CN114267386A

CN114267386A - Offline storage system

Info

Publication number: CN114267386A
Application number: CN202111510269.0A
Authority: CN
Inventors: 刘芳芳; 王亚松; 王敏
Original assignee: Yancheng Youyi Data Co ltd
Current assignee: Yancheng Youyi Data Co ltd
Priority date: 2021-12-11
Filing date: 2021-12-11
Publication date: 2022-04-01

Abstract

The invention discloses an off-line storage system, which comprises a bottom plate and a storage device body, wherein an extrusion assembly is arranged in the interior of the bottom plate, an extrusion plate compresses air in an extrusion box to enter a one-way air outlet pipe and transmit the air to an air dispersing plate end at the front end of the bottom plate, the air dispersing plate can transmit the air to a worker standing at the front end of the extrusion box, so that the heat dissipation of the worker is facilitated, the use of air flow is improved, air in the extrusion box can be supplemented by extracting the air in the storage device body through the one-way air inlet pipe, the air flow in the storage device body can be accelerated, and the air exchange rate and the heat dissipation effect in the storage device body are improved; through having set up auxiliary assembly in storage device body side, the side of notebook computer is indirectly transmitted through the honeycomb duct to the air in the one-way air outlet pipe, is convenient for dispel the heat fast to notebook computer, and can apply the pulling force and promote the brush and remove, and the brush can be to notebook computer side clearance.

Description

Offline storage system

Technical Field

The invention relates to the field of data storage, in particular to an offline storage system.

Background

Data sharing is to enable users using different computers and different software in different places to read data of other people and perform various operations, calculations and analyses, offline data in the data sharing internal part can be stored through a storage device, a storage device is a device for storing information, the information is generally stored by media in a way of utilizing electricity, magnetism or optics after being digitized, and the hard disk is placed in a harsh environment and the first natural reason influencing the stability of the hard disk is the working temperature of the hard disk.

When parts in the storage device run, the temperature in the storage device rises, the heat in the storage device is usually dissipated in a diversion mode, and the diversion gas is not frequently utilized and is directly discharged to the outer end, so that the use effect of airflow is reduced.

Disclosure of Invention

Therefore, in order to solve the above-mentioned disadvantages, the present invention provides an offline storage system.

The invention is realized in such a way that an off-line storage system is constructed, the device comprises a bottom plate, an extrusion assembly, a storage device body, a door leaf, a power line and a shearing assembly, the top of the bottom plate is connected with the storage device body, the front end surface of the storage device body is hinged with the door leaf, the back end of the storage device body is provided with the power line, the extrusion assembly is arranged in the bottom plate, the shearing assembly is fixedly connected with the right side surface of the storage device body, the extrusion assembly comprises a motor, an incomplete gear, a gear ring, an extrusion box, an extrusion plate, a one-way air outlet pipe, a one-way air inlet pipe and an auxiliary assembly, the motor is connected with a bolt at the middle end in the bottom plate, an output shaft of the motor is fixedly connected with the circle center of the incomplete gear, the incomplete gear is meshed with the inner side surface of the gear, the extrusion box is arranged above the gear ring, and the upper end in the extrusion box is connected with the side surface of the extrusion plate, the middle end of the bottom of the extrusion plate is fixedly connected with the top of the gear ring, the left end and the right end of the bottom of the extrusion box are provided with one-way air outlet pipes, the one-way air outlet pipes are connected with an air inlet pipe at the lower end of the auxiliary assembly, and the middle end of the left side surface of the extrusion box is provided with one-way air inlet pipes;

the auxiliary assembly comprises a shell, a brush, a guide plate and a guide pipe, the shell is fixedly connected with the left end of the storage device body, the inner side surface of the shell is connected with the brush in a sliding manner, the guide plate is connected to the bottom in the shell, the bottom of the guide plate is communicated with the guide pipe, and the lower end of the guide pipe is communicated with the one-way air outlet pipe;

the shearing assembly comprises a processing frame, an output motor, a connecting rod, a shearing plate and a channel, the processing frame is fixedly connected with the right side face of the storage device body, the right end of the processing frame is connected with the output motor base through a bolt, the output motor output shaft drives the right end of the connecting rod to be rotatably connected with the right end of the processing frame, the left end of the connecting rod is connected with the shearing plate, and the channel is arranged at the lower end of the processing frame.

Preferably, the front end face of the bottom plate is connected with an air diffusing plate, and the air diffusing plate is connected with the air outlet ends of the unidirectional air outlet pipes at the left end and the right end in the bottom plate.

