CN212858495U - Automatic feeding and discharging equipment of boiler for steam ironing machine - Google Patents

Abstract

The utility model discloses a steam scalds unloading equipment in automation of boiler for clothes dryer, including first manipulator equipment and around feeding and the point that first manipulator equipment distributes and glue station equipment, first beat screw station equipment, riveting station equipment are beaten to the second, still include second manipulator equipment and around the first point of second manipulator equipment glue station equipment, second point glue station equipment and finished product take-up reel. The utility model discloses a first manipulator equipment and second manipulator equipment divide the two-section to carry the boiler, form the feeding point and glue, two and say to beat screw, riveting, two and say the point and glue, the process of final sabot. The utility model discloses automatic unloading equipment of going up improves boiler machining efficiency with boiler machining automation, reduces the cost of labor.

Description

Automatic feeding and discharging equipment of boiler for steam ironing machine

Technical Field

The utility model relates to an automatic change mechanical technical field, specific saying so relates to a unloading equipment in automation of boiler for steam ironing machine.

Background

The steam ironing machine is a dual-purpose machine for ironing and hanging, so that the ironing machine is suitable for ironing more clothes and cloth.

The steam ironing machine is provided with an important device which is a boiler, the boiler is used for generating heat, and in the production process, screws are required to be screwed for installation, and glue is sealed to form a sealing structure.

The traditional mode is manual operation, the assembly efficiency is low, and the glue dispensing is uneven.

Disclosure of Invention

Not enough to prior art, the to-be-solved technical problem of the utility model lies in providing a unloading equipment in automation of boiler for steam ironing machine, the purpose of unloading equipment in this automation of design makes the equipment of boiler automatic, improves the efficiency of boiler equipment.

In order to solve the technical problem, the utility model discloses a following scheme realizes: the utility model discloses a go up unloading equipment in automation of boiler for steam ironing machine, include:

the first manipulator equipment is used for circularly carrying the boiler to the feeding and dispensing station, the two groups of screw locking stations and the riveting station in sequence;

the feeding and dispensing station equipment is provided with a first material loading jig moving in the X direction and a first dispensing device moving in the YZ direction, and the first material loading jig and the first dispensing device have crossed moving tracks;

the first screw driving station equipment is provided with a second material loading jig which moves in the X direction and a screw driving device which moves in the YZ direction, and the second material loading jig and the screw driving device are provided with crossed moving tracks;

the second screw driving station equipment has the same structure as the first screw driving station equipment and is positioned at the next station of the first screw driving station equipment;

the riveting station equipment is provided with a fourth rack, an oil pressure device which is arranged on the fourth rack and is provided with a lifting structure, a riveting head which is arranged at the lower end of the oil pressure device, and a third loading jig which is arranged on the fourth rack and is positioned right below the riveting head;

the second mechanical hand device carries out the action of circularly carrying the boiler on the riveting station, the two groups of glue dispensing stations and the finished product discharging station in sequence;

the first dispensing station equipment and the second dispensing station equipment are consistent in structure with the feeding and dispensing station equipment;

and the finished product receiving tray is used for receiving and loading the processed boiler.

Further, the first robot apparatus includes:

the first machine frame is provided with an encapsulation cavity and a first bedplate at the top, and a first electric control system is arranged in the encapsulation cavity to control the operation of the first multi-axis manipulator;

and the first multi-axis manipulator is arranged on the first bedplate, and a first clamping mechanism is arranged at the outer end of a first tail shaft of the first multi-axis manipulator.

Further, the first multi-axis robot is a six-axis robot, and the six-axis robot includes:

the first shaft driving part is fixedly arranged on the first bedplate; the device is provided with a first servo motor and a first rotating part driven by the first servo motor to do horizontal circular motion;

the second shaft driving part is fixedly arranged on the first rotating part, the power source of the second shaft driving part is a second servo motor, the second servo motor drives a second rotating part clamped on a second servo motor shell to rotate on the Z-direction surface, and the second rotating part drives a third rotating part to rotate on the Z-direction surface through the transmission of a belt pulley and a gear;

the third shaft driving part is provided with a third servo motor, two sides of a shell of the third servo motor on the third shaft driving part are clamped by the outer end of the third rotating part, the third rotating part drives the third servo motor to rotate in a Z-direction surface through the transmission of a belt, and the driving end of the third servo motor drives a turntable assembly at the tail end of the third servo motor to rotate in a circumference manner;

and one end of the first tail shaft is connected to the turntable assembly, and the other end of the first tail shaft is provided with the clamping mechanism.

