CN213861433U - Printing proofing experimental equipment - Google Patents

Abstract

The embodiment of the utility model provides a stamp proofing experimental facility, including the equipment main part, the equipment main part includes movable support and connecting plate, the movable support includes support main part and curb plate, the support main part passes through connecting plate fixed connection, the curb plate movably sets up in the support main part; the roller driving mechanism comprises a first roller shaft and a second roller shaft, and the first roller shaft and the second roller shaft are rotatably arranged on the side plate. The utility model provides a thereby the position of the first roller of stamp proof experimental facilities accessible removal curb plate structure adjustment and second roller, and then realize adaptation and the application of different grade type or the cloth matter product of not unidimensional size, need not through complicated many times adjustment, can thoroughly solve the problem that the stamp equipment among the prior art is difficult to satisfy the variety demand that the user printed the pattern to different cloth matter products.

Description

Printing proofing experimental equipment

Technical Field

The utility model relates to a proof press product technical field, concretely relates to stamp proof experimental facilities.

Background

Before the printing operation is started, the printing machine needs to be checked to ensure the printing effect, and if the printing machine is directly used for printing and watching the effect, the problems that more ink and cloth are consumed, the power consumption is high, the utilization rate of the printing machine is influenced and the like exist. Therefore, in the prior art, the manufactured printing plate roller is subjected to trial printing (also called as printing proofing) to determine whether the manufacturing of the printing plate meets the requirements or not, and whether the color effect of the printed printing plate achieves the expected effect or not.

However, the existing printing equipment on the market has certain limitations in use, the structural design of the printing equipment is fixed after the printing equipment is produced and delivered from a factory, and generally speaking, one type of printing equipment can only finish the proofing and printing operation of one type or size of cloth products. When a user needs to print cloth products of other styles, printing equipment of other styles has to be purchased, so that the printing and proofing cost is high, and the requirement of the user on the diversity of printing and proofing of different cloth products cannot be met. The printing machine capable of automatically adjusting the printing structure also exists in the prior art, but the printing machine of the type also needs to perform complex multiple adjustments on screen printing plates of various colors during batch printing, printing can be performed after confirmation, and the requirement of a user on the diversity of printing and proofing of different cloth products is difficult to meet during practical application.

SUMMERY OF THE UTILITY MODEL

For the problem that the stamp equipment among the solution prior art is difficult to satisfy the user to the variety demand of different cloth matter product stamps proof, the utility model provides a stamp proof experimental facilities.

The utility model provides a stamp proof experimental facilities which characterized in that includes:

the equipment comprises an equipment main body, a movable support and a connecting plate, wherein the movable support comprises a support main body and a side plate, the support main body is fixedly connected through the connecting plate, and the side plate is movably arranged on the support main body;

the roller driving mechanism comprises a first roller shaft and a second roller shaft, and the first roller shaft and the second roller shaft are rotatably arranged on the side plate.

Further, the movable support further comprises a first servo cylinder, the first servo cylinder is connected with the side plate through a first telescopic rod, and the first servo cylinder is used for driving the side plate to move relative to the support main body.

Further, roller actuating mechanism still includes driving motor, driving motor with first roller is connected, driving motor is used for the drive first roller rotary motion.

Further, the roller shaft driving mechanism further comprises a transmission gear, the transmission gear is arranged on each of the first roller shaft and the second roller shaft, and the first roller shaft drives the second roller shaft to rotate through mutual meshing of the transmission gears.

The limiting driving mechanism comprises a limiting part, a limiting groove is formed in the end part of the second roller shaft, and the limiting part is used for being matched with the limiting groove so as to block the second roller shaft from rotating.

Further, spacing actuating mechanism still includes second servo cylinder, second telescopic link and pivot, spacing portion is fixed to be set up in the pivot, the second telescopic link with pivot rotatable coupling, thereby the second servo cylinder is through the drive the pivot rotates and drives spacing portion rotary motion.

Furthermore, the oil receiving disc is fixedly arranged between the movable supports and is arranged at the bottoms of the first roll shaft and the second roll shaft.

Further, connect the food tray to include first food tray and second food tray that connects, the second connects the food tray to set up in the bottom of first food tray that connects, and first food tray that connects for the slope of second food tray sets up.

