CN210095071U - Large-scale file cabinet - Google Patents

Abstract

The utility model belongs to the technical field of file management equipment and specifically relates to large-scale filing cabinet, including a cabinet body shell, the open setting of preceding terminal surface of cabinet body shell is equipped with the horizontal track group of a plurality of at the even interval of top-down in cabinet body shell's cavity, the rear end of each horizontal track group all links firmly on cabinet body shell's rear side wall, places in the cooperation of the top of each horizontal track group and is equipped with a file and deposits the part, and the lateral wall mountain of the cabinet body shell at each horizontal track group front side is the symmetry respectively and is equipped with one and lifts the lead screw, and the upper and lower both ends that respectively lift the lead screw are supported on cabinet body shell's upper and lower terminal surface through the supporting. Its structural design is reasonable, adopts semi-automatization's mode to access archives, and operating personnel need not to ascend a height the operation with the help of ladders etc. when accessing archives, only need during the operation stand subaerial operation can, the security is high during the operation.

Description

Large-scale file cabinet

Technical Field

The utility model belongs to the technical field of the file management equipment and specifically relates to large-scale filing cabinet.

Background

When filing paper archives, large-scale personnel file center is deposited in bigger filing cabinet usually, because this type of filing cabinet is bulky, get when putting the archives and need get paper archives with the help of the ladder usually, this kind gets the condition that the mode appears the staff very easily and falls, there is the potential safety hazard in the during operation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a solve the technical scheme that one of above-mentioned technical problem adopted and be: a large-scale file cabinet comprises a cabinet body shell, wherein the front end face of the cabinet body shell is arranged in an open manner, a plurality of transverse track groups are uniformly arranged in a cavity of the cabinet body shell at intervals from top to bottom, the rear end of each transverse track group is fixedly connected to the rear side wall of the cabinet body shell, a file storage component is arranged above each transverse track group in a matched manner, lifting screw rods are symmetrically arranged on the side wall mountain of the cabinet body shell at the front side of each transverse track group respectively, the upper end and the lower end of each lifting screw rod are movably supported on the upper end face and the lower end face of the cabinet body shell through supporting bearings respectively, the upper ends of the two lifting screw rods movably penetrate through the cabinet body shell and are matched with a driving transmission mechanism arranged at the top of the cabinet body shell, a lifting transfer device is horizontally arranged between the two lifting screw rods, a push-out component is fixedly arranged on the rear side wall of the cabinet body shell in, be equipped with a push-in part on the lift transfer device, push-in part uses with each ejecting part cooperation, is equipped with a control switch subassembly on cabinet body shell's lateral wall.

The file storage component comprises a file box, wherein the bottom of the file box is fixedly connected with a graphite sliding block respectively, and each graphite sliding block is matched with the transverse track group on the corresponding position of the graphite sliding block respectively.

The horizontal track group comprises two supporting tracks which are respectively and fixedly connected to the side wall of the cabinet body shell, and sliding grooves matched with the graphite sliding blocks are formed in the supporting tracks.

The drive transmission mechanism comprises a belt pulley group, two belt pulleys of the belt pulley group are fixedly connected to the upper ends of two lifting screws respectively, the sizes and the specifications of the two belt pulleys are completely the same, a drive motor is arranged at the upper end of one of the lifting screws, an output shaft at the lower end of the drive motor is fixedly connected with the lifting screws in corresponding positions through a shaft coupling, the drive motor is fixed to the top of the cabinet shell through a support frame, the drive motor is a servo motor with a controller, and the servo motor is connected with the control switch assembly through a signal line.

The lifting transfer device comprises a bearing lifting plate horizontally arranged between two lifting screws, two limiting grooves matched with each graphite sliding block are arranged at the top of the bearing lifting plate respectively, the two ends of the bearing lifting plate are movably arranged on the outer side walls of the corresponding lifting screws through the lifting sliding blocks, the inner end face of the bearing lifting plate is close to the outer end face of each transverse track group, and the bearing lifting plate is parallel and level to the adjacent end portions of each transverse track group.

The pushing component is a telescopic electric cylinder, the pushing component and the pushing component are identical in structure, and the piston rods of the telescopic electric cylinders are arranged in opposite directions; the cylinder barrel of the pushing part is fixedly connected to a baffle plate which is arranged in the middle of the rear side of the bearing lifting plate; the piston rod of the pushing-out component extends into a gap formed by the supporting track and the bearing lifting plate at the outer end after completely extending out, and the piston rod of the pushing-in component extends into a gap formed by the supporting track and the bearing lifting plate at the inner end after completely extending out.