Furthermore, coaxial driving gears are mounted on shaft holes on two sides of the second servo motor shell, and the two coaxial driving gears are respectively connected with a coaxial first driven gear through a first synchronous belt;

a first transmission shaft is fixedly arranged between the two coaxial first driven gears, a first transmission gear is fixedly sleeved on the first transmission shaft, a second transmission shaft is arranged in one end of a shell of the third rotating part, a second transmission gear meshed with the first transmission gear is fixedly sleeved on the second transmission shaft, and the two ends of the second transmission shaft are connected with the coaxial second driven gears;

the two second driven gears are connected with coaxial third driven gears through second synchronous belts, and the two third driven gears are fixedly connected with two sides of the shell of the third servo motor respectively through shafts.

Furthermore, the first clamping mechanism drives the clamping jaws to loosen and clamp through the air cylinder.

Further, station equipment is glued in feeding and point includes:

a second frame;

a first X-axis mechanism which is arranged on the second frame and is provided with a first X-direction moving part;

at least one group of first loading jigs which are arranged on the first X-direction moving part and are driven by the first X-axis mechanism to move in the X direction, wherein the first loading jigs are used for loading a boiler;

the first portal frame is erected on the second rack;

the first YZ-axis mechanism is arranged at a cross beam on the first portal frame and is provided with a first Z-direction moving part;

and the first glue dispensing device is arranged on the first Z-direction moving part and is driven by the first YZ-axis mechanism to move in a YZ direction, and the first glue dispensing device is used for dispensing glue to the boiler on the first material loading jig.

Further, the first screwing station equipment comprises:

a third frame;

the 2 groups of second X-axis mechanisms are arranged on the third rack, and a second X-direction moving part is arranged on each of the 2 groups of second X-axis mechanisms;

at least one group of second loading jigs which are arranged on the second X-direction moving part and are driven by the second X-axis mechanism to move in the X direction, wherein the second loading jigs are used for loading the boiler;

the second portal frame is erected on the third rack;

the second YZ-axis mechanism is arranged at a beam on the second portal frame and is provided with a second Z-direction moving part;

and the screw driving device is arranged on the second Z-direction moving part and is driven by the second YZ-axis mechanism to move in the YZ direction, and screws are driven by the screw driving device to screw the boiler on the second loading jig.

Further, the second robot apparatus includes:

the fifth rack is provided with a packaging cavity and a second bedplate at the top, and a second electric control system is arranged in the packaging cavity to control the operation of the second multi-axis manipulator;

and the second multi-axis manipulator is arranged on the second bedplate, and a second clamping mechanism is arranged at the outer end of the second tail shaft of the second multi-axis manipulator.

Further, the second multi-axis robot is a four-axis robot, and the four-axis robot includes:

the first shaft power source is fixedly arranged on the second bedplate through a box body structure; the device is provided with a 1# servo motor and a first rotating shaft driven by the 1# servo motor to do horizontal circular motion;

the second shaft power source is coupled to the upper side of the outer end of the first rotating shaft, the power source in the shell of the second shaft power source is a 2# servo motor, and the 2# servo motor reversely drives the shaft rod to do horizontal circular motion;

the third shaft power source is arranged in a vertical hole at the outer end of the second shaft power source shell, the power source is a 3# servo motor, and the 3# servo motor drives a lifting rod to do lifting motion;

and one end of the second tail shaft is connected to the lower end of the lifting rod, and the other end of the second tail shaft is provided with the second clamping mechanism.

Furthermore, the second clamping mechanism drives the clamping jaws to loosen and clamp through the air cylinder.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses unloading equipment in automation sends into the boiler according to the process in order and adds the station through automatic mechanical equipment, has improved the machining efficiency of boiler, has also improved the accurate rate of point gluing.

Drawings

Fig. 1 is a perspective view of the overall structure of the automatic feeding and discharging device of the present invention.

Fig. 2 is the layout of each device after the disassembly of the automatic feeding and discharging device of the utility model.

Fig. 3 is a schematic structural diagram of the first robot apparatus of the present invention.

