CN218664027U - Slide carrying plate and slide printing mechanism - Google Patents

Abstract

The utility model discloses a slide transport plate and slide printing mechanism. The slide carrying plate is arranged between the slide box and the conveying mechanism, a feed opening is formed in the bottom of the slide box, the slide carrying plate comprises a turning plate and a blocking piece capable of moving in the thickness direction of the turning plate, one end of the turning plate is a feed end, the feed end can be communicated with the input end of the conveying mechanism, one side face of the turning plate is a carrying face, the blocking piece is connected with the feed end through an elastic piece, the elastic piece always has the tendency of driving the blocking piece to move towards the carrying face, the blocking piece comprises a blocking piece body which selectively protrudes out of the carrying face, the turning plate can turn over around a set axis, so that the turning plate is switched between a receiving state and an input state, when the turning plate is in the receiving state, the feed end turns to the bottom of the feed opening, the slide box extrudes the blocking piece to move towards the direction deviating from the carrying face, and the blocking piece body does not protrude out of the carrying face. The slide pushing device can prevent slides from sliding off the carrying surface in the overturning process and can also ensure that the slides are smoothly pushed into the carrying surface.

Description

Slide carrying plate and slide printing mechanism

Technical Field

The utility model relates to a slide printing technical field especially relates to a slide transport plate and contain slide printing mechanism of this slide transport plate.

Background

The slide is a necessary experimental tool for hospital clinical laboratory and pathology department, and when the slide is used, various information of the slide needs to be marked on the upper surface of the slide so as to distinguish the slide and record the information.

Typically, a slide printing mechanism is used to print label information on the slide. The slide printing mechanism comprises a slide box, a slide pushing mechanism, a carrying plate and a conveying mechanism, wherein a feed opening is formed in the bottom of the slide box, the slide pushing mechanism is movably arranged in the feed opening, the conveying mechanism is arranged below the slide box and used for conveying slides along a set direction, and the carrying plate is rotatably arranged between the slide box and the conveying mechanism. The slide conveying plate is in a bearing state and an input state, when the slide conveying plate is in the bearing state, the slide conveying plate is horizontally arranged below the feed opening, and the slide pushing mechanism moves towards the direction of the slide conveying plate from one end, far away from the slide conveying plate, of the feed opening, so that the slide at the bottommost of the slide box is pushed towards the direction of the slide conveying plate and falls onto the slide conveying plate. After the slide falls to the carrying plate, the carrying plate and the slide are turned downwards around a set axis to enable the carrying plate to be in an input state, one end of the carrying plate is connected with the input end of the conveying mechanism, and the slide is conveyed along a set direction from the sliding conveying mechanism on the carrying plate through the conveying mechanism.

However, during the process of turning the carrier plate together with the slide, the slide is liable to fall from the lower end of the carrier plate, resulting in damage to the slide.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an aim at: the slide carrying plate can prevent slides from sliding off the carrying surface in the overturning process and can ensure that the slides are smoothly pushed into the carrying surface.

The utility model discloses another aim at: a slide printing mechanism is provided, which feeds smoothly and reliably.

In order to achieve the purpose, the utility model adopts the following technical proposal:

on one hand, the slide carrying plate is arranged between a slide box and a conveying mechanism, a feed opening is arranged at the bottom of the slide box, the conveying mechanism is arranged below the slide box at intervals, the conveying mechanism is provided with an input end used for inputting slides, the input end is positioned on one side of the slide box, the slide carrying plate comprises a turning plate and a blocking piece capable of moving in the thickness direction of the turning plate, one end of the turning plate is a feeding end, the feeding end can be communicated with the input end of the conveying mechanism, one side surface of the turning plate is a carrying surface used for carrying the slides, the blocking piece is connected with the feeding end through an elastic piece, the elastic piece always has the tendency of driving the blocking piece to move towards the carrying surface, the blocking piece comprises a blocking piece body which selectively protrudes out of the carrying surface, the blocking piece body on the carrying surface can block the slides from the feeding end, the turning plate can turn around a set axis, so that the turning plate is switched between a carrying state and an input state, and when the turning plate is in the carrying state, the feed opening is connected to the bottom of the turning plate, and the blocking piece does not extrude the carrying surface towards the carrying surface.

