right rotary shaft 151 extends into the printing screw cavity 153 and is fixedly provided with a right rotary shaft right tooth 152 which is engaged with the printing screw conical tooth 154; wherein the right rotary shaft left tooth 150, the right rotary shaft 151 and the right rotary shaft right tooth 152 do not have another symmetry parts; a supporting plate 107 is connected to the top extension section of the printing screw 155 in a threaded fitting manner and the supporting plate 107 is connected with the sliding rod 106 in a slidably fitting manner; and a printing block 110 is fixedly disposed at a bottom end of the supporting plate 107.

[0021] Advantageously, the connection rod mechanism includes a motor 124 which is fixedly inlaid into a bottom wall of the power cavity 126, wherein a top end of the motor 124 is in power connection with a power conical tooth 125; a power gear end toothed block 338 is fixedly disposed at a top end of the power conical tooth 125; a power end toothed groove 339 is formed in a top end of the power gear end toothed block 338; a power slider cavity 337 is formed in a top wall of the power cavity 126; a power slider 331 is slidably disposed in the power slider cavity 337; a power spline sleeve 336 is rotationally disposed in the power slider 331; a screw 127 which extends upward is splined-fitted in the power spline sleeve 336; a connection rod middle slider 120 is slidably disposed in the connection rod cavity 119; the connection rod middle slider 120 is in threaded connection with the screw 127; clothing supporting rods 114 are hinged to end surfaces of both sides of the workbench 121 respectively; clothing sliding plates 111 are slidably disposed on outer walls of first extension sections of the clothing supporting rods 114; clothing sliding plate cavities 113 are formed in

2019201661 18 Jun 2019 the clothing sliding plates 111, and the first extension sections of the clothing supporting rods 114 extend into the clothing sliding plate cavities 113; sliding plate springs 112 are elastically connected between tail ends of first sides of the clothing supporting rods 114 and end walls of first sides of the clothing sliding plate cavities 113; top sliders 115 are slidably disposed on outer walls of the clothing supporting rods 114 on sides of the clothing sliding plates 111; driven connection rods 116 are hinged to lower positions of the end surfaces of the workbench 121, wherein the driven connection rods 116 are hinged with bottom ends of the top sliders 115; bottom sliders 117 are slidably disposed on outer walls of the driven connection rods 116, and drive connection rods 118 are hinged between the bottom sliders 117 and the connection rod middle slider 120.

[0022] Advantageously, the clamp mechanisms include sliding clamping blocks 101 which are slidably disposed in the corresponding clamp cavities 109 and the sliding clamping blocks 101 are disposed in the bilateral symmetry manner; clamping plate cavities 210 are formed in end surfaces of the sliding clamping blocks 101, and clamp sliding guide rods 104 which extend up and down are fixedly disposed in the clamping plate cavities 210, wherein top ends of the clamp sliding guide rods 104 are fixedly connected with top walls of the clamping plate cavities 210 and bottom ends of the clamp sliding guide rods 104 are fixedly connected with bottom ends of the clamping plate cavities 210; bottom clamping plates 102 are slidably disposed in the clamping plate cavities 210, and the clamp sliding guide rods 104 are penetrated through the bottom clamping plates 102 and are slidaby fit with the bottom clamping plates 102; top clamping plates 103 are slidably disposed in the clamping plate cavities 210 on top of the bottom clamping plates 102, and the clamp sliding guide rods 104 are penetrated through the top clamping plates 103 and are slidably fit with the top clamping plates 103; clamp springs 108 are elastically arranged between the top clamping plates 103 and the bottom clamping plates 102; pneumatic pumps 105 are fixedly inlaid into the top walls of the clamping plate cavities 210, and the pneumatic pumps 105 are in power connection with top ends of the top clamping plates 103.

