CN214354859U - Cloth stamp device - Google Patents

Abstract

The utility model relates to a stamp device especially relates to a cloth stamp device. The cloth printing device can automatically print the cloth and enable the color of the printed pattern to be consistent. The utility model provides a cloth stamp device, is including the bottom plate, place platform, servo motor and support frame, and bottom plate top one side is equipped with places the platform, places the bench-top and is equipped with servo motor, is close to the bottom plate top one side of placing the platform and is equipped with the support frame. The intermittent moving mechanism is arranged, so that the moving distance of the cloth is consistent every time, and all positions of the cloth can be printed during printing; the cloth position can be fixed through the arranged pressing mechanism, so that the cloth position can be prevented from deviating during printing; the printing mechanism arranged can be used for printing without manpower, so that the phenomenon that the dye is stuck to hands can be avoided.

Description

Cloth stamp device

Technical Field

The utility model relates to a stamp device especially relates to a cloth stamp device.

Background

The printing process is a process for printing patterns on the textile by using dyes or pigments, and the printing process comprises the following steps of textile printing, wool top printing and yarn printing, and the textile printing is mainly used.

When printing on cloth, the dye is required to be placed in the printing frame firstly, then the printing frame is covered on the cloth, then the scraper blade is pulled manually, so that the dye is smeared on the cloth, but the printing process is carried out manually, when the force for pulling the scraper blade is inconsistent, the dye is not smeared uniformly, so that the colors of printed patterns are different, and if the dye is adhered on the hand, the cloth is not easy to clean, so that a cloth printing device capable of automatically printing the cloth and enabling the colors of the printed patterns to be consistent is required to be designed.

SUMMERY OF THE UTILITY MODEL

In order to overcome the manual printing process, when the dynamics of pulling the scraper blade is inconsistent, make the dyestuff paint unevenly to make the pattern colour shade of printing out differ, and if there is the dyestuff difficult abluent shortcoming of gluing when on hand, the technical problem that solves is: the cloth printing device can automatically print the cloth and enable the color of the printed pattern to be consistent.

Technical scheme does, a cloth stamp device, including the bottom plate, place platform, servo motor and support frame, bottom plate top one side is equipped with places the platform, places the bench top and is equipped with servo motor, is close to bottom plate top one side of placing the platform and is equipped with the support frame, still including intermittent type moving mechanism, pushing down mechanism and stamp mechanism, the bottom plate top is equipped with intermittent type moving mechanism, is connected with pushing down mechanism and stamp mechanism between bottom plate and the support frame.

Further, intermittent type moving mechanism is including first axle sleeve, first pivot, it is first scarce the gear, first rack, the bracing piece, first slide rail and blowing board, bottom plate top one side is equipped with first axle sleeve, the rotary type is equipped with first pivot on the first axle sleeve, first pivot one end and servo motor output shaft link to each other, first pivot one side is equipped with first scarce gear, the bottom plate top all is equipped with the bracing piece all around, all be connected with first slide rail between the bracing piece of both sides, slidingtype is equipped with the blowing board between the first slide rail, blowing board bottom is equipped with first rack, first rack can with first lack the gear and mesh mutually.

Further, the pressing mechanism comprises a second shaft sleeve, a first transmission assembly, a third shaft sleeve, a fourth shaft sleeve, a fifth shaft sleeve, a second rotating shaft, a first bevel gear set, a second gear lacking, a third rotating shaft, a second transmission assembly, a third gear lacking, a second rack and a printing frame, wherein the second shaft sleeve is arranged on one side of the top of the bottom plate, the third shaft sleeve is arranged on one side of the inner top of the support frame, the fourth shaft sleeve is arranged on one side of the inner top of the support frame far away from the third shaft sleeve, the fifth shaft sleeve is arranged on one side of the inner top of the support frame close to the third shaft sleeve, the second rotating shaft is rotatably arranged between the second shaft sleeve, the third shaft sleeve and the fourth shaft sleeve, the first transmission assembly is connected between one end of the second rotating shaft and the other end of the first rotating shaft, the first bevel gear set is connected between one side of the first rotating shaft and a printing mechanism component, the second gear lacking is arranged in the middle of the first rotating shaft, the third rotating shaft is rotatably arranged on the fifth shaft sleeve, a second transmission assembly is connected between one end of the third rotating shaft and one side of the second rotating shaft, a third gear is arranged at the other end of the third rotating shaft, a printing frame is arranged between the bottom plate and the supporting frame in a sliding mode, a second rack is arranged in the middle of the top of the printing frame, and the second rack can be meshed with the second gear and the third gear.