As a preferable technical scheme of the slide carrying plate, the blocking piece further comprises a connecting block which is convexly arranged at one end of the blocking piece body, one side surface of the turning plate, which is far away from the carrying surface, is concavely provided with an inserting groove, the connecting block is inserted into the inserting groove, the elastic piece is arranged at one side of the turning plate, which is far away from the carrying surface, and the elastic piece is abutted against the connecting block.

As a preferable technical scheme of the slide carrying plate, an avoidance opening is formed in one side of the insertion groove close to the blocking member body.

As a preferable technical scheme of the glass slide carrying plate, the connecting block is a wedge-shaped block, and the shape of the insertion groove is adapted to the shape of the connecting block.

As a preferable technical scheme of the slide carrying plate, the elastic piece is an elastic piece, one end of the elastic piece is fixed with one side face of the turning plate, which is far away from the carrying face, and the other end of the elastic piece abuts against one side of the connecting block, which is far away from the carrying face.

As a preferred technical scheme of the slide carrying plate, the elastic sheet comprises a connecting section and an elastic section, the connecting section is fixed with the turning plate, the elastic section is of a convex arc structure, the convex arc structure protrudes towards one side deviating from the carrying surface, one end of the elastic section is connected with the connecting section, and the other end of the elastic section is abutted to the connecting block.

As a preferable technical scheme of the glass slide carrying plate, one end of the elastic section, which is abutted against the connecting block, is provided with a flanging structure.

The glass slide carrying plate comprises two baffle pieces, the baffle pieces correspond to the elastic pieces one by one, and the two baffle pieces are distributed at intervals along the width direction of the turning plate.

As a preferable technical scheme of the slide carrying plate, in the two slide blocking pieces, one side of the blocking piece body opposite to the blocking piece body is respectively provided with a limiting convex part, the limiting convex part protrudes out of one end of the blocking piece body opposite to the connecting block, an accommodating position for accommodating the slide box is formed between the two limiting convex parts, and when the slide box extrudes the blocking piece, the limiting convex parts abut against the outer side surface of the slide box.

On the other hand, a slide printing mechanism is also provided, which comprises the slide carrying plate.

The utility model has the advantages that: the elastic piece is arranged to connect the blocking piece with the blanking end of the turning plate, and the elastic piece always has a tendency of driving the blocking piece to move towards the direction of the carrying surface, so that the slide is pushed out from the blanking port and enters the carrying surface of the turning plate, and in the process of turning the turning plate downwards, the blocking piece body protruding out of the carrying surface is abutted against one end of the slide on the carrying surface to block the slide from sliding off from the blanking end of the turning plate; the upset turns over the board when being in and accepts the state, the board that turns over at this moment is the bottom that the horizontality set up at the feed opening, the bottom of glass box with turn over the contact of separation blade spare on the board, the glass box with separation blade spare orientation deviate from the direction extrusion of carrying the face, overcome the drive power of elastic component to separation blade spare, drive and keep off the one side removal that the body orientation deviates from the carrying the face, the messenger keeps off the below of piece body and carrying face parallel and level or being located the carrying face, prevent to keep off the piece body and block that the slide from pushing to turning over the board from the feed opening, guarantee that the slide pushes in from the feed opening steadily turns over the board. The slide carrying plate with the structure can prevent slides from sliding off the carrying surface in the overturning process and ensure that the slides are smoothly pushed into the carrying surface due to the fact that the blocking piece body selectively protrudes out of the carrying surface of the turnover plate.

Drawings

The present invention will be described in further detail with reference to the drawings and examples.

Fig. 1 is a schematic view of a slide printing mechanism according to an embodiment (a slide collecting mechanism and a housing are not shown in the figure).

Figure 2 is a schematic view of the slide printing mechanism of an embodiment with the cassette removed.

FIG. 3 is a schematic view of an angle structure of a slide carrier plate according to an embodiment.

Figure 4 is a block diagram of an angle of the slide carrier plate (when the slide is removed) according to an embodiment.

Figure 5 is a block diagram of another angle of the slide carrier plate of the embodiment shown with one of the springs removed.

FIG. 6 is an exploded view of the flap and flap of the embodiment.

Fig. 7 is a schematic view of a flap member of the cassette of an embodiment.

