CN112530107A - Library borrows book automatic scanning formula device based on computer - Google Patents

Abstract

The invention discloses a computer-based library book borrowing automatic scanning device which comprises a box body shell, a lifting device, a scanning device, a display screen, a conveying device and storage boxes, wherein the lifting device is vertically arranged on the left side of the box body shell, the conveying device is transversely arranged in the center of the interior of the box body shell, the left end of the conveying device extends into the interior of the lifting device, the scanning device is arranged above the conveying device and is used for scanning bar codes or two-dimensional codes pasted on books, the display screen is arranged on the right side of the scanning device and is used for displaying related information of the books, the storage boxes are arranged below the conveying device and are linearly arranged in multiple groups, and rollers are further arranged at the lower end of each row of the storage boxes, wherein the conveying device is divided into a first conveying component and a second conveying component.

Description

Library borrows book automatic scanning formula device based on computer

Technical Field

The invention relates to the technical field of book management, in particular to a computer-based automatic book borrowing scanning device for a library.

Background

When books are borrowed in a library, bar codes or two-dimensional codes above the books need to be scanned through the scanner, the computer records related information such as book types, serial numbers, the existing scanning device, most adopt manual scanning, for improving the scanning accuracy, the angle of scanning at every turn, the direction is all different, the working strength of workers is great, and the processing efficiency is lower, often the student who can cause the book of borrowing arranges into frequent team, and, return procedure flow and borrow book flow after borrowing the book are unanimous basically, the efficiency of borrowing and returning can not be improved fast.

Accordingly, one skilled in the art provides a computer-based automatic library book borrowing scanning device to solve the above problems in the prior art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: an automatic book borrowing scanning device for a library based on a computer comprises a box body shell, a lifting device, a scanning device, a display screen, a conveying device and storage boxes, wherein the lifting device is vertically arranged on the left side of the box body shell, the conveying device is transversely arranged in the center of the interior of the box body shell, the left end of the conveying device extends into the lifting device, the scanning device is arranged above the conveying device and scans bar codes or two-dimensional codes pasted on books, the display screen is arranged on the right side of the scanning device and displays related information of the books, and the storage boxes are arranged below the conveying device and are linearly arranged to form a plurality of groups;

and the lower end of each row of the storage box is also provided with a roller, wherein the conveying device is divided into a first conveying assembly and a second conveying assembly.

As a preferred technical scheme of the invention, the conveying device comprises a first correcting device, a second correcting device, a separating device and a blocking device, two groups of conveying belts are horizontally arranged at the bottom of the conveying device, the first correcting device is arranged between the two groups of conveying belts on the left side, the upper end of the first correcting device is flush with the upper end of the conveying belts, the second correcting device is arranged on the right side of the first correcting device and is positioned above the conveying belts, and the separating device and the blocking device are sequentially and rightwards arranged above the conveying belts.

As a preferred technical scheme of the invention, the blocking device comprises a sliding support plate, elastic pushing pieces and pushing blocks, wherein the sliding support plate is Jiong-shaped, the bottom ends of the two sides of the sliding support plate are in sliding connection with sliding columns fixedly connected inside strip-shaped sliding grooves formed in the outer side of a lower fixing plate, rotating shafts are vertically arranged at the upper end and the lower end of the sliding support plate and are linearly arranged, the elastic pushing pieces are connected to the rotating shafts in a meshed mode, fixing columns are fixedly connected among a plurality of groups of the elastic pushing pieces, bevel gears fixedly connected to the upper ends of the rotating shafts are connected with bevel gears at the output end of a motor in a meshed mode, and the left end of each pushing block is connected with the right end.

As a preferred technical scheme of the invention, the separating device comprises a rotating wheel, an elastic fixing part and a telescopic support, a cylindrical sliding rail is arranged at the splicing boundary of the two groups of conveying assemblies, the rotating wheel is connected and fixed at the center of the cylindrical sliding rail, the bottom end of the telescopic support is hinged with the rotating wheel, the upper end of the telescopic support and the left and right ends of the cylindrical sliding rail are respectively provided with an auxiliary roller, a rolling belt is sleeved outside the auxiliary rollers, the cross sliding sleeve is connected on the cylindrical sliding rail in a sliding manner, and the upper end, the left end and the lower end of the cross sliding sleeve are respectively connected and fixed with the elastic fixing part.