2019201661 18 Jun 2019 [0023] Advantageously, the slider mechanism includes switching sliders 156 which are slidably disposed in the corresponding switching slider cavities 135; switching slider spline sleeves 158 which extend up and down are rotationally disposed in the corresponding switching sliders 156; top ends of the switching slider spline sleeves 158 extend into the corresponding switching slider cavities 135 and are fixedly provided with right spline sleeve gear blocks 136 at tail ends thereof respectively; extension sections of bottoms of the switching slider spline sleeves 158 extend into the corresponding switching slider cavities 135 and are fixedly provided with spline sleeve conical teeth 157 at tail ends thereof respectively; bottom spline shafts 148 which extend downward are connected in the corresponding switching slider spline sleeves 158 in splined fitting manner; the bottom spline shafts 148 are penetrated through the corresponding spline sleeve conical teeth 157; extension sections of bottoms of the bottom spline shafts 148, each of which extends into a corresponding bottom driven cavity 146, are fixedly provided with bottom spline shaft conical teeth 147 at tail ends thereof respectively; transmission shafts 122, each of which is between the corresponding bottom driven cavity 146 and the power cavity 126, are horizontally and rotationally disposed; extension sections of the transmission shafts 122 extend into the corresponding bottom driven cavity 146 and the power cavity 126 and are fixedly provided with driven shaft right teeth 145 which are engaged with the corresponding bottom spline shaft conical teeth 147 and are fixedly provided with transmission shaft left teeth 123 which are engaged with the power conical tooth 125; the transmission shaft left teeth 123, the transmission shafts 122 and the driven shaft right teeth 145 are all disposed in the bilateral symmetry manner; a driven wire winding wheel groove 333 is formed in an end surface of the power slider cavity 337; a driven wire winding gear 334 is rotationally disposed in the driven wire winding wheel groove 333; the driven wire winding gear 334 is engaged fit with an end surface of the power slider 331; and the driven wire winding gear 334 is coupled with bottom large wire winding wheels 144, each of which rotationally disposed in the corresponding bottom wire winding cavity 141, through wires;

[0024] wherein clamp gears 129 are rotationally disposed on end walls of back sides of the

2019201661 18 Jun 2019 corresponding clamp gear grooves 128; the clamp gears 129 are engaged with bottom ends of the corresponding sliding clamping blocks 101; clamp end teeth 130 are fixedly disposed on end surfaces of front sides of the corresponding clamp gears 129; top rotary shafts 132 which extend up and down are rotationally disposed between the clamp gear grooves 128 and the corresponding switching slider cavities 135; top rotary shaft conical teeth 131 which are engaged with the corresponding clamp end teeth 130 are fixedly disposed at top ends of the corresponding top rotary shafts 132; extension sections of bottoms of the top rotary shafts 132 extend into the corresponding switching slider cavities 135 and are fixedly provided with top gears 133 at tail ends thereof respectively; top gear block grooves 134 are formed in bottom ends of the corresponding top gears 133; top wire winding gears 138, each of which is on a back wall of the corresponding top wire winding cavity 137, are rotationally disposed; wherein the top wire winding gears 138 are connected with end surfaces of the corresponding switching sliders 156 in an engaged manner; top small wire winding wheels 139 are fixedly disposed on end surfaces of front sides of the corresponding top wire winding gears 138; bottom wire winding wheels 143 are fixedly disposed on end surfaces of front sides of the corresponding bottom large wire winding wheels 144; bottom wire winding wheels 143 are coupled with the corresponding top small wire winding wheels 139 through right winding wires 140; and small motors are in power connection to back sides of the corresponding bottom large wire winding wheels 144.

[0025] Hereinafter, the applicant will describe a using method in detail with reference to Figures 1-3 and the clothing printing device described above; firstly, in an initial state, the connection rod middle slider 120 is furthest disposed on the top of the screw 127 to enable the bottom sliders 117 to be furthest disposed on the tops of the corresponding driven connection rods 116, so that the drive connection rods 118 are close to each other to enable the clothing supporting rods 114 to be furthest lower than the corresponding bottom clamping plates 102; meanwhile, the switching sliders 156 are furthest disposed at the bottoms of the corresponding switching slider cavities 135 to enable the spline sleeve conical teeth 157 to be engaged with the right rotary shaft left tooth 150 and the right spline sleeve gear blocks 136

