CN116394663A - Embedding box printing device and embedding box printing method - Google Patents

Abstract

The invention discloses an embedding box printing device and an embedding box printing method, wherein the embedding box printing device comprises a supporting plate, a printing head, a first pushing block, a blocking piece and a first limiting piece. The printing position is provided with an output end, and the printing head is positioned at one side of the supporting plate; the first pushing block can reciprocate in a first direction and is used for pushing the embedding box from the feeding position to the printing position on the supporting plate; the blocking pieces and the first pushing blocks are respectively distributed at intervals in the output direction of the embedding box at the printing position, and the blocking pieces are close to the output end and used for selectively blocking the output end; the first locating part, the protrusion sets up on the bearing board, and first locating part and first ejector pad are at first direction interval and relative setting, and when first ejector pad promoted the embedding box to printing the position, first ejector pad, first locating part and blocking piece respectively with the embedding box butt to with the embedding box spacing on the bearing board. The embedded box can be prevented from moving during printing, and the printing effect of the embedded box is improved.

Description

Embedding box printing device and embedding box printing method

Technical Field

The invention relates to the technical field of printing equipment, in particular to an embedding box printing device and an embedding box printing method using the embedding box printing device.

Background

The embedded box is a necessary experimental tool for clinical laboratory and pathology department in hospitals, and various information of the embedded box needs to be printed on the surface of the embedded box when the embedded box is used.

Typically, the information is printed on the surface of the cassette using a cassette printing device. The embedding box printing device comprises a supporting plate, a printing head and a horizontally moving pushing mechanism, wherein the supporting plate is provided with a printing position, the printing head is arranged right above the printing position, after the embedding box to be printed is pushed into the printing position by the pushing mechanism, the printing head descends and after the information is printed on the printing surface of the embedding box, the printed embedding box is pushed out to the outside of the supporting plate by the pushing mechanism, and then the pushing mechanism resets to prepare for printing of the next embedding box. However, the cassette of this structure has the following disadvantages: when the printing head prints information on the embedding box, the embedding box is easy to move, and the printing effect of the embedding box is affected.

Disclosure of Invention

One object of an embodiment of the invention is to: the utility model provides an embedding box printing device can prevent embedding box displacement when printing, promotes the printing effect of embedding box.

Another object of an embodiment of the invention is to: the embedding box printing method is good in printing effect.

In order to achieve the above purpose, the invention adopts the following technical scheme:

in one aspect, there is provided an embedded cassette printing apparatus comprising:

the printing device comprises a bearing plate, a printing device and a printing device, wherein a printing position is arranged on the bearing plate and used for bearing the embedded box to be printed, the printing position is provided with an output end, and the output end is used for outputting the printed embedded box out of the bearing plate;

the printing head is positioned on one side of the bearing plate and is used for printing information on the printing surface of the embedding box;

the first pushing block can reciprocate in a first direction, the first direction and the output direction of the embedding box at the printing position form an included angle, and the first pushing block is used for pushing the embedding box from a feeding position to the printing position on the bearing plate;

the blocking piece can reciprocate in the first direction, the blocking piece and the first pushing block are respectively distributed at intervals in the output direction of the embedding box at the printing position, and the blocking piece is close to the output end and used for selectively blocking the output end;

the first limiting piece is arranged on the bearing plate in a protruding mode, the first limiting piece and the first pushing piece are arranged at intervals in the first direction and are arranged oppositely, and when the first pushing piece pushes the embedding box to the printing position, the first pushing piece, the first limiting piece and the blocking piece are respectively abutted to the embedding box so as to limit the embedding box on the bearing plate.

As a preferable mode of the cassette printing device, an abutment surface is provided on a side of the blocking member facing the output end, and the abutment surface is used for abutting against the cassette.

As a preferred scheme of embedding box printing device, still include first installed part, material box and ejection of compact subassembly, the material box interval sets up the feeding position deviates from one side of first locating part, first installed part is movable to be set up the material box with between the feeding position, first ejector pad with it all installs to block the piece first installed part is close to one side of feeding position, ejection of compact subassembly includes second ejector pad, first slide rail, second locating part and second installed part, first slide rail is located one side of first ejector pad, just the length of first slide rail is along first direction extension, the second ejector pad passes through the second installed part with first slide rail sliding connection, the second ejector pad is used for with the inside embedding box of material box is released to the feeding position, the second ejector pad through the magnetism inhale piece with one side that first installed part deviates from first ejector pad can dismantle the connection, the second slide rail is located one side of first ejector pad, and second ejector pad is kept away from when first ejector pad is installed to first ejector pad the second ejector pad.

