CN215707837U - Sheet storage device - Google Patents

Abstract

The utility model discloses a sheet storage device, which comprises a sheet storage frame, wherein the sheet storage frame comprises a plurality of layers of sheet storage spaces, and each layer of sheet storage space is provided with a plurality of sheet storage grids which are configured to be capable of placing a sheet storage bin; the storage rack is connected with the rotary table, the rotary table is connected with the driving device, the driving device can enable the rotary table to rotate, and the storage rack can rotate along with the rotary table. In the utility model, the sheet storage rack can store more sheet materials such as glass slides and the like, the storage capacity is large, and the sheet storage rack can rotate along with the turntable, so that the positions of the sheet storage lattices can be conveniently adjusted, and the sheet storage bin or the sheet materials can be conveniently placed in the sheet storage lattices; and the sheet storage bin or the sheet material can be taken out conveniently from the sheet storage grid, so that the working efficiency is improved.

Description

Sheet storage device

Technical Field

The utility model particularly relates to a sheet storage device.

Background

Pathological examination is a pathomorphological method for examining pathological changes in organs, tissues or cells of the body. In order to study the disease process of organs, tissues or cells, some kind of pathological morphological examination method can be used to examine the pathological changes of them, study the cause, pathogenesis and the process of pathological changes, and finally make pathological diagnosis. The pathological morphology examination method comprises observing pathological changes of a general specimen, cutting pathological tissues with a certain size, placing the pathological tissues on a glass slide, and observing the pathological tissues with a microscope to further examine pathological changes.

The digital section system can rapidly scan the whole glass slide in all information and all directions, and is an epoch-making revolution for realizing pathological diagnosis technology. The system can separate a pathologist from a microscope, solve pathological diagnosis through a network at any time and any place, realize global online synchronous remote consultation or offline remote consultation, and has great significance for time and space alternation and transmission advantages of diagnosis value equal to that of microscope observation due to the fact that full-section information is provided. And multilayer three-dimensional reconstruction of pathological sections and management digitization of the pathological sections are also realized. The system can be widely used for pathological clinical diagnosis, pathological teaching, histological cell imaging, fluorescence analysis and immunohistochemical digital imaging. The slices are scanned into digital slices, so that the digital slices are convenient to store and transmit; just like scanning the common developed photo into a digital photo, the photo can be read and examined on a computer without singly observing the photo by using a microscope.

The existing digital pathological section scanner is not provided with a special slide storage rack and a special slide storage bin, is not beneficial to storing slide glass with sections, is not beneficial to preparing the sections in batches and scanning the sections in batches, and has low working efficiency. And because the slide glass itself has several characteristics such as fragile, smooth, thin, the slide glass that has the section can not put at will, at present, needs the storage piece device that can store the section urgently.

SUMMERY OF THE UTILITY MODEL

In view of the above situation, the present invention provides a sheet storage device to overcome the drawbacks of the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme:

the sheet storage device comprises a sheet storage rack, wherein the sheet storage rack comprises a plurality of layers of sheet storage spaces, each layer of sheet storage space is provided with a plurality of sheet storage grids which are configured to be capable of placing a sheet storage bin; the storage rack is connected with the rotary table, the rotary table is connected with the driving device, the driving device can enable the rotary table to rotate, and the storage rack can rotate along with the rotation of the rotary table.

Further, a first partition is arranged between adjacent layers.

Further, a second partition piece is arranged between the adjacent storage grids.

Further, the storage rack further comprises an elastic fixing assembly which is configured to be used for fixing the storage bin, and the elastic fixing assembly comprises a first elastic element and a fixing piece, and the first elastic element is connected with the fixing piece.

Furthermore, the elastic fixing assembly further comprises a connecting piece, a first matching piece and a second matching piece, the first matching piece is in contact with the second matching piece, the second matching piece is connected with the connecting piece, and the connecting piece is connected with the fixing piece.

Further, the first fitting part is provided with a guide surface, and the guide surface comprises a first plane, a transition surface and a second plane.

Further, the two ends of the second fitting piece are connected with shafts, bearings are connected outside the shafts, and the bearings are in contact with the guide surfaces of the first fitting piece.

Further, the second partition comprises a housing for supporting the first partition, the housing having a cavity therein.

Further, the bottom end of the first matching piece is connected with a roller, and the top end of the first matching piece is connected with a third elastic element.

Furthermore, the storage device also comprises a bottom plate, wherein a convex block is arranged on the bottom plate, and contact surfaces with different heights are arranged on the convex block.

