CN113562437A - Conveying mechanism capable of being applied to screen printing machine, stamping machine and labeling machine - Google Patents

Abstract

The invention discloses a conveying mechanism capable of being applied to a screen printing machine, a stamping machine and a labeling machine. The invention is characterized in that an inclined strip hole is skillfully arranged on the mounting plate, a transfer mechanism is arranged at the inclined strip hole, the product at a feeding station is conveyed to a blanking station by the transfer mechanism, and the feeding station is a processing station. Due to the fact that a fall exists between the high jacking station and the low jacking station, when the silk-screen printing mechanism works at the high jacking station, the silk-screen printed bottles at the low jacking station cannot be touched. Therefore, the invention can carry out operations such as silk-screen printing, gold stamping or labeling on products with different specifications and sizes.

Description

Conveying mechanism capable of being applied to screen printing machine, stamping machine and labeling machine

Technical Field

The invention relates to the technical field of product conveying, in particular to a conveying mechanism capable of being applied to a screen printing machine, a stamping machine and a labeling machine.

Background

For some bottle body structure products, the outer surface of the bottle body needs to be subjected to silk-screen printing, gold stamping and labeling during production, so that silk-screen printing machines, gold stamping machines and labeling machines are developed.

The silk screen printing machine, the gilding press and the labeller are used for silk screen printing, gilding and labeling of products. With continuous innovation of mechanical equipment, automatic conveying technologies are realized for the screen printing machine, the stamping machine and the labeling machine, so that the screen printing mechanism, the stamping mechanism and the labeling mechanism which correspond to the screen printing machine, the stamping machine and the labeling machine are matched with the automatic conveying mechanism to improve the processing efficiency of products.

Traditional conveying mechanism transports the in-process of product in the processing district, all is the transport of same height, and this just leads to before and after station to add man-hour, and processing mechanism can touch the product of unloading station department, influences product quality.

Therefore, there is a need for an improvement of the conventional conveying mechanism to solve the above technical problems.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a conveying mechanism which can be applied to a screen printing machine, a stamping machine and a labeling machine, and the conveying mechanism is designed to prevent a processing mechanism from touching products at a blanking station.

In order to solve the technical problem, the invention is realized by the following scheme: the invention relates to a conveying mechanism capable of being applied to a screen printer, a stamping machine and a labeling machine, which is arranged on a frame and comprises a feeding conveying line and a discharging conveying line, and is characterized in that the conveying mechanism further comprises:

the bracket component is fixed in the frame and is provided with a structural frame and a mounting plate arranged on the structural frame, a pair of via holes which are arranged in a staggered way in height and inclined strip holes arranged on the lower side of the via holes are arranged on the plate body of the mounting plate, wherein the high-level via holes are correspondingly arranged above a high-level area of the inclined strip holes, the low-level via holes are correspondingly arranged above a low-level area of the inclined strip holes,

the tight-pushing part comprises a receiving end tight-pushing mechanism and a moving end tight-pushing mechanism which are respectively arranged on two sides of the mounting plate, the receiving end tight-pushing mechanism is provided with an adjusting mechanism capable of adjusting the position of a receiving end and two symmetrical rotating mechanisms which are respectively arranged on two sides of the adjusting mechanism and driven by the adjusting mechanism to synchronously move, a receiving end workpiece of each rotating mechanism axially moves along the via hole, the moving end tight-pushing mechanism is provided with a tight-pushing power part and a moving end component which is driven by the tight-pushing power part to vertically move the mounting plate, and a pushing nozzle on the moving end component points to the receiving end workpiece;

the feeding mechanism is arranged at a feeding station of the mounting plate, is positioned below a high-level area of the inclined elongated hole and is arranged right below the high-level through hole, and is provided with a rotary driving part arranged at the back side of the mounting plate, an overturning part arranged at the front side of the mounting plate and vertically connected with the rotary driving part in a driving way and a clamping part connected with the overturning part in a driving way, the rotary driving part drives the overturning part to do reciprocating rotary motion, and the overturning part drives the clamping part to do reciprocating overturning motion;

the blanking mechanism is arranged at a discharging station of the mounting plate, the discharging station is positioned below a low-level area of the inclined elongated hole and is positioned right below the low-level via hole, and the blanking mechanism and the feeding mechanism are consistent in structure;

transfer mechanism has can with the product of material loading station department moves to the clamping part of unloading station department, wears to establish and follows the connecting rod that reciprocating type height removed is done in tilting rectangular hole and install in the mounting panel dorsal part and with the power device that connecting rod one end is connected, the clamping part vertically connect in the other end of connecting rod, its drive end sets up.