2019201661 18 Jun 2019 to be separated from the corresponding top gear block grooves 134; and meanwhile, the power slider 331 is furthest disposed at a bottom of the power slider cavity 337 to enable the power spline sleeve 336 to be fit with the power end toothed groove 339; and [0026] when the device is used, firstly, clothing is put on the workbench 121, and the motor 124 is started to enable the power gear end toothed block 338 to rotate, so that the power spline sleeve 336 is rotated. The power spline sleeve 336 drives the screw 127 to rotate, and the screw 127 drives the connection rod middle slider 120 to move down, so that the driven connection rods 116 are far away from each other to enable the corresponding clothing supporting rods 114 to be moved to a horizontal state, and at the time, the clothing is laid out by the clothing supporting rods 114; meanwhile, the transmission shafts 122 are driven by the power conical tooth 125 to rotate, so that the driven shaft right teeth 145 are driven to rotate to enable the corresponding bottom spline shafts 148 to rotate; meanwhile, the printing screw 155 are rotated, so that the printing block 110 approaches the clothing, and at the time, the small motors on the back sides of the corresponding bottom large wire winding wheels 144 are started to enable the bottom large wire winding wheels 144 to rotate, so that the top wire winding gears 138 are rotated to enable the corresponding switching sliders 156 to be moved upward, and the spline sleeve conical teeth 157 are separated from the right rotary shaft left tooth 150, and the right spline sleeve gear blocks 136 are matched with the corresponding top gear block grooves 134; meanwhile, the driven wire winding gear 334 is rotated, so that the power slider 331 is moved upward to enable the power spline sleeve 336 to be separated from the power end toothed groove 339; meanwhile, the bottom spline shafts 148 are driven by the corresponding transmission shafts 122 to rotate, the right spline sleeve gear blocks 136 are driven to rotate to drive the corresponding top rotary shafts 132 to rotate, so that the clamp gears 129 are rotated to drive the corresponding sliding clamping blocks 101 to be close to each other, the bottom clamping plates 102 and the top clamping plates 103 approach the corresponding clothing sliding plates 111, and at the time, the pneumatic pumps 105 work to enable the top clamping plates 103 and the bottom clamping plates 102 to clamp the corresponding clothing sliding plates 111 so as to clamp the clothing; and meanwhile, the

2019201661 18 Jun 2019 motor 124 is rotated in a reverse direction to enable the sliding clamping blocks 101 to be far away from each other, so that the clothing is tensed, and at the time, the printing block 110 works to perform printing and is returned with reverse operation after printing is finished.

[0027] The invention has the advantageous effects that:

[0028] the connection rod mechanism can enable the driven connection rod to swing left and right through rotation of the screw, so that the clothing supporting rods swing up and down to enable two ends of the clothing to be horizontal and be conveniently clamped by the clamp mechanisms respectively;

[0029] the clamp mechanisms can be close to and far away from each other through left-and-right movement of the clamp cavities, so that the top clamping plates and the bottom clamping plates can approach the corresponding clothing sliding plates to be convenient to clamp the clothing; and at the time, work of the pneumatic pumps can enable the top clamping plates to clamp the clothing, so that the clothing is tensed and is convenient to print; and [0030] the slider mechanism can be moved up and down through the corresponding switching sliders, so that the right spline sleeve gear blocks are engaged with the corresponding top gear block grooves to enable the clamp mechanisms to be capable of moving left and right, and meanwhile, the switching sliders are moved downward to enable the spline sleeve conical teeth to be engaged with the corresponding right rotary shaft left teeth, so that the printing screw are rotated to enable the printing block to be capable of performing printing.

[0031] In conclusion, the connection rod mechanism can enable the driven connection rods to swing left and right through the rotation of the screw, so that the clothing supporting rods swing up and down to enable the two ends of the clothing to be horizontal and be

2019201661 18 Jun 2019 conveniently clamped with the clamp mechanisms respectively; the clamp mechanisms can be close to and far away from each other through left-and-right movement of the clamp cavities, so that the top clamping plates and the bottom clamping plates can approach the corresponding clothing sliding plates to be convenient to clamp the clothing, and at the time, the work of the pneumatic pumps can enable the top clamping plates to clamp the clothing, so that the clothing is tensed and is convenient to print; the slider mechanism can be moved up and down through the corresponding switching sliders, so that the right spline sleeve gear blocks are engaged with the corresponding top gear block grooves to enable the clamp mechanisms to be capable of moving left and right, and meanwhile, the switching sliders are moved downward to enable the spline sleeve conical teeth to be engaged with the corresponding right rotary shaft left teeth, so that the printing screw are rotated to enable the printing block to be capable of performing printing; and in addition, the transmission structure is relatively single and is difficult to occur faults and convenient to maintain.

[0032] The above is only the specific embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions without creative efforts shall fall within the protection scope of the present invention. Therefore, the claimed protection extent of the invention shall be determined with reference to the appended claims.