Preferably, the upper end of the one-way air inlet pipe extends into the inner part of the storage device body.

Preferably, the top of the guide plate is provided with a plurality of ventilation through holes, and the brush is of a U-shaped structure.

Preferably, the connecting rod and the shearing plate form a connecting rod group, and the connecting part between the connecting rod and the shearing plate and the middle end of the shearing plate are rotatably connected with the inner side surface of the processing frame.

Preferably, a shearing end matched with the shearing plate is arranged below the shearing plate, and the upper end surface of the shearing end is sharp.

Preferably, the shear plate is made of aluminum alloy.

Preferably, the connecting rod is made of 38 CRMOAL.

The invention has the following advantages: the present invention provides an offline storage system by way of improvement, with the following improvements over the same type of equipment:

according to the off-line storage system, the extrusion assembly is arranged in the bottom plate, the extrusion plate compresses air in the extrusion box to enter the one-way air outlet pipe and transmit the air to the air diffusing plate end at the front end of the bottom plate, the air diffusing plate can transmit the air to a worker standing at the front end of the extrusion box, heat dissipation of the worker is facilitated, and use of air flow is improved.

According to the off-line storage system, the auxiliary assembly is arranged on the side face of the storage device body, air in the one-way air outlet pipe is indirectly transmitted to the side face of the notebook computer through the guide pipe, so that the notebook computer can be rapidly cooled conveniently, tension can be applied to push the brush to move, and the brush can clean the side face of the notebook computer.

According to the off-line storage system, the shearing assembly is arranged on the side face of the storage device body, and the shearing plate can cut off the cable below the shearing assembly, so that the processing of the cable and the equidistant cutting of strip-shaped articles are facilitated.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure between the base plate and the storage device body according to the present invention;

FIG. 3 is a schematic view of the extrusion assembly of the present invention;

FIG. 4 is a schematic view of the auxiliary assembly of the present invention;

fig. 5 is a schematic view of the shear assembly of the present invention.

Wherein: the device comprises a bottom plate-1, an extrusion component-2, a storage device body-3, a door leaf-4, a power line-5, a shearing component-6, a motor-21, an incomplete gear-22, a gear ring-23, an extrusion box-24, an extrusion plate-25, a one-way air outlet pipe-26, a one-way air inlet pipe-27, an auxiliary component-28, a shell-281, a brush-282, a guide plate-283, a guide pipe-284, a processing frame-61, an output motor-62, a connecting rod-63, a shearing plate-64 and a channel-65.

Detailed Description

The present invention will be described in detail with reference to fig. 1 to 5, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 and 2, an offline storage system according to the present invention includes a bottom plate 1, an extrusion assembly 2, a storage device body 3, a door leaf 4, a power line 5 and a cutting assembly 6, wherein the top of the bottom plate 1 is connected to the storage device body 3, the front end surface of the storage device body 3 is hinged to the door leaf 4, the back end of the storage device body 3 is provided with the power line 5, the extrusion assembly 2 is disposed inside the bottom plate 1, and the cutting assembly 6 is fixedly connected to the right side surface of the storage device body 3

Referring to fig. 3, an off-line storage system of the present invention includes an extrusion assembly 2 including a motor 21, an incomplete gear 22, a gear ring 23, an extrusion box 24, an extrusion plate 25, a one-way air outlet pipe 26, a one-way air inlet pipe 27 and an auxiliary assembly 28, the motor 21 is bolted to the middle end of a bottom plate 1 to provide a power source, an output shaft of the motor 21 is fixedly connected to the center of the incomplete gear 22, the incomplete gear 22 is engaged with the inner side of the gear ring 23 to apply power to drive the gear ring 23 to move up and down, the extrusion box 24 is disposed above the gear ring 23 to store air, the upper end of the extrusion box 24 is connected to the side of the extrusion plate 25, the extrusion plate 25 can extrude air, the middle end of the bottom of the extrusion plate 25 is fixedly connected to the top of the gear ring 23 and can be driven by the gear ring 23 to move, the left and right ends of the bottom of the extrusion box 24 are disposed with the one-way air outlet pipes 26 to facilitate the transmission of the air in the interior to the outer end, the one-way air outlet pipe 26 is connected to an air inlet pipe at the lower end of the auxiliary assembly 28, can transmit partial air to the interior of auxiliary assembly 28, extrusion case 24 left side middle-end is equipped with one-way intake pipe 27, can transmit the air in storage device body 3 inside to the outer end, and bottom plate 1 front end face is connected with an air diffuser, and the air diffuser is connected with the one-way outlet duct 26's of bottom plate 1 interior left and right sides end of giving vent to anger, and one-way intake pipe 27 upper end extends to in storage device body 3.