Furthermore, the front sides of the two vertical beams of the structural frame are respectively provided with a vertically arranged first guide rail, and the two first guide rails are connected with a processing mechanism in a sliding manner;

the structure frame is also provided with a height adjusting device for driving the processing mechanism to lift;

the height adjusting device includes:

the first motor is fixedly connected to the structural frame;

the first screw rod is connected to the driving end of the first motor, a first screw block is connected to a rod body of the first screw rod in a threaded mode, and the first screw block is fixedly connected with the machining mechanism.

Furthermore, the processing mechanism comprises one of a silk-screen printing mechanism, a gold stamping mechanism and a labeling mechanism.

Further, the receiving end abutting mechanism, the adjusting mechanism thereon, includes:

the first motor box is vertically fixed on the back side of the mounting plate, two second guide rails perpendicular to the back side of the mounting plate are arranged on the upper end surface of the first motor box, a first stroke through hole is formed between the two second guide rails, and the second guide rails are close to the mounting plate;

the rotating mechanism mounting bracket is connected to the two second guide rails in a sliding manner, the lower end of the rotating mechanism mounting bracket is connected with a second screw block penetrating through the first stroke through hole, and the second screw block is in screwed connection with a second screw rod arranged in the first motor box;

and the second motor is fixedly connected in the box of the first motor box and is in driving connection with the second screw rod.

The power source of the rotating mechanism is a third motor, the third motor is fixed at two side ends of the rotating mechanism mounting bracket through a motor base, the third motor is in driving connection with the receiving end workpiece, and the third motor drives the receiving end workpiece to rotate.

Further, the movable end jacking mechanism, the jacking power part thereon, comprises:

the second motor box is vertically fixed on the front side of the mounting plate, two third guide rails vertical to the front side of the mounting plate are arranged on the upper end surface of the second motor box, a second stroke through hole is formed between the two third guide rails, and the third guide rails are far away from the mounting plate;

the fourth motor is fixedly connected in the box of the second motor box and is in driving connection with a third screw rod;

the movable end jacking mechanism is characterized in that the movable end assembly on the movable end jacking mechanism comprises:

the movable support is connected to the two third guide rails in a sliding mode, the lower end of the movable support is connected with a third screw block penetrating through the second travel through hole, the third screw block is in threaded connection with the third screw rod, and top nozzle fixing positions are arranged on two sides of the upper end of the movable support;

and the two top nozzles are fixed at the top nozzle fixing positions, and the tight pushing ends of the two top nozzles are inverted into conical surfaces.

Furthermore, feed mechanism, the power supply of the rotatory drive portion on it is the fifth motor, the vertical drive of fifth motor is connected upset portion, the power supply of upset portion is the sixth motor, the direct drive of sixth motor is connected clamping part, the power supply of clamping part is first die clamping cylinder, and this first die clamping cylinder drive is connected with first clamping jaw.

Furthermore, the power source of the clamping part on the transfer mechanism is a second clamping cylinder, and the second clamping cylinder is in driving connection with a second clamping jaw.

Further, the power plant includes:

the driving wheel and the driven wheel are respectively arranged at two ends of the inclined strip hole through mounting seats, and synchronous belts are sleeved on the driving wheel and the driven wheel;

the seventh motor is fixed on the mounting plate through a motor mounting seat and is in driving connection with the driving wheel;

the fourth guide rail is fixed on the mounting plate along the upper edge of the inclined elongated hole;

and the connecting block is clamped on the upward belt body of the synchronous belt, is in sliding connection with the fourth guide rail and is connected with one end of the connecting rod.

Furthermore, the plate surface of the connecting rod is horizontally arranged.

Further, feeding transfer chain and ejection of compact transfer chain are belt conveyor line.

Compared with the prior art, the invention has the beneficial effects that: the transfer mechanism of the conveying mechanism adopts a mode from high conveying to low conveying, so that the processing mechanism does not touch products at the blanking station, and the conveying mechanism can convey more products with different specifications.

