CN201538087U

CN201538087U - Coil correction device and screen printing machine using the coil correction device

Info

Publication number: CN201538087U
Application number: CN2009202053421U
Authority: CN
Inventors: 周默
Original assignee: SHENZHEN SCREEN-STAR PRINTING MACHINERY Co Ltd
Current assignee: SHENZHEN SCREEN-STAR PRINTING MACHINERY Co Ltd
Priority date: 2009-09-28
Filing date: 2009-09-28
Publication date: 2010-08-04
Anticipated expiration: 2019-09-28

Abstract

The utility model relates to a coil correction device and screen printing machine using the coil correction device, which includes an underframe, a drive rack slidingly installed on the underframe, as well as a driving mechanism for driving the drive rack to slip relative to the underframe, wherein the double sides of the drive rack on the slip direction is permanently installed with a first on-edge board and the second on-edge board, and a feeding rolling is straddlingly installed between the first on-edge board and the second on-edge board. The utility model also relates to a screen printing machine, which includes the coil correction device which is equipped beside the printing machine rack for feeding the coils into the coil correction device, as well as an induction device which is equipped on the printing machine rack for inducing deviation of the fed coils relative to the initial position. The coil correction device induces the amount of deviation based on the induction device and drives the driving rack to slip relative to the underframe, thereby driving the coil to move opposite to the deviation generating direction for compensating the deviation, and guarantying the printing precision during coil printing.

Description

The screen process press of coiled strip deviation correcting device and this coiled strip deviation correcting device of employing

Technical field

The utility model relates to the serigraphy system of package material, more particularly, relates to a kind of coiled strip deviation correcting device when being used to carry coiled strip.

Background technology

Current, along with the development of commercial advertisement, serigraphy more and more is subjected to the favor of advertising and printing industry with advantages such as its picture fineness, size are big.For this reason, the stock kind of serigraphy also more and more widely.In order to enhance productivity, the material that web-like pattern greatly arranged for example plastic sheeting is used as the printing material of serigraphy, the printing production line of package material so just occurred.

Existing package material printing production line is because coiled strip positioning easily in course of conveying can't guarantee printing precision.Particularly needing under the situation of chromatography, the positioning meeting has a strong impact on chromatography precision, reduces printing quality.Thereby urgent need has a kind of device that can rectify a deviation when coiled strip is carried.

The utility model content

The technical problems to be solved in the utility model is, at the above-mentioned defective of prior art, provides the screen process press of a kind of coiled strip deviation correcting device and this coiled strip deviation correcting device of employing.

The technical scheme that its technical problem that solves the utility model adopts is: propose a kind of coiled strip deviation correcting device, comprise underframe, be slidingly mounted on the bogie on the underframe and drive the driving mechanism of described bogie with respect to the underframe slippage, both sides on the glide direction of described bogie are installed with first cant board and second cant board respectively, and the straddle mounting feeding is rolled between described first cant board and second cant board.

In an embodiment of the present utility model, first drive plate that described bogie comprises the left and right sides that is slidingly mounted on respectively on the underframe and second drive plate and first connecting plate and second connecting plate of respectively first drive plate being fixedlyed connected with both sides before and after second drive plate, described first cant board is fixed on the left side of described first drive plate, and described second cant board is fixed on the right side of described second drive plate.

In an embodiment of the present utility model, described driving mechanism comprises correction motor that is installed on the underframe and the screw mandrel of fixedlying connected with the rotating shaft of correction motor, the feed screw nut is installed on the described screw mandrel fixedlys connected with described first drive plate.

In an embodiment of the present utility model, described coiled strip deviation correcting device also comprises and is used to respond to coiled strip with respect to the deviation of the initial position induction installation with control correction motor rotation.

In an embodiment of the present utility model, described underframe comprises base plate and is installed in a plurality of lower margin cups of base plate bottom.The retainer that the bottom of rolling and straddle first cant board and second cant board was rolled and exported in the input that described feeding agglomeration is drawn together the top that straddles first cant board and second cant board rolls.

