CN212100967U - Feeding device and glass cover plate silk screen printing equipment - Google Patents

Abstract

The utility model discloses a feedway and applied this feedway's glass apron silk screen printing equipment, this feedway include the frame, and the frame is located to the conveying subassembly to along the tray that the direction of transfer conveyed the bearing capacity material, the conveying subassembly is equipped with the feed region that is used for providing the material tray along the direction of transfer in proper order, is used for supplying robotic arm to snatch the material loading region of material, is used for receiving the material region of tray recovery. The feeding assembly is arranged in the feeding area and used for providing a tray carrying materials for the conveying assembly. Receive material subassembly's jacking piece and locating part and locate in receiving the material region, the top of conveying subassembly is located to the locating part, and the below of conveying subassembly is located to the jacking piece. The utility model discloses technical scheme makes a plurality of trays form in receiving the material region and piles up through adopting the material subassembly of receiving, has improved the material loading efficiency of glass apron. The production cost of the silk screen printing of the glass cover plate is reduced.

Description

Feeding device and glass cover plate silk screen printing equipment

Technical Field

The utility model relates to a technical field is made to the glass apron, in particular to feedway and glass apron silk screen printing equipment.

Background

With the continuous development of scientific technology, mobile electronic devices are widely used, and a screen is one of important parts in the mobile electronic devices, and a glass cover plate of the screen is generally required to be subjected to silk-screen printing in the production process of the screen so as to adapt to the production requirements of the electronic devices.

In the related art, the glass cover plate is fed by a conveyor belt, and the working principle is roughly as follows: the tray bearing the glass cover plate is manually placed on the conveying belt and conveyed to one side of the silk-screen printing equipment through the conveying belt, and after the glass cover plate in the tray is grabbed by the manipulator, the empty tray is continuously conveyed to the next station through the conveying belt and is recovered. It can be seen that adopting foretell conveyer belt to carry out the feed, need be at the artifical input of conveyer belt or the output place tray one by one or retrieve the tray one by one, not only extravagant manpower, the efficiency of material loading and recovery tray is lower moreover.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a feedway when aiming at improving the material loading efficiency of glass apron, reduces the manufacturing cost of glass apron silk screen printing.

In order to achieve the above object, the utility model provides a feeding device, include:

a frame;

the conveying assembly is arranged on the rack and is sequentially provided with a feeding area, a feeding area and a receiving area along the conveying direction;

the feeding assembly is arranged in the feeding area and used for providing a material tray; and

the receiving assembly comprises at least one limiting piece and a jacking piece which are arranged in the receiving area, the jacking piece is arranged below the conveying assembly, and the limiting piece is arranged above the conveying assembly;

the jacking piece moves towards one side of the limiting piece in a reciprocating mode so as to enable the trays to be jacked away from the conveying assembly one by one, and the limiting piece limits the trays above the conveying assembly so that the trays are stacked.

Optionally, the limiting part includes a fixing base and a limiting block, the fixing base includes a body and a limiting portion, the body is detachably connected to the frame, the limiting block is rotatably connected to the body and extends toward the inner side of the frame, and the limiting portion is connected to the body and faces one side of the conveying assembly to limit the limiting block to rotate toward one side of the conveying assembly.

Optionally, the material collecting assembly further comprises a connecting piece, the limiting block is provided with a connecting hole, the limiting portion is provided with a limiting hole, the limiting hole extends along the vertical direction of the rack, and the connecting piece penetrates through the limiting hole and the connecting hole.

Optionally, the material receiving assembly includes a plurality of limiting members, and the plurality of limiting members are disposed at two opposite sides of the rack at intervals.

Optionally, the limiting part further includes a plurality of limiting baffles, and the plurality of limiting baffles are arranged on the rack at intervals and enclose the material receiving area.

Optionally, the feeding assembly includes at least one stopping element, a carrying element and a feeding driving element, the feeding driving element is connected to the frame, the carrying element is connected to the feeding driving element in a driving manner and is located above the conveying assembly, and the stopping element corresponds to the carrying element;

the material trays are placed on the bearing parts, the stop parts can abut against the edge of any material tray, and the feeding driving parts drive the bearing parts to move towards one side of the conveying assembly so that the material trays are attached to the conveying assembly.