The control switch assembly comprises a plurality of first delay switches for controlling the servo motor to realize positive and negative bidirectional rotation, the first delay switches are connected in parallel, a bus circuit formed by the first delay switches after being connected in parallel is connected with the servo motor in series, each first delay switch sequentially corresponds to a file box at each transverse track group, the control switch assembly also comprises a plurality of second delay switches for respectively controlling the extension of each push-out component, and a plurality of third delay switches for respectively controlling the extension of each push-in component; the first delay switch, the second delay switch and the third delay switch are all bidirectional switches; the delay time of each first delay switch is preset according to the set height of each transverse track group and the rotating speed of the servo motor; the delay time of each second delay switch and each third delay switch is preset according to the maximum extension length and the extension speed of the corresponding push-out component and the corresponding push-in component.

The utility model has the beneficial effects of, structural design is reasonable, adopts semi-automatization's mode to access archives, and operating personnel need not to ascend a height the operation with the help of ladders etc. during access archives, only need during the operation stand subaerial operation can, the security is high during the operation.

Drawings

Fig. 1 is a schematic view of the structure of the present invention.

Fig. 2 is a schematic perspective view of fig. 1.

Fig. 3 is a first partial cross-sectional structural view of fig. 2.

Fig. 4 is a second partial sectional structural view of fig. 2.

Fig. 5 is a schematic top view of fig. 4.

In the figure, 1, a cabinet shell; 2. Lifting the lead screw; 3. a support bearing; 4. A push-out member; 5. A push-in member; 6. a control switch assembly; 7. a file box; 8. a graphite slider; 9. a support rail; 10. a chute; 11. a pulley set; 12. a belt pulley; 13. a servo motor; 14. supporting the lifting plate; 15. a limiting groove; 16. a lifting slide block; 17. a first delay switch; 18. a second delay switch; 19. and a third delay switch.

Detailed Description

In order to clearly illustrate the technical features of the present invention, the present invention is explained in detail by the following embodiments in combination with the accompanying drawings.

As shown in fig. 1-5, the large file cabinet comprises a cabinet body housing 1, the front end face of the cabinet body housing 1 is open, a plurality of transverse track groups are uniformly arranged in a cavity of the cabinet body housing 1 from top to bottom at intervals, the rear end of each transverse track group is fixedly connected to the rear side wall of the cabinet body housing 1, a file storage component is arranged above each transverse track group in a matching manner, a lifting screw 2 is symmetrically arranged on the side wall mountain of the cabinet body housing 1 at the front side of each transverse track group, the upper end and the lower end of each lifting screw 2 are movably supported on the upper end face and the lower end face of the cabinet body housing 1 through a supporting bearing 3, the upper ends of the two lifting screws 2 movably penetrate through the cabinet body housing 1 and are matched with a driving transmission mechanism arranged at the top of the cabinet body housing 1, a lifting transfer device is horizontally arranged between the two lifting screws 2, a push-out component 4 is fixedly arranged on the rear side wall of the cabinet body housing 1 in the middle of each transverse track group, be equipped with a push-in part 5 on the lift transfer device, push-in part 5 uses with each 4 cooperation of ejecting parts, is equipped with a control switch subassembly 6 on the lateral wall of cabinet body shell 1.

The file storage component comprises a file box 7, the bottom of the file box 7 is fixedly connected with a graphite sliding block 8, and each graphite sliding block 8 is matched with a transverse track group at the corresponding position; the graphite slide block 8 is arranged to play a role in lubrication and limiting, and is convenient and labor-saving in pushing.

The transverse track group comprises two supporting tracks 9 which are respectively fixedly connected with the side wall of the cabinet body shell 1, and sliding grooves 10 matched with the graphite sliding blocks 8 are formed in the supporting tracks 9; and the limit is realized by matching with the graphite slide block 8.

Drive mechanism includes a belt pulley group 11, two belt pulleys 12 of belt pulley group 11 link firmly respectively in two upper ends of lifting screw 2, are equipped with a driving motor in one of them upper end of lifting screw 2, the output shaft of driving motor's lower extreme links firmly with the lifting screw 2 that corresponds on the position mutually through the shaft coupling, driving motor passes through the support frame to be fixed at cabinet body shell 1 top, driving motor is servo motor 13 from the band control ware, servo motor 13 pass through the signal line with control switch subassembly 6 links to each other, rotates through servo motor 13 and can drive belt pulley group 11 operation, and drive two that simultaneously can be synchronous lifts screw 2 and realize synchronous operation, and size, the specification of two belt pulleys 12 are the same completely.