Claims (4)

1. A clothing printing device, comprising a main body;

a working cavity is formed in an end surface of a top of the main body;

a workbench is fixedly disposed on a bottom wall of a middle part of the working cavity;

a connection rod cavity is formed in the workbench;

a connection rod mechanism is disposed on end surfaces of both sides of the workbench;

clamp cavities are formed in end walls of both sides of the working cavity;

clamp mechanisms are disposed in the corresponding clamp cavities;

a sliding rod which extends upward is fixedly disposed on an end surface of the main body on tops of the corresponding clamp cavities;

clamp gear grooves are formed in the main body on bottoms of the corresponding clamp cavities, wherein the clamp gear grooves are disposed in a bilateral symmetry manner;

switching slider cavities are formed in the main body on bottoms of the clamp gear grooves, wherein the switching slider cavities are disposed in a bilateral symmetry manner;

detailed description is performed by taking a right switching slider cavity as an example:

a top wire winding cavity is formed in a first side wall of the right switching slider cavity;

a printing screw cavity is formed in the main body on a second side of the right switching slider cavity;

a bottom driven cavity is formed in the main body on a bottom of the right switching slider cavity;

a bottom wire winding cavity is formed in the main body on a first side of the bottom driven cavity, and a slider mechanism is disposed in the right switching slider cavity;

the bottom driven cavity, the bottom wire winding cavity, the top wire winding cavity and mechanisms in the cavities all have a respective same part symmetrically set relative to the working cavity;

a power cavity is formed in a bottom wall of the working cavity;

2019201661 18 Jun 2019 a printing screw which extends upward is rotationally disposed in a top wall of the printing screw cavity, wherein a top extension section of the printing screw extends out of the main body and a bottom extension section of the printing screw extends into the printing screw cavity and is fixedly provided with a printing screw conical tooth;

a right rotary shaft which extends horizontally is rotationally disposed between the right switching slider cavity and the printing screw cavity;

a first extension section of the right rotary shaft extends into the right switching slider cavity and is fixedly provided with a right rotary shaft left tooth and a second extension section of the right rotary shaft extends into the printing screw cavity and is fixedly provided with a right rotary shaft right tooth which is engaged with the printing screw conical tooth;

wherein the right rotary shaft left tooth, the right rotary shaft and the right rotary shaft right tooth do not have another symmetry parts;

a supporting plate is connected to the top extension section of the printing screw in a threaded fitting manner and the supporting plate is connected with the sliding rod in a slidably fitting manner;

and a printing block is fixedly disposed at a bottom end of the supporting plate.

2. The clothing printing device according to claim 1, wherein the connection rod mechanism comprises a motor which is fixedly inlaid into a bottom wall of the power cavity, wherein a top end of the motor is in power connection with a power conical tooth;

a power gear end toothed block is fixedly disposed at a top end of the power conical tooth;

a power end toothed groove is formed in a top end of the power gear end toothed block;

a power slider cavity is formed in a top wall of the power cavity;

a power slider is slidably disposed in the power slider cavity;

a power spline sleeve is rotationally disposed in the power slider;

a screw which extends upward is splined-fitted in the power spline sleeve;

2019201661 18 Jun 2019 a connection rod middle slider is slidably disposed in the connection rod cavity;

the connection rod middle slider is in threaded connection with the screw;

clothing supporting rods are hinged to end surfaces of both sides of the workbench respectively;

clothing sliding plates are slidably disposed on outer walls of first extension sections of the clothing supporting rods;

clothing sliding plate cavities are formed in the clothing sliding plates, and the first extension sections of the clothing supporting rods extend into the clothing sliding plate cavities;

sliding plate springs are elastically connected between tail ends of first sides of the clothing supporting rods and end walls of first sides of the clothing sliding plate cavities;

top sliders are slidably disposed on outer walls of the clothing supporting rods on sides of the clothing sliding plates;

driven connection rods are hinged to lower positions of the end surfaces of the workbench, wherein the driven connection rods are hinged with bottom ends of the top sliders;

bottom sliders are slidably disposed on outer walls of the driven connection rods, and drive connection rods are hinged between the bottom sliders and the connection rod middle slider.

