CN220866510U - Transfer device and card making machine - Google Patents

Abstract

The utility model discloses a transfer device and a card making machine, wherein the transfer device is used for transferring cards between an upper processing device and a lower processing device which are distributed up and down, and comprises a shell, a connecting piece and a locking piece; the shell is provided with a bayonet and a bayonet; the connecting piece is used for being rotationally connected with the lower processing device, and the transferring device is provided with a work position of a card which can be put in and put out of the card inlet and the card outlet and an initial position accommodated in the lower processing device; the locking piece is provided with a locking state which is clamped in the lower processing device and an unlocking state which can rotate relative to the lower processing device, the transfer device is positioned at a working position or an initial position in the locking state, and the transfer device can rotate around the connecting piece in the unlocking state so as to be switched between the working position and the initial position. According to the technical scheme, the transfer device is rotatably connected to the lower processing device, and when the transfer device is not needed, the transfer device is contained in the lower processing device, so that the transfer device is prevented from being damaged in the transportation process.

Description

Transfer device and card making machine

Technical Field

The utility model relates to the technical field of card manufacturing equipment, in particular to a transfer device and a card manufacturing machine.

Background

In the production process of the smart card, a plurality of working procedures are involved, the functional module for completing each working procedure can be independently driven, and a plurality of adjacent working procedures can form a relatively independent working procedure section, so that in the whole production process of the smart card, the whole working procedure is generally split into a plurality of sections, a plurality of processing devices are arranged corresponding to the plurality of sections of working procedures one by one, in the related art, two processing devices adjacent to each other in the working procedure are generally stacked for use, and a transfer device is arranged on a lower processing device positioned below to connect an upper processing device positioned above with the lower processing device for use;

in the prior art, the transfer device is fixedly erected on the lower processing device and is provided with a convex part, and when the upper processing device and the lower processing device are detached and transported, the transfer device is easy to damage due to jolting.

Disclosure of utility model

The main object of the present utility model is to provide a transfer device, which is rotatably connected to a lower processing device, so that the transfer device is rotatably accommodated in the lower processing device when the transfer device is not required to be used, and damage of the transfer device during transportation is avoided.

In order to achieve the above object, the present utility model provides a transfer device applied to a card making machine for transferring cards between an upper processing device and a lower processing device which are vertically distributed, the transfer device comprising:

The shell is provided with a bayonet and a bayonet;

The conveying piece is arranged in the shell, and moves back and forth between the inlet opening and the outlet opening and is used for conveying the card;

The connecting piece is arranged on the shell and is in rotary connection with the lower processing device, the transfer device is provided with an initial position and a working position, the transfer device is accommodated in the lower processing device in the initial position, one of the inlet opening and the outlet opening is opposite to the replacement opening of the upper processing device in the working position, and the other is opposite to the replacement opening of the lower processing device; and

The locking piece is movably arranged on the shell, the locking piece is provided with a locking state which is clamped in the lower processing device and an unlocking state which is separated from the lower processing device, the transfer device can be locked at the working position or the initial position in the locking state, and the transfer device can rotate around the connecting piece in the unlocking state so as to be switched between the working position and the initial position.

Optionally, the locking piece includes locking core and stand pipe, the stand pipe is fixed in the casing, locking core movably wears to establish the stand pipe, the tip of locking core is equipped with the joint, the joint show in the one end of stand pipe, and be used for with lower processingequipment joint.

Optionally, the locking core still includes the locking nail, the locking nail with the joint is connected, the periphery of joint is compared the periphery of locking nail outwards evaginates and establishes, in the stand pipe, the locking nail cover is equipped with the spring, the one end butt of spring in the stand pipe, the other end butt in the joint.

Optionally, the locking nail with the joint can dismantle and be connected, the locking nail includes first pole section and second pole section, the stand pipe orientation the jack has been seted up to the one end of locking nail, the spring housing is located the second pole section, the diameter of first pole section is greater than the diameter of second pole section, the diameter of first pole section is greater than the aperture of jack, the second pole section activity is inserted and is located the jack.

Optionally, the transfer device further includes a button, where the button is slidably connected to the housing and exposed outside the transfer device, and the button is in transmission connection with the locking piece.