As a preferred scheme of embedding box printing device, still include the storage component, the storage component is used for accomodating from the output of bearing board the embedding box, the below of bearing board is provided with the delivery port, the bearing board pass through the delivery port with the storage component intercommunication.

As a preferred scheme of embedding box printing device, the storage component includes receiver, pushing arm and receiving piece, the below of delivery port is provided with the ejection of compact district, the receiver is located one side in ejection of compact district, receiving piece sets up on the ejection of compact district, pushing arm activity sets up on the receiving piece.

As a preferred scheme of embedding box printing device, connect the material piece to be connect the silo, connect the top of silo to offer first notch, connect the relative both sides of silo to offer second notch and third notch respectively, just the second notch is just right receiver, the one end of pushing away the material arm passes the third notch inserts to connect in the silo, just the pushing away the material arm can be followed the direction reciprocating motion of third notch to the second notch.

As a preferred scheme of embedding box printing device, still include driving motor and third slide rail, the third slide rail with connect material spare interval distribution, the length direction of third slide rail by the ejection of compact district orientation receiver extends, be provided with the slide on the third slide rail, the slide keep away from the one end of third slide rail with driving motor's output shaft passes through threaded structure connection, push away the material arm with the slide connection.

As a preferable mode of the cassette printing device, the cassette printing device further comprises a guide member arranged close to the output end, the guide member is spaced from and opposite to the bearing plate, and a conveying channel for conveying the cassette is formed between the guide member and the bearing plate.

As a preferable mode of the embedded box printing device, the guide piece comprises a guide plate, the guide plate is inclined from top to bottom, the guide plate is parallel to the bearing plate, and the conveying channel is formed between the guide plate and the bearing plate.

On the other hand, the invention also provides an embedding box printing method, which is characterized in that the printing head in the embedding box printing device is used for printing the printing surface of the embedding box, the printing head is a carbon tape printing head, the length direction of the printing surface is perpendicular to the length direction of the printing head, and the printing head is driven to move along the length direction of the printing surface during printing so as to print information on the printing surface.

The beneficial effects of the invention are as follows: the first push block and the first limiting piece are arranged at intervals and opposite to each other in the first direction, when the first push block pushes the embedding box to the supporting plate from the feeding position, the first push block, the first limiting piece and the blocking piece are respectively abutted to the embedding box, at the moment, the first push block and the first limiting piece are respectively abutted to two opposite sides of the embedding box in the first direction, so that the embedding box is clamped between the first push block and the first limiting piece, the embedding box is prevented from moving in the first direction, the blocking piece is blocked at one side, close to the output end, of the embedding box, the embedding box is prevented from sliding out at the output end of the supporting plate, and the embedding box is stably limited on the supporting plate under the combined action of the first push block, the first limiting piece and the blocking piece, so that the embedding box is prevented from being offset in position on the supporting plate, and the printing effect of the embedding box is improved.

Drawings

The invention is described in further detail below with reference to the drawings and examples.

Fig. 1 is a perspective view of an embedding cassette according to an embodiment of the present invention (when the first pushing block and the first limiting member clamp the embedding cassette).

Fig. 2 is an enlarged view at a in fig. 1.

Fig. 3 is a perspective view of an embodiment of the present invention (when the second pushing block pushes the embedding box).

Fig. 4 is an enlarged view at B in fig. 3.

Fig. 5 is a block diagram of the discharge assembly, the bearing plate and the first limiting member according to an embodiment of the present invention.

Fig. 6 is a diagram illustrating a connection structure of the second pushing block, the first mounting member, the second mounting member and the first sliding rail according to an embodiment of the present invention.

Fig. 7 is a diagram showing a connection structure of the first push block, the first mounting member, the first connecting plate and the blocking member according to the embodiment of the present invention.

FIG. 8 is a schematic representation of the bearing plate, first stop member and printhead according to an embodiment of the invention (with the mounting bar and guide removed).

Fig. 9 is a block diagram of a receiving assembly, a guide cylinder and a delivery port according to an embodiment of the present invention.

Fig. 10 is a connection structure diagram of the second driving member and the receiving member according to the embodiment of the present invention.

Fig. 11 is a diagram showing a connection structure of the third driving member and the printhead according to the embodiment of the present invention.