The invention is characterized in that an inclined strip hole is skillfully arranged on the mounting plate, a transfer mechanism is arranged at the inclined strip hole, the product at a feeding station is conveyed to a blanking station by the transfer mechanism, and the feeding station is a processing station.

Drawings

Fig. 1 is a schematic structural diagram of the conveying mechanism of the invention mounted on a frame.

Fig. 2 is a schematic view of the overall structure of the conveying mechanism of the present invention.

Fig. 3 is a schematic view of the mounting structure of the feeding mechanism, the transfer mechanism, the discharging mechanism and the movable end jacking mechanism of the invention.

Fig. 4 is an enlarged view of a lower structure of fig. 3.

FIG. 5 is a schematic view of the structure of the back side of the mounting plate of the present invention.

FIG. 6 is a schematic view of the structure of the tightening part of the present invention.

FIG. 7 is a schematic structural view of the front side elevation angle rear visual jacking power part of the mounting plate of the present invention.

Fig. 8 is a schematic structural view of fig. 7 with the power pushing part removed.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, so that the advantages and features of the present invention can be more easily understood by those skilled in the art, and thus the protection scope of the present invention is more clearly and clearly defined. It should be apparent that the described embodiments of the present invention are only some embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; the two elements may be directly connected or indirectly connected through an intermediate medium, or may be communicated with each other inside the two elements, or may be wirelessly connected or wired connected. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Example 1, the specific structure of the present invention is as follows:

referring to fig. 1-8, the conveying mechanism 2 of the present invention, which can be applied to a screen printer, a stamping press and a labeling machine, is mounted on a frame 1, and includes a feeding conveying line 22 and a discharging conveying line 23, and the conveying mechanism further includes:

the bracket component 21 is fixed in the rack 1, and has a structural frame 212 and an installation plate 211 installed on the structural frame 212, a pair of via holes 2112 arranged in a staggered manner in height and an inclined elongated hole 2111 arranged below the via hole 2112 are provided on a plate body of the installation plate 211, wherein the high-level via holes are correspondingly arranged above a high-level region of the inclined elongated hole 2111, the low-level via holes are correspondingly arranged above a low-level region of the inclined elongated hole 2111,

the tightening part 25 comprises a receiving end tightening mechanism and a moving end tightening mechanism 253 which are respectively arranged on two surfaces of the mounting plate 211, the receiving end tightening mechanism is provided with an adjusting mechanism 251 capable of adjusting the position of a receiving end and two symmetrical rotating mechanisms 252 which are respectively arranged on two sides of the adjusting mechanism and driven by the adjusting mechanism to synchronously move, a receiving end workpiece of each rotating mechanism 252 moves along the axial direction of the through hole 2112, the moving end tightening mechanism 253 is provided with a tightening power part and a moving end component which is driven by the tightening power part to vertically move the mounting plate 211, and a tightening nozzle 2534 on the moving end component points to the receiving end workpiece;

a feeding mechanism 26, disposed at a feeding station of the mounting plate 211, wherein the feeding mechanism 26 is located below a high-level region of the inclined elongated hole 2111 and is disposed right below the high-level via hole, the feeding mechanism 26 has a rotation driving portion 261 mounted at a back side of the mounting plate 211, an overturning portion 262 mounted at a front side of the mounting plate 211 and vertically and drivingly connected to the rotation driving portion 261, and a clamping portion 263 drivingly connected to the overturning portion 262, the rotation driving portion 261 drives the overturning portion 262 to perform a reciprocating rotation, and the overturning portion 262 drives the clamping portion 263 to perform a reciprocating overturning operation;

the blanking mechanism 29 is arranged at a discharging station of the mounting plate 211, the discharging station is positioned below a low-level area of the inclined elongated hole 2111 and is positioned right below a low-level via hole, and the blanking mechanism 29 and the feeding mechanism 26 have the same structure;

the transfer mechanism 28 comprises a clamping portion 285 capable of transferring the product at the feeding station to the blanking station, a connecting rod 284 passing through and moving in a reciprocating manner along the inclined elongated hole 2111, and a power device installed on the back side of the mounting plate 211 and connected to one end of the connecting rod 284, wherein the clamping portion 285 is vertically connected to the other end of the connecting rod 284, and the driving end of the clamping portion is arranged upward.