In the figure:

100. a cassette for glass sheets; 101. a feeding port; 200. a frame; 201. a first side surface; 202. a long hole; 300. a conveying mechanism; 301. an input end; 302. an output end; 303. a top block; 400. a printing mechanism; 500. a slide carrying plate; 600. glass slide; 700. a blade pushing mechanism; 701. a wafer pushing block; 702. a roller; 703. a connecting member; 800. a sensor;

1. turning over a plate; 11. a carrying surface; 12. inserting grooves; 13. a second avoidance port; 14. a limiting block; 15. a first avoidance port; 2. a catch piece; 21. a stopper body; 22. a limiting convex part; 23. connecting blocks; 3. an elastic member; 31. a connection section; 311. a flanging structure; 32. an elastic section; 4. and (5) fixing blocks.

Detailed Description

In order to make the technical problems, technical solutions and technical effects achieved by the present invention more clear, the embodiments of the present invention will be described in further detail with reference to the accompanying drawings, and obviously, the described embodiments are only some embodiments, not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

As shown in fig. 1 to 7, the present invention provides a slide printing mechanism. The slide printing mechanism comprises a frame 200, a slide cassette 100, a slide carrying plate 500, a conveying mechanism 300, a printing mechanism 400, a slide pushing mechanism 700 and a slide collecting mechanism (not shown in the figure), wherein the slide cassette 100 is fixed on the frame 200, the conveying mechanism 300 is used for conveying the slide 600 towards a set direction, the slide carrying plate 500 is arranged between the slide cassette 100 and the conveying mechanism 300, the bottom of the slide cassette 100 is provided with a feed opening 101, the conveying mechanism 300 is arranged below the slide cassette 100 at intervals, the conveying mechanism 300 is provided with an input end 301 and an output end 302, the input end 301 is used for inputting the slide 600, the output end 302 is used for outputting the printed slide 600, the input end 301 is positioned at one side of the slide cassette 100, the slide pushing mechanism 700 is movably arranged in the feed opening 101, the printing mechanism 400 is arranged at one side of the conveying mechanism 300 and is used for printing information on the slide 600 on a conveying guide rail, and the slide collecting mechanism is arranged at the lower end of the conveying mechanism 300 and is used for receiving the slide 600 output from the output end 302. In practical implementation, the slide printing mechanism further includes a housing (not shown), the frame 200, the slide carrying plate 500, the conveying mechanism 300, the printing mechanism 400 and the slide pushing mechanism 700 are all disposed in the housing, one end of the slide cassette 100 having the feeding port 101 is inserted into the housing, and the slide collecting mechanism is disposed outside the housing.

Referring to fig. 2 and 3, the slide carrier plate 500 includes a turning plate 1 and a blocking piece 2 capable of moving in the thickness direction of the turning plate 1, one end of the turning plate 1 is a blanking end, the blanking end can be communicated with the input end 301 of the conveying mechanism 300, and one side surface of the turning plate 1 is a carrier surface 11 for carrying a slide 600. When the blanking end can communicate with the input end 301 of the transport mechanism 300, the slides 100 on the carrier surface can slide off the blanking end onto the input end 301. The baffle piece 2 is connected with the blanking end through the elastic piece 3, the elastic piece 3 has a trend of driving the baffle piece 2 to move towards the carrying surface 11 all the time, the baffle piece 2 comprises a baffle piece body 21 selectively protruding out of the carrying surface 11, the baffle piece body 21 can prevent the slide 600 on the carrying surface 11 from sliding down from the blanking end, the turning plate 1 can turn over around a set axis, so that the turning plate 1 is switched between a bearing state and an input state, when the turning plate 1 is in the bearing state, the blanking end turns over to the bottom of the blanking port 101, the slide box 100 extrudes the baffle piece 2 to extrude the baffle piece 2 towards the direction deviating from the carrying surface 11, and the baffle piece body 21 is not protruded out of the carrying surface 11. When the flap 1 is in the input state, the flap 1 is not in contact with the slide placing cassette, and at this time, the slide cassette 100 releases the pressing of the shutter member 2, and the shutter body 21 protrudes out of the carrying surface 11 by the elastic member. The elastic piece 3 is arranged to connect the blocking piece 2 with the blanking end of the turning plate 1, and as the elastic piece 3 always has a tendency of driving the blocking piece 2 to move towards the direction of the carrying surface 11, the slide 600 is pushed out from the blanking port 101 and enters the carrying surface 11 of the turning plate 1, and in the process of turning the turning plate 1 downwards, the blocking piece body 21 protruding out of the carrying surface 11 is abutted against one end of the slide 600 on the carrying surface 11 to prevent the slide 600 from sliding off from the blanking end of the turning plate 1; when upset turns over board 1 and is in when accepting the state, turn over board 1 this moment and be the bottom that the horizontality set up at feed opening 101, the bottom of slide box 100 contacts with the fender piece 2 on turning over board 1, slide box 100 extrudees fender piece 2 orientation and deviates from the direction of carrying face 11, overcome the drive power of elastic component 3 to fender piece 2, it moves to drive one side that keeps off a body 21 orientation and deviates from carrying face 11, make keep off a body 21 and carry face 11 parallel and level or be located the below of carrying face 11, prevent to keep off a body 21 and block that slide 600 from feed opening 101 to push into turn over board 1, guarantee slide 600 steadily to push into from feed opening 101 and turn over board 1. In the slide carrier plate 500 having such a structure, since the stopper body 21 is selectively protruded from the carrying surface 11 of the flap 1, the slide can be prevented from slipping off the carrying surface 11 during the turning of the flap 1, and the slide 600 can be smoothly pushed onto the carrying surface 11.