Optionally, the transfer device further comprises a rocker and a torsion spring, the rocker is rotationally connected to the shell, one end of the rocker is abutted to the button, the other end of the rocker is abutted to the locking piece, the torsion spring is sleeved on the rotating shaft of the rocker, one torsion arm of the torsion spring is abutted to the rocker, and the other torsion arm of the torsion spring is abutted to the shell.

Optionally, the locking piece accept in the one end in the casing is equipped with spacing turn-ups, the tip of wane is equipped with the knot mouth, detain the mouth joint in the locking piece, and be located spacing turn-ups with between the casing.

Optionally, a pulley is sleeved on the periphery of the locking piece, and the pulley is exposed out of the shell of the transfer device and used for sliding on the sliding rail of the lower processing device.

Optionally, the casing is equipped with guide rail and motor, the guide rail is followed the business turn over mouth with go out the bayonet socket's distribution direction extension, motor drive connect in the conveyor, conveyor sliding connection in the guide rail.

The utility model also provides a card making machine which comprises a lower processing device, an upper processing device and the transfer device, wherein the lower processing device and the upper processing device are vertically distributed, and the transfer device is rotationally connected with the lower processing device so as to have the working position and the initial position.

Optionally, the transfer device and the lower processing device are damped for rotation.

Optionally, the lower processing device is provided with a containing groove, and in the initial position, the transferring device is contained in the containing groove.

Optionally, the lateral wall of processing device down is equipped with first joint mouth, second joint mouth and arc slide rail, the centre of a circle of arc slide rail with the position coincidence of connecting piece, first joint mouth with the second joint mouth is located respectively the both ends of arc slide rail in the working position, locking piece joint in first joint mouth, in initial position, locking piece joint in second joint mouth.

According to the technical scheme, the transfer device is rotationally connected with the lower processing device, when the upper processing device and the lower processing device are required to be connected for use, the upper processing device is overlapped above the lower processing device, then the transfer device is switched from a locking state to an unlocking state at an initial position, then the transfer device is rotated around a point where a connecting piece is positioned from the initial position until reaching a working position, finally the transfer device is switched from the unlocking state to the locking state, so that reliability and stability of a transfer card are guaranteed in the card processing process, then the card which is processed in the upper processing device enters a card inlet of the transfer device from a card exchange port of the upper processing device, is transported to a card outlet from the card inlet, and then the card enters the lower processing device from the card outlet to complete processing of a next procedure; when the transfer device is not needed, the transfer device is switched from a locking state to an unlocking state at the working position, and then rotates from the working position to the initial position around the point where the connecting piece is located, and the transfer device enters the locking state at the initial position, so that the stability of the transfer device at the initial position is ensured. So, realize integrating transfer device in lower processingequipment, rotate transfer device to operating position through the pivoted mode and can use transfer device to, when needs transportation or transfer device, switch transfer device to initial position, make transfer device stably accept in lower processingequipment, thereby avoid transfer device damage in the transportation.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a transfer device according to an embodiment of the present utility model;

FIG. 2 is a schematic view of the transfer device of FIG. 1 without a housing;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

FIG. 4 is an exploded view of the rocker and latch of FIG. 3;

FIG. 5 is a schematic diagram of an embodiment of a card manufacturing machine according to the present utility model;

Fig. 6 is a schematic structural view of the lower processing device in fig. 5.

Reference numerals illustrate:

Reference numerals	Name of the name	Reference numerals	Name of the name
				100	Shell body	110	Inlet opening
120	Bayonet outlet	200	Conveying member
				300	Guide rail	400	Motor with a motor housing
500	Connecting piece	600	Locking piece
				610	Limit flanging	620	Locking core
621	Lock nail	622	First pole segment
				623	Second pole segment	624	Clamping connector
630	Guide tube	631	Jack (Jack)
				640	Spring	650	Pulley wheel
700	Torsion spring	800	Rocker board
				810	Fastening mouth	900	Push button
10	Lower processing device	11	Accommodating groove
				12	First card interface	13	Second card interface
14	Arc slide rail	20	Upper processing device

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

In addition, if there is a description of "first", "second", etc. in the embodiments of the present utility model, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" as it appears throughout includes three parallel schemes, for example "A and/or B", including the A scheme, or the B scheme, or the scheme where A and B are satisfied simultaneously. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

The utility model provides a transfer device.