Fig. 4 is a schematic structural diagram of a first multi-axis manipulator of the present invention.

Fig. 5 is a schematic structural diagram of the first clamping mechanism of the present invention.

Fig. 6 is the structure diagram of the station equipment is glued to feeding and point of the utility model.

Fig. 7 is a schematic structural diagram of the first screwing station apparatus of the present invention.

Fig. 8 is a schematic structural diagram of the riveting station equipment of the present invention.

Fig. 9 is a schematic structural view of a second robot apparatus according to the present invention.

Detailed Description

The technical solution 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, thereby making more clear and definite definitions of the protection scope of the present invention. It is obvious that the described embodiments of the invention are only some of the embodiments of the invention, and not all of them. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to 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", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific 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 is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; 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 meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1: the utility model discloses a concrete structure as follows:

referring to fig. 1-9, the utility model relates to an automatic feeding and discharging equipment of boiler for steam ironing machine, comprising:

the first manipulator equipment 5 is used for carrying out the action of circularly carrying the boiler 7 on the feeding and dispensing station, the two groups of screw locking stations and the riveting station in sequence;

the feeding and dispensing station equipment 21 is provided with a first material loading jig 213 which moves in the X direction and a first dispensing device which moves in the YZ direction, and the first material loading jig 213 and the first dispensing device have crossed moving tracks;

the first screw driving station equipment 11 is provided with a second material loading jig 113 which can move in the X direction and a screw driving device 116 which can move in the YZ direction, and the second material loading jig 113 and the screw driving device are provided with crossed moving tracks;

a second screwing station apparatus 12 having the same structure as the first screwing station apparatus 11 and located at a next station of the first screwing station apparatus 11;

the riveting station equipment 3 is provided with a fourth frame 33, an oil pressure device 31 which is arranged on the fourth frame 33 and has a lifting structure, a riveting head arranged at the lower end of the oil pressure device 31, and a third loading jig 32 which is arranged on the fourth frame 33 and is positioned right below the riveting head;

the second mechanical hand device 6 carries out the action of circularly carrying the boiler 7 to the riveting station, the two groups of glue dispensing stations and the finished product discharging station in sequence;

the first dispensing station equipment 22 and the second dispensing station equipment 23 have the same structure as the feeding and dispensing station equipment 21;

and the finished product receiving tray 4 is used for receiving and loading the finished boiler.

A preferred technical solution of this embodiment: the first robot device 5 includes:

a first frame 51 having a packaging chamber and a first platen at the top, wherein a first electrical control system is arranged in the packaging chamber to control the operation of the first multi-axis manipulator 52;

the first multi-axis robot 52 is attached to the first platen, and a first gripper 53 is attached to an outer end of a first end shaft 526.

A preferred technical solution of this embodiment: the first multi-axis robot 52 is a six-axis robot including:

a first shaft driving part 521 fixedly arranged on the first bedplate; the device is provided with a first servo motor and a first rotating part driven by the first servo motor to do horizontal circular motion;

a second shaft driving part 522 fixedly mounted on the first rotating part, a power source of which is a second servo motor, wherein the second servo motor drives a second rotating part 523 clamped on a second servo motor shell to rotate on a Z-direction surface, and the second rotating part 523 drives a third rotating part 524 to rotate on the Z-direction surface through transmission of a belt pulley and a gear;

the third shaft driving part 525 is provided with a third servo motor, two sides of a shell of the third servo motor on the third shaft driving part are clamped by the outer end of the third rotating part 524, the third rotating part 524 drives the third servo motor to rotate in a Z-direction surface through the transmission of a belt, and a driving end of the third servo motor drives a turntable assembly at the tail end of the third servo motor to rotate in a circle;

a first end shaft 526, one end of which is connected to the turntable assembly and the other end of which mounts the clamping mechanism 53.

A preferred technical solution of this embodiment: coaxial driving gears are mounted on shaft holes on two sides of the second servo motor shell, and the two coaxial driving gears are connected with a coaxial first driven gear through a first synchronous belt respectively;

a first transmission shaft is fixedly arranged between the two coaxial first driven gears, a first transmission gear is fixedly sleeved on the first transmission shaft, a second transmission shaft is arranged in one end of the shell of the third rotating part 524, a second transmission gear meshed with the first transmission gear is fixedly sleeved on the second transmission shaft, and the two ends of the second transmission shaft are connected with the coaxial second driven gears;

the two second driven gears are connected with coaxial third driven gears through second synchronous belts, and the two third driven gears are fixedly connected with two sides of the shell of the third servo motor respectively through shafts.