In the figure:

1. a first push block; 2. a bearing plate; 201. an output end; 3. a first limiting member; 4. a blocking member; 401. an abutment surface; 5. a discharge assembly; 501. a second push block; 5011. an avoidance port; 502. a first slide rail; 503. a second mounting member; 504. a magnetic attraction piece; 6. a frame; 601. a support plate; 6011. a delivery port; 602. a substrate; 7. a receiving assembly; 701. a storage box; 7011. a storage groove; 702. a receiving piece; 7021. a first notch; 7022. a second notch; 7023. a third notch; 703. a pushing arm; 704. a slide plate; 705. a third slide rail; 706. a driving motor; 707. an output shaft; 708. a second driving member; 709. a moving plate; 8. a second slide rail; 9. a guide member; 901. a guide plate; 902. a mounting part; 10. a mounting rod; 11. a third driving member; 12. a guide cylinder; 13. a fourth slide rail; 14. a first driving member; 15. a print head; 16. a material box; 17. a supporting plate; 18. a first mounting member; 19. a first connection plate; 100. embedding the box.

Detailed Description

In order to make the technical problems solved by the present invention, the technical solutions adopted and the technical effects achieved more clear, the technical solutions of the embodiments of the present invention will be described in further detail below with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to fall within the scope of the invention.

In the description of the present invention, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

As shown in fig. 1, 2, 4 and 8, the invention provides an embedded box printing device, which comprises a bearing plate 2, a printing head 15, a first push block 1, a blocking piece 4 and a first limiting piece 3. The support plate 2 is provided with a printing position for bearing the embedded box 100 to be printed, the printing position is provided with an output end 201, and the output end 201 is used for outputting the printed embedded box 100 outside the support plate 2. The print head 15 is located on one side of the carrier plate 2 for printing information on the print side of the cassette 100. In this example, the print head 15 is disposed above the support plate 2, the print head 15 is configured to be lifted, the print head 15 is lowered to print information on the embedding box 100 located at the printing position, and the print head 15 is in the prior art, and the print head 15 is not described here. The first pushing block 1 can reciprocate in a first direction (i.e. X direction in the figure), the first direction and the output direction of the embedding box 100 at the printing position (i.e. Z direction in the figure) form an included angle, and referring to fig. 1, the included angle between the first direction and the output direction of the embedding box 100 at the printing position is θ, and θ is 0 ° < θ is less than or equal to 90 °. In this example, θ=90°. The first pusher 1 is used to push the cassette 100 from the feed position into the printing position on the carrier plate 2. The blocking member 4 is reciprocally movable in a first direction, the blocking member 4 and the first pushing block 1 are respectively spaced apart in an output direction (i.e. Z direction in the drawing) of the cassette 100 in the printing position, and the blocking member 4 is close to the output end 201 for selectively blocking the output end 201 to block the cassette 100 from sliding out of the support plate 2 from the output end 201. The first limiting piece 3 protrudes and is arranged on the supporting plate 2, the first limiting piece 3 and the first pushing piece 1 are arranged at intervals in the first direction and are opposite to each other, and when the first pushing piece 1 pushes the embedding box 100 to the supporting plate 2, the first pushing piece 1, the first limiting piece 3 and the blocking piece 4 are respectively abutted with the embedding box 100 so as to limit the embedding box 100 on the supporting plate 2. In this specification, "feed position" means: in the first direction, the print position is away from the position on the side of the first spacing member 3.

When the first push block 1 pushes the embedded box 100 from the feeding position to the printing position on the supporting plate 2, the first push block 1, the first limiting piece 3 and the blocking piece 4 are respectively abutted with the embedded box 100, at the moment, the first push block 1 and the first limiting piece 3 are respectively abutted with two opposite sides of the embedded box 100 in the first direction, so that the embedded box 100 is clamped between the first push block 1 and the first limiting piece 3, the embedded box 100 is prevented from moving in the first direction, the blocking piece 4 is blocked at one side, close to the output end 201, of the embedded box 100 is prevented from sliding out at the output end 201 of the supporting plate 2, the embedded box 100 can be stably limited in the printing position of the supporting plate 2 under the combined action of the first push block 1, the first limiting piece 3 and the blocking piece 4, the embedded box 100 is prevented from being deviated in position on the printing position, and the printing effect of the embedded box 100 is facilitated to be improved; the first push block 1 and the blocking piece 4 are arranged to reciprocate in the first direction, after the embedding box 100 is printed, the first push block 1 is far away from the supporting plate 2 to release the clamping of the embedding box 100, and the blocking piece 4 is far away from the output end 201 to release the blocking of the embedding box 100, so that the embedding box 100 can output the supporting plate 2 from the output end 201, the embedding box 100 is pushed out from the feeding position to the printing position by the first push block 1 and then is matched with the first limiting piece 3 to clamp the embedding box 100, the embedding box 100 can be pushed onto the printing position by the first push block 1, the embedding box 100 on the printing position can be limited by the first push block 1, and other parts and the first limiting piece 3 are not required to be additionally arranged to be matched with the limiting embedding box 100, so that the structure of the printing device of the embedding box 100 is more simplified.