In an embodiment of the present utility model, referring to fig. 1 to 6, the transferring device is applied to a card making machine, and is used for transferring cards between an upper processing device 20 and a lower processing device 10 which are vertically distributed, and the transferring device includes:

A housing 100 provided with a bayonet 110 and a bayonet 120;

The conveying member 200 is arranged in the shell 100, and the conveying member 200 reciprocates between the bayonet 110 and the bayonet 120 and is used for conveying cards;

The connecting piece 500 is arranged on the shell 100 and is used for being rotationally connected with the lower processing device 10, the transferring device is provided with an initial position and a working position, the transferring device is accommodated in the lower processing device 10 in the initial position, one of the inlet opening 110 and the outlet opening 120 is opposite to the changing opening of the upper processing device 20, and the other is opposite to the changing opening of the lower processing device 10; and

The locking member 600 is movably disposed on the housing 100, and the locking member 600 has a locking state of being engaged with the lower processing device 10 and an unlocking state of being disengaged from the processing device 10, in which the transfer device can be locked at the working position or the initial position, and in which the transfer device can be rotated around the connection member 500 to switch between the working position and the initial position.

According to the technical scheme, the transfer device is rotationally connected with the lower processing device 10, when the upper processing device 20 and the lower processing device 10 are required to be connected for use, the upper processing device 20 is overlapped above the lower processing device 10, then the transfer device is switched from a locking state to an unlocking state at an initial position, the transfer device is rotated around a point where the connecting piece 500 is positioned from the initial position until reaching a working position, and finally the transfer device is switched from the unlocking state to the locking state, so that reliability and stability of transferring cards by the transfer device are ensured in a card processing process, then the cards which are processed in the upper processing device 20 enter a card inlet 110 of the transfer device from a card exchange port of the upper processing device 20 and are transported to a card outlet 120 from the card inlet 110 by a transport piece 200, and then the cards enter the lower processing device 10 from the card outlet 120 to complete processing of a next process; when the transfer device is not needed, the transfer device is switched from the locking state to the unlocking state at the working position, and then rotates from the working position to the initial position around the point where the connecting piece 500 is positioned, and enters the locking state at the initial position, so that the stability of the transfer device at the initial position is ensured. So, realize integrating transfer device in lower processingequipment 10, rotate transfer device to operating position through the pivoted mode and can use transfer device to, when needs transportation or transfer device, switch transfer device to initial position, make transfer device stably accept in lower processingequipment 10, thereby avoid transfer device damage in the transportation.

The two ends of the connecting piece 500 may be respectively connected with the transferring device and the lower processing device 10 in a rotating manner, or the two ends of the connecting piece 500 may be respectively connected with the transferring device and the lower processing device 10 in a fixed manner, and the connecting piece 500 itself may rotate with its axial direction as a rotation center. In addition, the locking member 600 may be a protrusion, and cooperates with a bayonet on the lower processing device 10, and the locking member 600 may also be a magnetic member and magnetically attracts with a magnetic portion of the lower processing device 10, so as to realize switching between an unlocked state and a locked state.

It should be noted that, in an embodiment, referring to fig. 1 and 5, a housing 100 of the transferring device is further provided with another bayonet (not shown) which is separated from the bayonet 110 of the upper processing device 20 on two horizontal sides of the housing 100 opposite to the housing 100, when a user does not need to use the upper processing device 20 and only needs to use the lower processing device 10, the card can enter the transferring device through the bayonet, and be conveyed to the outlet 120 by the conveying member 200 to enter the lower processing device 10 for processing, when the user does not need to use the lower processing device 10 and only needs to use the upper processing device 20, the card can enter the transferring device through the bayonet and directly enter the upper processing device 20 for processing through the bayonet 110, so that the lower processing device 10 or the upper processing device 20 can be independently used by the transferring device without separating the upper processing device 20 and the lower processing device 10, thereby improving the convenience of use of the user. Or when only the lower processing device 10 is used, the two inlet openings of the transfer device can serve as the inlet openings of the lower processing device 10, so that the lower processing device 10 is prevented from being additionally provided with the inlet openings, the layout of internal components of the lower processing device 10 is facilitated, and the volume of the lower processing device 10 is reduced.