The utility model provides a stamp proof experimental facilities includes equipment main part and roller actuating mechanism, and the equipment main part includes movable support and connecting plate, and movable support includes support main part and curb plate, and the support main part passes through connecting plate fixed connection, and the curb plate movably sets up on the support main part; the roller shaft driving mechanism comprises a first roller shaft and a second roller shaft, and the first roller shaft and the second roller shaft are rotatably arranged on the side plate. Wherein, first roller and second roller all are used for placing the cloth matter product of treating the printing, specifically are that the cloth matter product coils the surface that sets up at first roller and second roller in proper order, thereby roller actuating mechanism rotates through driving first roller and second roller and drives the rotation of cloth matter product. In the rotating process of the cloth product, the spray gun head is kept still, so that sprayed paint droplets or ink droplets are uniformly sprayed on the cloth product, and uniform printing and proofing operation is completed. Particularly, because the curb plate can remove for the support main part, when the cloth product of different styles need to be printed, thereby the accessible removes the position of curb plate structure adjustment first roller and second roller, makes the two be adapted to different grade type or the cloth product of different size. Simultaneously, when needing to carry out the batch printing operation of cloth matter product, need not the user and carry out complicated many times adjustment to this stamp proof experimental facilities, the cloth matter product's that directly prints as required size and type adjust the position of first roller and second roller can, easy operation is convenient. Therefore, the utility model provides a thereby the position of the first roller of stamp proof experimental facilities accessible removal curb plate structure adjustment and second roller, and then realize the adaptation and the application of different grade type or the cloth matter product of not unidimensional size, need not through complicated many times adjustment, can thoroughly solve the problem that the stamp equipment among the prior art is difficult to satisfy the variety demand that the user printed a design to different cloth matter products stamps.

Drawings

FIG. 1 is a schematic view of a printing proofing experimental facility of the present invention;

fig. 2 is a schematic view of the movable support of the present invention;

fig. 3 is a schematic view of a roller shaft drive mechanism of the present invention;

fig. 4 is a schematic view of the movable support and the spacing drive mechanism of the present invention;

FIG. 5 is an enlarged partial schematic view of the circled portion of FIG. 4;

FIG. 6 is a schematic view of the movable support and drip pan of the present invention;

description of reference numerals: 1. a movable support; 101. a stent body; 102. a side plate; 103. a first servo cylinder; 2. a connecting plate; 3. a roller shaft drive mechanism; 301. a first roller shaft; 302. a second roller shaft; 3021. a limiting groove; 303. a drive motor; 304. a transmission gear; 4. a limiting driving mechanism; 401. a second servo cylinder; 402. a rotating shaft; 403. a limiting part; 5. a first oil receiving pan; 6. a second oil receiving pan.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Participate in figure 1 shown, according to the utility model discloses an embodiment, stamp proof experimental facilities includes the equipment main part, and the equipment main part includes movable support 1 and connecting plate 2, and movable support 1 includes support main part 101 and curb plate 102, and support main part 101 passes through connecting plate 2 fixed connection, and the movably setting of curb plate 102 is on support main part 101. Wherein, two movable supports 1 are arranged and fixedly connected with each other through a connecting plate 2 to integrally form an equipment main body; the side plate 102 is fitted in the holder main body 101 to be movable along the long side of the holder main body 101.

The printing proofing experimental equipment further comprises a roller shaft driving mechanism 3, the roller shaft driving mechanism 3 comprises a first roller shaft 301 and a second roller shaft 302, and the first roller shaft 301 and the second roller shaft 302 are rotatably arranged on the side plate 102. Wherein, first roller 301 and second roller 302 all are used for placing the cloth matter product of treating the printing, specifically are cloth matter product and coil the surface that sets up at first roller 301 and second roller 302 in proper order, thereby roller actuating mechanism 3 rotates through first roller 301 of drive and second roller 302 and drives cloth matter product and rotate. In the rotating process of the cloth product, the spray gun head is kept still, so that sprayed paint droplets or ink droplets are uniformly sprayed on the cloth product, and uniform printing and proofing operation is completed.

Specifically, since the side plate 102 is movable relative to the holder main body 101, when different styles of cloth products need to be printed, the positions of the first roller 301 and the second roller 302 can be adjusted by moving the side plate structure 102, so that the side plate structure and the first roller can be adapted to different types or sizes of cloth products. Simultaneously, when needing to carry out the batch printing operation of cloth matter product, need not the user and carry out complicated many times adjustment to this stamp proof experimental facilities, the cloth matter product's that directly prints as required size and type adjust the position of first roller 301 and second roller 302 can, easy operation is convenient. Therefore, the utility model provides a thereby stamp proof experimental facilities accessible removes the position of the first roller of adjustment 301 and second roller 302 of curb plate structure 102, and then realizes the adaptation and the application of different grade type or the cloth matter product of not unidimensional size, need not through complicated a lot of adjustment, satisfies the variety demand that modern production made a proof to different cloth matter product stamps.