The invention has a preferable technical scheme that: the front sides of the two vertical beams of the structural frame 212 are respectively provided with a vertical first guide rail 213, and the two first guide rails 213 are slidably connected with the processing mechanism 24;

the structure frame 212 is also provided with a height adjusting device 210 for driving the processing mechanism 24 to ascend and descend;

the height adjusting means 210 includes:

a first motor fixedly connected to the structural frame 212;

the first lead screw 2101 is connected to the driving end of the first motor, a first screw block 2102 is screwed on a rod body of the first lead screw 2101, and the first screw block 2102 is fixedly connected with the processing mechanism 24.

Since the product specification is large or small, the height of the processing mechanism 24 needs to be adjusted during processing to achieve the optimal processing effect, and the height adjusting device 210 drives the whole processing mechanism 24 to ascend and descend.

The invention has a preferable technical scheme that: the processing mechanism 24 comprises one of a silk-screen printing mechanism, a gold stamping mechanism and a labeling mechanism.

The invention has a preferable technical scheme that: the receiving end abutting mechanism, the adjusting mechanism 251 thereon includes:

the first motor box 2511 is vertically fixed on the back side of the mounting plate 211, two second guide rails 2514 perpendicular to the back side of the mounting plate 211 are arranged on the upper end surface of the first motor box 2511, a first stroke through hole 2513 is arranged between the two second guide rails 2514, and the second guide rails 2514 are arranged close to the mounting plate 211;

a rotating mechanism mounting bracket 2512, which is slidably connected to the two second guide rails 2514, and the lower end of the rotating mechanism mounting bracket is connected to a second screw block passing through the first stroke through hole 2513, and the second screw block is screwed to a second screw rod arranged in the first motor box 2511;

and the second motor is fixedly connected in the box of the first motor box 2511 and is in driving connection with the second screw rod.

The power source of the rotating mechanism 252 is a third motor, the third motor is fixed to two side ends of the rotating mechanism mounting bracket 2512 through a motor base, the third motor is connected with the receiving end workpiece in a driving manner, and the third motor drives the receiving end workpiece to rotate.

The invention has a preferable technical scheme that: the tight mechanism in movable end top, it is last tight power portion in top includes:

the second motor box 2531 is vertically fixed on the front side of the mounting plate 211, two third guide rails 2533 perpendicular to the front side of the mounting plate 211 are arranged on the upper end surface of the second motor box 2531, a second travel through hole 2532 is arranged between the two third guide rails 2533, and the third guide rails 2533 are far away from the mounting plate 211;

a fourth motor 2536 fixedly connected in the second motor box 2531 and drivingly connected with a third screw rod 2537;

the movable end jacking mechanism is characterized in that the movable end assembly on the movable end jacking mechanism comprises:

the movable support 2535 is slidably connected to the two third guide rails 2533, the lower end of the movable support 2535 is connected to a third screw block 2538 penetrating through the second travel through hole 2532, the third screw block 2538 is screwed with the third screw rod 2537, and two sides of the upper end of the movable support 2535 are provided with a top nozzle fixing position;

and the two top nozzles 2534 are fixed at the top nozzle fixing positions, and the tight pushing ends of the two top nozzles are inverted into conical surfaces.

The invention has a preferable technical scheme that: the feeding mechanism 26 is provided with a fifth motor as a power source of the rotary driving part 261, the fifth motor is vertically and drivingly connected with the turning part 262, the power source of the turning part 262 is a sixth motor, the sixth motor is directly and drivingly connected with the clamping part 263, and the power source of the clamping part 263 is a first clamping cylinder which is drivingly connected with the first clamping jaw 264.

The invention has a preferable technical scheme that: the power source of the clamping part 285 of the transfer mechanism 28 is a second clamping cylinder, and the second clamping cylinder is in driving connection with a second clamping jaw 286.

The invention has a preferable technical scheme that: the power device comprises:

the driving wheel and the driven wheel 282 are respectively arranged at two ends of the inclined strip-shaped hole 2111 through mounting seats, and a synchronous belt 288 is sleeved on the driving wheel and the driven wheel 282;

a seventh motor 281, which is fixed on the mounting plate 211 through a motor mounting seat and is in driving connection with the driving wheel;

a fourth guide rail 287 fixed to the mounting plate 211 along an upper edge of the inclined elongated hole 2111;

a connecting block 283 is clamped on the upper belt body of the timing belt 288, which is slidably connected to the fourth guide rail 287 and which is connected to one end of the connecting rod 284.