It will be appreciated that in another embodiment, the first limiting member 3 may be provided as a movable member, and the first limiting member 3 is moved toward the first pushing block 1, with a printing position formed therebetween.

Preferably, referring to fig. 8, the support plate 2 is disposed obliquely from top to bottom, and the lower end of the support plate 2 is the output end 201. After the inclined supporting plate 2 is arranged, the first pushing block 1 and the blocking piece 4 are in abutting connection with the embedding box 100, the embedding box 100 can automatically slide from the lower end of the supporting plate 2, so that the printed embedding box 100 can be automatically blanked, the printed embedding box 100 does not need to be pushed away from the supporting plate 2 by the first pushing block 1, the moving stroke of the first pushing block 1 is reduced, and the structure of the printing device of the embedding box 100 is simplified.

It will be appreciated that the cassette 100 has a printing surface, a bottom surface, two first side surfaces and two second side surfaces, the bottom surface is opposite to the printing surface, the two first side surfaces and the two second side surfaces are disposed between the bottom surface and the printing surface, the two first side surfaces are disposed opposite to each other, the two second side surfaces are disposed opposite to each other, when the cassette 100 is pushed to the printing position, the bottom surface of the cassette 100 is disposed on the support plate 2, the two first side surfaces are disposed in the first direction, and the two second side surfaces are disposed in the output direction of the cassette 100 in the printing position.

In order to increase the contact area between the blocking member 4 and the cassette 100, the blocking member 4 is configured to stably block the cassette 100 on the support plate 2, and in this embodiment, referring to fig. 7, an abutment surface 401 is disposed on a side of the blocking member 4 facing the output end 201, and the abutment surface 401 is configured to abut against the cassette 100. Specifically, the abutment surface 401 is configured to abut against a second side of the cassette 100 facing the output end 201 in the print position.

When the support plate 2 is inclined downward from above, the contact surface 401 is inclined, and the inclination direction of the contact surface 401 forms an angle with the inclination direction of the support plate 2. Specifically, the included angle between the inclined direction of the abutment surface 401 and the inclined direction of the bearing plate 2 is equal to the included angle between the bottom surface of the embedding cassette 100 and the second side surface of the embedding cassette 100 facing the output end 201 at the printing position, so that the abutment surface 401 can be attached to the embedding cassette 100 when the blocking member 4 blocks the embedding cassette 100, and the embedding cassette 100 is prevented from being inclined.