Referring to fig. 2, in one of the embodiments of the present invention, the movable support 1 further includes a first servo cylinder 103, the first servo cylinder 103 is connected to the side plate 102 through a first telescopic rod, and the first servo cylinder 103 is used for driving the side plate 102 to move relative to the support main body 101. Specifically, first servo cylinder 103 is fixed to be set up in the side of support main part 101, and the one end and the first servo cylinder 103 telescopic connection of first telescopic link, the other end and curb plate 102 fixed connection. The first servo cylinder 103 drives the first telescopic rod to perform reciprocating telescopic motion, so as to drive the side plate 102 to horizontally move relative to the bracket main body 101, and finally position adjustment of the first roller shaft 301 and the second roller shaft 302 is realized.

Referring to fig. 3, in another embodiment of the present invention, the roller driving mechanism 3 further includes a driving motor 303, the driving motor 303 is connected to the first roller 301, and the driving motor 303 is used for driving the first roller 301 to rotate. Specifically, a motor output shaft is arranged at an end of the driving motor 303, the motor output shaft is fixedly connected with the first roller shaft 301, and the driving motor 303 rotates through the driving motor output shaft to drive the first roller shaft 301 to rotate on the side plate 102. More specifically, first roller 301 rotates and then drives to coil and set up the cloth matter product rotation on first roller 301 surface, and at cloth matter product pivoted in-process, the rifle head that sprays paint keeps motionless to guarantee that spun paint fog or printing ink fog drip evenly sprays on cloth matter product, accomplish even stamp proofing operation.

In a further scheme of the above embodiment, the roller shaft driving mechanism 3 further includes a transmission gear 304, the transmission gear 304 is disposed on each of the first roller shaft 301 and the second roller shaft 302, and the first roller shaft 301 drives the second roller shaft 302 to rotate through mutual engagement of the transmission gear 304. Specifically, the first roller shaft 301 and the second roller shaft 302 are both provided with a transmission gear 304, the transmission gears 304 are meshed with each other, and when the driving motor 303 drives the first roller shaft 301 to rotate, the second roller shaft 302 is driven to synchronously rotate through the transmission function of the transmission gear 304. Meanwhile, due to the transmission effect of the transmission gear 304, the first roller shaft 301 and the second roller shaft 302 keep the same linear speed in the rotating motion, and the cloth products coiled on the first roller shaft 301 and the second roller shaft 302 are stressed uniformly, so that the situation that the cloth products are torn in the rotating process due to nonuniform stress is avoided.

Referring to fig. 4 and 5, in another embodiment of the present invention, the printing proof testing apparatus further includes a limiting driving mechanism 4, the limiting driving mechanism 4 includes a limiting portion 403, a limiting groove 3021 is disposed at an end of the second roller shaft 302, and the limiting portion 403 is used for cooperating with the limiting groove 3021 to block the second roller shaft 302 from rotating. In this embodiment, the limit driving mechanism 4 is provided to mainly control the rotation and stop of the second roller shaft 302. Specifically, when the limit portion 403 of the limit driving mechanism 4 rotates into the limit groove 3021 at the end of the second roller shaft 302, the limit portion and the limit groove cooperate with each other, and the second roller shaft 302 cannot rotate continuously due to the blocking force of the limit portion 403, so that the stop of the second roller shaft 302 is controlled. When the limiting part 403 on the limiting driving mechanism 4 rotates away from the limiting groove 3021 at the end of the second roller shaft 302, the second roller shaft 302 no longer receives the blocking acting force of the limiting part 403, and at this time, the second roller shaft can continue to rotate under the driving acting force of the first roller shaft 301 and the transmission gear 304. In conclusion, the rotation and stop control of the secondary roller shaft 302 can be performed.

In a further scheme of the above embodiment, the limiting driving mechanism 4 further includes a second servo cylinder 401, a second telescopic rod and a rotating shaft 402, the limiting portion 403 is fixedly disposed on the rotating shaft 402, the second telescopic rod is rotatably connected to the rotating shaft 402, and the second servo cylinder 401 drives the rotating shaft 402 to rotate so as to drive the limiting portion 403 to rotate. Specifically, the second servo cylinder 401 can drive the second telescopic rod to perform reciprocating telescopic motion, and the second telescopic rod is rotatably connected with the rotating shaft 402, so as to drive the rotating shaft 402 to perform rotary motion, that is, the second servo cylinder 401 can drive the rotating shaft 402 to rotate through the second telescopic rod. Meanwhile, since the position-limiting portion 403 is fixedly disposed on the rotating shaft 402, the rotating shaft 402 rotates while driving the position-limiting portion 403 to rotate synchronously. When the limiting part 403 rotates into the limiting groove 3021, the second roller shaft 302 cannot rotate continuously under the blocking action of the limiting part 403, so that the stopping of the second roller shaft 302 is controlled; when the limiting part 403 rotates away from the limiting groove 3021, the second roller shaft 302 no longer receives the blocking acting force of the limiting part 403, and at this time, the second roller shaft continues to rotate under the driving acting force of the first roller shaft 301 and the transmission gear 304. In general, the rotation and stop control of the second roller shaft 302 is performed by the reciprocating stroke of the second servo cylinder 401.