Further, the printing mechanism comprises a sixth shaft sleeve, a fourth rotating shaft, a fourth gear lacking, a second bevel gear set, a second sliding rail, a third rack, a first spring, a telescopic rod, a brushing plate, a second spring and a seventh shaft sleeve, wherein the sixth shaft sleeve is arranged on one side in the support frame, the seventh shaft sleeve is arranged on one side of the top in the support frame, the fourth rotating shaft is rotatably arranged on the seventh shaft sleeve and the sixth shaft sleeve, the fourth gear lacking is arranged on one side of the fourth rotating shaft, the fourth rotating shaft on one side is connected with one bevel gear of the first bevel gear set, the second bevel gear set is connected between one end of the fourth rotating shaft on the other side and the other end of the second rotating shaft, the second sliding rails are arranged on the upper portion of the right side of the bottom plate and the left and right sides of the support frame, the third rack is slidably arranged between the second sliding rails and can be meshed with the fourth gear lacking, the brushing plate is slidably arranged on both sides in the printing frame, and the second spring is connected between both sides of the brushing plate and the inner wall of the printing frame, all be connected with the telescopic link between brush board middle part and the third rack bottom, all overlap on the telescopic link and be equipped with first spring, the initial condition of first spring is the compression, and first spring both ends link to each other with brush board and third rack respectively.

Furthermore, the printing frame is arranged in a detachable mode.

The utility model has the advantages that: the intermittent moving mechanism is arranged, so that the moving distance of the cloth is consistent every time, and all positions of the cloth can be printed during printing; the cloth position can be fixed through the arranged pressing mechanism, so that the cloth position can be prevented from deviating during printing; the printing mechanism arranged can be used for printing without manpower, so that the phenomenon that the dye is stuck to hands can be avoided.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a first partial body structure according to the present invention.

Fig. 3 is a schematic diagram of a second partial body structure according to the present invention.

Fig. 4 is a schematic perspective view of a third part of the present invention.

Wherein: 1-a bottom plate, 2-a placing table, 3-a servo motor, 4-a support frame, 5-an intermittent moving mechanism, 50-a first shaft sleeve, 51-a first rotating shaft, 52-a first gear lack, 53-a first rack, 54-a support rod, 55-a first sliding rail, 56-a material placing plate, 6-a pressing mechanism, 60-a second shaft sleeve, 61-a first transmission component, 62-a third shaft sleeve, 63-a fourth shaft sleeve, 64-a fifth shaft sleeve, 65-a second rotating shaft, 66-a first bevel gear set, 67-a second gear lack, 68-a third rotating shaft, 69-a second transmission component, 610-a third gear lack, 611-a second rack, 612-a printing frame, 7-a printing mechanism, 70-a sixth shaft sleeve, 71-a fourth rotating shaft, 72-fourth missing gear, 73-second bevel gear set, 74-second sliding rail, 75-third rack, 76-first spring, 77-telescopic rod, 78-brush plate, 79-second spring, 710-seventh shaft sleeve.

Detailed Description

The invention will be further described with reference to specific examples, wherein the terms, unless otherwise expressly specified or limited, are as follows: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

A cloth printing device is shown in figure 1 and comprises a bottom plate 1, a placing table 2, a servo motor 3, a support frame 4, an intermittent moving mechanism 5, a pressing mechanism 6 and a printing mechanism 7, wherein the placing table 2 is arranged on the right side of the top of the bottom plate 1, the servo motor 3 is arranged on the top of the placing table 2, the support frame 4 is arranged on the rear right side of the top of the bottom plate 1, the intermittent moving mechanism 5 is arranged on the top of the bottom plate 1, the pressing mechanism 6 and the printing mechanism 7 are connected between the bottom plate 1 and the support frame 4, when printing is needed on cloth, a worker can firstly place the cloth on the part of the intermittent moving mechanism 5, dye is placed in the part of the pressing mechanism 6, then the servo motor 3 is started to work, the servo motor 3 works to drive the intermittent moving mechanism 5 to work, the working of the intermittent moving mechanism 5 drives the pressing mechanism 6 to work, the pressing mechanism 6 works to drive the printing mechanism 7 to work, and the intermittent moving mechanism 5, Under the cooperation of pushing down mechanism 6 and stamp mechanism 7, can paint the dyestuff on the cloth to accomplish stamp work, when no longer needing to the cloth printing, stop servo motor 3 work can.