The lifting transfer device comprises a bearing lifting plate 14 horizontally arranged between two lifting screws 2, two limiting grooves 15 matched with each graphite sliding block 8 are arranged at the top of the bearing lifting plate 14, the two ends of the bearing lifting plate 14 are movably arranged on the outer side wall of the corresponding lifting screw 2 through lifting sliding blocks 16, the inner end face of the bearing lifting plate 14 is close to the outer end face of each transverse track group, the bearing lifting plate 14 is parallel and level with the adjacent end portions of the transverse track groups, smoothness of the file box 7 in transfer between the bearing lifting plate 14 and the support track 9 can be achieved, and the anti-blocking effect is achieved.

The pushing-out component 4 is a telescopic electric cylinder, the pushing-in component 5 is a telescopic electric cylinder, the pushing-out component 4 and the pushing-in component 5 are identical in structure, and the placing directions of piston rods of the telescopic electric cylinders are opposite; the cylinder barrel of the pushing component 5 is fixedly connected to a baffle plate in the middle of the rear side of the bearing lifting plate 14; the outer end of the piston rod of the pushing-out component 4 extends into a gap formed by the supporting track 9 and the bearing lifting plate 14 after completely extending out, and the inner end of the piston rod of the pushing-in component 5 extends into a gap formed by the supporting track 9 and the bearing lifting plate 14 after completely extending out; the transfer of the file box 7 between the bearing lifting plate 14 and the support rail 9 can be completely realized after the file box 7 is pushed by the telescopic electric cylinder, in addition, when the operation is carried out, a worker must constantly pay attention to observe, and the second delay switch 18 is prevented from being opened when the bearing lifting plate 14 is not in place, so that the misoperation is avoided; meanwhile, corresponding safety measures can be set to improve the safety in the using process.

The control switch assembly 6 comprises a plurality of first delay switches 17 for controlling the servo motor 13 to realize forward and reverse bidirectional rotation, the first delay switches 17 are connected in parallel, a bus path formed by connecting the first delay switches 17 in parallel is connected with the servo motor 13 in series, each first delay switch 17 sequentially corresponds to the file box 7 at each transverse track group, a plurality of second delay switches 18 for respectively controlling the extension and retraction of each push-out component 4, and a plurality of third delay switches 19 for respectively controlling the extension and retraction of each push-in component 5; the first delay switch 17, the second delay switch 18 and the third delay switch 19 are all bidirectional switches; the delay time of each first delay switch 17 is preset according to the set height of each transverse track group and the rotating speed of the servo motor 13; the delay time of each second delay switch 18 and each third delay switch 19 is preset according to the maximum extension length and the extension speed of the corresponding push-out component 4 and the corresponding push-in component 5; when the delay time is set, different types of capacitor devices can be selected to be matched and connected into a circuit of the delay switch, and the specific operation and the selection of the devices belong to the known knowledge points of technicians in the field for re-selecting the electric appliance switch, and are not described in detail herein.

The working principle is as follows:

when placing files into a large file cabinet, the operator first controls the corresponding first delay switch 17 on the control switch assembly 6 to reset the lifting and transferring device to the lowest point, for example: when a document needs to be placed into the topmost file box 7: firstly, the servo motor 13 is driven to rotate forwards by controlling the first delay switch 17 on the corresponding layer, so that the two sliding blocks are driven to ascend synchronously under the action of the two lifting screws 2, meanwhile, the supporting lifting plate 14 is driven to ascend to a position matched with the supporting rail 9 at the corresponding position, at the moment, an operator must pay attention to the operation condition of the observation equipment constantly in the operation process, the occurrence of unsafe accidents and temporary emergencies is avoided, after the operation is in place, the first delay switch 17 reaches a delay time and is in an off state, at the moment, the second delay switch 18 on the topmost layer is controlled to be opened and operates forwards to push a piston rod of a telescopic electric cylinder of the pushing component to extend out and push the file box 7 outwards to realize the displacement of the file box 7 from the supporting rail 9 to the supporting lifting plate 14, and then the second delay switch 18 is controlled to realize the return of the telescopic electric cylinder of the pushing component, then, the first delay switch 17 is controlled to drive the servo motor 13 to rotate reversely according to the reverse direction of the mode, so that the supporting lifting plate 14 drives the file box 7 to return to the bottommost part, at the moment, a worker places files to be stored in the current file box 7, after the files are loaded, the servo motor 13 is controlled to operate according to the mode, the supporting lifting plate 14 is enabled to reach the topmost part, at the moment, the third delay switch 19 is controlled to operate in the forward direction to drive the piston rod of the telescopic electric cylinder of the pushing component 5 to extend inwards and to the maximum length, and the file box 7 is driven to return to the support rail 9 at the topmost part in the extending process of the piston rod, so that the files at the topmost part are stored; when the cover layer file is needed to be taken, the operation is carried out according to the operation steps; meanwhile, the files on each layer can be rapidly stored and taken according to the operation mode, and are not repeated one by one.

