CN114272694B - Energy-concerving and environment-protective big data computer network safety device - Google Patents

Abstract

The invention discloses an energy-saving and environment-friendly big data computer network safety protection device which comprises a frame assembly, a supporting assembly, a telescopic assembly, a tool assembly and a ventilation assembly, wherein the frame assembly comprises truss steel bars, the truss steel bars are arranged along edges of a cube, and two adjacent truss steel bars are fixedly connected through assembling bolts. The invention adopts a bionic structure design, can imitate the lung breathing action through the left-right direction separation and opposite actions of the telescopic square tube, realizes the ventilation process, compresses the space during the exhaust, ensures that the medium containing hot gas is not easy to flow back, has short backflow stroke, is not easy to accumulate heat, has global exhaust action, thorough heat exhaust, slow-stagnation type air suction and exhaust action, low energy consumption and high energy consumption utilization rate, adopts a unique two-way valve tube structure, slowly sucks air and exhausts air under strong pressure, is beneficial to self-cleaning of a filter screen, reduces the frequency of cleaning and maintenance, and ensures the stable and continuous operation of equipment.

Description

Energy-concerving and environment-protective big data computer network safety device

Technical Field

The invention relates to the technical field of computer protection, in particular to an energy-saving and environment-friendly large-data computer network safety protection device.

Background

The popularization of internet information facilitates the life of people, meanwhile, a large amount of data is brought, the market environment can be mastered in time through data screening and analysis, and the supply and demand relationship is judged so as to realize practical and effective regulation and control operation.

The big data information transmission can not leave computer network equipment, and the guarantee of safe and stable operation of the computer network equipment is a necessary prerequisite for guaranteeing information interaction.

The existing computer hardware mostly adopts case loading and realizes hardware heat dissipation by taking gas as a medium in an air supply mode. The inventors found that the following problems exist in practical use:

when the power of a conventional fan is small, the wind pressure is small, the conventional fan is difficult to spread in the whole equipment space, the airflow flowing stroke is long, the conventional fan is limited by the fixed internal space, part of hot airflow is easy to generate backflow action, the airflow is not completely discharged during heat exchange, and heat accumulation is easy to generate at local positions, so that the heat dissipation effect is poor;

when fan power is big, the energy consumption is high, and the discharge amount is big, and gaseous medium is just discharged with abundant heat transfer, and the energy consumption can reach radiating low in actual utilization, and the dust volume that introduces along with the fan is big, leads to equipment clearance to maintain the frequency high.

Disclosure of Invention

The invention aims to provide an energy-saving and environment-friendly big data computer network safety protection device to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-concerving and environment-protective big data computer network safety device, includes frame subassembly, supporting component, flexible subassembly, frock subassembly and subassembly of taking a breath, the frame subassembly includes the truss billet, the truss billet sets up adjacent two along the edge of cube through assembly bolt fixed connection between the truss billet.

The supporting assembly comprises a supporting strip, the supporting strip is fixedly arranged between the front truss steel bar and the rear truss steel bar at the bottom side, a supporting seat is fixedly arranged at the top of the supporting strip, a middle position frame is fixedly arranged in the middle of the supporting seat, and the middle position frame is vertically arranged.

And a frame plate is fixedly arranged at the top of the supporting seat.

The telescopic assembly comprises two telescopic square tubes, and the telescopic square tubes are respectively sleeved on the left side and the right side of the middle position frame.

Two the back of the body side port position of flexible side pipe is the fixed panel that is provided with all, the fixed cover in the outside of panel is equipped with inlays the frame, the outside surface position that inlays the frame splices and is fixed with tensile cover, tensile cover is the elasticity material, tensile cover horizontal square fill form setting, the outside flaring position crimping of tensile cover is fixed with the locating frame.

The left side and the right side the opposite face of panel all is fixed and is provided with the uide bushing, the uide bushing inboard interlude cover is equipped with the guide bar.

The tool assembly comprises a wall plate, the wall plate is of a square-shaped structure, four corners of the wall plate are respectively vertically fixed with four guide rods, the wall plate is arranged in parallel with each other and is arranged on the left side and the right side, angle steel is fixedly arranged on the front side and the rear side of the opposite surface of the wall plate, and a station plate is fixedly arranged at the top of the angle steel.

The subassembly of taking a breath includes the motor of taking a breath, the motor of taking a breath is double-shaft motor, the motor of taking a breath is the fixed horizontal neutral line position that sets up at right side wall board from front to back, all through shaft coupling fixedly connected with bent axle on the front and back spindle of motor of taking a breath, two parallel portions that the bent axle surface paralleled with the axial lead all rotate and are connected with the connecting rod, control the side the end position of connecting rod all rotates and is connected with the peg, the one end of peg is connected with the fixed surface of panel.

The breather assembly also includes two-way valve tubes disposed in a matrix on a surface of the panel.