The utility model also proposes a kind of screen process press, comprise and be located at the other coiled strip deviation correcting device of printing frame so that coiled strip is sent into, and be located at the coiled strip sent in order to induction on the printing frame induction installation with respect to the deviation of initial position, wherein, described coiled strip deviation correcting device comprises underframe, be slidingly mounted on the bogie on the underframe, and drive the driving mechanism of described bogie with respect to the underframe slippage based on the deviation that induction installation is sensed, both sides on the glide direction of described bogie are installed with first cant board and second cant board respectively, and the straddle mounting feeding is rolled between described first cant board and second cant board.

In an embodiment of the present utility model, described driving mechanism comprises correction motor that is installed on the underframe and the screw mandrel of fixedlying connected with the rotating shaft of correction motor, the feed screw nut is installed on the described screw mandrel fixedlys connected with described first drive plate, described correction motor is controlled by described induction installation.

In an embodiment of the present utility model, described induction installation comprises two installing plates being installed in the coiled strip both sides that printing sends on the frame, straddle the axis of guide between described two installing plates and be slidingly mounted on inductive switch on the described axis of guide.

Coiled strip deviation correcting device of the present utility model drives oppositely moving of bogie generation bias direction by the correction motor by screw mandrel, and then drives oppositely moving of coiled strip generation bias direction, coiled strip is moved on the initial position, thereby realized the compensation of deviation.Adopt the screen process press of this coiled strip deviation correcting device to respond to the departure of coiled strip and then the correction motor rotation of control deviation correcting device in real time by induction installation, realize accurately the mending proud repaying automatically of coiled strip deviation and printing quality when having guaranteed the coiled strip printing, particularly the printing precision during the coiled strip chromatography.

Description of drawings

The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the overall structure schematic diagram according to the coiled strip deviation correcting device of the utility model embodiment;

Fig. 2 is the partial structurtes enlarged drawing according to the coiled strip deviation correcting device of the utility model embodiment;

Fig. 3 is according to the schematic diagram before the coiled strip deviation correcting device correction of the utility model embodiment;

Fig. 4 is according to the schematic diagram after the coiled strip deviation correcting device correction of the utility model embodiment.

The specific embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearer,, the utility model is further elaborated below in conjunction with drawings and Examples.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.

Fig. 1 shows the overall structure according to the coiled strip deviation correcting device of an embodiment of the utility model.This coiled strip deviation correcting device is applied to the screen process press side and thinks that the material before the printing provides the correction compensation.As shown in Figure 1, this coiled strip deviation correcting device comprises underframe 10 and is slidingly mounted on bogie 20 on the underframe 10, and bogie 20 is can be with respect to underframe 10 slippage on the left and right horizontal direction under the driving of driving mechanism 30.The left and right sides of bogie 20 is installed with left side vertical plate 41 and right side riser 42 respectively, and straddle mounting has feeding to roll 50 between the vertical plates on both

sides

41,42, is used for coiled strip (for example coiled strip of drawing from discharging device) 80 is delivered to printing frame 70.

Specifically as shown in Figure 1, underframe 10 comprises base plate 11 and is installed in a plurality of lower margin cups 12 of base plate 11 bottoms, is used for whole deviation correcting device is supported on for example ground.

In conjunction with illustrated in figures 1 and 2, bogie 20 comprises drive plate 21 and the drive plate 22 that is slidingly mounted on the left and right sides on the base plate 11 respectively, and the connecting plate 23 and the connecting plate 24 of respectively drive plate 21 being fixedlyed connected with 22 both sides, front and back.Cant board 41 is fixedly mounted on the left side of drive plate 21, cant board 42 is fixedly mounted on the right side of drive plate 22, and, also be connected with backplate 25 between cant board 41 and the cant board 42, thereby backplate 25 is located at the guard shield that the top formation of connecting plate 23 and connecting plate 24 is surrounded driving mechanism 30.