A preferred technical solution of this embodiment: the first clamping mechanism 53 drives the clamping jaws to release and clamp through the air cylinder.

A preferred technical solution of this embodiment: the feeding and dispensing station device 21 comprises:

a second frame 211;

a first X-axis mechanism 212 having a first X-direction moving unit provided on the second frame 211;

at least one set of first loading jigs 213 mounted on the first X-direction moving part and driven by the first X-axis mechanism 212 to move in the X-direction, wherein the first loading jigs 213 are used for loading the boiler;

a first gantry 214 mounted on the second frame 211;

a first YZ-axis mechanism 215 installed at a beam of the first gantry 214 and having a first Z-direction moving portion;

and a first dispensing device mounted on the first Z-direction moving part and driven by the first YZ-axis mechanism 215 to move in a YZ direction, wherein the first dispensing device dispenses the boiler glue on the first loading jig 213.

A preferred technical solution of this embodiment: the first screwing station apparatus 11 comprises:

a third frame 111;

2 sets of second X-axis mechanisms 112 disposed on the third frame 111, wherein each of the 2 sets of second X-axis mechanisms 112 has a second X-direction moving portion;

at least one set of second loading jigs 113 installed on the second X-direction moving part and driven by the second X-axis mechanism 112 to move in the X-direction, wherein the second loading jigs 113 are used for loading a boiler;

a second gantry 114 mounted on the third frame 111;

a second YZ-axis mechanism 115 installed at a beam of the second gantry 114 and having a second Z-direction moving portion;

and a screwing device 116 attached to the second Z-direction moving unit and driven by the second YZ-axis mechanism 115 to move in a YZ direction, wherein the screwing device 116 screws the boiler on the second loading jig 113.

A preferred technical solution of this embodiment: the second robot apparatus 6 includes:

a fifth frame 61 having a packaging chamber and a second platen 62 at the top, wherein a second electrical control system is arranged in the packaging chamber to control the operation of the second multi-axis manipulator;

and a second multi-axis robot attached to the second platen 62, and having a second gripper mechanism 610 attached to an outer end of a second end shaft 69.

A preferred technical solution of this embodiment: the second multi-axis manipulator is a four-axis manipulator, and the four-axis manipulator includes:

a first shaft power source 64 fixedly mounted on the second platen 62 through a box structure; the device is provided with a 1# servo motor and a first rotating shaft 65 driven by the 1# servo motor to do horizontal circular motion;

a second shaft power source 66 coupled to the upper side of the outer end of the first rotating shaft 65, wherein the power source in the second shaft power source housing is a # 2 servo motor, and the # 2 servo motor drives a shaft rod to perform horizontal circular motion;

the third shaft power source 67 is arranged in a vertical hole at the outer end of the second shaft power source shell, the power source is a 3# servo motor, and the 3# servo motor drives a lifting rod 68 to do lifting motion;

and a second end shaft 69 having one end connected to a lower end of the lifting rod 68 and the other end mounted with the second clamping mechanism 610.

A preferred technical solution of this embodiment: the second clamping mechanism 610 drives the clamping jaws to loosen and clamp through the air cylinder.

Example 2:

the utility model discloses be applied to the automatic operating principle who goes up unloading equipment of boiler for steam ironing machine:

step one, the boiler on the feeding conveying line is clamped and conveyed to a first material loading jig 213 on the feeding and dispensing station equipment 21 through the first multi-axis manipulator 52, the first material loading jig 213 is provided with 2 groups, and when one group is dispensing, the other group is loaded;

step two, the first YZ axis mechanism 215 drives the first dispensing device to move right above the first loading jig 213 after the loading boiler and dispense;

step three, after the dispensing of the first material loading jig 213 on one side is finished, the first YZ-axis mechanism 215 drives the first dispensing device Y to axially move to the position above the other first material loading jig 213, at this time, the first material loading jig 213 is loaded with a boiler to be dispensed, and the boiler which is already dispensed on the other side is clamped by the first multi-axis manipulator 52 and is sent to the second material loading jig 113 on the first screw driving station;

