NL2037397A - A research management document query device and its usage method - Google Patents

Abstract

This invention belongs to the field of document management technology and discloses a file query device for scientific research management and its method of use. It includes a movable query mechanism, a storage mechanism, and a supporting displacement mechanism. The movable query mechanism is movably installed at the top of the supporting displacement mechanism, and the storage mechanism is movably installed on the inner wall of the movable query mechanism. The movable query mechanism comprises a query cabinet, which, through the mutual cooperation between the extension component and the support component, forms a temporary platform and supports its bottom. This allows employees to safely and efficiently climb when accessing files in higher corresponding storage boxes. When the corresponding storage box is high, the query device automatically controls the extension component to extend the query cabinet at the bottom, starts the first servo motor, and drives two threaded rods to rotate synchronously through the synchronous transmission shaft via the output shaft of the first servo motor and transmission gears. The two threaded rods rotate synchronously in the threaded grooves in the extension base, pushing the extension base outward.

Description

A research management document query device and its usage method

TECHNICAL FIELD

The present invention belongs to the field of document management technology, specifically disclosing a research management document query device and its usage method.

BACKGROUND

With the advancement of technology and the increase in research projects and documents, the management and preservation of research documents have gained increasing attention. Therefore, specialized research document management equipment is often required. Current document management equipment mainly consists of storage cabinets, which effectively store research archive information.

However, existing research management document query devices often have a simple structure and function. They typically provide document placement and isolation functions, and there is a considerable amount of space between multiple storage cabinets for operation. This results in a large footprint, resource wastage, and the inconvenience of accessing upper-level documents, often requiring the use of ladders.

SUMMARY

The purpose of the present invention is to provide a research management document query device and its usage method to address the issues raised in the above background technology.

To achieve the above purpose, the present invention provides the following technical solution: a research management document query device, comprising a mobile query mechanism, a storage mechanism, and a supporting displacement mechanism. The mobile query mechanism is movably installed at the top of the supporting displacement mechanism, and the storage mechanism is movably installed on the inner wall of the mobile query mechanism.

The mobile query mechanism includes a query cabinet, which is movably installed at the top of the supporting displacement mechanism. The inner wall of the query cabinet 1s movably connected to an extension component. The extension component includes an extending base, the bottom of which is slidably connected to the inner wall of the query cabinet. The inner wall of the extending base is provided with two threaded grooves, and the inner walls of both threaded grooves are threadedly connected to threaded rods. One end of each threaded rod is fixedly connected to a synchronous shaft. One end of each synchronous shaft is rotatably connected to the inner wall of the query cabinet. A synchronous transmission belt is drivably connected between the outer walls of the two synchronous shafts. The inner wall of the query cabinet is fixedly connected to the first servo motor, and the output shaft of the first servo motor is fixedly connected to a transmission gear. The teeth of the transmission gear mesh with the grooves of the synchronous transmission belt.

The bottom of the extending base is movably connected to a supporting component. The supporting component includes two limiting grooves, both of which are opened at the bottom of the extending base. The inner walls of the limiting grooves are slidably connected to supporting columns. The outer walls of the supporting columns are fixedly connected to the inner walls of the limiting grooves and are connected to springs. The outer walls of the supporting columns are fixedly connected to steel wires.

The supporting component includes a combiner, an expansion cylinder, and two limiting seats. The combiner, expansion cylinder, and two limiting seats are all fixedly connected to the inner wall of the extending base. One end of each steel wire is fixedly connected to a combiner block through two limiting seats and a combiner. The outer wall of the combiner block is fixedly connected to the output end of the expansion cylinder.

Through the coordinated interaction between the extension component and the supporting component, a temporary ladder platform is constructed, supporting its bottom. This allows employees to safely and efficiently access files in the higher corresponding storage boxes. When the corresponding storage box is elevated, the query device automatically controls the extension component to extend the bottom of the query cabinet. The first servo motor is activated, and its output shaft, through a transmission gear and synchronous transmission belt, drives two threaded rods to rotate synchronously. The threaded rods, within the threaded grooves of the extension base, synchronize the threaded rotation, pushing out the extension base. This process can sequentially extend the lower two layers of the extension base, forming a temporary ladder platform. Once the platform is assembled, the query device automatically controls the supporting component to eject supporting columns. The expansion cylinder is activated, pushing the combiner block. The two steel wires fixed on the combiner block are released through the combiner and limiting seats in the limiting grooves. The spring releases the supporting columns into the limiting grooves, supporting the weight. This action allows the supporting columns to move downward onto the moving groove or the bottom storage box, providing support.