Again as shown in Figure 2, the bottom of drive plate 21 is provided with slide block 211, and the top of base plate 11 is provided with corresponding line slideway 13, is slidingly connected with the realization that cooperates between the line slideway 13 by slide block 211 between drive plate 21 and the base plate 11.Equally, the drive plate 22 on right side can be slidingly mounted on the base plate 11 by similar structure.

Driving mechanism 30 comprise correction motor 32 and with the rotating shaft screw mandrel 34 of fixedlying connected of correction motor 32, be equipped with by being threaded on the screw mandrel 34 axially movable feed screw nut 35 can be taken place with the rotation of screw mandrel.Wherein, correction motor 32 is fixedly mounted on the base plate 11 by motor cabinet 31, and the rotating shaft of correction motor 32 is stretched out to the left.Screw mandrel 34 is movably arranged on the screw rodb base 33 that is fixed on the base plate 11, and the right-hand member of screw mandrel 34 fixedlys connected with the rotating shaft of correction motor 32 by modes such as shaft joints for example, so that rotate with the rotating shaft of the motor 32 of rectifying a deviation.Feed screw nut 35 can be installed in the left end of screw mandrel 34 by being threaded, and like this, the rotation of the rotating shaft of correction motor 32 just changes into feed screw nut 35 move left and right vertically on the screw mandrel 34.

Further as shown in Figure 2, the top of drive plate 21 is installed with drive block 212, and this drive block 212 is also fixedlyed connected with feed screw nut 35.Therefore, when screw mandrel 34 rotates with correction motor 32, can drive drive block 212 and then drive drive plate 21 by feed screw nut 35 and move left and right take place along line slideway 13.Because drive plate 22 is fixedlyed connected with drive plate 21 by connecting

plate

23,24, drive plate 22 meetings are the while move left and right with the move left and right of drive plate 21, make vertical plates on both

sides

41,42 and be installed in feeding between the vertical plates on both

sides

41,42 and roll 50 and move together thereupon, thus coiled strip 80 that compensation is carried and the deviation between the initial position.

Again referring to shown in Figure 1, feeding roll 50 inputs that comprise the top that straddles vertical plates on both

sides

41,42 roll 51 and output roll 52.Input is rolled 51 and is used for coiled strip 80 is introduced deviation correcting devices, and output is rolled 52 and is used for coiled strip 80 is delivered to and for example prints on the frame 70 so that carry out follow-up printing.In addition, feeding is rolled 50 and is comprised that also the retainer of the bottom that straddles vertical plates on both

sides

41,42 rolls 53, rolls 51 materials of introducing 80 from input and rolls 53 through retainer and roll 52 by output again after carrying out tensioning and send, and guarantees that coiled strip 80 can positioning when output and produce deviation.

Coiled strip 80 can be determined by induction installation 60 with respect to the departure of initial position.As shown in Figure 1, induction installation 60 can be arranged on the printing frame 70, comprise two

installing plates

61,62 that are installed in the coiled strip both sides of sending into and straddle the axis of guide 63 between two installing plates, inductive switch 65 is slidingly mounted on the axis of guide 63 by switch base 64, thereby can change the position along the axis of guide 63 slippages.Such structural design makes inductive switch 65 can adapt to the induction of the coiled strip of different size width.After inductive switch 65 slides into needed position, can clamp by existing various mechanisms, realize fixed installation.For example, can be its center with the set positions of inductive switch 65 aims at the sideline on the width of coiled strip initial position.

Inductive switch 65 is responded to the deviation of the sideline of coiled strip 80 with respect to initial position in real time, and with departure by control system input to the correction motor 32, make correction motor 32 that corresponding the rotation be taken place, thereby drive drive plate 21 via screw mandrel 34 and oppositely moving of bias direction taken place with respect to base plate 11, drive plate 21 drives coiled strip 80 simultaneously oppositely moving of bias direction oppositely moving of bias direction is taken place thereupon together, make coiled strip 80 move to initial position, realize deviation compensation.According to coiled strip deviation correcting device of the present utility model before coiled strip is rectified a deviation and the position view after the correction respectively as shown in Figure 3 and Figure 4.