Referring to fig. 2, 4, 5 and 7, the embedded box printing apparatus further includes a first mounting member 18, a material box 16 and a discharging assembly 5, the material box 16 is disposed at a side of the feeding position back to the first limiting member 3 at intervals, and the first mounting member 18 is movably disposed between the material box 16 and the feeding position. The first push block 1 and the blocking piece 4 are both arranged on one side of the first mounting piece 18, which is close to the feeding position, and the first mounting piece 18 connects the first push block 1 and the blocking piece 4 together so that the first push block 1 and the blocking piece 4 synchronously move. The discharging assembly 5 further comprises a second pushing block 501, a first sliding rail 502, a second limiting piece (not shown in the figure) and a second mounting piece 503, the first sliding rail 502 is located at one side of the first pushing block 1, the length of the first sliding rail 502 extends along the first direction, the second pushing block 501 is slidably connected with the first sliding rail 502 through the second mounting piece 503, the second pushing block 501 is used for pushing the embedded box 100 inside the material box 16 to a feeding position, the second pushing block 501 is detachably connected with one side, away from the first pushing block 1, of the first mounting piece 18 through a magnetic attraction piece 504, the second limiting piece is arranged at one end, away from the material box 16, of the first sliding rail 502, and when the second pushing block 501 pushes the material box 16 to the feeding position, the second limiting piece blocks the movement of the second mounting piece 503, so that the second pushing block 501 is separated from the first mounting piece 18. When the second push block 501 is connected with the first installation piece 18 through the magnetic attraction piece 504, the second push block 501 moves synchronously with the first push block 1, and the movement of the first installation piece 18 drives the second push block 501 and the second installation piece 503 to move towards the bearing plate 2, so that the embedding box 100 is pushed out from the interior of the material box 16; when the second push block 501 pushes the cassette 100 out to the feeding position, the second limiting member blocks the second mounting member 503, limits the second mounting member 503 and the second push block 501 to continue towards the support plate 2 in the first direction, so that the second push block 501 is separated from the first push block 1, the second push block 501 stops moving and the first push block 1 continues to move towards the support plate 2, and pushes the cassette 100 from the feeding position into the printing position in the support plate 2; after the embedding cassette 100 is printed, the first driving member 14 drives the first pushing block 1 and the first mounting member 18 to reset, and in the resetting process, the first mounting member 18 is reconnected with the second pushing block 501 through the magnetic attraction member 504, and pushes the second pushing block 501 to reset, so as to prepare for the next pushing action of the embedding cassette 100. In this example, the supporting plate 2 is obliquely arranged from top to bottom, the second push block 501 protrudes from the top of the first push block 1, the second push block 501 is of a push claw structure, the second push block 501 is higher than the first push block 1, the second push block 501 can be used for pushing the embedded box 100 out of the material box 16, when the embedded box 100 is pushed to the feeding position, the embedded box 100 at least partially enters the supporting plate 2 and is located at one side of the printing position, which is away from the first limiting part 3, at this time, the embedded box 100 can be obliquely downwards along with the supporting plate 2, and at this time, the lower first push block 1 can be abutted against one side of the embedded box 100 so as to be convenient for being matched with the first limiting part 3 to limit the embedded box 100. The magnetic attraction member 504 has a magnetic attraction effect, when the cassette 100 is pushed out to the feeding position by the second push block 501, the second limiting member blocks the second mounting member 503 from moving further toward the support plate 2 in the first direction, so that the second push block 501 is separated from the magnetic attraction member 504 and separated from the first mounting member 18, the second push block 501 stops moving and the first push block 1 can continue to move toward the support plate 2, thus ensuring that the second push block 501 does not interfere with the structure above the support plate 2 (e.g. the print head 15, etc.) and does not affect the movement of the first push block 1 with the most compact structure. In addition, the provision of the magnetic attraction member 504 to connect the second push block 501 and the first mount member 18 also facilitates the separation and combination of the second push block 501 with the first push block 1.

It should be noted that, resetting the first push block 1 and the first mounting member 18 means that the first push block 1 and the first mounting member 18 are restored to positions where the first push block 1 and the first mounting member 18 are respectively located when the cassette 100 is at the feeding position; the second pusher 501 being reset refers to the position of the second pusher 501 when the cassette 100 is inside the magazine 16.

In one embodiment, referring to fig. 1 and 2, to facilitate movement of the first mounting member 18, the cassette printing device further includes a first driving member 14. In this example, the first driving member 14 is located below the first pushing block 1, the upper end of the first mounting member 18 is connected to the first pushing block 1, the lower end of the first mounting member 18 is connected to the first driving member 14 through the first connecting plate 19, and the operation of the first driving member 14 drives the first mounting member 18 to move.

Referring to fig. 1, the cassette printing apparatus further includes a frame 6, the frame 6 including a support plate 601, the support plate 601 providing a supporting function for the first driving member 14 and the support plate 2, the first driving member 14 being installed at a lower side of the support plate 601, and the support plate 2 being installed at an upper side of the support plate 601.

In this example, the first driving member 14 is a belt driving member, the belt driving member includes a conveying belt, the first connecting plate 19 is connected with the conveying belt, and the belt driving member is in the prior art, and a specific structure of the belt driving member is not described herein.

In order to make the first pushing block 1 and the blocking member 4 move stably, referring to fig. 5, the embedded box printing device is further provided with a second sliding rail 8, the length of the second sliding rail 8 extends along the first direction, and the first mounting member 18 is slidably connected with the second sliding rail 8, so that the moving stability of the first mounting member 18 can be improved.

In practical implementation, referring to fig. 2 to 5, an avoidance port 5011 is concavely formed at one end of the second push block 501 close to the feeding position, where the avoidance port 5011 is used for avoiding the first push block 1, so that when the second push block 501 is connected with the first mounting member 18 through the magnetic attraction member 504, the first push block 1 is partially located in the avoidance port 5011, and the first push block 1 and the second push block 501 are prevented from position interference.

In this embodiment, referring to fig. 2, 4 and 5, a supporting plate 17 is disposed between the material box 16 and the feeding position, the supporting plate 17 is used for supporting the embedding box 100, and the second pushing block 501 provides a supporting function for the embedding box 100 by the supporting plate 17 in the process of pushing the embedding box 100 to move.