The utility model has the beneficial effects that:

(1) in the utility model, the slide storage rack can store more slide glass and other sheet materials, the storage capacity is large enough for more than one day, and compared with the slide storage rack with small slide storage capacity in the prior art, the slide storage rack does not need to continuously supplement slide glass in the working process, thereby being beneficial to batch operation. The storage rack can rotate along with the rotary disc, so that the positions of the storage lattices can be conveniently adjusted, and the storage bins or sheet materials can be conveniently placed in the storage lattices; and the sheet storage bin or the sheet material can be taken out conveniently from the sheet storage grid, so that the working efficiency is improved.

(2) In the utility model, the film storage rack also comprises an elastic fixing component which can be used for fixing the film storage bin, so that the film storage bin is stably positioned in the film storage grid, the film storage bin is prevented from separating from the film storage grid and separating from the film storage rack, meanwhile, the fixing state of the film storage bin is convenient to remove, and the film storage bin is convenient to take out from the film storage grid.

(3) In the utility model, the slide storage bin comprises a plurality of pairs of slide storage grooves, and can store a plurality of prepared slide glass with slices, so that the slices can be conveniently prepared and stored in batches, the slices can be conveniently scanned in batches, and the working efficiency is improved.

(4) According to the slide glass storage device, the slide glass can be guided by the guide structure to quickly enter the slide glass storage groove, so that the slide glass can be quickly placed. Without the guide structure, the slide needs to be precisely aligned with the slide slot and then placed so as not to be worn and broken, which affects the scanning of the slide (because the slide itself has several characteristics of fragility, sliding, thinness, etc.). With the guide structure, the position of the chip storage groove does not need to be accurately calculated, so that the chip storage time can be saved, and the working efficiency is improved. And when the glass slide is contacted with the cambered surface, the cambered surface structure cannot damage the glass slide, cannot abrade and break the glass slide, and cannot damage the slicing.

Drawings

Fig. 1 is a schematic view of a structure in which a sheet storage device is mounted on a pathological section scanner.

FIG. 2 is a schematic view of a chip storage device.

FIG. 3 is a schematic diagram of a magazine configuration (where one of the cells is not placed in the magazine, showing the configuration of the cells).

FIG. 4 is a schematic view of the first layer of sheet storage space (showing the configuration of the first mating members).

FIG. 5 is a schematic view of the structure of the first layer of tablet storage spaces (showing the structure of the first and second partitions).

Fig. 6 is a schematic structural view of the second partition (the fixing member is hidden, and the relative position relationship between the first elastic element, the connecting member and the second partition is shown).

Fig. 7 is a schematic view showing a structure in which the second partition is coupled (the fixing member is coupled to the coupling member).

Fig. 8 is an exploded view of fig. 7.

Fig. 9 is a schematic structural view of the elastic fixing member.

Fig. 10 is an exploded view of fig. 9.

Fig. 11 is a schematic view of the structure of the back side of fig. 9.

FIG. 12 is a schematic view of a magazine.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be described and illustrated below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments provided in the present application without any inventive step are within the scope of protection of the present application.

Reference in the specification to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the specification. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. Those of ordinary skill in the art will explicitly and implicitly appreciate that the embodiments described herein may be combined with other embodiments without conflict.

Unless defined otherwise, technical or scientific terms referred to herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which this application belongs. Reference to "a," "an," "the," and similar words throughout this application are not to be construed as limiting in number, and may refer to the singular or the plural. The present application is directed to the use of the terms "including," "comprising," "having," and any variations thereof, which are intended to cover non-exclusive inclusions; reference to "connected," "coupled," and the like in this application is not intended to be limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. Reference herein to "a plurality" means greater than or equal to two. "and/or" describes an association relationship of associated objects, meaning that three relationships may exist, for example, "A and/or B" may mean: a exists alone, A and B exist simultaneously, and B exists alone. Reference herein to the terms "first," "second," "third," and the like, are merely to distinguish similar objects and do not denote a particular ordering for the objects.