In an embodiment, referring to fig. 1 to 4, the locking member 600 includes a locking core 620 and a guiding tube 630, the guiding tube 630 is fixed to the housing 100, the locking core 620 movably penetrates the guiding tube 630, a clamping connector 624 is disposed at an end of the locking core 620, and the clamping connector 624 is exposed at one end of the guiding tube 630 and is used for being clamped with the lower processing device 10. The guide tube 630 provides a guiding function for the locking core 620 to ensure the switching stability of the locking member 600 between the locking state and the unlocking state, and in the locking state, if the transfer device and the lower processing device 10 shake with each other, the locking core 620 can still be stably clamped to the lower processing device 10 under the action of the guide tube 630, so that the connection stability of the transfer device and the lower processing device 10 is ensured. In addition, the guide pipe 630 can be arranged in a split mode with the shell 100, so that the molding difficulty of the shell 100 is reduced, and the production efficiency of the transfer device is improved. In other embodiments, the locking member 600 may be configured as a locking core 620, and the housing 100 forms a guide channel for the locking core 620 to secure the connection stability of the transfer device and the lower processing device 10 in the locked state.

In an embodiment, referring to fig. 1 to 4, the locking core 620 further includes a locking pin 621, the locking pin 621 is connected with the locking joint 624, the outer periphery of the locking joint 624 is protruded outwards than the outer periphery of the locking pin 621, a spring 640 is sleeved in the guiding tube 630, one end of the spring 640 is abutted against the guiding tube 630, and the other end is abutted against the locking joint 624. It can be appreciated that the elastic expansion direction of the spring 640 is parallel to the moving direction of the clamping connector 624, the locking core 620 can move along the guiding tube 630, when the clamping connector 624 is clamped with the lower processing device 10, the spring 640 provides a pushing force for the clamping connector 624, so that the clamping connector 624 can be stably clamped in the lower processing device 10, and thus, the connection stability of the transferring device and the lower processing device 10 in a locking state is ensured, when the locking piece 600 is in an unlocking state, the clamping connector 624 is separated from the lower processing device 10, the spring 640 is compressed by the clamping connector 624, at this time, the transferring device can freely rotate around the point where the connecting piece 500 is located, and when the locking piece 600 needs to be switched into the locking state, the compression limitation of the clamping connector 624 and the spring 640 is released, and under the elastic pushing action of the spring 640, the clamping connector 624 can be automatically clamped in the lower processing device 10, so that the locking piece 600 can be smoothly switched into the locking state. In this way, the convenience of the operation of switching the locking member 600 between the locked state and the unlocked state is improved, and the connection stability of the transfer device and the lower processing device 10 in the locked state can be secured. In other embodiments, the user may stably switch the locking element 600 between the locked and unlocked states by directly inserting the locking core 620 over the guide tube 630.

Further, in this embodiment, please continue to refer to fig. 1 to 4, the locking pin 621 is detachably connected with the snap connector 624, the locking pin 621 includes a first rod section 622 and a second rod section 623, the guiding tube 630 is provided with a jack 631 facing one end of the locking pin 621, the spring 640 is sleeved on the second rod section 623, the diameter of the first rod section 622 is larger than the diameter of the second rod section 623, the diameter of the first rod section 622 is larger than the aperture of the jack 631, and the second rod section 623 is movably inserted into the jack 631. It will be appreciated that during assembly of the locking element 600, the second leg 623 of the locking pin 621 is first inserted into the guide tube 630 from the insertion hole 631, and the bayonet 624 is connected to the end of the second leg 623 on the other side of the guide tube 630, thereby improving the convenience of assembly of the locking element 600, and similarly, when the locking element 600 needs to be disassembled, the above steps can be referred to reverse the disassembly step of the locking element 600. Moreover, the diameter of the first rod section 622 is larger than the aperture of the jack 631, the first rod section 622 provides a limiting function for the locking pin 621, so that the situation that the spring 640 is excessively deduced to cause the clamping connector 624 to be completely clamped into the lower processing device 10 and cannot be unlocked is avoided, meanwhile, the jack 631 can also ensure that the end part of the spring 640 provides a stress supporting point for elastic pushing, and therefore the stress stability of the spring 640 is ensured. In other embodiments, the locking pin 621 and the bayonet 624 may be integrally formed, the spring 640 is a conical spring 640, and the side of the receptacle 631 facing the bayonet 624 has a supporting surface for supporting the conical spring 640.