driving the boiler to a screw driving position by the second X-axis mechanism 112, driving a screw driving device to be right above the second material loading jig 113 by the second YZ-axis mechanism 115 and driving screws, wherein the second material loading jig 113 is provided with 2 groups, and the screws are driven alternately;

step five, the boiler with the screwed screws is clamped by the first multi-shaft manipulator 52 and is sent into the riveting station equipment 3;

sixthly, the riveting station equipment 3 is used for riveting the riveting part of the boiler, and after the riveting is finished, the boiler is sequentially sent into the first glue dispensing station equipment 22 and the second glue dispensing station equipment 23 by the second multi-shaft manipulator to dispense different glues;

and step seven, after the glue dispensing of the boiler in the step six is finished, the boiler is sent into the finished product collecting tray 4 by the second multi-shaft mechanical arm and is placed.

And step eight, circularly operating the steps from the step one to the step seven.

To sum up, the utility model discloses automatic unloading equipment of going up sends into the boiler according to the process in order and adds the station through automatic mechanical equipment, has improved the machining efficiency of boiler, has also improved the accurate rate of point gluing.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent flow changes made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same way in the protection scope of the present invention.

Claims (10)

1. The utility model provides a go up unloading equipment in automation of boiler for steam ironing machine which characterized in that includes:

the first manipulator equipment (5) is used for carrying out the action of circularly carrying the boiler (7) on the feeding and dispensing station, the two groups of screw locking stations and the riveting station in sequence;

the feeding and dispensing station equipment (21) is provided with a first material loading jig (213) which moves in the X direction and a first dispensing device which moves in the YZ direction, and the first material loading jig (213) and the first dispensing device have crossed moving tracks;

the first screw driving station equipment (11) is provided with a second material loading jig (113) which can move in the X direction and a screw driving device (116) which can move in the YZ direction, and the second material loading jig (113) and the screw driving device are provided with crossed moving tracks;

a second screwing station device (12) which has the same structure as the first screwing station device (11) and is positioned at the next station of the first screwing station device (11);

the riveting station equipment (3) is provided with a fourth rack (33), an oil pressure device (31) which is arranged on the fourth rack (33) and is provided with a lifting structure, a riveting head arranged at the lower end of the oil pressure device (31), and a third loading jig (32) which is arranged on the fourth rack (33) and is positioned right below the riveting head;

the second mechanical hand device (6) is used for circularly carrying the boiler (7) to the riveting station, the two groups of glue dispensing stations and the finished product discharging station in sequence;

the first dispensing station equipment (22) and the second dispensing station equipment (23) have the same structure with the feeding and dispensing station equipment (21);

and the finished product receiving tray (4) is used for receiving and loading the finished boiler.

2. The automatic loading and unloading device of a boiler for steam ironers according to claim 1, characterized in that said first robot device (5) comprises:

the first machine frame (51) is provided with an encapsulation cavity and a first bedplate at the top, and a first electric control system is arranged in the encapsulation cavity to control the operation of the first multi-axis manipulator (52);

and a first multi-axis robot (52) attached to the first platen, wherein a first gripping mechanism (53) is attached to an outer end of a first end shaft (526).

3. The automatic loading and unloading apparatus of a boiler for a steam iron according to claim 2, characterized in that said first multi-axis robot (52) is a six-axis robot comprising:

a first shaft driving part (521) fixedly arranged on the first bedplate; the device is provided with a first servo motor and a first rotating part driven by the first servo motor to do horizontal circular motion;

the second shaft driving part (522) is fixedly arranged on the first rotating part, the power source of the second shaft driving part is a second servo motor, the second servo motor drives a second rotating part (523) clamped on a second servo motor shell to rotate on the Z-direction surface, and the second rotating part (523) drives a third rotating part (524) to rotate on the Z-direction surface through the transmission of a belt pulley and a gear;

the third shaft driving part (525) is provided with a third servo motor, two sides of a shell of the third servo motor on the third shaft driving part are clamped by the outer end of the third rotating part (524), the third rotating part (524) drives the third servo motor to rotate in a Z-direction surface through the transmission of a belt, and the driving end of the third servo motor drives the turntable assembly at the tail end of the third servo motor to rotate in a circle;

a first end shaft (526) having one end connected to the turntable assembly and the other end mounting the clamping mechanism (53).