As a further technical solution of the invention, the inner wall of the query cabinet is equipped with multiple reset grooves. The inner walls of these grooves and the outer walls of multiple supporting columns are engaged through a set supporting component and extension component.

By employing the above structure, the supporting columns are positioned, and reset grooves are set.

As a further technical solution of the invention, the bottom of the query cabinet is fixedly connected to a moving component. The moving component includes a second servo motor. The output shaft of the second servo motor is fixedly connected to a transmission shaft, and the outer wall of the transmission shaft is rotatably connected to the inner wall of the query cabinet. The outer wall of the transmission shaft is drivably connected to a drive belt.

As a further technical solution of the invention, both ends of the drive belt are drivably connected to drive rods. The outer walls of both drive rods are rotatably connected to the inner wall of the query cabinet. Both ends of the drive rods are fixedly connected to drive gears.

Through the above structure, the query cabinet can be moved. The second servo motor is activated, and its output shaft, through the transmission shaft, drives the drive belt, which, in turn, drives multiple drive gears to rotate simultaneously.

As a further technical solution of the invention, the supporting displacement mechanism includes a base. The inner wall of the base is equipped with a moving groove, and the top of the moving groove is movably connected to the bottom of multiple query cabinets.

As a further technical solution of the invention, the inner wall of the moving groove is fixedly connected to two track frames. The inner walls of both track frames are fixedly connected to racks, and the teeth of both racks mesh with the teeth of multiple drive gears.

Through the above structure, the corresponding query cabinet can be emptied. The drive gears move on the racks of the track frames, clearing the moving groove in front of the corresponding query cabinet.

As a further technical solution of the invention, the outer wall of the query cabinet is fixedly connected to a query device. The outer wall of the query cabinet at both ends is fixedly connected to handrails.

Through the above structure, electronic querying and protection of climbing safety are achieved. Employees use the query device to retrieve the corresponding storage box position, and manually grasp the handrails to access the corresponding files on the temporary ladder platform.

As a further technical solution of the invention, the storage mechanism includes multiple storage boxes. Each storage box is securely installed on the inner wall of the query cabinet and the top of the extension base. The inner wall of the storage box is fixedly connected to multiple warning lights.

As a further technical solution of the invention, the inner wall of the storage box is slidably connected to multiple storage compartments. The outer wall of each storage compartment is fixedly connected to a nameplate box and a movable handle.

Through the above structure, the role of indicating the file location and isolating files is achieved. After the corresponding query cabinet is emptied, the corresponding warning lights in the corresponding storage box are lit. Subsequently, the user can use the movable handle to pull out the storage compartment, access the file, and confirm the nameplate or place the nameplate in the nameplate box.

The method of using the file query device for scientific research management includes 5 the following steps:

S1. When querying or storing files, select the corresponding query cabinet based on the file type and number. Use the query device to retrieve the position of the corresponding storage box, enter the access command, and use the moving component to empty the corresponding query cabinet among multiple query cabinets. Activate the second servo motor, and its output shaft, through the transmission shaft, drives the drive belt, which, in turn, drives multiple drive gears to rotate simultaneously. The multiple drive gears move on the racks of the track frames, clearing the moving groove in front of the corresponding query cabinet, facilitating employee operations.

S2. After emptying the corresponding query cabinet, the corresponding warning lights in the corresponding storage box are lit. Subsequently, use the movable handle to pull out the storage compartment, access the file, and confirm the nameplate or place the nameplate in the nameplate box. When the corresponding storage box is higher, the query device automatically controls the extension component to extend the bottom of the query cabinet. Activate the first servo motor, and its output shaft, through the transmission gear and synchronous transmission belt, drives two threaded rods to rotate synchronously. The threaded rods, within the threaded grooves of the extension base, synchronize the threaded rotation, pushing out the extension base. This process can sequentially extend the lower two layers of the extension base, forming a temporary ladder platform.