Optionally, the stop member includes a stop cylinder and a stop lever, the stop cylinder is disposed on the frame, the stop lever is connected to the stop cylinder in a transmission manner, and the stop cylinder drives the stop lever to move towards one side of the material tray, so that the stop lever abuts against the edge of the material tray.

Optionally, the feeding driving component includes a mounting seat and a feeding cylinder, the carrier includes a carrier plate, the mounting seat is connected to the rack, the feeding cylinder is connected to the mounting seat, and the carrier plate is connected to the feeding cylinder in a driving manner and is disposed above the conveying assembly;

the carrier plate is used for bearing a plurality of material trays, and the feeding air cylinder drives the carrier plate to move up and down relative to the conveying assembly.

Optionally, the feed assembly further comprises a guide part, the guide part comprises a guide rod and a guide sleeve, the guide rod is arranged on the mounting seat, the guide sleeve is arranged on the support plate, and the guide rod is sleeved on the guide sleeve in a sliding manner.

The utility model also provides a glass apron silk screen printing equipment, including glass apron silk screen printing device and feedway, feedway be as above feedway.

The utility model discloses technical scheme makes the tray form in receiving the material region and piles up through adopting the material subassembly of receiving, has improved the material loading efficiency of glass apron. The utility model discloses a feedway includes the frame, and the frame is located to the conveying subassembly to carry the tray of material along the direction of transfer conveying, the conveying subassembly is equipped with the feed region that is used for providing the material tray along the direction of transfer in proper order, is used for supplying robotic arm to snatch the material loading region of material, is used for receiving the material region of retrieving the tray. The feeding assembly is arranged in the feeding area and used for providing a tray carrying materials for the conveying assembly. Receive material subassembly's jacking piece and locating part and locate in receiving the material region, the top of conveying subassembly is located to the locating part, and the below of conveying subassembly is located to the jacking piece.

In one embodiment, the supply assembly places the material tray on the transfer assembly, the transfer assembly transfers the material tray in a transfer direction, when the material tray is conveyed to the material feeding area, the material in the material tray is taken out by a human or a mechanical arm, the tray is continuously conveyed along the conveying direction, when the tray is conveyed to one side of the material receiving area, the jacking piece moves towards one side of the stop piece to jack the tray away from the conveying assembly, the tray moves towards one side of the limiting piece, the tray is limited above the conveying assembly by the limiting piece, and the plurality of trays form a stack above the conveying assembly under the jacking action of the jacking piece and the limiting action of the limiting piece, when the stacked trays reach the preset number, an operator can take out the trays from the material receiving area at one time, so that the trays do not need to be recovered one by one, and the labor intensity of the operator is greatly reduced. Meanwhile, a plurality of material trays are placed in the feeding area, the material trays are provided for the conveying assembly through the feeding assembly, and therefore the material trays do not need to be placed for the conveying assembly one by one, an operator can manage a plurality of production lines simultaneously, and production cost of silk screen printing of the glass cover plate is reduced while supply of the material trays and tray recovery efficiency are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of an embodiment of a feeding device of the present invention;

FIG. 2 is a schematic structural view of the internal structure of the feeding device shown in FIG. 1;

FIG. 3 is an enlarged detail view taken at A in FIG. 2;

FIG. 4 is an enlarged detail view at B in FIG. 2;

FIG. 5 is a front view of the internal structure of the feeding device shown in FIG. 1;

FIG. 6 is a top view of the internal structure of the feeding device shown in FIG. 1;

fig. 7 is the structural schematic diagram of the glass cover plate screen printing device of the utility model.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. 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.

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 and 2, the present invention provides a feeding device 10.