As a preferred technical scheme of the invention, the second correcting device comprises a swinging assembly, a compacting assembly, a fixed plate and a sliding support, wherein a transverse sliding column is arranged in a strip-shaped sliding chute formed in the outer side of the fixed plate, the bottom end of the sliding support is connected with the transverse sliding column in a sliding manner, the sliding support is similar to a sliding support plate in shape and structure, a cylindrical sliding rod is arranged in a transverse support plate at the upper end of the sliding support, and an upper support plate in the compacting assembly is connected with the cylindrical sliding rod in a sliding manner;

two ends of the cylindrical sliding rod are respectively and fixedly connected with two output ends of a telescopic machine arranged in a vertical supporting plate in the sliding support;

and a swinging assembly is arranged on the inner side wall of the fixed plate.

As a preferred technical scheme of the invention, the compaction assembly comprises a rotating shaft, a first flat plate and a second flat plate, the upper end surfaces of the first flat plate and the second flat plate are connected with a fixed spring fixedly connected with the bottom end surface of an upper supporting plate, wherein a micro motor is arranged in the first flat plate, two ends of the rotating shaft are respectively connected with the second flat plate in a rotating manner and the output end of the micro motor in a fixed manner, and the outer side of the rotating shaft is sleeved with compaction cleaning cotton;

and the rotating shaft is of a multi-group splicing structure.

As a preferred technical scheme of the invention, the swing assembly comprises a sliding ring, a fixed ring and a swing plate, the sliding ring is sleeved on a fixed column in a cylindrical groove formed in the inner side of the fixed plate, the left end surface of the sliding ring is also connected with a return spring partially sleeved on the left side of the fixed column, the fixed ring is further sleeved at the end close to the right side of the fixed column, the upper ends of the sliding ring and the fixed ring are hinged with connecting rods with different lengths, and the other ends of the left connecting rod and the right connecting rod are respectively hinged with the center and one quarter of the swing plate;

the inside bar conveyer belt that still is provided with of swinging plate, its bar conveyer belt internally mounted has miniature distance sensor.

As a preferred technical scheme, the first correcting device comprises a fixed disc, a rotating ring, a flat plate telescopic assembly and a rotating assembly, wherein a circular sliding groove is formed in the fixed disc, the rotating ring is fixedly connected with the center of a fixing frame arranged in the circular sliding groove, a T-shaped fixing piece is sleeved on the left side and the right side of the fixing frame, the rotating assembly is fixedly connected to the upper end of the T-shaped fixing piece, the flat plate telescopic assembly is arranged on the left side of the rotating assembly, and an arc-shaped block is arranged on the left side of the flat plate telescopic assembly.

As a preferred technical scheme of the invention, the rotating assembly comprises a first expansion machine, a micro motor and micro rollers, wherein the first expansion machine is fixedly connected at the center of the bottom end in the rotating box, the micro motor is arranged at the upper end part of the rotating box, and the output end of the micro motor is fixedly connected with a bevel gear which is fixedly connected with the end of the micro roller which is arranged in parallel transversely in a meshing manner.

As a preferable technical scheme of the present invention, the storage box includes a storage chamber, a conveying chamber, and a pushing assembly, the storage chamber is disposed outside the conveying chamber, a roller is disposed at a bottom end of the conveying chamber, the roller is provided with a conveying belt, and the pushing assembly is disposed above the conveying belt.

Compared with the prior art, the invention provides a computer-based automatic library book borrowing scanning device, which has the following beneficial effects:

1. according to the invention, by adopting the structural design of the two groups of conveying assemblies, when a large number of books are borrowed and returned, the books are sequentially subjected to direction adjustment by the same-direction leftward operation of the conveying assemblies through the blocking device, the separating device and the correcting device, so that the scanning accuracy of the two-dimensional codes or bar codes of the books by the scanning device is improved, relevant information is displayed through the computer display screen for confirmation and then conveyed into each type of storage box, a reader takes out the books and a manager places the returned books, and the book borrowing and returning efficiency is greatly improved.

2. According to the book scanning device, stacked books are processed through the blocking device and are automatically placed on the conveying belt, the books are separated through the separating device, the conveying speed is increased, the attaching degree between the books and the transparent conveying belt is accurately sensed through the distance sensor in the swinging plate, the books which are not cut obliquely are adjusted to be in an orderly state, the book folding angles, the book creases and the surface are slightly compacted and cleaned through the compacted cleaning cotton, and the books in the orderly state are adjusted in the same direction through the correcting device, so that the books can be accurately scanned through the scanning device.