As shown in fig. 1-3, a sheet storage device comprises a sheet storage rack 1, wherein the sheet storage rack 1 is of a multilayer structure in the height direction and comprises a multilayer sheet storage space, a plurality of sheet storage cells 7 are arranged on each layer, the sheet storage cells 7 are configured to be capable of placing a sheet storage bin 2 (sheet materials such as glass slides and glass sheets can be placed in the sheet storage bin 2), the sheet storage rack 1 is connected with a turntable, and the sheet storage rack 1 can rotate along with the rotation of the turntable. The sheet storage rack 1 can store more sheet materials such as glass slides and the like, the storage capacity is large, and the sheet storage rack 1 can rotate along with the rotary table, so that the operation is convenient, the position of each sheet storage cell 7 is convenient to adjust, and the sheet storage bin 2 or the sheet materials can be conveniently placed in the sheet storage cells 7; and the sheet storage bin 2 or the sheet material can be taken out conveniently from the sheet storage grid 7, so that the working efficiency is improved.

In some preferred forms, the carousel is connected to drive means 6, which drive means 6 are able to rotate the carousel, with which the magazine 1 is able to rotate. In some preferred forms, the drive means is a DD motor. In other embodiments, the driving device may be another type of power device, and the utility model is not limited to the driving device.

In some preferred modes, a first partition 8 is arranged between adjacent layers, and a second partition 9 is arranged between adjacent storage cells 7. The layer with the highest height (top layer) can also be referred to as the first partition 8, and the layer with the lowest height (bottom layer) can also be referred to as the first partition 8.

In some preferred modes, as shown in fig. 1-5, the tablet storage rack 1 is of a cylindrical structure, and a plurality of layers of tablet storage spaces can be arranged from top to bottom, that is, in the height direction of the cylindrical tablet storage rack 1, and the first partition members 8 are arranged between adjacent layers. A plurality of storage lattices 7 can be arranged on the circumference direction of the cylindrical storage rack 1, and second partition parts 9 are arranged between the adjacent storage lattices 7.

In other embodiments, the magazine 1 may also have other shapes such as a cubic structure, a rectangular structure, a polyhedral structure (trihedron, pentahedron, hexahedron, octahedron, etc.), and of course, a single-sided structure.

In some preferred modes, as shown in fig. 6-11, the magazine 1 further includes an elastic fixing member configured to fix the magazine 2, so that the magazine 2 is stably located inside the magazine 7, and the magazine 2 is prevented from separating from the magazine 7 and separating from the magazine 1, and at the same time, the fixing state of the magazine 2 is easily released, which facilitates taking out the magazine 2 from the magazine 7. Typically, slides to be scanned are first placed in magazine 2, and magazine 2 is then placed inside magazine grid 7. After the scanning is completed, the scanned slide is replaced in the magazine 2, and finally the magazine 2 with the slide is taken out of the magazine compartment 7.

In some preferred modes, as shown in fig. 8-11, the elastic fixing assembly includes a first elastic element 10 and a fixing member 11, the first elastic element 10 is connected to the fixing member 11, when an external force is applied to the fixing member 11, the first elastic element 10 is compressed, and when the external force is removed, the first elastic element 10 can rebound to push the fixing member to contact the magazine 2, so as to fix the magazine 2, and the magazine 2 is stably located inside the magazine 7.

In some preferred modes, the elastic fixing component further comprises a connecting component 12, a first matching component 13 and a second matching component 14, as shown in fig. 9, the first matching component 13 is contacted with the second matching component 14, the second matching component 14 is connected with the connecting component 12, and the connecting component 12 is connected with the fixing component 11.

In some preferred modes, as shown in fig. 10, the surface of the first fitting part 13, which is in contact with the second fitting part 14, is provided with a guide surface, the guide surface comprises a first plane 15, a transition surface 16 and a second plane 17, and the first plane 15 and the second plane 17 are on different steps. The transition surface 16 is located between the first plane 15 and the second plane 17. The transition surface 16 may be a beveled, curved, or otherwise shaped transition surface 16. In some preferred forms, the guide surface comprises a plurality of cells, each cell comprising a first plane 15, a transition surface 16, and a second plane 17. In this embodiment, as shown in fig. 9-10, the first mating member 13 is vertically disposed, the second mating member 14 is also vertically disposed, and the second mating member 14 is parallel to the first mating member 13. The first plane 15 is a vertical plane, the transition plane 16 is an inclined plane, and the second plane 17 is also a vertical plane.

In some preferred modes, as shown in fig. 9, a shaft is connected to both ends of the second fitting member 14, a bearing 18 is externally connected to the shaft, and the bearing 18 is in contact with the guide surface of the first fitting member 13 and can move along the guide surface. The bearing 18 is in contact with the guide surface, so that friction between the bearing and the guide surface can be reduced, and the first fitting member 13 can be moved relatively easily with respect to the second fitting member 14.