Note that the fact that the flap member 2 does not project from the carrying surface 11 includes the following two cases: first, the stopper body 21 is flush with the carrying surface 11; in the second case, the stopper body 2 is located below the carrying surface 11 along the thickness direction of the turning plate 1, in a specific implementation, a squeezing portion is convexly disposed at the bottom of the slide box 100, when the turning plate 1 is in a receiving state, the blanking end is turned over to the bottom of the blanking port 101, and the stopper piece 2 can be squeezed to below the carrying surface 11 by squeezing the stopper piece 2 through the squeezing portion.

It should be noted that the blanking end is communicated with the input end 301 of the conveying mechanism 300, the blanking end of the turning plate 1 is located below the input end 301 at an interval, or the blanking end is connected with the input end 301, and all the positions where the blanking end of the slide 100 can automatically slide from the blanking end to the input end 301 of the conveying mechanism 3 are the positions where the blanking end is communicated with the input end of the conveying mechanism 3.

In specific implementation, referring to fig. 2 and 4, an input end 301 of the conveying mechanism 300 is provided with a top block 303, a discharging end of the turning plate 1 is provided with a first avoiding port 15, the first avoiding port 15 and the blocking piece 2 are distributed at intervals in the width direction of the turning plate 1, when the discharging end of the turning plate 1 is connected with the input end 301 of the conveying mechanism 300, the top block 303 penetrates through the first avoiding port 15 and protrudes out of the carrying surface 11 of the carrying plate, and one end of the slide 600 on the carrying surface 11 is jacked up by a certain height by using the top block 303, so that the slide 600 on the carrying surface 11 can slide out of the top of the blocking piece 2 to the conveying mechanism 300.

In an embodiment, referring to fig. 5 and 6, the blocking piece 2 further includes a connecting block 23 protruding from one end of the blocking piece body 21, an insertion groove 12 is concavely disposed on a side surface of the turning plate 1 away from the carrying surface 11, the connecting block 23 is inserted into the insertion groove 12, the elastic piece 3 is disposed on a side of the turning plate 1 away from the carrying surface 11, and the elastic piece 3 abuts against the connecting block 23. The elastic piece 3 provides a supporting function for the connecting block 23 at the socket of the inserting groove 12, the elastic piece 3 is prevented from falling off from the inserting groove 12, and the elastic piece 3 provides elastic driving force for the connecting block 23 and the blocking piece body 21, so that the blocking piece body 21 always has a convex trend towards the carrying surface 11.

In order to prevent the groove wall of the insertion groove 12 from affecting the connection between the connection block 23 and the stopper body 21, a second avoiding opening 13 may be provided at a side of the insertion groove 12 close to the stopper body 21.

Preferably, the connecting block 23 is a wedge-shaped block, the shape of the insertion groove 12 is adapted to the shape of the connecting block 23, that is, the shape of the insertion groove 12 is also in a wedge-shaped structure, and by utilizing the particularity of the wedge-shaped structure, under the cooperation of the insertion groove 12 and the connecting block 23, the blocking piece 2 is ensured to be only movable along the thickness direction of the turning plate 1, but not movable along the length direction of the turning plate 1.

In this embodiment, the elastic member 3 is a spring plate, one end of the spring plate is fixed to a side surface of the turning plate 1 departing from the carrying surface 11, and the other end of the spring plate abuts against one side of the connecting block 23 departing from the carrying surface 11. The elastic sheet and the turning plate 1 are fixed, the elastic sheet and the turning plate 1 are driven to turn synchronously when the turning plate 1 turns, and the effect failure of the elastic piece 3 on the baffle piece 2 due to the turning of the turning plate 1 can be avoided.