Referring to fig. 4, in the offline storage system of the present invention, the auxiliary assembly 28 includes a housing 281, a brush 282, a deflector 283 and a duct 284, the housing 281 is fixedly connected to the left end of the storage device body 3, the inner side of the housing 281 is slidably connected to the brush 282 for cleaning a portion of the articles, the deflector 283 is connected to the bottom of the housing 281 for transferring air into the housing 281, the bottom of the deflector 283 is connected to the duct 284 for receiving air from the duct 284, the lower end of the duct 284 is connected to the one-way air outlet 26, the top of the deflector 283 is provided with a plurality of air holes for transferring air, the brush 282 has a U-shaped structure

Referring to fig. 5, in the off-line storage system of the present invention, the cutting assembly 6 includes a processing frame 61, an output motor 62, a connecting rod 63, a cutting plate 64 and a channel 65, the processing frame 61 is fixedly connected to the right side of the storage device body 3, the right end of the processing frame 61 is connected to the base of the output motor 62 by a bolt to provide a power source, the output shaft of the output motor 62 drives the right end of the connecting rod 63 to be rotatably connected to the right end of the processing frame 61 to provide power for the cutting plate 64 to rotate reciprocally, the left end of the connecting rod 63 is connected to the cutting plate 64 to facilitate cutting of a part of the object, the lower end of the processing frame 61 is provided with the channel 65 for transmitting and placing the object, the connecting rod 63 and the cutting plate 64 form a connecting rod group, the connecting position between the connecting rod 63 and the cutting plate 64 and the middle end of the cutting plate 64 are rotatably connected to the inner side of the processing frame 61 to facilitate rotation thereof, the cutting end matched with the lower portion of the cutting plate 64, and the upper end surface of the cutting end is sharp.

The invention provides an off-line storage system through improvement, and the working principle is as follows;

firstly, when the equipment is used, the device is firstly placed in a working area, and then the equipment is connected with an external power supply, so that the required electric energy can be provided for the work of the equipment;

secondly, the device for storing data can be placed in the storage device body 3 for storage, secondly, the motor 21 in the bottom plate 1 can be controlled to start, the motor 21 can drive the incomplete gear 22 to rotate while rotating, the incomplete gear 22 can drive the gear ring 23 to move up and down while rotating, when the gear ring 23 moves, the pulling force can be applied to the extrusion plate 25 in the extrusion box 24 to move, the extrusion plate 25 can compress the air in the extrusion box to enter the one-way air outlet pipe 26 while moving, then the air can be transmitted to the air dispersing plate end at the front end of the bottom plate 1 through the one-way air outlet pipe 26, the air dispersing plate can transmit the air to the staff standing at the front end, the heat dissipation of the staff and the use of the air flow are convenient, and the air in the extrusion box 24 can be supplemented by extracting the air in the storage device body 3 through the one-way air inlet pipe 27, the air flow in the storage device body 3 can be accelerated, and the air exchange rate and the heat dissipation effect in the storage device body 3 are improved;

thirdly, when the notebook computer is overheated, the notebook computer can be placed in the casing 281, the flow guide pipe 284 can receive air transmitted by the one-way air outlet pipe 26, the flow guide pipe 284 can transmit the air into the flow guide plate 283, and then the air is transmitted to the side surface of the notebook computer through the flow guide plate 283, so that the notebook computer can be rapidly cooled, tension can be applied to push the brush 282 to move, and the brush 282 can clean the side surface of the notebook computer;

fourthly, can extend part of cable to shear plate 64 lower extreme through the opening of processing frame 61 front end to after adjusting the distance, start output motor 62, output motor 62 exerts power and drives shear plate 64 through connecting rod 63 and rotate, shear plate 64 can cut off the cable that is located its below, and drop to the outer end through passageway 65, be convenient for to the processing of cable and be convenient for the equidistance cutting to strip article.