The invention has a preferable technical scheme that: the plate surface of the connecting rod 284 is horizontally arranged.

The invention has a preferable technical scheme that: the feeding conveying line 22 and the discharging conveying line 23 are both belt conveying lines.

Example 2:

the working principle of the conveying mechanism is as follows:

step one, as shown in fig. 2, taking a bottle product as an example, if the bottle needs to be subjected to silk-screen printing, the processing mechanism 24 is a silk-screen printing mechanism, and the bottle is conveyed to a feeding position from the feeding conveying line 22 in a standing manner;

step two, as shown in fig. 5 and 8, in the initial state: the turning part 262 is vertically arranged, the clamping part 263 enables the first clamping jaw 264 to be opened, the opening direction of the first clamping jaw 264 is vertical to the mounting plate 211, at the moment, the rotary driving part 261 drives the turning part 262 to rotate leftwards by 90 degrees, the opened first clamping jaw 264 reaches the side of a bottle, and a directional shaft sleeve 265 is sleeved outside a connecting shaft between the turning part 262 and the rotary driving part 261;

step three, the clamping part 263 drives the first clamping jaw 264 to clamp the bottle, the rotation driving part 261 drives the overturning part 262 to rotate rightwards by an angle of 90 degrees so that the overturning part 262 is vertically arranged, and synchronously, the overturning part 262 drives the clamping part 263 to rotate by an angle of 90 degrees so that the front end and the rear end of the bottle are vertical to the mounting plate 211, and at the moment, two ends of the bottle respectively point to the receiving end workpiece and the top nozzle 2534;

fourthly, the receiving end jacking mechanism drives the receiving end workpiece to tightly abut against the bottom of the bottle, and the moving end jacking mechanism drives the jacking mouth 2534 to tightly abut against the mouth of the bottle;

step five, the invention is also provided with a CCD detection device, the CCD detection device is used for detecting whether the silk-screen part of the bottle is in the right position, if not, the rotating mechanism 252 drives the receiving end workpiece to rotate, so that the bottle is in the right position;

after the bottle is positioned, a silk-screen mechanism works to perform silk-screen printing on the bottle;

step seven, after the silk-screen printing of the bottle is finished, the silk-screen mechanism is withdrawn, the clamping part 285 on the transfer mechanism 28 runs to a high-position jacking station to clamp the silk-screen bottle, and the jacking part 25 is loosened;

step eight, the power device on the transfer mechanism 28 drives the clamping portion 285 to move along the inclined elongated hole 2111 to the low jacking station, and the feeding mechanism 26 is also working synchronously to deliver the second bottle to the high jacking station during the bottle conveying process of the transfer mechanism. The tightening part 25 works to clamp the silk-screened bottle at a low tightening station, meanwhile, a second bottle is also clamped at a high tightening station, the silk-screening mechanism starts to work synchronously when the clamping part 285 is loosened, and the clamping part 285 is sent back to the high tightening station by a power device when the silk-screening mechanism conducts silk-screening on the second bottle;

step nine, when the clamping part 285 moves to the high jacking station in the step eight, the blanking mechanism 29 starts to work, the blanking rotary driving part 291 on the blanking mechanism 29 drives the blanking clamping jaw on the blanking rotary driving part to the low jacking station to clamp the first silk-screened bottle, when the silk-screening of the second bottle is finished and the clamping part 285 clamps the second silk-screened bottle, the jacking part 25 is released, at the moment, the blanking mechanism 29 takes out the first silk-screened bottle and restores the first silk-screened bottle to the standing state to be sent to the discharging conveying line 23,

and step ten, conveying the silk-screened bottles out of the rack 1 by the discharging conveying line 23, repeating the step one to the step ten, and continuously conveying and processing the bottles.

Example 3:

the conveying mechanism can also convey products from a low jacking station to a high jacking station, specifically, a feeding station is arranged at the low jacking station, a processing station is arranged at the high jacking station, and a blanking mechanism is arranged beside the high jacking station.