In the embodiment of the present invention, the feeding device 10 includes:

a frame 100;

the conveying assembly 200 is arranged on the rack 100, and a feeding area 200a, a feeding area 200b and a receiving area 200c are sequentially arranged along the conveying direction of the conveying assembly 200;

a feeding assembly 300, wherein the feeding assembly 300 is disposed in the feeding area 200a and is used for providing a material tray 30; and

the material receiving assembly 400, wherein the material receiving assembly 400 includes at least one limiting member 410 and a jacking member 420, which are disposed in the material receiving area 200c, the jacking member 420 is disposed below the conveying assembly 200, and the limiting member 410 is disposed above the conveying assembly 200;

the lifting member 420 reciprocates toward one side of the limiting member 410 to lift the trays off the conveying assembly 200 one by one, and the limiting member 410 limits the trays above the conveying assembly 200, so that a plurality of trays are stacked.

Specifically, the rack 100 is formed by splicing metal sections, the conveying assembly 200 includes a conveyor belt and a motor, the motor is installed in the rack 100, the conveyor belt is sleeved on the motor, and the conveyor belt conveys the material tray 30 along the conveying direction under the driving of the motor, that is, the rotating direction of the motor is the conveying direction of the material tray 30. The conveyor belt is provided with a feeding area 200a for placing the material tray 30, a feeding area 200b for feeding, and a receiving area 200c for recovering the tray in this order along the conveying direction. Correspondingly, the feeding assembly 300 is disposed in the feeding area 200a, and the receiving assembly 400 is disposed in the receiving area 200 c.

In one embodiment, the material supplying assembly 300 places the material tray 30 on the material conveying assembly 200, the material conveying assembly 200 conveys the material tray 30 along the conveying direction, when the material tray 30 is conveyed to the material feeding area 200b, the material in the material tray 30 is taken out by a human or a robot arm, the tray is conveyed along the conveying direction, when the tray is conveyed to the material receiving area 200c, the lifting member 420 moves towards the side of the stop member 310 to lift the tray away from the material conveying assembly 200, the tray moves towards the side of the stop member 410 and is limited above the material conveying assembly 200 by the stop member 410, and so on, a plurality of trays are stacked above the material conveying assembly 200 under the lifting action of the lifting member 420 and the limiting action of the stop member 410, when the number of stacked trays reaches a preset number, an operator can take out the plurality of trays from the material receiving area 200c at one time, thus the trays do not need to be recovered one by one another, the labor intensity of operators is greatly reduced. Meanwhile, a plurality of material trays 30 are placed in the material supply area 200a, the material trays 30 are provided for the conveying assembly 200 through the material supply assembly 300, and therefore the material trays 30 do not need to be placed for the conveying assembly 200 one by one, so that an operator can manage a plurality of production lines simultaneously, the supply efficiency and the tray recovery efficiency of the material trays 30 are improved, and meanwhile, the production cost of the screen printing of the glass cover plate is reduced.

It should be noted that the material tray 30 is a general term for the tray to carry materials, that is, a glass cover plate for screen printing is placed in the tray. And the tray is an empty tray which is not loaded with materials. The material tray 30 flows from the material supply area 200a to the material loading area 200b, the glass cover plates in the tray are clamped by the glass cover plate screen printing device 20, and then the tray flows to the material receiving area 200c under the driving of the conveyor belt.

Referring to fig. 3, specifically, in an embodiment of the present application, the limiting element 410 includes a fixing base 411 and a limiting element 412, the fixing base 411 is formed by machining a metal material, the fixing base 411 includes a body and a limiting portion, the body is integrally formed, and the body is detachably connected to the rack 100 by a screw and is located above the conveyor belt. In the width direction of frame 100, the shaft hole has been seted up to one side that the frame 100 was kept away from to the body, and stopper 412 is equipped with the axis of rotation, and the axis of rotation is worn to locate in this shaft hole for stopper 412 rotates the body of connecting in fixing base 411, and stopper 412 extends towards the inboard of frame 100, and promptly, the one end of stopper 412 rotates and connects in the body, and the other end extends towards tray one side. The limiting portion is disposed adjacent to one side of the tray for limiting the rotation of the block 412 toward the lower side of the rack 100. Specifically, the limiting portion is provided with a limiting hole 411a, the limiting hole 411a is a waist-shaped hole, the limiting hole 411a extends along the vertical direction of the rack 100, the limiting block 412 is provided with a connecting hole corresponding to the limiting hole 411a, and the connecting member 430 penetrates through the limiting hole 411a and the connecting hole, so that the rotation angle of the limiting block 412 can be limited. The jacking member 420 comprises a jacking rod and a jacking cylinder, the jacking cylinder is arranged below the conveyor belt and is connected to the rack 100, and the jacking rod is connected to the jacking cylinder.