S3. After the platform is assembled, the query device automatically controls the supporting component to eject supporting columns. Activate the expansion cylinder, pushing the combiner block. The two steel wires fixed on the combiner block are released through the combiner and limiting seats in the limiting grooves. The spring releases the supporting columns into the limiting grooves, supporting the weight. This allows the supporting columns to move downward onto the moving groove or the bottom storage box, providing support. Subsequently, employees can manually grasp the handrails to access the corresponding files on the temporary ladder platform.

The present invention offers the following beneficial eftects:

By the mutual coordination between the extension component and the supporting component, the invention constructs a temporary ladder platform and supports its bottom. This allows employees to safely and efficiently reach higher storage boxes.

When the corresponding storage box is high, the query device automatically controls the extension component to extend the bottom of the query cabinet. Activate the first servo motor, and its output shaft, through the transmission gear and synchronous transmission belt, drives two threaded rods to rotate synchronously. The threaded rods, within the threaded grooves of the extension base, synchronize the threaded rotation, pushing out the extension base. This process can sequentially extend the lower two layers of the extension base, forming a temporary ladder platform. After the platform is assembled, the query device automatically controls the supporting component to eject supporting columns. Activate the expansion cylinder, pushing the combiner block. The two steel wires fixed on the combiner block are released through the combiner and limiting seats in the limiting grooves. The spring releases the supporting columns into the limiting grooves, supporting the weight. This allows the supporting columns to move downward onto the moving groove or the bottom storage box, providing support.

The invention, through the configured moving component, achieves the function of moving the query cabinet and emptying the corresponding query cabinet. Activate the second servo motor, and its output shaft, through the transmission shaft, drives the drive belt, which, in turn, drives multiple drive gears to rotate simultaneously. The multiple drive gears move on the racks of the track frames, clearing the moving groove in front of the corresponding query cabinet, facilitating employee operations.

Through the query device and warning lights, the invention provides electronic query and indicates file locations. When querying or storing files, select the corresponding query cabinet based on the file type and number. Use the query device to retrieve the position of the corresponding storage box, enter the access command, and use the moving component to empty the corresponding query cabinet among multiple query cabinets. After emptying the corresponding query cabinet, the corresponding warning lights in the corresponding storage box are lit. Subsequently, use the movable handle to pull out the storage compartment, access the file, and confirm the nameplate or place the nameplate in the nameplate box.

BRIEF DESCRIPTION OF THE FIGURES

Figure 1 is a schematic diagram of the main structure of the present invention;

Figure 2 is a schematic structural diagram of the mobile query mechanism of the present invention;

Figure 3 is a schematic structural diagram of the extended base of the present invention;

Figure 4 is an enlarged structural schematic diagram of the extension component A of the present invention;

Figure 5 is a schematic structural diagram of the thread groove of the present invention;

Figure 6 is an enlarged structural schematic diagram of the support component B of the present invention;

Figure 7 is a schematic structural diagram of the inquiry cabinet of the present invention;

Figure 8 is an enlarged structural schematic diagram of the moving component C of the present invention;

Figure 9 is a schematic structural diagram of the storage box of the present invention;

Figure 10 is an enlarged structural schematic diagram of the D position of the storage mechanism of the present invention;

Figure 11 is a schematic structural diagram of the platform of the present invention;

Figure 12 is an enlarged structural schematic diagram of the support displacement mechanism E of the present invention. wherein, 1. Moving Query Mechanism; 11. Query Cabinet; 12. Handrail Pillar; 13.

Query Device; 14. Extension Component; 141. Extension Base; 142. Threaded Groove, 143. Threaded Rod; 144. Synchronous Shaft; 145. Synchronous Transmission Belt; 146.

Transmission Gear; 147. First Servo Motor; 15. Support Component; 151. Support

Column; 152. Limitation Groove; 153. Spring; 154. Steel Wire Rope; 155. Limitation

Seat; 156. Combiner; 157. Combiner Block; 158. Expansion Cylinder; 159. Reset

Groove; 16. Moving Component; 161. Second Servo Motor; 162. Transmission Shaft, 163. Drive Belt; 164. Drive Rod; 165. Drive Gear; 2. Storage Mechanism;21. Storage

Box; 22. Storage Compartment; 23. Nameplate Box; 24. Movable Handle; 25. Warning

Light; 3. Support Displacement Mechanism; 31. Platform; 32. Moving Groove; 33.

Track Frame; 34. Rack

DETAILED DESCRIPTION OF THE INVENTION

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some of the embodiments of the present invention, rather than all the embodiments.

Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

As shown in Figures 1 to 12 in the embodiment of the present invention, a file query device for scientific research management comprises a moving query mechanism 1, a storage mechanism 2, and a support displacement mechanism 3. The moving query mechanism 1 is movably installed at the top of the support displacement mechanism 3, and the storage mechanism 2 is movably installed on the inner wall of the moving query mechanism 1.

The moving query mechanism 1 includes a query cabinet 11, which is movably installed atthe top of the support displacement mechanism 3. The inner wall of the query cabinet 11 1s movably connected to an extension component 14. The extension component 14 includes an extension base 141, the bottom of which is slidably connected to the inner wall of the query cabinet 11. The inner wall of the extension base 141 is provided with two threaded grooves 142, and the inner wall of the two threaded grooves 142 is threadedly connected to threaded rods 143. One end of the two threaded rods 143 is fixedly connected to a synchronous shaft 144, and one end of the two synchronous shafts 144 is rotatably connected to the inner wall of the query cabinet 11. The outer walls of the two synchronous shafts 144 are mutually drivably connected by a synchronous transmission belt 145. The inner wall of the query cabinet 11 is fixedly connected to a first servo motor 147, and the output shaft of the first servo motor 147 is fixedly connected to a transmission gear 146. The teeth of the transmission gear 146 mesh with the grooves of the synchronous transmission belt 145.

The bottom of the extension base 141 is movably connected to a support component 15.

The support component 15 includes two limiting grooves 152, both of which are opened at the bottom of the extension base 141. The inner walls of the limiting grooves 152 are slidably connected to support columns 151. The outer walls of the support columns 151 are fixedly connected to the inner walls of the limiting grooves 152, and springs 153 are fixedly connected to the outer walls of the support columns 151. The outer walls of the support columns 151 are fixedly connected to steel wires 154.

The support component 15 includes a combiner 156, an expansion cylinder 158, and two limiting seats 155. The combiner 156, the expansion cylinder 158, and the two limiting seats 155 are all fixedly connected to the inner wall of the extension base 141. One end of the two steel wires 154 is fixedly connected to a combiner block 157 by penetrating through two limiting seats 155 and the combiner 156. The outer wall of the combiner block 157 1s fixedly connected to the output end of the expansion cylinder 158.

When the corresponding storage box 22 is higher, the query device 13 automatically controls the extension component 14 to extend the bottom query cabinet 11, starts the first servo motor 147, and the output shaft of the first servo motor 147, through the transmission gear 146, drives the two threaded rods 143 to rotate synchronously on the synchronous shaft 144, and the two threaded rods 143 rotate synchronously in the threaded grooves 142 of the extension base 141, pushing the extension base 141 out. The lower two layers of the extension base 141 can be successively pushed out to form a temporary ladder platform. After the ladder platform is formed, the query device 13 automatically controls the support component 15 to pop up the support column 151, starts the expansion cylinder 158, and the output end of the expansion cylinder 158 pushes the combiner block 157. The two steel wires 154 fixed on the combiner block 157 are released through the combiner 156 and the limiting seat 155 in the limiting groove 152, and the spring 153 unloads the support column 151, causing it to pop up in the limiting groove 152. The support column 151 moves down and falls on the moving groove 32 or the bottom storage box 21, supporting the weight.

As shown in Figure 6, the inner wall of the query cabinet 11 is provided with multiple reset grooves 159, and the inner wall of the multiple reset grooves 159 is between the outer wall of the multiple support columns 151 through the set support component 15 and the extension component 14. Connected by.

By setting the reset groove 159, it plays a role in placing the support column 151.

As shown in Figure 8, the bottom of the query cabinet 11 is fixedly connected to the moving component 16. The moving component 16 includes the second servo motor 161, the output shaft of the second servo motor 161 is fixedly connected to the transmission shaft 162, the outer wall of the transmission shaft 162 is rotatably connected to the inner wall of the query cabinet 11, and the outer wall of the transmission shaft 162 is connected to the transmission. The outer wall of the rod 162 is rotatably connected to the inner wall of the query cabinet 11. The two ends of the drive rod 164 are fixedly connected to the drive gear 165.

