CN207984290U

CN207984290U - A kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line

Info

Publication number: CN207984290U
Application number: CN201820128530.8U
Authority: CN
Inventors: 陈吉昌; 黄庭君
Original assignee: Dongguan Ugren Automation Equipment Co Ltd
Current assignee: Dongguan Ugren Automation Equipment Co Ltd
Priority date: 2018-01-25
Filing date: 2018-01-25
Publication date: 2018-10-19
Anticipated expiration: 2028-01-25

Abstract

The utility model is related to screen printing technique fields,More particularly to a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line,Including upper material transfer channel,Lower material transfer channel and elevating mechanism,The upper end in upper material transfer channel is provided with the first belt drive mechanisms for transmitting glass-fiber-plate,The upper end in lower material transfer channel is provided with the second belt drive mechanisms for transmitting glass-fiber-plate,Elevating mechanism includes lifting base and the first driving mechanism for driving lifting base to move along a straight line up and down,The lower end in upper material transfer channel is provided with the first fork clamp mechanism for being passed to the glass-fiber-plate on upper material transfer channel on lifting base,The lower end in lower material transfer channel is provided with for second on the incoming lower material transfer channel of the glass-fiber-plate on lifting base to be pitched clamp mechanism,The utility model can carry out automation feeding to glass-fiber-plate,Without manually carrying,It is time saving and energy saving,Reduce cost of labor,It is efficient,Extensive print production suitable for printing enterprise.

Description

A kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line

Technical field

The utility model is related to screen printing technique field more particularly to a kind of Full-automatic glass fiber plate silk-screen printing production lines Feeding device.

Background technology

In porous printing, it is collectively known as four big printing processes, silk-screen printing with flat stamping, convex print, gravure for silk-screen printing Basic principle is to utilize the saturating ink of screen printing forme areas mesh, and the basic principle of non-graphic part mesh not strike through is printed Brush, when printing, pour into ink on screen printing forme one end, apply a level pressure with ink position of the scraper plate on screen printing forme is scraped Power, while being moved towards the screen printing forme other end, ink is expressed to stock by scraper plate from the mesh of areas on the move On.Make trace fixation due to the viscous effect of ink within limits, printing process middle scraper always with screen printing forme It is contacted in line with stock, contact line is mobile with scraper plate and moves, between keeping certain between screen printing forme and stock Gap so that screen printing forme when printing generates the reaction force to scraper plate by the tension of itself, this reaction force is known as Screen resilience makes screen printing forme only be contacted in mobile line with stock due to the effect of screen resilience, and screen printing forme other parts It is disengaged position with stock, makes ink that rhegmagenesis occur with silk screen, ensure that printed dimensions precision and avoid set-off printing Object lifts after scraper plate scraped the entire space of a whole page, while screen printing forme also lifts, and ink is gently scraped back initial position, so far for One print stroke.

Traditional glass-fiber-plate however is taken when artificial portage by manually carrying feeding in screen printing process Power, high labor cost, loading efficiency are slow, are not suitable for the extensive print production of printing enterprise.

Invention content

The purpose of this utility model is that providing a kind of Full-automatic glass fiber plate silk-screen printing life in view of the deficiencies of the prior art The feeding device of producing line, the utility model can carry out automation feeding to glass-fiber-plate, be carried without artificial, time saving and energy saving, drop Low cost of labor, it is efficient, it is suitable for the extensive print production of printing enterprise.

The utility model is achieved through the following technical solutions, a kind of Full-automatic glass fiber plate silk-screen printing production line Feeding device, including upper material transfer channel, the lower material transfer channel below upper material transfer channel and positioned at upper material transfer channel left end The upper end of elevating mechanism, the upper material transfer channel is provided with the first belt drive mechanisms for transmitting glass-fiber-plate, under described The upper end in material transfer channel is provided with the second belt drive mechanisms for transmitting glass-fiber-plate, and the elevating mechanism includes lifting base Seat and the first driving mechanism for driving lifting base to move along a straight line up and down, the lifting base is located at going out for upper material transfer channel At material mouth, the lower end in the upper material transfer channel is provided with for being passed to the glass-fiber-plate on upper material transfer channel on lifting base The lower end of one fork clamp mechanism, the lower material transfer channel is provided with for the glass-fiber-plate on lifting base to be passed to lower material transfer channel Second fork clamp mechanism.

Preferably, the first fork clamp mechanism includes slide, the second driving mechanism for driving slide straight-line displacement With the machinery fork folder for being set to slide left and right ends.

Preferably, second driving mechanism include lead screw and for drive lead screw rotate motor, the lead screw with Slide is sequentially connected.

Preferably, the first fork clamp mechanism is identical with the second fork clamp mechanism structure.

Preferably, first belt drive mechanisms include the first drive wheel assemblies and the second drive wheel assemblies, institute It includes the first driving wheel and the second driving wheel to state the first drive wheel assemblies, and first driving wheel and the second driving wheel pass through synchronization V belt translation connects, and second drive wheel assemblies include third driving wheel and the 4th driving wheel, the third driving wheel and the 4th Driving wheel is connected by toothed belt transmission, and shaft is provided between first driving wheel and third driving wheel, the shaft Both ends are connect with the first driving wheel and third driving wheel respectively, and first belt drive mechanisms further include for driving first The motor of driving wheel rotation.