The above embodiment that to be the coiled strip deviation correcting device rectify a deviation to the coiled strip that flows to screen process press that carries out before the serigraphy.In addition, can also be applied to different station place on the coiled strip serigraphy production line according to coiled strip deviation correcting device of the present utility model.For example, this coiled strip deviation correcting device also can be used for the collecting machine after the coiled strip oven dry, guarantees that rewinding is neat.

The above only is preferred embodiment of the present utility model; not in order to restriction the utility model; all any modifications of within spirit of the present utility model and principle, being done, be equal to and replace and improvement etc., all should be included within the protection domain of the present utility model.

Claims

1. coiled strip deviation correcting device, it is characterized in that, comprise underframe, be slidingly mounted on the bogie on the underframe and drive the driving mechanism of described bogie with respect to the underframe slippage, both sides on the glide direction of described bogie are installed with first cant board and second cant board respectively, and the straddle mounting feeding is rolled between described first cant board and second cant board.

2. coiled strip deviation correcting device according to claim 1, it is characterized in that, first drive plate that described bogie comprises the left and right sides that is slidingly mounted on respectively on the underframe and second drive plate and first connecting plate and second connecting plate of respectively first drive plate being fixedlyed connected with both sides before and after second drive plate, described first cant board is fixed on the left side of described first drive plate, and described second cant board is fixed on the right side of described second drive plate.

3. coiled strip deviation correcting device according to claim 2, it is characterized in that, described driving mechanism comprises correction motor that is installed on the underframe and the screw mandrel of fixedlying connected with the rotating shaft of correction motor, the feed screw nut is installed on the described screw mandrel fixedlys connected with described first drive plate.

4. coiled strip deviation correcting device according to claim 3 is characterized in that, described coiled strip deviation correcting device also comprises and is used to respond to coiled strip with respect to the deviation of the initial position induction installation with control correction motor rotation.

5. coiled strip deviation correcting device according to claim 1 is characterized in that, described underframe comprises base plate and is installed in a plurality of lower margin cups of base plate bottom.

6. coiled strip deviation correcting device according to claim 1 is characterized in that, the retainer that the bottom of rolling and straddle first cant board and second cant board was rolled and exported in the input that described feeding agglomeration is drawn together the top that straddles first cant board and second cant board rolls.

7. a screen process press is characterized in that, comprises that to be located at the printing frame other with coiled strip deviation correcting device that coiled strip is sent into and be located at the coiled strip sent in order to induction on the printing frame induction installation with respect to the deviation of initial position, wherein:

Described coiled strip deviation correcting device comprises underframe, be slidingly mounted on the bogie on the underframe and drive the driving mechanism of described bogie with respect to the underframe slippage based on the deviation that induction installation is sensed, both sides on the glide direction of described bogie are installed with first cant board and second cant board respectively, and the straddle mounting feeding is rolled between described first cant board and second cant board.

8. screen process press according to claim 7, it is characterized in that, first drive plate that described bogie comprises the left and right sides that is slidingly mounted on respectively on the underframe and second drive plate and first connecting plate and second connecting plate of respectively first drive plate being fixedlyed connected with both sides before and after second drive plate, described first cant board is fixed on the left side of described first drive plate, and described second cant board is fixed on the right side of described second drive plate.

9. screen process press according to claim 8, it is characterized in that, described driving mechanism comprises correction motor that is installed on the underframe and the screw mandrel of fixedlying connected with the rotating shaft of correction motor, the feed screw nut is installed on the described screw mandrel fixedlys connected with described first drive plate, described correction motor is controlled by described induction installation.

10. screen process press according to claim 7, it is characterized in that described induction installation comprises two installing plates being installed in the coiled strip both sides that printing sends on the frame, straddle the axis of guide between described two installing plates and be slidingly mounted on inductive switch on the described axis of guide.