4. The automatic loading and unloading device of the boiler for the steam ironing machine, as recited in claim 3, wherein the shaft holes at both sides of the second servo motor casing are installed with coaxial driving gears, and the two coaxial driving gears are respectively connected with a coaxial first driven gear through a first synchronous belt;

a first transmission shaft is fixedly arranged between the two coaxial first driven gears, a first transmission gear is fixedly sleeved on the first transmission shaft, a second transmission shaft is arranged in one end of the shell of the third rotating part (524), a second transmission gear meshed with the first transmission gear is fixedly sleeved on the second transmission shaft, and the two ends of the second transmission shaft are connected with the coaxial second driven gears;

the two second driven gears are connected with coaxial third driven gears through second synchronous belts, and the two third driven gears are fixedly connected with two sides of the shell of the third servo motor respectively through shafts.

5. The automatic loading and unloading device of a boiler for a steam iron according to claim 2, characterized in that said first gripping means (53) are driven by a pneumatic cylinder to release and grip the jaws.

6. The automatic loading and unloading equipment of a boiler for steam ironers according to claim 1, characterized in that said station equipment (21) for feeding and dispensing comprises:

a second frame (211);

a first X-axis mechanism (212) provided on the second frame (211) and having a first X-direction moving section;

at least one group of first loading jigs (213) which are arranged on the first X-direction moving part and driven by the first X-axis mechanism (212) to move in the X direction, wherein the first loading jigs (213) are used for loading a boiler;

a first portal frame (214) erected on the second frame (211);

a first YZ-axis mechanism (215) which is arranged at a beam of the first portal frame (214) and is provided with a first Z-direction moving part;

and a first dispensing device which is installed on the first Z-direction moving part and is driven by the first YZ-axis mechanism (215) to move in a YZ direction, wherein the first dispensing device dispenses the boiler on the first material loading jig (213).

7. The automatic loading and unloading device of a boiler for steam ironers according to claim 1, characterized in that said first screwing station device (11) comprises:

a third frame (111);

the 2 groups of second X-axis mechanisms (112) are arranged on the third rack (111), and a second X-direction moving part is arranged on each of the 2 groups of second X-axis mechanisms (112);

at least one group of second loading jigs (113) which are arranged on the second X-direction moving part and are driven by the second X-axis mechanism (112) to move in the X direction, wherein the second loading jigs (113) are used for loading a boiler;

a second gantry (114) erected on the third frame (111);

a second YZ-axis mechanism (115) which is arranged at a beam of the second portal frame (114) and is provided with a second Z-direction moving part;

and a screwing device (116) which is installed on the second Z-direction moving part and is driven by the second YZ-axis mechanism (115) to move in a YZ direction, wherein the screwing device (116) screws the boiler on the second loading jig (113).

8. The automatic loading and unloading apparatus of a boiler for steam ironers according to claim 1, characterized in that said second robotized apparatus (6) comprises:

the fifth machine frame (61) is provided with an encapsulation cavity and a second bedplate (62) at the top, and a second electric control system is arranged in the encapsulation cavity to control the operation of the second multi-axis manipulator;

and a second multi-axis robot mounted on the second platen (62), wherein a second clamping mechanism (610) is mounted to an outer end of a second end shaft (69).

9. The automatic loading and unloading apparatus of a boiler for a steam iron of claim 8, wherein the second multi-axis robot is a four-axis robot, the four-axis robot comprising:

the first shaft power source (64) is fixedly arranged on the second bedplate (62) through a box body structure; the device is provided with a 1# servo motor and a first rotating shaft (65) driven by the 1# servo motor to do horizontal circular motion;

the second shaft power source (66) is coupled to the upper side of the outer end of the first rotating shaft (65), the power source in the shell of the second shaft power source is a # 2 servo motor, and the # 2 servo motor reversely drives the shaft rod to do horizontal circular motion;

the third shaft power source (67) is arranged in a vertical hole at the outer end of the second shaft power source shell, the power source is a 3# servo motor, and the 3# servo motor drives a lifting rod (68) to do lifting motion;

and a second end shaft (69) having one end connected to the lower end of the lifting rod (68) and the other end mounted with the second clamping mechanism (610).

10. The automatic loading and unloading apparatus of a boiler for a steam iron of claim 9, characterized in that said second clamping mechanism (610) is driven by a cylinder to release and clamp the jaws.

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