The invention provides an off-line storage system through improvement, an extrusion assembly 2 is arranged in a bottom plate 1, an extrusion plate 25 compresses air in an extrusion box 24 to enter a one-way air outlet pipe 26 and transmit the air to an air diffusing plate end at the front end of the bottom plate 1, the air diffusing plate can transmit the air to a worker standing at the front end of the air diffusing plate, so that the heat dissipation of the worker is facilitated, the use of air flow is improved, the air in the extrusion box 24 can be supplemented by extracting the air in a storage device body 3 through a one-way air inlet pipe 27, the air flow in the storage device body 3 can be accelerated, and the air exchange rate and the heat dissipation effect in the storage device body 3 are improved; by arranging the auxiliary component 28 on the side surface of the storage device body 3, the air in the one-way air outlet pipe 26 is indirectly transmitted to the side surface of the notebook computer through the guide pipe 284, so that the notebook computer can be rapidly cooled, tension can be applied to push the brush 282 to move, and the brush 282 can clean the side surface of the notebook computer; through having set up shearing subassembly 6 in storage device body 3 side, shear plate 64 can be cut off the cable that is located its below, be convenient for to the processing of cable and be convenient for the equidistance cutting to strip article.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An offline storage system comprises a bottom plate (1) and a power line (5), wherein the top of the bottom plate (1) is connected with a storage device body (3), the front end face of the storage device body (3) is hinged with a door leaf (4), and the back end of the storage device body (3) is provided with the power line (5);

the method is characterized in that: the cutting device is characterized by further comprising an extrusion assembly (2) and a shearing assembly (6), wherein the extrusion assembly (2) is arranged inside the base plate (1), the shearing assembly (6) is fixedly connected with the right side face of the storage device body (3), the extrusion assembly (2) comprises a motor (21), an incomplete gear (22), a gear ring (23), an extrusion box (24), an extrusion plate (25), a one-way air outlet pipe (26), a one-way air inlet pipe (27) and an auxiliary assembly (28), the motor (21) is connected with the base plate (1) through a middle end bolt, an output shaft of the motor (21) is fixedly connected with the circle center of the incomplete gear (22), the incomplete gear (22) is meshed with the inner side face of the gear ring (23), the extrusion box (24) is arranged above the gear ring (23), the upper end of the extrusion box (24) is connected with the side face of the extrusion plate (25), the middle end of the bottom of the extrusion plate (25) is fixedly connected with the top of the gear ring (23), the left end and the right end of the bottom of the extrusion box (24) are provided with one-way air outlet pipes (26), the one-way air outlet pipes (26) are connected with an air inlet pipe at the lower end of the auxiliary component (28), and the middle end of the left side surface of the extrusion box (24) is provided with one-way air inlet pipes (27);

the auxiliary assembly (28) comprises an outer shell (281), a brush (282), a guide plate (283) and a guide pipe (284), the outer shell (281) is fixedly connected with the left end of the storage device body (3), the inner side face of the outer shell (281) is in sliding connection with the brush (282), the guide plate (283) is connected to the bottom in the outer shell (281), the bottom of the guide plate (283) is communicated with the guide pipe (284), and the lower end of the guide pipe (284) is communicated with the one-way air outlet pipe (26);

shear assembly (6) is including processing frame (61), output motor (62), connecting rod (63), shear plate (64) and passageway (65), processing frame (61) and storage device body (3) right flank fixed connection, right-hand member and output motor (62) base bolted connection in processing frame (61), output motor (62) output shaft drives connecting rod (63) right-hand member and is connected with the rotation of right-hand member in processing frame (61), connecting rod (63) left end is connected with shear plate (64), processing frame (61) lower extreme is equipped with passageway (65).

2. The offline storage system of claim 1, wherein: the front end face of the bottom plate (1) is connected with an air diffusing plate, and the air diffusing plate is connected with the air outlet ends of the unidirectional air outlet pipes (26) at the left end and the right end in the bottom plate (1).

3. The offline storage system of claim 1, wherein: the upper end of the one-way air inlet pipe (27) extends into the storage device body (3).

4. The offline storage system of claim 1, wherein: the top of the guide plate (283) is provided with a plurality of ventilation through holes, and the brush (282) is of a U-shaped structure.

5. The offline storage system of claim 1, wherein: the connecting rod (63) and the shearing plate (64) form a connecting rod group, and the connecting part between the connecting rod (63) and the shearing plate (64) and the middle end of the shearing plate (64) are rotatably connected with the inner side surface of the processing frame (61).

6. The offline storage system of claim 1, wherein: a cutting end matched with the shearing plate (64) is arranged below the shearing plate, and the upper end surface of the cutting end is sharp.