The above-mentioned specific embodiments can not be regarded as the restriction to the scope of protection of the utility model, to technical personnel in this technical field, it is right the utility model discloses any replacement improvement or transform that embodiment made all fall within the scope of protection of the utility model.

The parts of the present invention not described in detail are the known techniques of those skilled in the art.

Claims (7)

1. Large-scale filing cabinet, its characterized in that: comprises a cabinet body shell, the front end face of the cabinet body shell is open, a plurality of transverse track groups are uniformly arranged in a cavity of the cabinet body shell at intervals from top to bottom, the rear end of each transverse track group is fixedly connected to the rear side wall of the cabinet body shell, a gear storage component is arranged above each transverse track group in a matching way, a lifting screw rod is symmetrically arranged on the side wall mountain of the cabinet body shell at the front side of each transverse track group respectively, the upper end and the lower end of each lifting screw rod are movably supported on the upper end face and the lower end face of the cabinet body shell through supporting bearings respectively, the upper ends of the two lifting screw rods movably penetrate through the cabinet body shell and are matched with a driving transmission mechanism arranged at the top of the cabinet body shell, a lifting transfer device is horizontally arranged between the two lifting screw rods, a push-out component is fixedly arranged on the rear side wall of the cabinet body shell in the middle of each transverse track group respectively, and a push-in component, the pushing-in component is matched with each pushing-out component for use, and a control switch assembly is arranged on the side wall of the cabinet body shell.

2. A large filing cabinet according to claim 1, characterized in that: the file storage component comprises a file box, wherein the bottom of the file box is fixedly connected with a graphite sliding block respectively, and each graphite sliding block is matched with the transverse track group on the corresponding position of the graphite sliding block respectively.

3. A large filing cabinet according to claim 2, characterized in that: the horizontal track group comprises two supporting tracks which are respectively and fixedly connected to the side wall of the cabinet body shell, and sliding grooves matched with the graphite sliding blocks are formed in the supporting tracks.

4. A large filing cabinet according to claim 3, characterized in that: the drive transmission mechanism comprises a belt pulley group, two belt pulleys of the belt pulley group are fixedly connected to the upper ends of two lifting screws respectively, the sizes and the specifications of the two belt pulleys are completely the same, a drive motor is arranged on the upper end of one lifting screw, an output shaft of the lower end of the drive motor is fixedly connected with the lifting screw in a corresponding position through a shaft coupling, the drive motor is fixed to the top of the cabinet shell through a support frame, the drive motor is a servo motor with a controller, and the servo motor is connected with the control switch assembly through a signal line.

5. A large filing cabinet according to claim 4, characterized in that: the lifting transfer device comprises a bearing lifting plate horizontally arranged between two lifting screws, two limiting grooves matched with each graphite sliding block are arranged at the top of the bearing lifting plate respectively, the two ends of the bearing lifting plate are movably arranged on the outer side walls of the corresponding lifting screws through the lifting sliding blocks, the inner end face of the bearing lifting plate is close to the outer end face of each transverse track group, and the bearing lifting plate is parallel and level to the adjacent end portions of each transverse track group.

6. A large filing cabinet according to claim 5, characterized in that: the pushing component is a telescopic electric cylinder, the pushing component and the pushing component are identical in structure, and the piston rods of the telescopic electric cylinders are arranged in opposite directions; the cylinder barrel of the pushing part is fixedly connected to a baffle plate which is arranged in the middle of the rear side of the bearing lifting plate; the piston rod of the pushing-out component extends into a gap formed by the supporting track and the bearing lifting plate at the outer end after completely extending out, and the piston rod of the pushing-in component extends into a gap formed by the supporting track and the bearing lifting plate at the inner end after completely extending out.

7. A large filing cabinet according to claim 6, characterized in that: the control switch assembly comprises a plurality of first delay switches for controlling the servo motor to realize positive and negative bidirectional rotation, the first delay switches are connected in parallel, a bus circuit formed by the first delay switches after being connected in parallel is connected with the servo motor in series, each first delay switch sequentially corresponds to a file box at each transverse track group, the control switch assembly also comprises a plurality of second delay switches for respectively controlling the extension of each push-out component, and a plurality of third delay switches for respectively controlling the extension of each push-in component; the first delay switch, the second delay switch and the third delay switch are all bidirectional switches; the delay time of each first delay switch is preset according to the set height of each transverse track group and the rotating speed of the servo motor; the delay time of each second delay switch and each third delay switch is preset according to the maximum extension length and the extension speed of the corresponding push-out component and the corresponding push-in component.

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