In an embodiment, referring to fig. 1, 9 and 10, the embedding cassette printing apparatus further includes a storage assembly 7, the storage assembly 7 is used for storing the embedding cassette 100 output from the support plate 2, a conveying port 6011 is provided below the support plate 2, and the support plate 2 is communicated with the storage assembly 7 through the conveying port 6011. The embedding cassette 100 slides off the lower end of the bearing plate 2 and falls into the storage assembly 7 through the delivery port 6011, so that the embedding cassette 100 can be stored conveniently. In this example, a delivery port 6011 is provided on the support plate 601.

Referring to fig. 1 and 9, the cartridge printing apparatus includes a guide cylinder 12, the guide cylinder 12 is provided with a guide channel penetrating through the top and bottom thereof, the top of the guide channel is a first end, the bottom of the guide channel is a second end, the cross-sectional dimension of the guide channel gradually decreases from the first end toward the second end, the first end of the guide channel is connected with a delivery port 6011, and the cartridge 100 is output from the delivery port 6011, enters the interior of the guide channel from the first end, and is output from the second end to a storage assembly 7. The material guide channel is arranged into a structure with one large end and one small end, so that the embedded box 100 of the conveying port 6011 is conveniently conveyed into the material guide cylinder 12, the embedded box 100 is prevented from inclining in the conveying process in the material guide channel, and the embedded box 100 is conveniently aligned to the accommodating assembly 7.

It will be appreciated that the cassette 100 is prone to tipping over as it slides down the carrier plate 2. Referring to fig. 1 and 2, the cassette printing apparatus further includes a guide 9 disposed near the output end 201, the guide 9 being spaced apart from and opposite to the support plate 2, a transfer path for transferring the cassette 100 being formed between the guide 9 and the support plate 2, and guiding the cassette 100 slid down from the support plate 2 by the transfer path, preventing the cassette 100 from being laterally turned or from being deviated from the transfer port 6011.

Specifically, referring to fig. 4 and 5, the guide 9 includes a guide plate 901, the guide plate 901 is disposed obliquely from top to bottom, and the guide plate 901 is parallel to the support plate 2, and a conveying passage is formed between the guide plate 901 and the support plate 2. Under the condition that the supporting plate 2 is obliquely arranged from top to bottom, the guide plate 901 is also obliquely arranged from top to bottom, and when the embedded box 100 is output at the printing position, the guide piece 9 and the embedded box 100 can form surface contact, the contact area between the guide piece 9 and the embedded box 100 is increased, and the embedded box 100 can slide on the supporting plate 2 stably.

In this embodiment, referring to fig. 2 and 5, the guide 9 further includes a mounting portion 902, one end of the mounting portion 902 is connected with the guide plate 901, the other end protrudes toward a side away from the conveying channel, the first limiting member 3 protrudes toward a side of the discharging component 5 and is provided with a mounting rod 10, the supporting plate 17 and the mounting portion 902 are both mounted on the mounting rod 10, and the supporting plate 17 and the mounting portion 902 are mounted on the same mounting rod 10, so that the number of the mounting rods 10 is reduced.

Referring to fig. 9 and 10, the storage assembly 7 includes a storage box 701, a pushing arm 703 and a receiving member 702, a discharging area is disposed below the conveying port 6011, the storage box 701 is disposed on one side of the discharging area, the receiving member 702 is disposed on the discharging area, and the pushing arm 703 is movably disposed on the receiving member 702. In the case of the guide cylinder 12, the receiving area is located below the guide cylinder 12, the embedding cassette 100 is output from the output end 201 of the bearing plate 2 to the conveying port 6011, slides onto the receiving piece 702 of the discharging area after passing through the guide cylinder 12, and the pushing arm 703 pushes the embedding cassette 100 on the receiving piece 702 to slide out into the storage box 701.

Referring to fig. 9 and 10, the receiving member 702 is a receiving slot, a first notch 7021 is formed in the top of the receiving slot, a second notch 7022 and a third notch 7023 are formed in opposite sides of the receiving slot, the second notch 7022 is opposite to the storage box 701, the pushing arm 703 penetrates through the third notch 7023 to be inserted into the receiving slot, and the pushing arm 703 can reciprocate along the direction from the third notch 7023 to the second notch 7022. After the embedding cassette 100 enters the receiving slot from the first slot 7021, the pushing arm 703 moves from the third slot 7023 towards the second slot 7022, and then the embedding cassette is output from the second slot 7022 to the receiving box 701, and by arranging the receiving piece 702 with such a structure, the embedding cassette 100 can be pushed into the receiving box 701 by the pushing arm 703, and the embedding cassette 100 can be orderly arranged in the receiving box 701.