Drawings

FIG. 1 is a schematic view of the structure of an automatic book borrowing scanning device according to the present invention;

FIG. 2 is an enlarged view of the structure of the conveyor of the present invention;

FIG. 3 is an enlarged schematic view of the top view of the conveyor of the present invention;

FIG. 4 is an enlarged view of the structure of the separating device of the present invention;

FIG. 5 is an enlarged view of the structure at A of the present invention;

FIG. 6 is an enlarged schematic view of the memory structure of the present invention;

in the figure: 1. a case body shell; 2. a lifting device; 201. a collection assembly; 3. a scanning device; 4. a display screen; 5. a conveying device; 6. a storage box; 601. a storage chamber; 602. a transfer chamber; 603. a roller; 604. a push assembly; 7. a first correcting device; 701. fixing the disc; 702. a flat plate telescoping assembly; 703. a rotating assembly; 704. a rotating ring; 705. a first stretching machine; 706. a micro-motor; 707. a micro-roller; 708. an arc-shaped block; 8. a second correcting device; 801. a swing assembly; 802. compacting the assembly; 803. a fixing plate; 804. a sliding support; 805. a second stretching machine; 806. a rotating shaft; 807. a first flat plate; 808. a second flat plate; 809. a slip ring; 810. a fixing ring; 811. a swing plate; 9. a partitioning means; 901. a rotating wheel; 902. a telescopic bracket; 903. a cross sliding sleeve; 904. an elastic fixing member; 905. rolling the belt; 10. a blocking device; 1001. a sliding support plate; 1002. a motor; 1003. an elastic pushing piece; 1004. fixing a column; 1005. a push block; 11. an auxiliary conveyor belt; 12. a first transmission component; 13. and a second conveying assembly.

Detailed Description

Referring to fig. 1, the present invention provides a technical solution: a library borrows book automatic scanning type device based on computer, it includes box body outer casing 1, elevating gear 2, scanning device 3, display screen 4, conveyer 5 and storage box 6, the vertical elevating gear 2 of installing in the left side of box body outer casing 1, conveyer 5 transversely sets up in the inside center of box body outer casing 1, its left end stretches into the inside of elevating gear 2, scanner 3 installs above conveyer 5, scans the bar code or two-dimensional code that books are pasted, display screen 4 sets up in the right side of scanner 3, shows the relevant information of books, storage box 6 sets up below conveyer 5, and is the linear arrangement and sets up the multiunit;

and the lower end of each row of the storage box 6 is also provided with a roller, wherein the conveying device 5 is divided into a first conveying assembly 12 and a second conveying assembly 13;

as a preferred embodiment, the first conveying component 12 and the second conveying component 13 both convey leftwards and in the same direction, so that books can be scanned, returned and borrowed, and if the first conveying component 12 and the second conveying component 13 convey in different directions, the books can be scanned, borrowed and scanned and returned simultaneously;

the lifting device 2 can classify and convey returned books into the storage box 6, and the books can be conveniently arranged in the original bookcase.

Referring to fig. 2, 3, 4 and 5, in this embodiment, the conveying device 5 includes a first correcting device 7, a second correcting device 8, a separating device 9 and a blocking device 10, two sets of conveyor belts are horizontally arranged at the bottom of the conveying device 5, the first correcting device 7 is installed between the two sets of conveyor belts at the left side, the upper end of the first correcting device is flush with the upper end of the conveyor belt, the second correcting device 8 is installed at the right side of the first correcting device 7 and is located above the conveyor belt, wherein the separating device 9 and the blocking device 10 are installed above the conveyor belt to the right in sequence.