Preferably, first belt drive mechanisms are identical with second belt drive mechanisms mechanism.

Preferably, the lifting base includes pedestal and the fixed mechanism above pedestal, the fixed mechanism packet Cylinder is included, the piston rod of the cylinder is provided with pressing plate, and the lower end of the pedestal is provided with the fluting stretched into for machinery fork folder.

The beneficial effects of the utility model：A kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line, including it is upper Material transfer channel, the lower material transfer channel below upper material transfer channel and the elevating mechanism positioned at upper material transfer channel left end, it is described on The upper end in material transfer channel is provided with the first belt drive mechanisms for transmitting glass-fiber-plate, and the upper end in the lower material transfer channel is set The second belt drive mechanisms for transmitting glass-fiber-plate are equipped with, the elevating mechanism includes lifting base and lifted for driving The first driving mechanism that pedestal moves along a straight line up and down, the lifting base are located at the discharge outlet in upper material transfer channel, the upload The lower end in material channel is provided with the first fork clamp mechanism for being passed to the glass-fiber-plate on upper material transfer channel on lifting base, described The lower end in lower material transfer channel is provided with for second on the incoming lower material transfer channel of the glass-fiber-plate on lifting base to be pitched clamp mechanism, If dry plate glass-fiber-plate is overlayed in frame, however frame is arranged in order is placed on upper material transfer channel again, the first conveyer belt Driving mechanism starts material transfer, and when one of frame reaches the discharge outlet in upper material transfer channel, first pitches clamp mechanism by the frame Frame is passed to from upper material transfer channel on lifting base, starts feeding, when the glass-fiber-plate submitting in the frame is a piece of, the first driving machine Structure driving lifting base declines a distance, until the glass-fiber-plate in frame is all sent out, subsequent first driving mechanism driving rises Drop pedestal drops at the feed inlet in lower material transfer channel, and the second fork clamp mechanism takes empty frame from lifting base to lower material transfer On channel, the second belt drive mechanisms start the empty frame of transmission, and the utility model can automate glass-fiber-plate Material is carried without artificial, time saving and energy saving, reduces cost of labor, efficient, is suitable for the extensive print production of printing enterprise.

Description of the drawings

Fig. 1 is the dimensional structure diagram that the utility model carries frame.

Fig. 2 is the dimensional structure diagram that the utility model first pitches clamp mechanism.

Fig. 3 is the dimensional structure diagram of the first belt drive mechanisms of the utility model.

The sectional perspective structural schematic diagram of the positions Fig. 4 the utility model elevating mechanism.

Specific implementation mode

1 the utility model is described further to attached drawing 4 and specific implementation mode below in conjunction with the accompanying drawings.

As shown in Figure 1, a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line, including upper material transfer channel 1, position In the lower material transfer channel 2 of 1 lower section of upper material transfer channel and positioned at the elevating mechanism 3 of upper 1 left end of material transfer channel, the upper material transfer channel 1 upper end is provided with the first belt drive mechanisms 4 for transmitting glass-fiber-plate, and the upper end in the lower material transfer channel 2 is provided with The second belt drive mechanisms for transmitting glass-fiber-plate, the elevating mechanism 3 include lifting base 31 and are lifted for driving The first driving mechanism 32 that about 31 pedestal moves along a straight line, the lifting base 31 are located at the discharge outlet in upper material transfer channel 1, institute The lower end for stating material transfer channel 1 is provided with the first fork for being passed to the glass-fiber-plate on upper material transfer channel 1 on lifting base 31 The lower end of clamp mechanism 5, the lower material transfer channel 2 is provided with for the glass-fiber-plate on lifting base 31 to be passed to lower material transfer channel 2 On second fork clamp mechanism.

If the present embodiment overlays dry plate glass-fiber-plate in frame 6, however frame 6 is placed in upper material transfer channel again On 1, the first belt drive mechanisms 4 start material transfer, when one of frame 6 reaches the discharge outlet in upper material transfer channel 1, the The frame 6 is passed to from upper material transfer channel 1 on lifting base 31 by one fork clamp mechanism 5, starts feeding, the glass in the frame 6 When plate sends out a piece of, the first driving mechanism 32 drives lifting base 31 to decline a distance, until the glass-fiber-plate in frame 6 is whole It sends out, subsequent first driving mechanism 32 drives lifting base 31 to drop at the feed inlet in lower material transfer channel 2, the second fork clamp mechanism Empty frame 6 is taken from lifting base 31 to lower material transfer channel 2, the second belt drive mechanisms start the empty frame of transmission 6, the utility model can carry out automation feeding to glass-fiber-plate, be carried without artificial, time saving and energy saving, reduce cost of labor, effect Rate is high, is suitable for the extensive print production of printing enterprise.

Multiple frames 6 for filling glass-fiber-plate can be once positioned over upper material transfer channel 1 and carry out feeding by the utility model, be increased Loading efficiency, empty frame 6 are carried without artificial, automate blanking to empty frame 6, time saving and energy saving, work efficiency is high.