As shown in fig. 2, the intermittent movement mechanism 5 includes a first shaft sleeve 50, a first rotating shaft 51, a first gear lacking 52, a first rack 53, a support rod 54, a first slide rail 55 and a material placing plate 56, the right front side of the top of the bottom plate 1 is provided with the first shaft sleeve 50, the first shaft sleeve 50 is rotatably provided with the first rotating shaft 51, the rear end of the first rotating shaft 51 is connected with the output shaft of the servo motor 3, the rear side of the first rotating shaft 51 is provided with the first gear lacking 52, the periphery of the top of the bottom plate 1 is provided with the support rod 54, the left and right support rods 54 are connected with the first slide rail 55, the material placing plate 56 is slidably provided between the first slide rails 55, the bottom of the material placing plate 56 is provided with the first rack 53, the first rack 53 can be engaged with the first gear lacking 52, the material is placed on the material placing plate 56, the dye is placed in the component of the pressing mechanism 6, then the servo motor 3 is started to work, the servo motor 3 rotates the output shaft to drive the first rotating shaft 51 to rotate, the first rotating shaft 51 rotates to drive the first gear lack 52 to rotate, the first gear lack 52 rotates to be meshed with the first rack 53 and then continues to rotate, so that the first rack 53 is driven to move rightwards, the first rack 53 moves rightwards to drive the discharging plate 56 to move rightwards, cloth can move to the position below the pressing mechanism 6, then the first gear lack 52 rotates to be not meshed with the first rack 53, the discharging plate 56 stops moving, and the next step of cloth printing can be started.

As shown in fig. 3, the pressing mechanism 6 includes a second shaft sleeve 60, a first transmission assembly 61, a third shaft sleeve 62, a fourth shaft sleeve 63, a fifth shaft sleeve 64, a second rotation shaft 65, a first bevel gear set 66, a second gear 67, a third rotation shaft 68, a second transmission assembly 69, a third gear 610, a second rack 611 and a printing frame 612, the second shaft sleeve 60 is disposed on the right front side of the top of the bottom plate 1, the third shaft sleeve 62 is disposed on the right front side of the top of the support frame 4, the fourth shaft sleeve 63 is disposed on the right rear side of the top of the support frame 4, the fifth shaft sleeve 64 is disposed on the left front side of the top of the support frame 4, the second rotation shaft 65 is rotatably disposed between the second shaft sleeve 60, the third shaft sleeve 62 and the fourth shaft sleeve 63, the first transmission assembly 61 is connected between the front end of the second rotation shaft 65 and the front end of the first rotation shaft 51, the first bevel gear set 66 is connected between the front of the first rotation shaft 51 and the printing mechanism 7, the second gear 67 is disposed in the middle of the first rotation shaft 51, a third rotating shaft 68 is rotatably arranged on the fifth shaft sleeve 64, a second transmission assembly 69 is connected between the front end of the third rotating shaft 68 and the front side of the second rotating shaft 65, a third missing gear 610 is arranged at the rear end of the third rotating shaft 68, a printing frame 612 is slidably arranged between the bottom plate 1 and the support frame 4, a second rack 611 is arranged in the middle of the top of the printing frame 612, the second rack 611 can be meshed with the second missing gear 67 and the third missing gear 610 to pour the dye into the printing frame 612, the first rotating shaft 51 rotates and drives the second rotating shaft 65 to rotate through the first transmission assembly 61, the second rotating shaft 65 rotates and drives the printing mechanism 7 to work, the second rotating shaft 65 rotates and drives the third rotating shaft 68 to rotate through the second transmission assembly 69, the third missing gear 68 rotates and drives the third missing gear 610 to rotate, the third missing gear 610 rotates and drives the second rack 611 to move downwards, the second rack 611 moves downwards and drives the printing frame 612 to move downwards, the printing frame 612 moves downwards to press the cloth, so that printing processing can be conveniently performed on the cloth, the second rotating shaft 65 rotates to drive the second gear 67 to rotate, when the second gear 67 rotates to be meshed with the second rack 611, the third gear 610 does not mesh with the second rack 611, so that the second gear 67 rotates to drive the second rack 611 to move upwards, the second rack 611 moves upwards to drive the printing frame 612 to move upwards, printing on partial part of the cloth is completed at the moment, then the first gear 52 rotates again to be meshed with the first rack 53, and therefore the printing processing is repeated, and complete printing processing can be performed on the cloth.