In this embodiment, the blocking device 10 includes a sliding support plate 1001, an elastic pushing member 1003, and a pushing block 1005, where the sliding support plate 1001 is shaped like Jiong, bottom ends of two sides of the sliding support plate are slidably connected to sliding columns fixedly connected to inside of strip-shaped sliding grooves formed in the outer side of a lower fixing plate, upper and lower ends of the sliding support plate 1001 are vertically provided with rotating shafts, 6 sets are linearly arranged, the rotating shafts are engaged and connected with the elastic pushing member 1003, a fixing column 1004 is fixedly connected between a plurality of sets of the elastic pushing members 1003, a bevel gear fixedly connected to an upper end of the rotating shaft is engaged and connected with a bevel gear at an output end of a motor 1002, and a left end of the pushing block 1005 is hinged and connected to;

it should be noted that the right end of the sliding support plate 1001 is further provided with two sets of vertically-oriented auxiliary fixing posts, which are respectively fixedly connected with the right ends of the front and rear outermost elastic pushing members 1003, the lower ends of the two sets of auxiliary fixing posts are also slidably connected with the sliding post, the pushing block 1005 connected with the right end of each set of elastic pushing members 1003 can rotate counterclockwise on a vertical plane by 0 to 90 degrees, so that the books stacked on the left-hand conveying conveyor belt can be pushed conveniently, and meanwhile, the books are prevented from being damaged, as a preferred embodiment, an object sensor is mounted on the inner wall of the outermost fixed plate below the elastic pushing members 1003 and near one end of the pushing block 1005, so that whether the books are below the elastic pushing members 1003 or not can be detected conveniently, the right end of the pushing block 1005 is further provided with a pressure sensor, so that whether other books exist above the stacked single book or not can be detected, a sensor signal in the pushing block 1005 is, until the object sensor detects that a book is arranged below the elastic pushing piece 1003, the motor 1002 stops driving, and the procedure is repeated until no book is stacked on the conveyor belt;

and, if the conveyer belt is conveyed to the right, it is in the borrowing procedure, and the orientation of the blocking device 10 can be changed or the elastic pushing part 1003 can be adjusted to the highest position according to the actual requirement of stacking the pictures.

In this embodiment, the separating device 9 includes a rotating wheel 901, an elastic fixing member 904 and a telescopic bracket 902, a cylindrical sliding rail is installed at the splicing boundary of the two sets of conveying assemblies, the rotating wheel 901 is connected and fixed at the center of the cylindrical sliding rail, the bottom end of the telescopic bracket 902 is hinged to the rotating wheel 901, auxiliary rollers are arranged at the upper end of the telescopic bracket 902 and at the left and right ends of the cylindrical sliding rail, a rolling belt 905 is sleeved outside the auxiliary rollers, the cross sliding sleeve 903 is slidably connected to the cylindrical sliding rail, wherein the elastic fixing member 904 is connected and fixed at the upper end, the left end and the lower end of the cross sliding sleeve 903;

as a preferred embodiment, the separating device 9 mainly aims at borrowing and returning a large number of books and recording new book information, if the first conveying component 12 and the second conveying component 13 convey the books in the same direction, the telescopic bracket 902 is adjusted to change the relative width conveyed by the conveying belt according to the size of the books, so that the position of the books above the conveying belt can be accurately adjusted, wherein the separating devices 9 on the two groups of conveying components can independently adjust the length and the direction of the telescopic bracket 902;

when the auxiliary rollers at the left and right ends contact with the books along with the conveyor belt, the elastic fixing piece 904 can make left and right elastic circular sliding to reduce the impact force between the auxiliary rollers and the books.

In this embodiment, the second correcting device 8 includes a swinging assembly 801, a compacting assembly 802, a fixing plate 803, and a sliding support 804, a transverse sliding column is installed inside a strip-shaped sliding slot formed in the outer side of the fixing plate 803, and the bottom end of the sliding support 804 is slidably connected to the transverse sliding column, wherein the sliding support 804 has a similar shape and structure to the sliding support plate 1001, a cylindrical sliding rod is installed inside a transverse support plate at the upper end of the sliding support 804, and an upper support plate in the compacting assembly 802 is slidably connected to the cylindrical sliding rod;

two ends of the cylindrical sliding rod are respectively and fixedly connected with the output end of a second telescopic machine 805 arranged in the vertical supporting plate in the sliding support 804, and the gap between the compaction component 802 and the conveyor belt is adjusted through the second telescopic machine 805;

a swinging assembly 801 is arranged on the inner side wall of the fixed plate 803;

in this embodiment, the compacting assembly 802 includes a rotating shaft 806, a first flat plate 807 and a second flat plate 808, the upper end surfaces of the first flat plate 807 and the second flat plate 808 are connected with a fixed spring fixedly connected with the bottom end surface of the upper supporting plate, wherein a micro motor is installed inside the first flat plate 807, two ends of the rotating shaft 806 are respectively connected with the second flat plate 808 in a rotating manner and the output end of the micro motor is fixedly connected, and compacted cleaning cotton is sleeved outside the rotating shaft 806;