3. The clothing printing device according to claim 1 and claim 2, wherein the clamp mechanisms comprise sliding clamping blocks which are slidably disposed in the corresponding clamp cavities and the sliding clamping blocks are disposed in the bilateral symmetry manner;

clamping plate cavities are formed in end surfaces of the sliding clamping blocks, and clamp sliding guide rods which extend up and down are fixedly disposed in the clamping plate cavities, wherein top ends of the clamp sliding guide rods are fixedly connected with top walls of the clamping plate cavities and bottom ends of the clamp sliding guide rods are fixedly connected with bottom ends of the clamping plate cavities;

bottom clamping plates are slidably disposed in the clamping plate cavities, and the clamp sliding guide rods are penetrated through the bottom clamping plates and are

2019201661 18 Jun 2019 slidaby fit with the bottom clamping plates;

top clamping plates are slidably disposed in the clamping plate cavities on top of the bottom clamping plates, and the clamp sliding guide rods are penetrated through the top clamping plates and are slidably fit with the top clamping plates;

clamp springs are elastically arranged between the top clamping plates and the bottom clamping plates;

pneumatic pumps are fixedly inlaid into the top walls of the clamping plate cavities, and the pneumatic pumps are in power connection with top ends of the top clamping plates.

4. The clothing printing device according to claim 1 to claim 3, wherein the slider mechanism comprises switching sliders which are slidably disposed in the corresponding switching slider cavities; switching slider spline sleeves which extend up and down are rotationally disposed in the corresponding switching sliders;

top ends of the switching slider spline sleeves extend into the corresponding switching slider cavities and are fixedly provided with right spline sleeve gear blocks at tail ends thereof respectively;

extension sections of bottoms of the switching slider spline sleeves extend into the corresponding switching slider cavities and are fixedly provided with spline sleeve conical teeth at tail ends thereof respectively;

bottom spline shafts which extend downward are connected in the corresponding switching slider spline sleeves in splined fitting manner;

the bottom spline shafts are penetrated through the corresponding spline sleeve conical teeth; extension sections of bottoms of the bottom spline shafts, each of which extends into a corresponding bottom driven cavity, are fixedly provided with bottom spline shaft conical teeth at tail ends thereof respectively;

transmission shafts, each of which is between the corresponding bottom driven cavity and the power cavity, are horizontally and rotationally disposed;

2019201661 18 Jun 2019 extension sections of the transmission shafts extend into the corresponding bottom driven cavity and the power cavity and are fixedly provided with driven shaft right teeth which are engaged with the corresponding bottom spline shaft conical teeth and are fixedly provided with transmission shaft left teeth which are engaged with the power conical tooth ;

the transmission shaft left teeth, the transmission shafts and the driven shaft right teeth are all disposed in the bilateral symmetry manner;

a driven wire winding wheel groove is formed in an end surface of the power slider cavity; a driven wire winding gear is rotationally disposed in the driven wire winding wheel groove; the driven wire winding gear is engaged fit with an end surface of the power slider;

and the driven wire winding gear is coupled with bottom large wire winding wheels, each of which rotationally disposed in the corresponding bottom wire winding cavity, through wires; wherein clamp gears are rotationally disposed on end walls of back sides of the corresponding clamp gear grooves;

the clamp gears are engaged with bottom ends of the corresponding sliding clamping blocks; clamp end teeth are fixedly disposed on end surfaces of front sides of the corresponding clamp gears;

top rotary shafts which extend up and down are rotationally disposed between the clamp gear grooves and the corresponding switching slider cavities;

top rotary shaft conical teeth which are engaged with the corresponding clamp end teeth are fixedly disposed at top ends of the corresponding top rotary shafts;

extension sections of bottoms of the top rotary shafts extend into the corresponding switching slider cavities and are fixedly provided with top gears at tail ends thereof respectively;

top gear block grooves are formed in bottom ends of the corresponding top gears;

top wire winding gears, each of which is on a back wall of the corresponding top wire winding cavity, are rotationally disposed;

wherein the top wire winding gears are connected with end surfaces of the corresponding switching sliders in an engaged manner;

top small wire winding wheels are fixedly disposed on end surfaces of front sides of the corresponding top wire winding gears;

2019201661 18 Jun 2019 bottom wire winding wheels are fixedly disposed on end surfaces of front sides of the corresponding bottom large wire winding wheels;

bottom wire winding wheels are coupled with the corresponding top small wire winding wheels through right winding wires;

and small motors are in power connection to back sides of the corresponding bottom large wire winding wheels.