Specifically, the shell fragment includes linkage segment 31 and elasticity section 32, and linkage segment 31 is fixed with turning over board 1, and elasticity section 32 is protruding arc structure, and protruding arc structure orientation deviates from one side protrusion of carrier surface 11, and the one end and the linkage segment 31 of elasticity section 32 are connected, the other end and connecting block 23 butt. The connecting section 31 provides a fixed position for the elastic sheet and the turning plate 1, so that the elastic sheet is installed on the turning plate 1, and the connecting section 31 and the turning plate 1 can be fixed by screws during specific installation. In other examples, the connecting section 31 may be fixed to the flap 1 by an adhesive or welding. The elastic section 32 is abutted to the connecting block 23, the elastic section 32 of the convex arc structure can provide larger elastic force for the blocking piece 2, the blocking piece 2 is guaranteed to protrude out of the carrying surface 11 under the condition that the turnover plate is not in contact with the glass box 100, and the reliability of the blocking piece 2 is improved.

Further, referring to fig. 5, the end of the elastic section 32 abutting against the connecting block 23 is provided with a flange structure 311, and the flange structure 311 can enhance the structural strength of the elastic section 32 and prevent the slide 600 from deforming due to too large pressing force of the slide box 100 on the elastic member 3. In addition, the contact area between the elastic part 3 and the connecting block 23 can be increased through the flanging structure 311, so that the stability of the baffle piece 2 is improved, and the baffle piece 2 is prevented from being inclined.

Preferably, referring to fig. 3 to 5, the slide carrying plate 500 includes two blocking pieces 2, the blocking pieces 2 correspond to the elastic pieces 3 one by one, and the two blocking pieces 2 are distributed at intervals along the width direction of the turning plate 1. It can be understood that, since the slide 600 has a certain width, two blocking pieces 2 are provided to block the slide 600 at two positions in the width direction of the slide 600, and the minimum number of blocking pieces 2 effectively block the slide 600, so as to prevent the slide 600 from tilting on the turning plate 1 to affect the subsequent transportation of the slide 600. In other examples, the number of the baffle pieces 2 may be set to one, or three or more, and when two or more baffle pieces 2 are provided, all the baffle pieces 2 are spaced apart in the width direction of the flap 1.

Referring to fig. 5, when two sheet blocking members 2 are provided, the blocking member bodies 21 of the two sheet blocking members 2 are respectively provided with a limiting protrusion 22 at one side facing away from each other, the limiting protrusion 22 protrudes from one end of the blocking member body 21 facing away from the connecting block 23, an accommodating position for accommodating the sheet cassette 100 is formed between the two limiting protrusions 22, and when the sheet cassette 100 is pressed against the sheet blocking members 2, the limiting protrusions 22 abut against the side surfaces of the sheet cassette 100. Because the limiting convex parts 22 protrude out of one end of the blocking part body 21 departing from the connecting block 23, the blocking part body 21 is extruded downwards, the blocking part body 21 moves for a certain distance along the thickness direction of the turning plate 1, so that the blocking part body 21 does not protrude out of the carrying surface 11, because the limiting convex parts protrude out of one end of the blocking part body 21 departing from the connecting block 23, the limiting convex parts 22 still protrude out of the carrying surface 11 at the moment, the limiting convex parts 22 are abutted against the side surfaces of the slide boxes 100, the turning plate 1 is limited to move relative to the slide boxes 100 along the width direction under the action of the limiting convex parts 22 on the two blocking parts 2, and the deviation is avoided in the process of blanking of the slides 600.

It can be understood that, turn over board 1 under the great condition of the scope of upset downwards, slide 600 on the carrying face 11 can take place to turn on one's side under the effect of self gravity, to this turn over the both sides of board 1 and be provided with stopper 14 respectively, stopper 14 and carrying face 11 interval distribution on the thickness direction of turning over board 1 form the slide position between stopper 14 and carrying face 11, slide 600 pushes out from slide box 100 and gets into the slide position from the unloading end, prevent slide 600 to turn on one's side under stopper 14's limiting displacement when the board 1 is turned over in the upset.