the rotating shafts 806 are of a multi-group splicing structure, as a best embodiment, the number of the groups of the rotating shafts 806 is an odd number, five groups are adopted in the structure, three groups of cylindrical rotating shafts are arranged, two groups of cylindrical rotating shafts are arranged and are sleeved at intervals, and the cylindrical rotating shafts are located on the outermost side of the whole group of structure and provide the maximum supporting force;

the length of the rotating shaft 806 is adjusted according to the size of the book, and the folding angle and the folding line of the book are adjusted, slightly compacted and cleaned.

In this embodiment, the swing assembly 801 includes a sliding ring 809, a fixing ring 810 and a swing plate 811, the sliding ring 809 is sleeved on a fixing column inside a cylindrical groove formed in the inner side of the fixing plate 803, the left end surface of the sliding ring 809 is further connected with a return spring partially sleeved on the left side of the fixing column, the fixing ring 810 is further sleeved at the end close to the right side of the fixing column, the upper ends of the sliding ring 809 and the fixing ring 810 are hinged with connecting rods with different lengths, and the other ends of the left and right connecting rods are hinged with the center and one quarter of the swing plate 811 respectively;

the inside bar conveyer belt that still is provided with of swing board 811, its bar conveyer belt internally mounted has miniature distance sensor, wherein, the bar conveyer belt is transparent form, miniature distance sensor is used for detecting books and the laminating degree of bar conveyer belt, and as the best embodiment, when the one corner of books on the conveyer belt or one side contacted the bar conveyer belt, the distance between books edge and the conveyer belt was detected by miniature distance sensor, and simultaneously, books produced thrust to swing board 811, and at this moment, swing board 811 used the right side connecting rod upper end as the base point and turned to the left, utilized the differential of two sets of conveyer belts to adjust until books one side completely laminated with swinging arms 811, and swing board 811 reached when parallel with fixed plate 803, and break away from books.

In this embodiment, the first correcting device 7 includes a fixed disk 701, a rotating ring 704, a flat plate telescopic assembly 702 and a rotating assembly 703, a circular sliding groove is formed in the fixed disk 701, the rotating ring 704 is fixedly connected with the center of a fixed frame arranged in the circular sliding groove, a T-shaped fixed member is sleeved on the left side and the right side of the fixed frame, the rotating assembly 703 is fixedly connected to the upper end of the T-shaped fixed member, the flat plate telescopic assembly 702 is arranged on the left side of the rotating assembly 703, and an arc-shaped block 708 is arranged on the left side of the flat plate telescopic assembly 702;

the movable plate at the upper end of the flat plate telescopic assembly 702 can extend into a slide way formed at the upper end of the arc-shaped block 708, and the distance between the rotating assemblies 703 can be properly changed by adjusting the position of the T-shaped fixing piece on the fixing frame.

In this embodiment, the rotating assembly 703 includes a first compressor 705, a micro motor 706 and a micro roller 707, the first compressor 705 is fixedly connected to the center of the bottom end inside the rotating box, the micro motor 706 is installed at the upper end portion of the rotating box, a bevel gear fixedly connected to the output end of the micro motor 706 is engaged with a bevel gear fixed to the end of the micro roller 707 arranged in parallel in a horizontal row, wherein flexible friction cotton is fixed to the output end of the first compressor 705, the micro motor 706 and the micro roller 707 are arranged in a circumferential manner, and a micro turntable is fixedly connected to the lower end of each group of micro motors 706, so that the conveying direction of the micro roller 707 can be conveniently adjusted;

as a preferred embodiment, the book dropped from the top is pushed by the first telescopic machine 705 to be separated from the contact surface of the micro-roller 707, and the rotating ring 704 is driven by the motor to rotate by positive, negative 90 degrees and 180 degrees, so that the direction of each book is adjusted to be positive.