In one embodiment, the tray is conveyed to the material receiving area 200c by the conveyor belt, the jacking cylinder drives the ejector rod to move towards one side of the conveyor belt and pushes the tray away from the surface of the conveyor belt, the tray moves towards one side of the limiting block 412 and pushes the limiting block 412 upwards, the tray continues to move upwards, the limiting block 412 is separated from the tray, and under the action of gravity, the limiting block 412 rotates towards the lower part of the rack 100, due to the limiting action of the connecting piece 430 and the limiting hole 411a, the limiting block 412 is limited in the horizontal direction, at this time, the jacking cylinder drives the ejector rod to move downwards, the lower edge of the tray abuts against the limiting block 412, so that the tray is limited in the material receiving area 200c, the ejector rod continues to push the next tray towards one side of the limiting block 412, so as to reciprocate, a plurality of trays are stacked by the limiting action of the limiting block 412 above the conveyor belt, and an operator, the efficiency of unloading is improved.

In an embodiment of the present invention, the limiting portion includes a stopping block, the stopping block is connected to the fixing base 411 and is disposed below the limiting block 412, the limiting block 412 rotates and can abut against the stopping block to extend along the horizontal direction, so that the limiting effect of the limiting block 412 can be achieved. By arranging the stop block, a limit hole 411a does not need to be formed in the body of the fixing seat 411, so that the limit member 410 can be conveniently processed and manufactured.

In an embodiment of the present application, the material receiving assembly 400 includes four limiting members 410, and the four limiting members 410 are disposed on two opposite sides of the frame 100. So when a plurality of trays are formed with in the top of conveyer belt and pile up, its whole comparatively balance to avoid a plurality of trays to be formed with the pile back, because the quality grow, the tray is towards one side slope, thereby causes the dead or condition that the tray topples over of tray card. Of course, the number of the limiting members 410 may be two, six or eight according to actual requirements, and the number of the limiting members 410 is not particularly limited.

When a plurality of trays form and pile up in the top of conveyer belt, in order to avoid the high too high of a plurality of trays, the condition of empting takes place, in an embodiment of this application, locating part 410 still includes four limit baffle 413, and limit baffle 413 is passed through punching press and bending process shaping by the metal panel beating, and four limit baffle 413 intervals are located frame 100 to be relative setting, and enclose and close and form material receiving area 200c of above-mentioned embodiment. When a plurality of trays are piling up in the top of conveyer belt, four limit baffle 413 are laminated in the edge of a plurality of trays to carry on spacingly with the tray that piles up, play the effect of direction to piling up of tray simultaneously, make a plurality of trays form in the vertical direction and pile up.

Referring to fig. 4 to 6, in an embodiment of the present invention, the feeding assembly 300 includes at least one stopping member 310, a carrying member 320 and a feeding driving member 330, the feeding driving member 330 is connected to the frame 100, the carrying member 320 is connected to the feeding driving member 330 in a driving manner and is located above the transferring assembly 200, and the stopping member 310 corresponds to the carrying member 320.

Specifically, the feed driving unit 330 includes a mounting seat 331 and a feed cylinder 332, the mounting seat 331 is made of a metal material and fixed below the conveyor belt by screws, and the feed cylinder 332 is mounted to the mounting seat 331. The carrier 320 includes a carrier plate 321, the carrier plate 321 is connected to the telescopic rod of the feeding cylinder 332 by screws, and the carrier plate 321 is located in the feeding area 200a for carrying objects. It can be understood that the feeding area 200a is also defined by a plurality of limiting baffles 413, and the arrangement manner thereof refers to the formation of the receiving area 200c in the above embodiments, which is not described in detail herein. The stopper 310 includes a stopper cylinder 311 and a stop rod 312, the stopper cylinder 311 is disposed on the frame 100, and the stop rod 312 is connected to an extension rod of the stopper cylinder 311.