Referring to fig. 2, the slide pushing mechanism 700 includes a slide pushing block 701, a connecting member 703 and a pushing assembly, the rack 200 has a first side surface 201 and a second side surface facing away from each other, the rack 200 has a long hole 202 penetrating through the first side surface 201 and the second side surface, the pusher assembly is disposed on the second side surface of the rack 200, the slide pushing block 701 is disposed on the first side surface 201, one end of the connecting member 703 is connected to the pushing assembly, the other end of the connecting member 703 penetrates through the long hole 202 to be connected to the slide pushing block 701, the pushing assembly pushes the slide pushing block 701 toward the direction of the turning plate 1 through the connecting member 703, so that the slide 600 at the bottom of the feed opening 101 is pushed out into the turning plate 1. The upper surface of the slide pushing block 701 is convexly provided with a roller 702, when the slide pushing block 701 pushes the slide 600, the roller 702 can slightly lift the upper layer slide 600, and under the rolling action of the roller 702, the abrasion to the upper layer slide 600 is reduced.

The rotation that turns over board 1 is driven through rotating assembly, turns over board 1 and sets up on first side 201, and rotating assembly sets up on frame 200 second side, turns over one side that board 1 deviates from carrier surface 11 and is provided with fixed block 4, and rotating assembly includes the rotation motor, and the output shaft of rotation motor passes first side 201 by the second side and is connected with fixed block 4, turns over board 1 rotation through the rotation drive of rotation motor.

Referring to fig. 1, a frame 200 has a mounting position for mounting a cassette 100, and the cassette 100 is fixed to the mounting position by ball screws. To facilitate detecting that the cassette 100 is mounted in place, a sensor 800 is provided at one side of the mounting location, specifically, the sensor 800 is a reflective photo sensor, when the cassette 100 is mounted in place, the sensor 800 senses the cassette 100 and the surface cassette 100 is mounted in place.

In the description herein, it is to be understood that the terms "upper," "lower," "left," "right," and the like are used in an orientation or positional relationship based on what is shown in the drawings for convenience of description and simplicity of operation, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed in a particular orientation, and be operated in a particular manner, and are not to be considered limiting. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

In the description herein, references to the description of "an embodiment," "an example" or the like are intended to mean 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, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

Furthermore, it should be understood that although the specification describes embodiments, not every embodiment includes only a single embodiment, and such description is for clarity purposes only, and it will be understood by those skilled in the art that the specification as a whole and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive step, and these embodiments are all intended to fall within the scope of the present invention.

Claims (10)

1. A slide carrying plate is arranged between a slide box and a conveying mechanism, a feed opening is formed in the bottom of the slide box, the conveying mechanism is arranged below the slide box at intervals, the conveying mechanism is provided with an input end used for inputting slides, and the input end is located on one side of the slide box.

2. The slide carrier plate of claim 1 further comprising a connecting block projecting from one end of the retainer body, wherein an insertion groove is recessed in a side of the flap facing away from the carrier surface, the connecting block is inserted into the insertion groove, the resilient member is disposed on a side of the flap facing away from the carrier surface, and the resilient member abuts the connecting block.

3. The slide carrier plate of claim 2 wherein said mating groove has an escape opening on a side thereof adjacent said stopper body.

4. The slide carrier plate of claim 2, wherein the connector block is a wedge-shaped block, and the shape of the slot conforms to the shape of the connector block.

5. The slide carrier plate of claim 2, wherein the resilient member is a spring, one end of the spring is fixed to a side of the flap facing away from the carrier surface, and the other end of the spring abuts against a side of the connecting block facing away from the carrier surface.

6. The slide carrier plate of claim 5, wherein the spring plate includes a connecting section and a spring section, the connecting section is fixed to the flap, the spring section is in a convex arc structure, the convex arc structure protrudes toward a side away from the carrier surface, one end of the spring section is connected to the connecting section, and the other end of the spring section abuts against the connecting block.

7. The slide carrier plate of claim 6 wherein the end of the resilient section abutting the connecting block is provided with a flange formation.

8. The slide carrier plate of claim 2, comprising two of the stop members, the stop members corresponding one-to-one with the resilient members, and the two stop members being spaced apart along the width of the flap.

9. The slide carrying plate of claim 8, wherein the stopper body of each of the two stopper members has a respective stop protrusion on an opposite side thereof, the stop protrusion protruding from an end of the stopper body facing away from the connecting block, an accommodating location for accommodating the cassette is formed between the two stop protrusions, and the stop protrusions abut against an outer side of the cassette when the cassette presses the stopper members.

10. A slide printing mechanism comprising a slide carrier plate according to any one of claims 1 to 9.

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