In an embodiment, referring to fig. 1 to 5, the transferring device further includes a button 900, where the button 900 is slidably connected to the housing 100 and exposed outside the transferring device, and the button 900 is in driving connection with the locking member 600. By slidably connecting the button 900 to the housing 100, the button 900 can be easily pressed outside the transfer device, and when the transfer device needs to be adjusted to a locked state or an unlocked state, a user can perform a corresponding action by simply pressing or releasing the button 900. For example, when the button 900 is pressed, the locking member 600 is in an unlocked state, the transferring device can rotate around the point where the connecting member 500 is located and switch to a working position or an initial position, and the button 900 is released, and the locking member 600 side is in a locked state, so that the convenience of operation of a user is improved. In other embodiments, one end of the locking member 600 is directly exposed outside the housing 100, and the user can directly act on the locking member 600.

Further, in this embodiment, referring to fig. 2 and 3, the transfer device further includes a rocker 800 and a torsion spring 700, the rocker 800 is rotatably connected to the housing 100, one end of the rocker 800 abuts against the button 900, the other end is in clamping connection with the locking member 600, the torsion spring 700 is sleeved on the rotating shaft of the rocker 800, one torsion arm of the torsion spring 700 abuts against the rocker 800, and the other torsion arm abuts against the housing 100. It can be understood that when the button 900 is pressed, the button 900 applies force to the rocker 800, so that the rocker 800 rotates around its rotation axis, and this rotation corresponds to the switching between the unlocking state and the locking state of the locking member 600 through the other end of the rocker 800, so that the operation of the button 900 can directly affect the state of the locking member 600, and the locking or unlocking function of the transfer device is achieved. In addition, torsion spring 700 provides a certain elastic force to rocker 800, so that rocker 800 can return to the original position after button 900 is released, and a stable connection relationship is maintained. In this way, the rocker 800 and the torsion spring 700 are provided, so that the user can switch the locking member 600 between the unlocking state and the locking state only by acting on the button 900, and the operation convenience of the user is improved. In other embodiments, the button 900 may also be directly coupled to the latch 600 to directly control the switching of the latch 600 between the latched and unlatched states.

Further, in the present embodiment, please continue to refer to fig. 2 and 3, a limiting flange 610 is disposed at one end of the locking member 600 received in the housing 100, a buckling opening 810 is disposed at an end of the rocker 800, and the buckling opening 810 is clamped to the locking member 600 and located between the limiting flange 610 and the housing 100. Under the effect of knot mouth 810 and spacing turn-ups 610, the tip of wane 800 is connected with locking piece 600 all the time for the activity of wane 800 can effectively be transmitted to locking piece 600 on, can control locking piece 600 and switch between locking state and unlocking state in order to ensure that the user controls in button 900, has promoted the reliability of the stability and the atress of connecting between wane 800 and the locking piece 600. In other embodiments, the end of rocker 800 may also define a limiting aperture, and latch 600 extends through the limiting aperture and is positioned between limiting flange 610 and housing 100.