Referring to fig. 6, in the present embodiment, the storage box 6 includes a storage chamber 601, a conveying chamber 602, and a pushing assembly 604, the storage chamber 601 is disposed outside the conveying chamber 602, a roller 603 is disposed at a bottom end of the conveying chamber 602, a conveyor belt is mounted on the roller 603, and the pushing assembly 604 is disposed above the conveyor belt;

as a preferred embodiment, the storage boxes 6 can be arranged in a bilateral symmetry mode, the storage box 6 on one side is located on the inner side of the book counter, so that a manager can conveniently arrange and reset books, and readers can conveniently take the books on the other side.

In specific implementation, when a new book is borrowed, the scanning device 3 can directly scan the book to read related information, the related information is displayed through the display screen 4 for confirmation, the book is conveyed through the conveying device 5, the book is taken and placed into the outer storage box 6 through the right lifting device 2 and is automatically taken out, wherein the compaction component 802 can be selectively started to clean the book, if a large number of books are borrowed and returned, the conveying belts run in the same direction, the book is subjected to single book conveying processing through the separating device 10 and enters the separating device 9 for separation, the inclined book is subjected to level correction in the correcting device two 8 so as to be transversely and longitudinally placed, the book enters the correcting device one 7 again for positive and negative 90-degree or 108-degree adjustment to ensure that the book is positively arranged and is in the same direction, and the book is scanned through the scanning device 3 again, relevant information display of books is in display screen 4, carries out categorised location, by elevating gear 2 conveying books to in passing to all kinds of locker room 601 through the inside conveyer belt of storage box 6, wherein outside locker room 601 is used for the reader to get the book, and inboard locker room 601 is used for the books of storage return, if a small amount of books borrow and when returning, two sets of conveying component incorgruous operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept within the technical scope of the present invention, and the technical solution and the inventive concept thereof should be covered by the scope of the present invention.

Claims (10)

1. The utility model provides a library borrows book automatic scanning formula device based on computer, its includes box shell (1), elevating gear (2), scanning device (3), display screen (4), conveyer (5) and storage box (6), box shell (1) left side is vertical installs elevating gear (2), conveyer (5) transversely set up at box shell (1) inside center, and inside elevating gear (2) were stretched into to its left end, its characterized in that: the scanning device (3) is arranged above the conveying device (5) and is used for scanning bar codes or two-dimensional codes pasted on books, the display screen (4) is arranged on the right side of the scanning device (3) and is used for displaying related information of the books, and the storage boxes (6) are arranged below the conveying device (5) and are linearly arranged to form a plurality of groups;

and the lower end of each row of the storage box (6) is also provided with a roller, wherein the conveying device (5) is divided into a first conveying assembly (12) and a second conveying assembly (13).

2. The computer-based automatic library book borrowing scanning device according to claim 1, wherein: conveyer (5) are including correcting unit (7), correcting unit two (8), separator (9) and separate fender device (10), conveyer (5) bottom level is provided with two sets of conveyer belts, correcting unit one (7) are installed between two sets of conveyer belts in the left side, and its upper end flushes with the conveyer belt upper end, correcting unit two (8) set up on correcting unit one (7) right side, and are located the conveyer belt top, wherein, separator (9), separate fender device (10) and all install in the conveyer belt top right in proper order.

3. The computer-based automatic library book borrowing scanning device according to claim 2, wherein: the blocking device (10) comprises a sliding support plate (1001), elastic pushing pieces (1003) and a pushing block (1005), wherein the sliding support plate (1001) is Jiong-shaped, the bottom ends of two sides of the sliding support plate are in sliding connection with sliding columns which are arranged outside a fixing plate below and are fixedly connected with the inside of a strip-shaped sliding groove, rotating shafts are vertically arranged at the upper end and the lower end of the sliding support plate (1001) and are linearly arranged, the rotating shafts are connected with the elastic pushing pieces (1003) in a meshed mode, fixing columns (1004) are fixedly connected among a plurality of groups of the elastic pushing pieces (1003), bevel gears which are fixedly connected with the upper end of each rotating shaft are in meshed connection with bevel gears at the output end of a motor (1002), and the left end of the pushing block (1005) is hinged to the.