In some preferred modes, the first fitting piece 13 is installed in the corresponding installation groove, so that the first fitting piece 13 is in a vertical state, and the first fitting piece 13 can move in the vertical direction upwards or downwards and cannot shake left and right under the action of the power device. The power device may be an electric motor or other mechanical form of drive. The second fitting member 14 is also mounted at a corresponding mounting location, and is capable of a certain range of movement in the horizontal direction, but is not capable of upward or downward movement in the vertical direction.

The movement process of the elastic fixing component comprises the following steps: as shown in fig. 9-11, when the first engaging element 13 is in the vertical state, and does not move upward or downward, the two bearings 18 of the second engaging element 14 are respectively in contact with the first plane 15 (vertical plane), at this time, in the horizontal direction, the second engaging element 14 and the fixing element 11 are closer to the magazine 2, the first elastic element 10 is in the compressed state, and the other end of the first elastic element 10 is in contact with the first engaging element 13, because the first engaging element 13 cannot move in the horizontal direction, the compressed spring can make the fixing element 11 (the fixing element 11 is connected with one end of the first spring) approach the magazine 2, so that the magazine 2 is stably located inside the storage compartment 7, and is not easy to separate from the storage compartment 7. When the first fitting part 13 is driven by the power device to move upwards, the bearing 18 is in contact with the first plane 15 (vertical plane) at the beginning, the bearing 18 is in contact with the transition plane 16 (inclined plane) in the middle, and the bearing 18 is in contact with the second plane 17 (vertical plane) in the final state; in the process from the initial state to the final state, the second matching part 14 and the fixing part 11 are gradually far away from the tablet storage bin 2, so that the tablet storage bin 2 can be conveniently taken out of the tablet storage grid 7 or the tablet storage bin 2 can be conveniently placed in the tablet storage grid 7. Similarly, during the downward movement of the first fitting part 13 driven by the power unit, the bearing 18 is initially in contact with the second plane 17 (vertical plane), during the movement of the bearing 18 is in contact with the transition plane 16 (inclined plane), and during the final movement of the bearing 18 is in contact with the first plane 15 (vertical plane); in the process from the initial state to the final state, the second matching part 14 and the fixing part 11 gradually approach the tablet storage bin 2, finally, the fixing part 11 is tightly combined with the tablet storage bin 2, and the tablet storage bin 2 is stably positioned in the tablet storage grid 7.

In some preferred forms, as shown in fig. 5-8, the second partition 9 comprises a housing 31 for supporting the first partition, the housing 31 having a cavity 20 therein configured for mounting the first fitting 13 and the second fitting 14.

In some preferred forms, as shown in FIGS. 6-8, the first mating member 13 and the second mating member 14 are both located inside the housing 31, and the fixing member 11 is located outside the housing 31 to facilitate contact with the magazine 2. In some preferred forms, the housing 31 is provided with a mounting hole 32 for the passage of the connecting element 12 and the spring, which allows the first fitting element 13 to move in the horizontal direction but not in the vertical direction. In some preferred modes, the outer side wall of the shell 31 is provided with at least one yielding structure 23 which is a concave part, so that the storage bin 2 can be conveniently grabbed from the storage cells, or the storage bin can be conveniently placed on the storage rack or the storage bin 2 can be conveniently taken out of the storage rack 1.

In some preferred modes, as shown in fig. 10, the bottom end of the first mating member 13 is connected with the roller 24, the bottom plate 30 is provided with a projection 251, the projection 251 is provided with contact surfaces 33 with different heights, the roller 24 is in contact with the contact surfaces 33 with different heights, or the roller 24 is not in contact with the contact surfaces 33, the first mating member 13 is in different states, and similarly, the contact surfaces of the second mating member 14 and the first mating member 13 are different. As shown in FIG. 9, during the process of moving the roller 24 from point A to point B, the first engaging element 13 moves upward, the contact surface between the second engaging element 14 and the first engaging element 13 changes from the first plane to the second plane, and the fixing plate changes from being close to the magazine 2 to being separated from the magazine 2. In other embodiments, the shape of the bump may be an arc shape, or the bump may also take other shapes, and the utility model is not limited thereto.

In some preferred modes, as shown in fig. 8, a third elastic element 25 is connected to the top end of the first matching element 13, the other end of the third elastic element 25 is in contact with or connected to the mounting box 26, the third elastic element 25 can be a spring, and when the first matching element 13 moves upwards under the action of external force or during the process that the roller 24 moves from a low-height contact surface to a high-height contact surface, the spring is compressed, and the fixing element 11 changes from being close to the tablet storage bin 2 to the fixing element 11 being separated from the tablet storage bin 2. When the external force is removed or the roller 24 moves from the contact surface with higher height to the contact surface with lower height, the spring rebounds gradually; the fixing member 11 changes from being detached from the magazine 2 to the fixing member 11 being attached to the magazine 2.