With continued reference to fig. 10, the storage assembly 7 further includes a driving motor 706 and a third sliding rail 705, the third sliding rail 705 is distributed with the material receiving member 702 at intervals, the length direction of the third sliding rail 705 extends from the material discharging area towards the storage box 701, a sliding plate 704 is arranged on the third sliding rail 705, one end of the sliding plate 704 away from the third sliding rail 705 is connected with an output shaft 707 of the driving motor 706 through a threaded structure, and the material pushing arm 703 is connected with the sliding plate 704. An output shaft 707 of the driving motor 706 can drive the sliding plate 704 to reciprocate on the third sliding rail 705, so as to drive the pushing arm 703 to extend into or withdraw from the receiving groove from the third notch 7023, thereby realizing selective pushing out of the embedding box 100.

Referring to fig. 9, the storage case 701 has a storage groove 7011 for storing the embedding case 100, and a notch of the storage groove 7011 faces the discharge area. In order to accommodate more embedding cassettes 100 in the storage cassette 701, a plurality of storage grooves 7011 are provided in the storage cassette 701, and the plurality of storage grooves 7011 are spaced apart along the second direction (Y direction in the drawing). In this example, the Y direction is a horizontal direction, which may or may not be parallel to the first direction. Preferably, the storage assembly 7 further includes a moving plate 709 and a second driving member 708, the driving motor 706, the third sliding rail 705 and the receiving member 702 are all disposed on the moving plate 709, the second driving member 708 is connected with the moving plate 709, the second driving member 708 is used for driving the moving plate 709 to slide in a second direction, and the second direction is disposed at an included angle with the length direction of the third sliding rail 705. In this example, the second direction is perpendicular to the longitudinal direction of the third slide rail 705. By driving the moving plate 709 with the second driving member 708, the receiving member 702 can be moved to one side of each corresponding receiving slot 7011 in the second direction so that the cassette 100 is placed in each receiving slot 7011.

In this example, the second driving member 708 is a belt driving member, which is a prior art and is not described herein.

Preferably, referring to fig. 9, the storage assembly 7 further includes a fourth slide rail 13, the length direction of the fourth slide rail 13 is parallel to the second direction, and the moving plate 709 is slidably connected to the third slide rail 705.

Referring to fig. 9, the rack 6 further includes a base plate 602, the base plate 602 is disposed below the supporting plate 601 at intervals, and the storage box 701 and the fourth sliding rail 13 are disposed on the base plate 602.

In this embodiment, referring to fig. 11, the cassette printing device further includes a third driving member 11, the third driving member 11 is connected to the print head 15, the third driving member 11 is used to drive the print head 15 to reciprocate in the first direction, and the print head 15 is driven to move in the first direction by the third driving member 11, so that the print head 15 can print information on the printing surface of the cassette 100.

The third driving member 11 is a prior art, and the third driving member 11 is not described herein.

In this embodiment, a printing method of an embedding cassette is provided, in which the print head 15 in the embedding cassette printing apparatus with any one of the above structures is used to print the print surface of the embedding cassette 100, the print head 15 is a carbon tape print head 15, the length direction of the print surface of the embedding cassette 100 is perpendicular to the length direction of the print head 15, and the print head 15 is driven by the third driving member 11 to move horizontally along the length direction of the print surface during printing, so as to print information on the print surface. In this example, the length direction of the print surface is parallel to the first direction. During printing, the third driving piece 11 drives the printing head 15 to move along the length direction of the printing surface, so that the contact area between the carbon tape printing head 15 and the printing surface is reduced, the bonding degree between the carbon tape printing head 15 and the printing surface is improved when the carbon tape printing head 15 is in contact with the printing surface, and the phenomenon that printing information is fuzzy due to the fact that the bonding between the printing head 15 and the embedding box 100 is not tight during printing is avoided. In addition, when the print head 15 applies the same pressure to the embedded box 100, the smaller the contact area between the print head 15 and the printing surface is, the greater the pressure on the printing surface of the embedded box 100 is, so the printing method of the embedded box can enable the print head 15 to press the embedded box 100 more tightly, and therefore clear printing information on the embedded box 100 is obtained.

In the description herein, it should be understood that the terms "upper," "lower," "left," "right," and the like are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and to simplify the operation, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the invention. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for providing a special meaning.

In the description herein, reference to the term "one embodiment," "an example," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in the foregoing embodiments, and that the embodiments described in the foregoing embodiments may be combined appropriately to form other embodiments that will be understood by those skilled in the art.