By starting the second servo motor 161, the output shaft of the second servo motor 161 is transmitted to the drive gear 165 through the transmission shaft 162 and the drive belt 163, driving multiple drive gears 165 to rotate simultaneously, achieving the effect of moving the query cabinet 11.

As shown in Figure 12, the support displacement mechanism 3 includes a base 31, and the inner wall of the base 31 is provided with a moving groove 32. The top of the moving groove 32 is movably connected to the bottom of multiple query cabinets 11. The inner wall of the moving groove 32 is fixedly connected to two track frames 33, and the inner wall of the two track frames 33 is fixedly connected to the tooth strip 34. The teeth of the two tooth strips 34 mesh with the teeth of multiple drive gears 165.

As shown in Figures 1 to 12, the present invention provides a file query device for scientific research management. It includes a mobile query mechanism (1), a storage mechanism (2), and a supporting displacement mechanism (3). The mobile query mechanism (1) is movably installed on the top of the supporting displacement mechanism (3), and the storage mechanism (2) is movably installed on the inner wall of the mobile query mechanism (1).

The mobile query mechanism (1) comprises a query cabinet (11), which is movably installed on the top of the supporting displacement mechanism (3). The inner wall of the query cabinet (11) is movably connected to an extension component (14). The extension component (14) includes an extension base (141) with two threaded grooves (142) on its inner wall. Two threaded rods (143) are threaded into the grooves, and their ends are fixedly connected to synchronous shafts (144). The synchronous shafts (144) are rotatably connected to the inner wall of the query cabinet (11), and a synchronous transmission belt (145) 1s connected between them. The inner wall of the query cabinet (11) is fixedly connected to a first servo motor (147) with an output shaft connected to a transmission gear (146), which engages with the teeth of the synchronous transmission belt (145).

The bottom of the extension base (141) is movably connected to a supporting component (15) with two limit slots (152). Support columns (151) in the limit slots are connected to the extension base (141) with springs (153) and steel wires (154). The supporting component (15) also includes a merger (156), an expansion cylinder (158), and two limit seats (155). The steel wires (154) are fixedly connected to a merger block (157), and the expansion cylinder (158) is activated to release the support columns (151), which support the weight when lowered.

To accommodate the support columns (151), multiple reset slots (159) are provided on the inner wall of the query cabinet (11). The bottom of the query cabinet (11) is fixedly connected to a mobile component (16) comprising a second servo motor (161), a transmission shaft (162), a drive belt (163), drive rods (164), and drive gears (165). The second servo motor (161) drives the mobile component (16) to move the query cabinet (11).

The supporting displacement mechanism (3) includes a platform (31) with a moving groove (32) and two rail frames (33) fixedly connected to the moving groove (32). Teeth (34) on the rail frames (33) engage with drive gears (165) to move the query cabinet (11).

When the corresponding storage box (22) is higher, the query device (13) automatically controls the extension component (14) to extend the query cabinet (11) and activate the first servo motor (147). This lifts the extension base (141) to create a temporary platform.

The query device (13) then controls the supporting component (15) to extend the support columns (151), and the expansion cylinder (158) releases the steel wires (154), causing the support columns (151) to descend and support the weight.

To reset the support columns (151), reset slots (159) are provided on the inner wall of the query cabinet (11). The bottom of the query cabinet (11) is fixedly connected to a mobile component (16) comprising a second servo motor (161), a transmission shaft (162), a drive belt (163), drive rods (164), and drive gears (165). The second servo motor (161) drives the mobile component (16) to move the query cabinet (11).

The supporting displacement mechanism (3) includes a platform (31) with a moving groove (32) and two rail frames (33) fixedly connected to the moving groove (32). Teeth (34) on the rail frames (33) engage with drive gears (165) to move the query cabinet (11).

Drive gears (165) move on teeth (34) to empty the moving groove (32) in front of the query cabinet (11).

The outer wall of the query cabinet (11) is fixedly connected to the query device (13), and handrails (12) are fixedly connected to both ends of the outer wall. Employees use the query device (13) to locate the corresponding storage box (22), and handrails (12) are used to access files safely on the temporary platform.

As shown in Figure 10, the storage mechanism (2) includes multiple storage boxes (21), each fixedly mounted on the inner wall of the query cabinet (11) and the top of the extension base (141). Each storage box (21) has multiple warning lights (25) on its inner wall and multiple storage compartments (22) with nameplate boxes (23) and movable handles (24). After the corresponding query cabinet (11) is emptied, the warning lights (25) in the corresponding storage box (21) light up. Employees can then use the movable handles (24) to pull out the storage compartments (22), access files, and confirm nameplates in the nameplate boxes (23). This serves to indicate the file location and isolate files.