In an embodiment, referring to fig. 1 to 4, a pulley 650 is sleeved on the outer periphery of the locking member 600, and the pulley 650 is exposed outside the housing 100 of the transferring device for sliding on a sliding rail of the lower processing device 10. Thus, the transfer device can slide on the sliding rail more easily, frictional resistance to which the transfer device is switched between the working position and the initial position is reduced, so that operation difficulty is reduced, and the transfer device can stably move on the sliding rail through the pulley 650 under the guidance of the sliding rail, so that the stability and reliability of the transfer device in switching between the working position and the initial position are ensured. In other embodiments, the transfer device may also be provided with a circular arc guide rail, and the lower processing device 10 is correspondingly provided with a sliding protrusion, where the sliding protrusion is slidably inserted on the circular arc guide rail, and when the sliding protrusion is located at the end of the circular arc guide rail, the transfer device is located at the working position or the initial position.

In an embodiment, referring to fig. 1 to 4, the housing 100 is provided with a guide rail 300 and a motor 400, the guide rail 300 extends along the distribution direction of the inlet opening 110 and the outlet opening 120, the motor 400 is in driving connection with the conveying member 200, and the conveying member 200 is in sliding connection with the guide rail 300. Under the driving action of the motor 400, the conveying member 200 can slide along the guide rail 300, so as to ensure accurate alignment and smooth conveying between the inlet 110 and the outlet 120, ensure the efficiency and accuracy of moving the card from the inlet 110 to the outlet 120, and avoid the deviation of the card caused by shaking in the transportation process of the conveying member 200.

The present utility model also proposes a card making machine, please refer to fig. 5 and 6, the card making machine includes a lower processing device 10 and an upper processing device 20 which are vertically distributed, and a transfer device, the transfer device is rotatably connected to the lower processing device 10, wherein when the transfer device is in a working position, a card exchanging opening of the upper processing device 20 is opposite to a card inlet opening 110, and a card exchanging opening of the lower processing device 10 is opposite to a card outlet opening 120; when the transfer device is in the initial position, the transfer device is accommodated and installed in the lower processing device 10. Thus, when the transfer device is required to be used, the transfer device is rotated from the initial position to the working position around the connecting piece 500, then the upper processing device 20 completes processing of the card, and the card is ejected from the card exchanging opening, the card enters the transfer device from the card inlet 110, and is conveyed from the card inlet 110 to the card outlet 120 by the conveying member 200, the card is ejected from the card outlet 120 and enters the lower processing device 10, or the lower processing device 10 completes processing of the card, and the card is ejected from the card exchanging opening of the lower processing device 10, the card enters the transfer device from the card outlet 120, and is conveyed from the card outlet 120 to the card inlet 110 by the conveying member 200, and the card is ejected from the card inlet 110 and enters the upper processing device 20, thereby completing card transfer; when the use of the transfer device is not required, the transfer device is rotated about the connection 500 from the working position to the initial position. Realize integrating transfer device in processing apparatus 10 down, rotate transfer device to operating position through the pivoted mode and can use transfer device to initial position's transfer device acceptd and installs in processing apparatus 10 down, can avoid transfer device to lose or damage, thereby be convenient for the user to use.

It should be noted that, the specific structure of the transfer device refers to the above embodiments, and because the card making machine adopts all the technical solutions of all the embodiments, at least the technical solutions of the embodiments have all the beneficial effects, and are not repeated herein.

In an embodiment, referring to fig. 1, 5 and 6, any one of the upper processing device 20 and the lower processing device 10 stacked on each other may be used independently, that is, the upper processing device 20 and the lower processing device 10 each have a bayonet and a bayonet which are connected to the outside when the upper processing device 20 or the lower processing device 10 is placed on a table, for example, in an embodiment, when the upper processing device 20 or the lower processing device 10 is required to be used independently, a card enters from the bayonet opened upwards by the upper processing device 20, and after finishing the processing, the card is outputted from the bayonet opened horizontally by the upper processing device 20, and the same is true for the lower processing device 10. In another embodiment, when the upper processing device 20 and the lower processing device 10 need to be continuously used, the upper processing device 20 is stacked above the lower processing device 10, the transferring rotation is switched to the working position, the card enters from the inlet opening formed by the upper processing device 20 upwards, then, the card enters from the outlet opening formed by the upper processing device 20 horizontally and enters the transferring device through the inlet opening 110, after being transported by the transferring device, the card is output from the outlet opening 120 of the transferring device to the outlet opening formed by the lower processing device 10 horizontally, after the processing of the card is finished by the lower processing device 10, the card is output from the outlet opening formed by the lower processing device 10 horizontally, that is, the card enters from the inlet opening exposed outside the upper processing device 20 in the process of continuously using the upper processing device 20 and the lower processing device 10, and then, the card leaves from the outlet opening exposed outside the lower processing device 10.