In summary, because there is a fall between the high-jacking station and the low-jacking station, when the silk-screen printing mechanism works at the high-jacking station, the silk-screen printing mechanism does not touch the bottle which is silk-screen printed at the low-jacking station. Therefore, the invention can carry out operations such as silk-screen printing, gold stamping or labeling on products with different specifications and sizes.

The transfer mechanism of the conveying mechanism adopts a mode from high conveying to low conveying, so that the processing mechanism does not touch products at the blanking station, and the conveying mechanism can convey more products with different specifications. The invention is characterized in that an inclined strip hole is skillfully arranged on the mounting plate, a transfer mechanism is arranged at the inclined strip hole, the product at a feeding station is conveyed to a blanking station by the transfer mechanism, and the feeding station is a processing station.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a can be applied to conveying mechanism on silk screen printing machine, gilding press and the labeller, this conveying mechanism (2) are installed on a frame (1), including feeding transfer chain (22) and ejection of compact transfer chain (23), its characterized in that, conveying mechanism still includes:

the bracket component (21) is fixed in the frame (1), and is provided with a structural frame (212) and a mounting plate (211) arranged on the structural frame (212), wherein a pair of via holes (2112) with staggered height and an inclined long hole (2111) arranged on the lower side of the via hole (2112) are arranged on the plate body of the mounting plate (211), the high via hole is correspondingly arranged above the high region of the inclined long hole (2111), the low via hole is correspondingly arranged above the low region of the inclined long hole (2111),

the tightening part (25) comprises a receiving end tightening mechanism and a moving end tightening mechanism (253) which are respectively arranged on two surfaces of the mounting plate (211), the receiving end tightening mechanism is provided with an adjusting mechanism (251) capable of adjusting the position of a receiving end and two symmetrical rotating mechanisms (252) which are arranged on two sides of the adjusting mechanism and driven by the adjusting mechanism to synchronously move, a receiving end workpiece of each rotating mechanism (252) axially moves along the through hole (2112), the moving end tightening mechanism (253) is provided with a tightening power part and a moving end assembly which is driven by the tightening power part to vertically move the mounting plate (211), and a tightening nozzle (2534) on the moving end assembly points to the receiving end workpiece;

the feeding mechanism (26) is arranged at a feeding station of the mounting plate (211), the feeding mechanism (26) is positioned below a high-level area of the inclined type long hole (2111) and is arranged right below the high-level via hole, the feeding mechanism (26) is provided with a rotary driving part (261) mounted at the back side of the mounting plate (211), an overturning part (262) mounted at the front side of the mounting plate (211) and vertically connected with the rotary driving part (261) in a driving way and a clamping part (263) connected with the overturning part (262) in a driving way, the rotary driving part (261) drives the overturning part (262) to do reciprocating rotary motion, and the overturning part (262) drives the clamping part (263) to do reciprocating overturning motion;

the blanking mechanism (29) is arranged at a discharging station of the mounting plate (211), the discharging station is positioned below a low-level area of the inclined elongated hole (2111) and is positioned right below a low-level via hole, and the blanking mechanism (29) and the feeding mechanism (26) are consistent in structure;

the transfer mechanism (28) is provided with a clamping part (285) capable of moving a product at the feeding station to the blanking station, a connecting rod (284) penetrating and moving in a reciprocating mode along the inclined long hole (2111) and a power device installed on the back side of the installation plate (211) and connected with one end of the connecting rod (284), wherein the clamping part (285) is vertically connected to the other end of the connecting rod (284), and the driving end of the clamping part is arranged upwards.

2. The conveying mechanism applicable to screen printing machines, stamping machines and labeling machines according to claim 1, characterized in that the front side of each of the two vertical beams of the structure frame (212) is provided with a vertical first guide rail (213), and the two first guide rails (213) are slidably connected with the processing mechanism (24);

the structure frame (212) is also provided with a height adjusting device (210) for driving the processing mechanism (24) to lift;

the height adjustment device (210) comprises:

a first motor fixedly connected to the structural frame (212);

the first screw rod (2101) is connected to the driving end of the first motor, a first screw block (2102) is connected to a rod body of the first screw rod (2101) in a threaded mode, and the first screw block (2102) is fixedly connected with the machining mechanism (24).

3. A transport mechanism applicable to screen printing machines, gold stamping machines and labelling machines according to claim 2, characterised in that the processing mechanism (24) comprises one of a screen printing mechanism, a gold stamping mechanism and a labelling mechanism.