As shown in fig. 4, the printing mechanism 7 includes a sixth shaft sleeve 70, a fourth rotating shaft 71, a fourth gear-lacking 72, a second bevel gear set 73, a second sliding rail 74, a third rack 75, a first spring 76, an expansion link 77, a brush plate 78, a second spring 79 and a seventh shaft sleeve 710, the sixth shaft sleeve 70 is disposed at the rear side in the supporting frame 4, the seventh shaft sleeve 710 is disposed at the front side of the top in the supporting frame 4, the fourth rotating shaft 71 is rotatably disposed on the seventh shaft sleeve 710 and the sixth shaft sleeve 70, the fourth gear-lacking 72 is disposed at the right side of the fourth rotating shaft 71, the fourth rotating shaft 71 at the front side is connected to one of the bevel gears of the first bevel gear set 66, the second bevel gear set 73 is connected between the right end of the fourth rotating shaft 71 at the rear side and the rear end of the second rotating shaft 65, the second sliding rails 74 are disposed at the upper right side of the bottom plate 1 and the left and right sides of the supporting frame 4, the third rack 75 is slidably disposed between the second sliding rails 74, the third rack 75 can be engaged with the fourth gear-lacking gear 72, the front side and the rear side of the printing frame 612 are both provided with the brushing plates 78 in a sliding manner, the left side and the right side of the brushing plates 78 and the inner wall of the printing frame 612 are both connected with the second springs 79, the middle parts of the brushing plates 78 and the bottoms of the third racks 75 are both connected with the telescopic rods 77, the telescopic rods 77 are both sleeved with the first springs 76, the initial state of the first springs 76 is compression, both ends of the first springs 76 are respectively connected with the brushing plates 78 and the third racks 75, the printing frame 612 moves downwards, so that the brushing plates 78 move downwards simultaneously under the action of the first springs 76, the telescopic ends of the telescopic rods 77 extend, the second rotating shaft 65 rotates to drive the front-side fourth rotating shaft 71 to rotate through the first bevel gear set 66, the second rotating shaft 65 rotates to drive the rear-side fourth rotating shaft 71 to rotate through the second bevel gear set 73, the fourth rotating shafts 71 at the front side and the rear side both rotate to drive the fourth gear 72 to rotate, when the fourth gear 72 rotates to be meshed with the third racks 75, the third lacking gear 610 does not mesh with the second rack 611, and then the fourth lacking gear 72 rotates to make the third rack 75 move, the third racks 75 at the front and rear sides move away from each other, so that the brushing plates 78 at the front and rear sides move away from each other in the printing frame 612, the second spring 79 is compressed, the brushing plates 78 move to scrape the dye, so that the dye is smeared on the cloth, thereby completing the printing work, when the fourth lacking gear 72 rotates to not mesh with the third rack 75, the second lacking gear 67 rotates to mesh with the second rack 611, so that the printing frame 612 moves upward, under the action of the second spring 79, the brushing plates 78 approach each other to drive the third racks 75 to approach each other, the printing frame 612 moves upward to drive the brushing plates 78 to move upward, so that the first spring 76 is compressed, and then the first lacking gear 52 rotates again to mesh with the first rack 53, and the printing step is repeated, so as to continuously print the cloth, when no longer needing to stamp the cloth, stop servo motor 3 work, the staff can collect the cloth that has printed.

The technical principles of the embodiments of the present invention have been described above with reference to specific embodiments. The description is only intended to explain the principles of embodiments of the invention and should not be taken in any way as limiting the scope of embodiments of the invention. Based on the explanations herein, those skilled in the art should appreciate that other embodiments of the present invention are possible without inventive effort, and these embodiments are intended to fall within the scope of the embodiments of the present invention.

Claims (5)

1. The utility model provides a cloth stamp device, including bottom plate (1), place platform (2), servo motor (3) and support frame (4), bottom plate (1) top one side is equipped with places platform (2), places platform (2) top and is equipped with servo motor (3), is equipped with support frame (4) on one side of bottom plate (1) top near placing platform (2), its characterized in that: the printing machine is characterized by further comprising an intermittent moving mechanism (5), a pressing mechanism (6) and a printing mechanism (7), wherein the intermittent moving mechanism (5) is arranged at the top of the bottom plate (1), and the pressing mechanism (6) and the printing mechanism (7) are connected between the bottom plate (1) and the support frame (4).