In an embodiment, referring to fig. 1, 5 and 6, the connecting member 500 and the lower processing device 10 are damped to rotate, when the user rotates the transferring device, the connecting member 500 gives a damping feeling to the user, so that the user can control the rotating speed and the rotating position, and the user experience can be improved when the user rotates and stops. Specifically, the damping rotation between the connecting member 500 and the housing 100 may be performed, the damping rotation between the connecting member 500 and the lower processing device 10 may be performed, or the damping rotation of the connecting member 500 itself may be performed. In other embodiments, the transfer device and the lower processing device 10 may also rotate smoothly about the connection 500 via bearings.

In an embodiment, referring to fig. 1 to 6, a first clamping interface 12, a second clamping interface 13 and an arc-shaped sliding rail 14 are disposed on a side wall of the lower processing device 10, the center of the arc-shaped sliding rail 14 coincides with the position of the connecting piece 500, the first clamping interface 12 and the second clamping interface 13 are respectively disposed at two ends of the arc-shaped sliding rail 14, in the working position, the locking piece 600 is clamped to the first clamping interface 12, and in the initial position, the locking piece 600 is clamped to the second clamping interface 13. It can be understood that in this embodiment, the locking member 600 and the rotating member are disposed in an ectopic manner, when the transferring device needs to be switched from the initial position to the working position, the locking member 600 is separated from the first clamping interface 12, and then the transferring device is rotated around the connecting member 500, and the locking member 600 is clamped to the second clamping interface 13, so that the transferring device is switched to the working position, and in this process, the locking member 600 slides along the arc-shaped sliding rail 14 and slides along one end of the arc-shaped sliding rail 14 to the other end, thereby guaranteeing the rotating stability of the transferring device. Similarly, when the transfer device is required to be switched from the working position to the initial position, the transfer device can reversely rotate by referring to the rotation operation. In addition, the first card interface 12 and the second card interface 13 also provide positioning function for the working position and the initial position of the transfer device, so that the transfer device can be accurately switched to the working position or the initial position. In other embodiments, the lower processing device 10 may also have a limiting slot corresponding to two ends of the arc-shaped sliding rail 14, and the locking member 600 is clamped in the limiting slot; or the locking member 600 is kept stable in the working position or the initial position by screwing or the like; or the locking piece 600 and the connecting piece 500 are arranged at the same point, the connecting piece 500 is sleeved on the locking piece 600, the cross section of the clamping joint 624 is rectangular, the lower processing device 10 is provided with a limiting hole corresponding to the clamping joint 624, the limiting hole is provided with a first limiting part corresponding to the clamping joint 624 at the working position and a second limiting part corresponding to the clamping joint 624 at the initial position, and the first limiting part and the second limiting part are crossed, so that the clamping joint 624 can be stable in the limiting hole at the working position or the initial position.

In an embodiment, referring to fig. 1 and 6, the lower processing device 10 is provided with a receiving groove 11, and in an initial position, the transferring device is received in the receiving groove 11. Without losing generality, the edge of the accommodating groove 11 is provided with a protection flanging, when the transfer device is in an initial position, the outer surface of the transfer device is adjacent to and opposite to the inner surface of the protection flanging, and the groove bottom wall of the accommodating groove 11 corresponds to the positions of the connecting piece 500 and the locking piece 600, so that an arc-shaped groove is formed, the arc-shaped groove can avoid the rotation of the transfer device, and the stability of the transfer device in switching between the working position and the initial position is ensured. In this way, the accommodating groove 11 can form limit and protection for the transfer device in the initial state, and the transfer device is prevented from falling off or being damaged. In other embodiments, the transfer device may have only the connection member 500 and the locking member 600 in connection with the lower processing device 10, and in the initial state, the transfer device is suspended from the side wall of the lower processing device 10.