4. The computer-based automatic library book borrowing scanning device according to claim 2, wherein: the separating device (9) comprises a rotating wheel (901), an elastic fixing piece (904) and a telescopic support (902), a cylindrical sliding rail is arranged at the splicing boundary of the two groups of conveying assemblies, the rotating wheel (901) is connected and fixed at the center of the cylindrical sliding rail, the bottom end of the telescopic support (902) is hinged with the rotating wheel (901), auxiliary rollers are arranged at the upper end of the telescopic support (902) and at the left end and the right end of the cylindrical sliding rail respectively, a rolling belt (905) is sleeved outside the auxiliary rollers, a cross sliding sleeve (903) is connected to the cylindrical sliding rail in a sliding mode, and the elastic fixing piece (904) is fixedly connected to the upper end, the left end and the lower end of the cross sliding sleeve (903).

5. The computer-based automatic library book borrowing scanning device according to claim 2, wherein: the second correcting device (8) comprises a swinging assembly (801), a compacting assembly (802), a fixing plate (803) and a sliding support (804), a transverse sliding column is installed inside a strip-shaped sliding groove formed in the outer side of the fixing plate (803), the bottom end of the sliding support (804) is in sliding connection with the transverse sliding column, the sliding support (804) is similar to the sliding support plate (1001) in appearance structure, a cylindrical sliding rod is installed inside a transverse support plate at the upper end of the sliding support (804), and an upper support plate in the compacting assembly (802) is in sliding connection with the cylindrical sliding rod;

two ends of the cylindrical sliding rod are respectively and fixedly connected with the output end of a second telescopic machine (805) arranged in the vertical supporting plate in the sliding support (804);

and a swinging assembly (801) is arranged on the inner side wall of the fixed plate (803).

6. The computer-based automatic library book borrowing scanning device according to claim 5, wherein: the compacting assembly (802) comprises a rotating shaft (806), a first flat plate (807) and a second flat plate (808), the upper end surfaces of the first flat plate (807) and the second flat plate (808) are connected with fixed springs fixedly connected with the bottom end surface of an upper supporting plate, a micromotor is installed in the first flat plate (807), two ends of the rotating shaft (806) are respectively connected with the second flat plate (808) in a rotating mode and the output end of the micromotor in a fixed mode, and compacted cleaning cotton is sleeved on the outer side of the rotating shaft (806);

and the rotating shaft (806) is in a multi-group splicing structure.

7. The computer-based automatic library book borrowing scanning device according to claim 5, wherein: the swing assembly (801) comprises a sliding ring (809), a fixing ring (810) and a swing plate (811), the sliding ring (809) is sleeved on a fixing column in a cylindrical groove formed in the inner side of the fixing plate (803), the left end face of the sliding ring (809) is further connected with a return spring partially sleeved on the left side of the fixing column, the fixing ring (810) is further sleeved at the end close to the right side of the fixing column, connecting rods with different lengths are hinged to the upper ends of the sliding ring (809) and the fixing ring (810), and the other ends of the left connecting rod and the right connecting rod are hinged to the center and one quarter of the swing plate (811);

the swing plate (811) is also internally provided with a bar-shaped conveyor belt, and a micro distance sensor is arranged inside the bar-shaped conveyor belt.

8. The computer-based automatic library book borrowing scanning device according to claim 2, wherein: correcting unit (7) are including fixed disc (701), swivel becket (704), dull and stereotyped flexible subassembly (702) and rotating assembly (703), fixed disc (701) inside has seted up circular spout, the center fixed connection of the inside mount that sets up of swivel becket (704) and circular spout, just the left and right side cover of mount has T type mounting, T type mounting upper end is connected and is fixed with rotating assembly (703), the left side of rotating assembly (703) is provided with dull and stereotyped flexible subassembly (702), arc piece (708) are installed in the left side of dull and stereotyped flexible subassembly (702).

9. The computer-based automatic library book borrowing scanning device according to claim 8, wherein: the rotating assembly (703) comprises a first compressor (705), a micro motor (706) and a micro roller (707), the first compressor (705) is fixedly connected to the center of the bottom end in the rotating box, the micro motor (706) is installed at the upper end part of the rotating box, and a bevel gear fixedly connected to the output end of the micro motor (706) is in meshed connection with a bevel gear fixed to the end of the micro roller (707) arranged in parallel transversely.

10. The computer-based automatic library book borrowing scanning device according to claim 1, wherein: the storage box (6) includes locker room (601), conveying chamber (602) and propelling movement subassembly (604), locker room (601) set up in conveying chamber (602) outside, conveying chamber (602) bottom is provided with roller (603), the conveyer belt is installed to roller (603), propelling movement subassembly (604) set up in the conveyer belt top.

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