As shown in Fig. 2, in the present embodiment, the first fork clamp mechanism 5 includes slide 51, for driving 51 straight line position of slide The second driving mechanism 52 moved and the machinery fork folder 53 for being set to 51 left and right ends of slide, similar fork truck principle, mechanical fork folder 53 It for bearing frame 6, drives slide 51 to move along a straight line by the second driving mechanism 52, frame 6 is risen from upper material transfer channel 1 is incoming It drops on pedestal 31, wherein the second driving mechanism 52 is lead screw transmission mechanism, including lead screw and the motor for driving lead screw to rotate, The lead screw is sequentially connected with slide.

In the present embodiment, the first fork clamp mechanism 5 is identical with the second fork clamp mechanism structure.

As shown in figure 3, in the present embodiment, first belt drive mechanisms 4 include the first drive wheel assemblies and second Drive wheel assemblies, first drive wheel assemblies include the first driving wheel 41 and the second driving wheel 42, first driving wheel 41 It is connected by toothed belt transmission with the second driving wheel 42, second drive wheel assemblies include that third driving wheel 43 and the 4th drives Wheel 44, the third driving wheel 43 is connected with the 4th driving wheel 44 by toothed belt transmission, first driving wheel 41 and third Shaft 45 is provided between driving wheel 43, the both ends of the shaft 45 connect with the first driving wheel 41 and third driving wheel 43 respectively It connects, first belt drive mechanisms 4 further include the motor 46 for driving the first driving wheel 41 to rotate, the first driving wheel 41 Synchronous belt is equivalent to conveyer belt between second synchronous belt between driving wheel 42, third driving wheel 43 and the 4th driving wheel 44, Motor 46 drives the first drive wheel assemblies and the second drive wheel assemblies to rotate synchronously, and material transfer is carried out to frame 6.

In the present embodiment, first belt drive mechanisms 4 are identical with second belt drive mechanisms mechanism.

As shown in figure 4, in the present embodiment, the lifting base 31 includes pedestal 311 and the fixation above pedestal 311 Mechanism, the fixed mechanism include cylinder 312, and the piston rod of the cylinder 312 is provided with pressing plate 313, under the pedestal 311 End is provided with the fluting 314 stretched into for machinery fork folder 53, and frame 6 is sent into the pedestal 311 of lifting base 31 by the first fork clamp mechanism 5 On, cylinder 312 drives pressing plate 313 to push fixed frame 6.

The above content is only the preferred embodiment of the utility model, for those of ordinary skill in the art, according to this reality With novel thought, there will be changes in the specific implementation manner and application range, and the content of the present specification should not be construed as Limitations of the present invention.

Claims

1. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line, it is characterised in that：Including upper material transfer channel, it is located at Lower material transfer channel below upper material transfer channel and the elevating mechanism positioned at upper material transfer channel left end, the upper end in the upper material transfer channel The first belt drive mechanisms for transmitting glass-fiber-plate are provided with, the upper end in the lower material transfer channel is provided with for transmitting glass Second belt drive mechanisms of fine plate, the elevating mechanism include lifting base and for drive lifting base or more straight line transport The first dynamic driving mechanism, the lifting base are located at the discharge outlet in upper material transfer channel, and the lower end in the upper material transfer channel is set It is equipped with the first fork clamp mechanism for being passed to the glass-fiber-plate on upper material transfer channel on lifting base, under the lower material transfer channel End is provided with for second on the incoming lower material transfer channel of the glass-fiber-plate on lifting base to be pitched clamp mechanism.

2. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 1, it is characterised in that： The first fork clamp mechanism includes slide, the second driving mechanism for driving slide straight-line displacement and is set to slide or so two The machinery fork folder at end.

3. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 2, it is characterised in that： Second driving mechanism includes lead screw and the motor for driving lead screw to rotate, and the lead screw is sequentially connected with slide.

4. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 2, it is characterised in that： The first fork clamp mechanism is identical with the second fork clamp mechanism structure.

5. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 1, it is characterised in that： First belt drive mechanisms include the first drive wheel assemblies and the second drive wheel assemblies, the first drive wheel assemblies packet The first driving wheel and the second driving wheel are included, first driving wheel and the second driving wheel are connected by toothed belt transmission, and described Two drive wheel assemblies include third driving wheel and the 4th driving wheel, and the third driving wheel and the 4th driving wheel are passed by synchronous belt Dynamic connection, is provided with shaft between first driving wheel and third driving wheel, the both ends of the shaft drive with first respectively Wheel is connected with third driving wheel, and first belt drive mechanisms further include the motor for driving the first driving wheel to rotate.

6. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 1, it is characterised in that： First belt drive mechanisms are identical with second belt drive mechanisms mechanism.

7. a kind of feeding device of Full-automatic glass fiber plate silk-screen printing production line according to claim 2, it is characterised in that： The lifting base includes pedestal and the fixed mechanism above pedestal, and the fixed mechanism includes cylinder, the cylinder Piston rod is provided with pressing plate, and the lower end of the pedestal is provided with the fluting stretched into for machinery fork folder.