The foregoing description is only of the optional embodiments of the present utility model, and is not intended to limit the scope of the utility model, and all the equivalent structural changes made by the description of the present utility model and the accompanying drawings or the direct/indirect application in other related technical fields are included in the scope of the utility model.

Claims (10)

1. A transfer device for use in a card making machine for transferring cards between an upper processing device and a lower processing device in an up-down distribution, the transfer device comprising:

The shell is provided with a bayonet and a bayonet;

The conveying piece is arranged in the shell, and moves back and forth between the inlet opening and the outlet opening and is used for conveying the card;

The connecting piece is arranged on the shell and is in rotary connection with the lower processing device, the transfer device is provided with an initial position and a working position, the transfer device is accommodated in the lower processing device in the initial position, one of the inlet opening and the outlet opening is opposite to the replacement opening of the upper processing device in the working position, and the other is opposite to the replacement opening of the lower processing device; and

The locking piece is movably arranged on the shell, the locking piece is provided with a locking state which is clamped in the lower processing device and an unlocking state which is separated from the lower processing device, the transfer device can be locked at the working position or the initial position in the locking state, and the transfer device can rotate around the connecting piece in the unlocking state so as to be switched between the working position and the initial position.

2. The transfer device of claim 1, wherein the locking member comprises a locking core and a guide tube, the guide tube is fixed to the housing, the locking core is movably threaded through the guide tube, and a clamping connector is arranged at an end of the locking core, exposed at one end of the guide tube, and is used for being clamped with the lower processing device.

3. The transfer device of claim 2, wherein the locking core further comprises a locking pin, the locking pin is connected with the clamping connector, the periphery of the clamping connector is outwards protruded from the periphery of the locking pin, a spring is sleeved in the guide tube, one end of the spring is abutted to the guide tube, and the other end of the spring is abutted to the clamping connector.

4. A transfer device according to claim 3, wherein the locking pin is detachably connected to the clip, the locking pin comprises a first rod section and a second rod section, the guide tube is provided with a jack towards one end of the locking pin, the spring is sleeved on the second rod section, the diameter of the first rod section is larger than that of the jack, and the second rod section is movably inserted into the jack.

5. The transfer device of claim 1, further comprising a button slidably coupled to the housing and exposed from the transfer device, the button in driving engagement with the locking member.

6. The transfer device of claim 5, further comprising a rocker rotatably coupled to the housing, one end of the rocker being in abutment with the button and the other end being in abutment with the locking member, the torsion spring being coupled to the pivot of the rocker, one torsion arm of the torsion spring being in abutment with the rocker and the other torsion arm being in abutment with the housing.

7. The transfer device of claim 6, wherein one end of the locking member received in the housing is provided with a limit flange, and the end of the rocker is provided with a snap, and the snap is engaged with the locking member and is located between the limit flange and the housing.

8. The transfer device according to any one of claims 1 to 7, wherein a pulley is sleeved on the outer periphery of the locking member, and the pulley is exposed out of the housing of the transfer device and is used for sliding on a sliding rail of the lower processing device;

And/or the shell is provided with a guide rail and a motor, the guide rail extends along the distribution direction of the inlet opening and the outlet opening, the motor is in driving connection with the conveying piece, and the conveying piece is in sliding connection with the guide rail.

9. A card making machine comprising a lower processing device and an upper processing device which are vertically distributed, and a transfer device according to any one of claims 1 to 8, wherein the transfer device is rotatably connected to the lower processing device so as to have the working position and the initial position.

10. The card manufacturing machine of claim 9 wherein said transfer device is dampened against rotation with said lower processing device; and/or

The lower processing device is provided with a containing groove, and the transfer device is contained in the containing groove at the initial position; and/or

The side wall of the lower processing device is provided with a first clamping interface, a second clamping interface and an arc-shaped sliding rail, the circle center of the arc-shaped sliding rail coincides with the position of the connecting piece, the first clamping interface and the second clamping interface are respectively arranged at two ends of the arc-shaped sliding rail, in the working position, the locking piece is clamped to the first clamping interface, in the initial position, and the locking piece is clamped to the second clamping interface.