2. A cloth printing apparatus as claimed in claim 1, wherein: intermittent type moving mechanism (5) is including first axle sleeve (50), first pivot (51), first scarce gear (52), first rack (53), bracing piece (54), first slide rail (55) and blowing board (56), bottom plate (1) top one side is equipped with first axle sleeve (50), first pivot (51) are equipped with to the last rotation type of first axle sleeve (50), first pivot (51) one end and servo motor (3) output shaft link to each other, first pivot (51) one side is equipped with first scarce gear (52), bottom plate (1) top all is equipped with bracing piece (54) all around, all be connected with first slide rail (55) between both sides bracing piece (54), slidingtype is equipped with between first slide rail (55) and puts flitch (56), it is equipped with first rack (53) to put flitch (56) bottom, first rack (53) can be engaged with first scarce gear (52).

3. A cloth printing apparatus as claimed in claim 2, wherein: the pressing mechanism (6) comprises a second shaft sleeve (60), a first transmission assembly (61), a third shaft sleeve (62), a fourth shaft sleeve (63), a fifth shaft sleeve (64), a second rotating shaft (65), a first bevel gear set (66), a second gear lacking (67), a third rotating shaft (68), a second transmission assembly (69), a third gear lacking (610), a second rack (611) and a printing frame (612), wherein the second shaft sleeve (60) is arranged on one side of the top of the bottom plate (1), the third shaft sleeve (62) is arranged on one side of the inner top of the support frame (4), the fourth shaft sleeve (63) is arranged on one side of the inner top of the support frame (4) far away from the third shaft sleeve (62), the fifth shaft sleeve (64) is arranged on one side of the inner top of the support frame (4) close to the third shaft sleeve (62), the second rotating shaft sleeve (60), the third shaft sleeve (62) and the second rotating shaft (65) are rotatably arranged between the fourth shaft sleeve (63), be connected with first transmission assembly (61) between second pivot (65) one end and first pivot (51) the other end, be connected with first bevel gear group (66) between first pivot (51) one side and stamp mechanism (7) part, first pivot (51) middle part is equipped with second and lacks gear (67), fifth axle sleeve (64) go up the rotation type and be equipped with third pivot (68), be connected with second transmission assembly (69) between third pivot (68) one end and second pivot (65) one side, third pivot (68) other end is equipped with third and lacks gear (610), slidingtype is equipped with stamp frame (612) between bottom plate (1) and support frame (4), be equipped with second rack (611) in the middle of stamp frame (612) top, second rack (611) can lack gear (67) and third and lack gear (610) and mesh mutually.

4. A cloth printing apparatus as claimed in claim 3, wherein: the printing mechanism (7) comprises a sixth shaft sleeve (70), a fourth rotating shaft (71), a fourth gear (72), a second bevel gear set (73), a second slide rail (74), a third rack (75), a first spring (76), an expansion link (77), a brush board (78), a second spring (79) and a seventh shaft sleeve (710), the sixth shaft sleeve (70) is arranged on one side in the support frame (4), the seventh shaft sleeve (710) is arranged on one side of the inner top of the support frame (4), the fourth rotating shaft (71) is rotatably arranged on the seventh shaft sleeve (710) and the sixth shaft sleeve (70), the fourth gear (72) is arranged on one side of the fourth rotating shaft (71), the fourth rotating shaft (71) is connected with one bevel gear of the first bevel gear set (66) on one side, the second bevel gear set (73) is connected between one end of the fourth rotating shaft (71) on the other side and the other end of the second rotating shaft (65), bottom plate (1) right side upper portion and the left and right sides of support frame (4) all are equipped with second slide rail (74), all slidingtype is equipped with third rack (75) between second slide rail (74), third rack (75) can lack gear (72) with the fourth and mesh mutually, the equal slidingtype in both sides is equipped with brush board (78) in printing frame (612), all be connected with second spring (79) between brush board (78) both sides and printing frame (612) inner wall, all be connected with telescopic link (77) between brush board (78) middle part and third rack (75) bottom, all overlap on telescopic link (77) and be equipped with first spring (76), the initial condition of first spring (76) is the compression, first spring (76) both ends link to each other with brush board (78) and third rack (75) respectively.

5. A cloth printing apparatus as claimed in claim 4, wherein: the print frame (612) is removably disposed.

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