Referring to fig. 6, in another embodiment of the present invention, the printing proof testing apparatus further includes an oil receiving tray, the oil receiving tray is fixedly disposed between the movable supports 1, and the oil receiving tray is disposed at the bottom of the first roller 301 and the second roller 302. Specifically, besides being sprayed on the cloth product, some of the paint droplets or ink droplets sprayed from the spray gun head may also flow down from the gap between the first roller 301 and the second roller 302, and meanwhile, the excess ink or paint sprayed on the cloth product may also fall off from the cloth product of the first roller 301 and the second roller 302. The oil receiving discs are arranged at the bottoms of the first roller shaft 301 and the second roller shaft 302 and are used for containing redundant ink or paint flowing down in the rolling process of the cloth products, and collected ink or paint materials can be used as circulating printing raw materials after being filtered.

In a further aspect of the above embodiment, the oil-receiving pan includes a first oil-receiving pan 5 and a second oil-receiving pan 6, the second oil-receiving pan 6 is provided at the bottom of the first oil-receiving pan 5, and the first oil-receiving pan 5 is provided obliquely with respect to the second oil-receiving pan 6. Specifically, the first oil receiving disc 5 is obliquely arranged relative to the second oil receiving disc 6, namely, a certain angle is formed between the first oil receiving disc 5 and the second oil receiving disc 6, excessive ink or paint flowing down in the rolling process of the cloth product firstly drops into the first oil receiving disc 5, and the excessive ink or paint drops into the second oil receiving disc 6 after being contained in a certain amount, so that layered collection and recycling of the excessive ink or paint are facilitated, and the ink or paint collecting effect is further achieved.

Of course, the above is a preferred embodiment of the present invention. It should be noted that, for a person skilled in the art, several modifications and decorations can be made without departing from the basic principle of the present invention, and these modifications and decorations are also considered to be within the scope of the present invention.

Claims (8)

1. The utility model provides a stamp proof experimental facilities which characterized in that includes:

the equipment comprises an equipment main body, a movable support and a connecting plate, wherein the movable support comprises a support main body and a side plate, the support main body is fixedly connected through the connecting plate, and the side plate is movably arranged on the support main body;

the roller driving mechanism comprises a first roller shaft and a second roller shaft, and the first roller shaft and the second roller shaft are rotatably arranged on the side plate.

2. A printing and proofing experimental device according to claim 1, wherein the movable support further comprises a first servo cylinder, the first servo cylinder is connected with the side plate through a first telescopic rod, and the first servo cylinder is used for driving the side plate to move relative to the support body.

3. The textile printing proofing experimental facility according to claim 1, wherein the roller shaft driving mechanism further comprises a driving motor, the driving motor is connected with the first roller shaft, and the driving motor is used for driving the first roller shaft to rotate.

4. The textile printing proofing experimental equipment according to claim 3, wherein the roller shaft driving mechanism further comprises a transmission gear, the transmission gear is arranged on each of the first roller shaft and the second roller shaft, and the first roller shaft drives the second roller shaft to rotate through the mutual meshing of the transmission gears.

5. The calico proofing experimental apparatus of claim 1, further comprising a limiting drive mechanism, wherein said limiting drive mechanism comprises a limiting portion, and the end of said second roller shaft is provided with a limiting groove, and said limiting portion is used for cooperating with said limiting groove to block the second roller shaft from rotating.

6. A printing and proofing experimental device according to claim 5, wherein the limiting driving mechanism further comprises a second servo cylinder, a second telescopic rod and a rotating shaft, the limiting part is fixedly arranged on the rotating shaft, the second telescopic rod is rotatably connected with the rotating shaft, and the second servo cylinder drives the rotating shaft to rotate so as to drive the limiting part to rotate.

7. The printing proofing experimental equipment according to claim 1, further comprising an oil receiving disc, wherein the oil receiving disc is fixedly arranged between the movable supports, and the oil receiving disc is arranged at the bottoms of the first roller shaft and the second roller shaft.

8. The printing proofing experimental equipment according to claim 7, wherein the oil receiving pan comprises a first oil receiving pan and a second oil receiving pan, the second oil receiving pan is arranged at the bottom of the first oil receiving pan, and the first oil receiving pan is obliquely arranged relative to the second oil receiving pan.

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