In one embodiment, the operator previously places a plurality of material trays 30 on the carrier plate 321, wherein the material tray 30 located at the lowest position is at least partially higher than the stop lever 312, and the stop lever 312 is far away from the material tray 30. When loading is needed, the carrier plate 321 moves towards one side of the conveyor belt under the driving of the feeding cylinder 332, so that the lowest material tray 30 is at least located below the stop rod 312, and at this time, the stop cylinder 311 drives the stop rod to extend towards one side of the material tray 30 and abut against the edge of the material tray 30, or to be inserted into a gap between a plurality of material trays 30, so as to stop the rest of the material trays 30 from continuing to move towards one side of the conveyor belt. The carrier plate 321 continues to move towards one side of the conveyor belt, under the action of gravity and the stopping action of the stop rod 312, the material tray 30 located at the lowest position is separated from the material tray 30 located above, when the carrier plate 321 descends to a certain height, the edge of the material tray 30 is attached to the conveyor belt, after the carrier plate 321 is separated from the material tray 30, the material tray 30 is borne by the conveyor belt, and the conveyor belt rotates and drives the material tray 30 to move to the feeding area 200b along the conveying direction. After the material distribution is completed, the feeding cylinder 332 drives the carrier plate 321 to move toward one side of the material tray 30 above, and after the carrier plate 321 is attached to the material tray 30, the stopping cylinder 311 drives the stopping rod 312 to retract, so as to release the material tray 30, and the material tray 30 is carried by the carrier plate 321 again, so that the material loading of the material tray 30 is completed.

It can be seen from the above process that the feeding assembly 300 of the present application has a simple structure, and the control process of the feeding of the material trays 30 is easy to realize, so that the feeding efficiency of the glass cover plate is improved while the feeding of a plurality of material trays 30 is realized.

In an embodiment of the present invention, the feeding assembly 300 further comprises a guiding member 340. Specifically, the guide 340 includes a guide 341 and a guide sleeve 342, the guide 341 is disposed on the mounting base 331, the guide sleeve 342 is disposed on the carrier 321, and the guide 341 is slidably sleeved on the guide sleeve 342. Through setting up this guide arm 341 and guide pin bushing 342 for the supply cylinder 332 can follow the reciprocal jacking of vertical direction with support plate 321, and support plate 321 is at the in-process of motion, and its whole is comparatively balanced, thereby has avoided piling up the risk that a plurality of material trays 30 on support plate 321 take place to empty, guarantees that the material loading subassembly can stabilize the material loading. Of course, the guiding element 340 may also be a sliding rail and a sliding groove, which cooperate to guide the feeding cylinder 332 and the carrier plate 321, and will not be described in detail herein.

Please refer to fig. 7, the present invention further provides a glass cover plate screen printing apparatus 1, wherein the glass cover plate screen printing apparatus 1 includes a glass cover plate screen printing device 20 and a feeding device 10, and the specific structure of the feeding device 10 refers to the above embodiments, and since the glass cover plate screen printing apparatus 1 adopts all technical solutions of all the above embodiments, all beneficial effects brought by the technical solutions of the above embodiments are at least achieved, which is not repeated herein. The glass cover plate silk-screen device 20 is arranged opposite to the feeding device 10, and the glass cover plate silk-screen device 20 is used for silk-screen printing of the glass cover plate.

Specifically, the glass cover plate screen printing device 20 includes a feeding assembly, which includes a feeding rotary table rotatably connected to the frame 100 and a bearing member 320 disposed on the feeding rotary table, the feeding rotary table corresponds to the feeding area 200b of the feeding device 10, and the feeding rotary table rotates clockwise or counterclockwise to convey the glass cover plates to each station. The bearing member 320 is disposed on the feeding turntable and is formed with a bearing area for bearing a plurality of glass cover plates. At least two silk-screen components are arranged at intervals along the circumferential direction of the feeding turntable, correspond to the bearing parts 320 on the feeding turntable and are used for carrying out silk-screen processing on a plurality of glass cover plates in the bearing area.