The technical principle of the present invention is described above in connection with the specific embodiments. The description is made for the purpose of illustrating the general principles of the invention and should not be taken in any way as limiting the scope of the invention. Other embodiments of the invention will be apparent to those skilled in the art from consideration of this specification without undue burden.

Claims (10)

1. An embedded cassette printing device, comprising:

the printing device comprises a bearing plate, a printing device and a printing device, wherein a printing position is arranged on the bearing plate and used for bearing the embedded box to be printed, the printing position is provided with an output end, and the output end is used for outputting the printed embedded box out of the bearing plate;

the printing head is positioned on one side of the bearing plate and is used for printing information on the printing surface of the embedding box;

the first pushing block can reciprocate in a first direction, the first direction and the output direction of the embedding box at the printing position form an included angle, and the first pushing block is used for pushing the embedding box from a feeding position to the printing position on the bearing plate;

the blocking piece can reciprocate in the first direction, the blocking piece and the first pushing block are respectively distributed at intervals in the output direction of the embedding box at the printing position, and the blocking piece is close to the output end and used for selectively blocking the output end;

the first limiting piece is arranged on the bearing plate in a protruding mode, the first limiting piece and the first pushing piece are arranged at intervals in the first direction and are arranged oppositely, and when the first pushing piece pushes the embedding box to the printing position, the first pushing piece, the first limiting piece and the blocking piece are respectively abutted to the embedding box so as to limit the embedding box on the bearing plate.

2. The cassette printing device of claim 1, wherein a side of the blocking member facing the output end is provided with an abutment surface for abutment with the cassette.

3. The embedded box printing device according to claim 1, further comprising a first mounting member, a material box and a discharging assembly, wherein the material box is arranged at intervals on one side of the feeding position, which is away from the first limiting member, the first mounting member is movably arranged between the material box and the feeding position, the first pushing member and the blocking member are both mounted on one side of the first mounting member, which is close to the feeding position, the discharging assembly comprises a second pushing member, a first sliding rail, a second limiting member and a second mounting member, the first sliding rail is arranged on one side of the first pushing member, the length of the first sliding rail extends along the first direction, the second pushing member is in sliding connection with the first sliding rail through the second mounting member, the second pushing member is used for pushing out the embedded box inside the material box to the feeding position, the second pushing member is detachably connected with one side of the first mounting member, which is away from the first pushing member, the second pushing member is arranged on one side of the first mounting member, which is away from the first sliding member, and the second pushing member is separated from the first pushing member when the first pushing member is mounted on the first end.

4. The cassette printing device of claim 1, further comprising a receiving assembly for receiving the cassette output from the carrier plate, a delivery port being provided below the carrier plate, the carrier plate being in communication with the receiving assembly through the delivery port.

5. The printing device of the embedded box according to claim 4, wherein the storage assembly comprises a storage box, a pushing arm and a receiving piece, a discharging area is arranged below the conveying opening, the storage box is located on one side of the discharging area, the receiving piece is arranged on the discharging area, and the pushing arm is movably arranged on the receiving piece.

6. The printing device of the embedding cassette of claim 5, wherein the receiving member is a receiving groove, a first notch is formed in the top of the receiving groove, a second notch and a third notch are formed in two opposite sides of the receiving groove respectively, the second notch is opposite to the storage box, one end of the pushing arm is inserted into the receiving groove through the third notch, and the pushing arm can reciprocate along the direction from the third notch to the second notch.

7. The printing device for the embedded box according to claim 5, further comprising a driving motor and a third sliding rail, wherein the third sliding rail is distributed at intervals with the material receiving pieces, the length direction of the third sliding rail extends from the material discharging area to the storage box, a sliding plate is arranged on the third sliding rail, one end, away from the third sliding rail, of the sliding plate is connected with an output shaft of the driving motor through a threaded structure, and the material pushing arm is connected with the sliding plate.

8. The cassette printing device of claim 1, further comprising a guide disposed adjacent the output end, the guide being spaced from and opposite the carrier plate, a transport channel being formed between the guide and the carrier plate for transporting the cassette.

9. The cassette printing device of claim 8, wherein the guide comprises a guide plate that is inclined from top to bottom, and wherein the guide plate is parallel to the carrier plate, and wherein the transport channel is formed between the guide plate and the carrier plate.

10. A printing method of an embedded box, characterized in that the printing head in the printing device of the embedded box is used for printing a printing surface of the embedded box, the printing head is a carbon tape printing head, the length direction of the printing surface is perpendicular to the length direction of the printing head, and the printing head is driven to move along the length direction of the printing surface during printing so as to print information on the printing surface.

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