4. A transport mechanism applicable to screen printing machines, bronzing machines and labelling machines according to claim 1, characterised in that said receiving end abutting mechanism, on which the adjusting mechanism (251) comprises:

the first motor box (2511) is vertically fixed on the back side of the mounting plate (211), two second guide rails (2514) vertical to the back side of the mounting plate (211) are arranged on the upper end surface of the first motor box, a first stroke through hole (2513) is formed between the two second guide rails (2514), and the second guide rails (2514) are arranged close to the mounting plate (211);

the rotating mechanism mounting bracket (2512) is connected to the two second guide rails (2514) in a sliding mode, the lower end of the rotating mechanism mounting bracket is connected with a second screw block penetrating through the first stroke through hole (2513), and the second screw block is in screwed connection with a second screw rod arranged in the first motor box (2511);

and the second motor is fixedly connected in the box of the first motor box (2511) and is in driving connection with the second screw rod.

The power source of the rotating mechanism (252) is a third motor, the third motor is fixed to two side ends of the rotating mechanism mounting support (2512) through a motor base, the third motor is in driving connection with the receiving end workpiece, and the third motor drives the receiving end workpiece to rotate.

5. The conveying mechanism applicable to screen printing machines, stamping machines and labeling machines as claimed in claim 1, wherein the movable end abutting mechanism, the abutting power part thereon, comprises:

the second motor box (2531) is vertically fixed on the front side of the mounting plate (211), two third guide rails (2533) vertical to the front side of the mounting plate (211) are arranged on the upper end surface of the second motor box, a second stroke through hole (2532) is formed between the two third guide rails (2533), and the third guide rails (2533) are far away from the mounting plate (211);

the fourth motor (2536) is fixedly connected in the second motor box (2531) and is connected with a third screw rod (2537) in a driving way;

the movable end jacking mechanism is characterized in that the movable end assembly on the movable end jacking mechanism comprises:

the movable support (2535) is connected to the two third guide rails (2533) in a sliding manner, the lower end of the movable support is connected with a third screw block (2538) penetrating through the second travel through hole (2532), the third screw block (2538) is in screw connection with the third screw rod (2537), and two sides of the upper end of the movable support (2535) are provided with top nozzle fixing positions;

and the two top nozzles (2534) are fixed at the top nozzle fixing positions, and the tight pushing ends of the two top nozzles are inverted into conical surfaces.

6. The conveying mechanism applicable to screen printing machines, stamping machines and labeling machines according to claim 1, wherein the feeding mechanism (26) has a fifth motor as a power source of a rotary driving part (261), the fifth motor is vertically and drivingly connected to the turning part (262), the turning part (262) has a sixth motor as a power source, the sixth motor is vertically and drivingly connected to the clamping part (263), and the clamping part (263) has a first clamping cylinder as a power source, and the first clamping cylinder is drivingly connected to the first clamping jaw (264).

7. The conveying mechanism applicable to the screen printing machine, the stamping machine and the labeling machine is characterized in that the power source of the transfer mechanism (28) and the clamping part (285) thereon is a second clamping cylinder, and the second clamping cylinder is in driving connection with a second clamping jaw (286).

8. The conveying mechanism applicable to screen printing machines, stamping machines and labelling machines according to claim 1, characterized in that said power device comprises:

the driving wheel and the driven wheel (282) are respectively arranged at two ends of the inclined long-strip hole (2111) through mounting seats, and synchronous belts (288) are sleeved on the driving wheel and the driven wheel (282);

the seventh motor (281) is fixed on the mounting plate (211) through a motor mounting seat and is in driving connection with the driving wheel;

a fourth guide rail (287) fixed to the mounting plate (211) along an upper edge of the inclined elongated hole (2111);

and the connecting block (283) is clamped on the upper belt body of the synchronous belt (288), is slidably connected with the fourth guide rail (287) and is connected with one end of the connecting rod (284).

9. The conveying mechanism applicable to screen printing machines, stamping machines and labelling machines according to claim 1 or 8, characterized in that the plate surface of the connecting rod (284) is arranged horizontally.

10. The conveying mechanism applicable to screen printing machines, stamping machines and labelling machines according to claim 1, characterized in that the feed conveying line (22) and the discharge conveying line (23) are belt conveying lines.

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