In one embodiment, the glass cover plate silk-screen device 20 captures a plurality of glass cover plates in the feeding area 200b into the bearing area at one time, the feeding turntable rotates to sequentially convey the glass cover plates to one side of the two silk-screen assemblies, and the silk-screen assemblies perform silk-screen processing on the plurality of glass cover plates. So the utility model discloses a glass apron silk screen printing device 20 rotates an in cycle at the pay-off carousel, can carry out the silk screen printing to a plurality of glass apron in the bearing area and handle, that is to say, glass apron silk screen printing equipment 1 accomplishes the silk screen printing to a plurality of glass apron in a manufacturing process. Therefore, the silk-screen printing efficiency of the glass cover plate is further improved.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A feeder device, comprising:

a frame;

the conveying assembly is arranged on the rack and is sequentially provided with a feeding area, a feeding area and a receiving area along the conveying direction;

the feeding assembly is arranged in the feeding area and used for providing a material tray; and

the receiving assembly comprises at least one limiting piece and a jacking piece which are arranged in the receiving area, the jacking piece is arranged below the conveying assembly, and the limiting piece is arranged above the conveying assembly;

the jacking piece moves towards one side of the limiting piece in a reciprocating mode so as to enable the trays to be jacked away from the conveying assembly one by one, and the limiting piece limits the trays above the conveying assembly so that the trays are stacked.

2. The feeding device as claimed in claim 1, wherein the limiting member comprises a fixing base and a limiting block, the fixing base comprises a body and a limiting portion, the body is detachably connected to the frame, the limiting block is rotatably connected to the body and extends toward the inner side of the frame, and the limiting portion is connected to the side of the body facing the conveying assembly for limiting the limiting block from rotating toward the side of the conveying assembly.

3. The feeding device as claimed in claim 2, wherein the material receiving assembly further comprises a connecting member, the limiting block is provided with a connecting hole, the limiting portion is provided with a limiting hole, the limiting hole extends along the vertical direction of the frame, and the connecting member is inserted into the limiting hole and the connecting hole.

4. The feeding device as claimed in claim 1, wherein the receiving assembly comprises a plurality of stoppers, and the stoppers are spaced at two opposite sides of the frame.

5. The feeding device as claimed in claim 1, wherein said retaining member further comprises a plurality of retaining baffles, and said retaining baffles are spaced apart from said frame and enclose said material receiving area.

6. The feeder apparatus as claimed in any one of claims 1 to 5, wherein the feeder assembly comprises at least one stop member, a carrier member and a feeder drive member, the feeder drive member being connected to the frame, the carrier member being drivingly connected to the feeder drive member and being located above the conveyor assembly, the stop member corresponding to the carrier member;

the material trays are placed on the bearing parts, the stop parts can abut against the edge of any material tray, and the feeding driving parts drive the bearing parts to move towards one side of the conveying assembly so that the material trays are attached to the conveying assembly.

7. The feeding device as claimed in claim 6, wherein the stop member comprises a stop cylinder and a stop rod, the stop cylinder is disposed on the frame, the stop rod is connected to the stop cylinder in a driving manner, and the stop cylinder drives the stop rod to move towards one side of the material tray, so that the stop rod abuts against the edge of the material tray.

8. The feeder of claim 6, wherein the feeder drive assembly comprises a mounting block and a feeder cylinder, the carrier comprises a carrier plate, the mounting block is connected to the frame, the feeder cylinder is connected to the mounting block, and the carrier plate is drivingly connected to the feeder cylinder and positioned above the conveyor assembly;

the carrier plate is used for bearing a plurality of material trays, and the feeding air cylinder drives the carrier plate to move up and down relative to the conveying assembly.

9. The feeder apparatus according to claim 8, wherein the feeder assembly further comprises a guide member, the guide member comprises a guide rod and a guide sleeve, the guide rod is disposed on the mounting seat, the guide sleeve is disposed on the carrier plate, and the guide rod is slidably sleeved on the guide sleeve.

10. Glass apron silk screen printing equipment, characterized by, includes glass apron silk screen printing device and feedway, feedway is for any one of claims 1 to 9.

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