The method of using the file query device for scientific research management includes the following steps:

S1. When querying or storing files, select the corresponding query cabinet (11) based on the type and number of files. Use the query device (13) to locate the position of the corresponding storage box (22), enter the access command, and use the mobile component (16) to empty the corresponding query cabinet (11) among multiple query cabinets (11). Activate the second servo motor (161) to drive the drive gears (165), moving the drive gears (165) along the teeth (34) on the rail frames (33) to empty the moving groove (32) in front of the corresponding query cabinet (11) for employee operation.

S2. After emptying the corresponding query cabinet (11), the warning lights (25) in the corresponding storage box (21) light up. Use the movable handles (24) to pull out the storage compartments (22), access files, and confirm nameplates in the nameplate boxes (23). When the corresponding storage compartment (22) is higher, the query device (13) automatically controls the extension component (14) to extend the query cabinet (11) and activates the first servo motor (147). This lifts the extension base (141) to create a temporary platform.

S3. After the temporary platform is formed, the query device (13) automatically controls the supporting component (15) to extend the support columns (151). The expansion cylinder (158) is activated, and its output end pushes the merger block (157). The two steel wires (154) fixedly connected to the merger block (157) are released through the merger (156) and the limit seat (155) in the limit slot (152). The spring (153) relieves the force, causing the support columns (151) to pop out in the limit slot (152). The support columns (151) move downward, landing on the moving groove (32) or the bottom storage box (21), providing support. Employees can then manually grasp the handrails (12) to access the corresponding files on the temporary platform.

Although the embodiments of the present invention have been shown and described, those of ordinary skill in the art will understand that various changes, modifications, and substitutions can be made to these embodiments without departing from the principles and spirit of the invention. and modifications, the scope of the invention is defined by the appended claims and their equivalents.

Claims (10)