In some preferred forms, the first mating element 13 can penetrate through the multi-layer first partition 8 to penetrate through the first partition 8 having the highest height. That is, as shown in FIGS. 4 and 8, the first engaging member 13 is a single piece in the vertical direction, and is not composed of a plurality of first engaging members 13, thereby facilitating control of the fixing members 11 in close proximity to the magazine 2 or in remote from the magazine in a row. If there is a single first engaging element 13 in each layer in the vertical direction, and the first engaging element 13 in each layer is controlled separately from the first engaging element 13 in the adjacent layer, it is necessary to adjust the first engaging elements 13 one by one when the fixing element 11 needs to be controlled to move away from or approach the magazine, which is time-consuming and labor-consuming and has low work efficiency.

In some preferred forms, each magazine 7 is provided, either above or below, with a spring-push assembly configured to further secure the magazine 2. In this embodiment, as shown in fig. 7-8, an ejection assembly is disposed on the upper portion of each storage compartment 7, and the ejection assembly enables the storage bin 2 to be stably placed inside the storage compartment 7 without being separated from the storage compartment 7 due to shaking or vibration.

In some preferred modes, the elastic pushing assembly comprises a second elastic element, and the second elastic element can be a spring or other elements which can generate elastic deformation and can restore the original shape; in some preferred modes, the ejection assembly further comprises a pushing piece, one end of the pushing piece is a pushing head 27, the other end of the pushing piece is connected with a second elastic element, and when the pushing piece moves inwards under the action of external force, the second elastic element is compressed and deforms; when the external force is removed, the second elastic element can rebound, and the pushing piece is pushed outwards. In some preferred forms, the ejection assembly is mounted on the first partition 8, the first partition 8 being provided with an opening through which the pusher can move outwardly or inwardly. In some preferred forms, the diameter of the pusher head 27 is smaller than the diameter of the opening and the diameter of the other end of the pusher member is larger than the diameter of the opening, so that the pusher member can pass through the opening, move either out of or into the first partition 8, but does not completely disengage the first partition 8.

When the storage bin 2 is placed into the storage rack 1, the pushing piece moves upwards, the spring is compressed, and meanwhile, the spring applies downward acting force to the pushing piece to fix the storage bin 2, so that the storage bin 2 can be stably and firmly placed on the storage rack 1.

In some preferred modes, as shown in fig. 5, a supporting member 28 is arranged inside each layer of the storage compartments 7, the supporting member 28 is respectively connected with the first partition members 8 on the upper layer and the lower layer, so as to support the first partition members 8 well, and meanwhile, the supporting member 28 also has a limiting function, so that the storage compartment 2 can be prevented from moving continuously towards the inside of the storage compartment 7, and the storage compartment 2 is prevented from being recessed into the storage compartments 7, so that the storage compartment 2 is not convenient to put in or take out. In other embodiments, other shapes of the support member may be provided or the support member may be provided at other positions, and the present invention is not particularly limited thereto.

In some preferred forms, as shown in fig. 12, the magazine further comprises a magazine 2, the magazine 2 comprising at least a pair of magazine slots 3 configured to be capable of storing slides; the tablet storage rack 1 is detachably connected with the tablet storage bin 2. In some preferred modes, the storage bin 2 comprises a plurality of pairs of storage grooves 3, and can store a plurality of prepared slices, so that the slices can be conveniently prepared in batches, stored and scanned in batches, and the working efficiency is improved.

In some preferred modes, a certain distance exists between two adjacent pairs of tablet slots 3, and in some preferred modes, as shown in fig. 12, the two adjacent pairs of tablet slots 3 are equally spaced.

In some preferred forms, as shown in FIG. 12, the magazine 3 is provided with a guide structure 4 at one end configured to guide slides into the magazine 3. In some preferred modes, the guiding structure 4 can be a concave part, so that the slide glass can be guided to enter the storage groove 3 quickly, and the slide glass can be placed quickly. Without the guide structure 4, the slide needs to be precisely aligned with the slide slot 3 and then replaced to avoid abrasion, breaking the slide, and damaging the slide (because the slide itself is fragile, slippery, thin, etc.). With the guide structure 4, the position of the sheet storage groove 3 does not need to be accurately calculated, so that the sheet placing time can be saved, and the working efficiency is improved. In some preferred modes, the guide structure 4 is an inwardly concave arc-shaped structure, the slide can smoothly enter the slide storage groove 3 along the arc surface, and when the slide is in contact with the arc surface, the arc-shaped structure cannot cause damage to the slide and cannot abrade or break the slide.

In some preferred modes, as shown in fig. 12, the outer side wall of the storage bin 2 is provided with at least one hand-holding part 5, which is configured to be capable of being used for gripping the storage bin 2, facilitating taking and placing the storage bin 2, facilitating placing the storage bin 2 on the storage rack 1 or taking the storage bin out of the storage rack, avoiding hand slip, not firmly gripping the storage bin 2, and causing the storage bin 2 to break down to cause accidents. In some preferred modes, the gripping portion 5 can be a groove or a rib, and in this embodiment, the gripping portion 5 is a groove. In some preferred modes, as shown in fig. 12, the gripping portion 5 is located at the front of the magazine 2, and after the magazine 2 is placed on the magazine 1, the gripping portion cooperates with the abdicating structure to facilitate placing the magazine 2 on the magazine 1 and taking the magazine 2 out of the magazine 1.

The using method comprises the following steps:

typically, a slide with a histopathological section is placed in the magazine 2, and when the magazine 2 is filled with slides, the magazine 2 is placed in the magazine 1. The histopathological section placed on the slide may be pathological tissue collected from a human or animal.

Before the storage bin 2 is placed on the storage rack 1, the roller 24 is moved to a higher contact surface, when the first matching piece 13 moves upwards, the second matching piece 14 is finally contacted with the second plane 17 (vertical plane), the fixing piece 11 is far away from the storage bin 2, and the storage bin 2 can be placed inside the storage cell 7 of the storage rack 1. Then, the roller 24 is not contacted with the contact surface with the higher height any more, the spring on the top of the first matching piece 13 rebounds downwards, the first matching piece 13 moves downwards, the second matching piece 14 is not contacted with the second plane 17 (vertical plane) any more, but is contacted with the transition plane 16 first and is contacted with the first plane 15 (vertical plane) finally, and the fixing piece 11 gradually approaches the tablet storage bin 2 until clinging to the tablet storage bin 2.

It should be understood by those skilled in the art that various features of the above-described embodiments can be combined in any combination, and for the sake of brevity, all possible combinations of features in the above-described embodiments are not described in detail, but rather, all combinations of features which are not inconsistent with each other should be construed as being within the scope of the present disclosure.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the scope of the utility model. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application.

Claims (10)

1. The sheet storage device is characterized by comprising a sheet storage frame, wherein the sheet storage frame comprises a plurality of layers of sheet storage spaces, and each layer of sheet storage space is provided with a plurality of sheet storage grids which are configured to be capable of placing a sheet storage bin; the storage rack is connected with the rotary table, the rotary table is connected with the driving device, the driving device can enable the rotary table to rotate, and the storage rack can rotate along with the rotary table.

2. A sheet storage device according to claim 1 wherein a first partition is provided between adjacent layers.

3. A sheet storage device according to claim 2, wherein a second partition is provided between adjacent storage compartments.

4. A sheet storage device according to claim 1, wherein the sheet storage rack further comprises a resilient mounting assembly configured to be used to mount the magazine, the resilient mounting assembly comprising a first resilient element and a mounting member, the first resilient element being connected to the mounting member.

5. The apparatus of claim 1, wherein the resilient mounting assembly further comprises a connecting member, a first mating member and a second mating member, the first mating member contacting the second mating member, the second mating member being connected to the connecting member, the connecting member being connected to the mounting member.

6. A cassette holder as claimed in claim 5 wherein the first mating member is provided with guide surfaces, said guide surfaces comprising a first planar surface, a transition surface and a second planar surface.

7. A sheet storage device according to claim 5 wherein the second engagement member has a shaft attached to each end thereof, the shaft having a bearing attached thereto, the bearing contacting the guide surface of the first engagement member.

8. A sheet storage device according to claim 3, wherein the second partition comprises a housing for supporting the first partition, the housing having a cavity therein.

9. A sheet storage device according to claim 5, wherein the first engagement member has a roller attached to a lower end thereof and a third resilient member attached to an upper end thereof.

10. A sheet storage device as claimed in claim 1, further comprising a base plate, the base plate having projections thereon, the projections having contact surfaces of different heights.

Images