Conclusions 1. File search device for scientific research management, comprising a movable search mechanism (1), a storage mechanism (2) and a supporting movement mechanism (3), characterized in that: the movable query mechanism (1) is movably installed at the top of the supporting movement mechanism ( 3), and the storage mechanism (2) is movably installed on the inner wall of the movable demand mechanism (1); the movable demand mechanism (1) includes a demand box (11), and the demand box (11) is movably installed on the top of the supporting moving mechanism (3); the inner wall of the question box (11) is movably connected to an attachment part (14); the expansion component (14) includes an expansion base (141), and the bottom of the expansion base (141) is slidably connected to the inner wall of the question box (11); the inner wall of the extension base (141) is provided with two threaded grooves (142), and the inner walls of the two threaded grooves (142) are threaded to threaded rods (143); one end of each of the two threaded rods (143) is rigidly connected to a synchronous shaft (144); one end of each of the two synchronous shafts (144) is rotatably connected to the inner wall of the examination cabinet (11); a synchronous transmission belt (145) is drivably connected between the outer walls of the two synchronous shafts (144); the inner wall of the examination cabinet (11) is fixedly connected to a first servomotor (147), and the output shaft of the first servomotor (147) is fixedly connected to a transmission gear (146); the teeth of the transmission gear (146) engage the grooves of the synchronous transmission belt (145); the bottom of the extension base (141) is movably connected to a supporting member (15); the support member (15) includes two limiting grooves (152) opened at the bottom of the extension base (141); the inner walls of the two limiting grooves (152) are slidably connected to support columns (151); the outer wall of each support column (151) is rigidly connected to a spring (153) between the inner walls of the limiting grooves (152); the outer wall of each support column (151) is firmly connected to a steel wire cable (154); the supporting component (15) includes a coupler (156), an expandable cylinder (158), and two limiting seats (155), the coupling (156), the expanding cylinder (158), and the two limiting seats (155) are all rigidly connected with the inner wall of the extension base (141); one end of each of the two steel wire cables (154) is rigidly connected between the two limiting seats (155) and the coupling (156), and the outer wall of the coupling (157) is rigidly connected to the output end of the expandable cylinder (158) . A file retrieval device for scientific research management according to claim 1, characterized in that: the inner wall of the query box (11) is provided with a plurality of reset grooves (159), and the inner walls of the multiple reset grooves (159) are overlapped with the outer walls of a plurality of support columns (151) by the fixed support part (15) and the extension part (14). A file retrieval device for scientific research management according to claim 1, characterized in that: the bottom of the retrieval box (11) is fixedly connected to a moving part (16), and the moving part (16) contains a second servo. engine (161); the output shaft of the second servo motor (161) is fixedly connected to a transmission shaft (162), and the outer wall of the transmission shaft (162) is rotatably connected to the inner wall of the query box (11); the outer wall of the transmission shaft (162) is drivably connected to a drive belt (163). A file retrieval device for scientific research management according to claim 3, characterized in that: both ends of the drive belt (163) are drivably connected to drive rods (164), and the outer walls of the two drive rods (164 ) are rotatably connected to the inner wall of the question box (11); both ends of the drive rod (164) are rigidly connected to drive gears (165). A file retrieval device for scientific research management according to claim 1, characterized in that: the supporting moving mechanism (3) comprises a platform (31), the inner wall of the platform (31) is provided with a moving groove (32), and the top of the moving groove (32) movably connected to the bottom of several question boxes (11) for 1s. A file retrieval device for scientific research management according to claim 5, characterized in that: the inner wall of the moving groove (32) is fixedly connected to two track frames (33), and the inner walls of the two track frames (33) are firmly connected to racks (34); the teeth of the two racks (34) engage with the teeth of several drive gears (165). A file retrieval device for scientific research management according to claim 1, characterized in that: the outer wall of the retrieval cabinet (11) is rigidly connected to a retrieval device (13), and both ends of the outer wall of the retrieval cabinet interrogation device box (11) are permanently connected to support columns (12). A file retrieval device for scientific research management according to claim 1, characterized in that : the storage mechanism (2) comprises a plurality of storage boxes (21), each of the plurality of storage boxes (21) being fixedly mounted on the inner wall of the question box (11) and the top of the extendable base (141), and the inner wall of the storage box (21) is fixedly connected to several warning lights (25). A file retrieval device for scientific research management according to claim 8, characterized in that: the inner wall of the storage box (21) is slidably connected to a plurality of storage compartments (22), and the outer wall of the storage compartment (22) is permanently connected to a nameplate box (23) and a movable handle (24). A method of using a file query device for scientific research management according to claims 1-9, characterized by the following steps: SL. when querying or saving files, the corresponding query box (11) is selected based on the type and number of the file; using the search device (13) to retrieve the position of the corresponding storage box (22), entering the access command and using the moving component (16) to leave the corresponding question box (11) between multiple question boxes (11); starting the second servo motor (161), and driving the output shaft of the second servo motor (161) through the drive shaft (162) via the drive belt (163) to rotate the plurality of drive gears (165) simultaneously; moving the plurality of drive gears (165) on the rack (34) on the track frame (33), thereby clearing the moving groove (32) for the corresponding query box (11) for operator operation; S2. after the relevant question box (11) has been left, the associated warning light (25) in the associated storage box (21) comes on; then using the movable handle (24) to pull out the storage box (22), access the folder and attach the nameplate or place the nameplate in the nameplate box (23); when the corresponding storage box (22) is higher, the search device (13) automatically controls the extendable part (14) to extend the lower search box (11), the first servo motor (147) and start the output shaft of the first servo motor (147) which is driven by the drive gear (146) through the synchronous transmission belt (145) to drive the synchronous rotation of the two threaded rods (143); rotating the two threaded rods (143) synchronously in the threaded grooves (142) in the protruding base (141), pressing the protruding base (141) outwards to successively push out the lower two layers of protruding bases (141) push, which sets up a temporary ladder platform; S3. After the platform is set up, the interrogation device (13) automatically controls the support part (15) to raise the support column (151), start the telescopic cylinder (158) and the output end of the telescopic cylinder (158), against the push merge block (157); the two steel wires (154) fixed on the joining block (157) are released by the joining (156) and the limit seat (155) in the limit groove (152), and the spring (153) releases the force to jump up in the support column (151) in the limiting groove (152); the support column (151) moves downward and falls onto the moving groove (32) or the lower storage box (21), supporting the weight; the employee then manually holds the handrail (12) to access the corresponding file on the temporary ladder platform.