The bi-pass valve pipe includes the tube, the fixed horn mouth that is provided with the integration of one end of tube, the inboard open a mouthful rigidity of horn mouth is provided with the cross locating part, the other end threaded connection of tube has the end lid, the inboard fixed spring that is provided with of end lid, the one end fixedly connected with piston head of spring, the piston head alternates the cover and establishes at valve intraductal side, the breach of breathing in has been seted up at the top of piston head, the bottom of tube is seted up the exhaust arc mouth that link up its inside and outside, it is gapped radially to retain along the tube with the end lid, exhaust arc mouth surface shade has the filter screen, filter screen and tube joint.

Preferably, the supporting seat and the bottom of the middle position frame are arranged in a penetrating mode, and the middle of the outer surface of the supporting seat and the middle position frame are arranged in a welding mode.

The supporting seat is of a hollow structure, threading holes are formed in the side surfaces of the top and the bottom of the supporting seat, and sealing plugs are sleeved on the inner sides of the threading holes.

Preferably, the panel is provided with the connection frame towards the outer edge of one side surface of station board fixedly, and the connection frame is back the shape, has seted up the recess on the outside surface of connection frame, the port portion cover of flexible side pipe is established at the surface of connection frame, and pastes and lean on at the recess inboard, and the surface lock solid of connection frame is connected with the layering, and the layering is pressed on the surface of flexible side pipe port portion and is cooperated the recess and form the centre gripping lock solid.

Preferably, the station board becomes the parallel arrangement each other of level to, and upper and lower adjacent two leave the clearance between the station board, the side is relative with the fretwork position at wallboard middle part respectively about this clearance, and the horn mouth of two-way valve pipe is towards this clearance.

Preferably, the crank shaft includes a rotating part horizontally front and rear in line with a crankshaft of the ventilation motor and bent parts connected in series to the front and rear rotating part one to the left and right.

One rotating part is fixedly connected with a crankshaft of the ventilation motor through a coupler, and the other rotating part is rotatably connected to the inner surface of the middle position frame.

The bending part is of a U-shaped structure, and the middle part of the bending part is a parallel part parallel to the rotating part.

Preferably, the hanging rod is an L-shaped shaft rod, one end of the hanging rod is fixedly connected to the surface of the panel, the other end of the hanging rod is sleeved with the connecting rod, and the axis of the other end of the hanging rod is parallel to the axis of the crankshaft of the ventilation motor.

Preferably, the pipe shell is connected with the panel in a penetrating manner, the outer surface of the pipe shell is connected with compression nuts in a threaded manner, and the two compression nuts respectively abut against the left side and the right side of the panel.

The surface of tube has seted up the spout along the generating line direction, and the one end of spout runs through the terminal surface of tube surface end lid position, and the other end of spout extends to the top side of exhaust arc mouth.

The sliding blocks are fixedly arranged at the ports on the two sides of the filter screen and are connected to the sliding grooves in a sliding fit mode.

Preferably, the radial length of the piston head is larger than that of the bell mouth and smaller than the gap distance between the exhaust arc opening and the end cover.

The outer surface of the piston head is connected with the inner surface of the pipe shell in a sliding fit mode, and the piston head is normally arranged at the connecting position of the horn mouth and the pipe shell under the influence of spring pressure.

Compared with the prior art, the invention has the beneficial effects that:

(1) the invention adopts a bionic structure design, and can simulate the lung breathing action through the left-right direction separation and opposite direction actions of the telescopic square tube, thereby realizing the ventilation process. The advantages of this process are:

exhaust thoroughly, the compression of flexible side pipe is accomplished, and its equipment inner space reduces, and the air current is difficult to flow back repeatedly in station board place space.

The two-way valve pipe is matched with the uniform arrangement on the surface of the panel to realize global exhaust, and compared with the local arrangement mode of a conventional fan or a water pipe, the air flow circulation is stronger, and heat is easy to evacuate.

The slow-delay type suction and exhaust actions have moderate power and low energy consumption, and the energy consumption can be fully utilized in the operation process of heat dissipation, so that the energy-saving and environment-friendly effects are achieved.

(2) The invention adopts a unique two-way valve pipe structure for the gas introducing and discharging operation.

The inner space of the device is expanded, when the device is under negative pressure, the extension action stroke of the spring connected with the piston head is short, and the air suction is carried out along with the uniform rotation of the air exchange motor, so that the slow suction action is realized.

The internal space of the equipment is compressed, when the pressure is positive, the compression action stroke of the spring connected with the piston head is long, the pressurizing process is realized by exhausting, when the pressure intensity reaches the state that the top pressure of the piston head exceeds the radial position of the pipe shell where the exhaust arc opening is positioned, the exhaust can be realized, and the instantaneous forced exhaust action is further realized.

The strong pressure exhaust can wash away the dust on the surface of the arc-shaped filter screen, and self-cleaning operation is realized.

Drawings

FIG. 1 is a schematic view of a forward depression angle of the present invention;

FIG. 2 is a schematic view of the present invention taken at a forward elevation with the frame assembly removed;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic structural view of a stretching sleeve and a positioning frame according to the present invention;

FIG. 5 is a cross-sectional top view of the present invention;

FIG. 6 is a schematic structural view of a two-way valve tube of the present invention;

FIG. 7 is a radially expanded view of the two-way valve tube of the present invention.

In the figure: 1. a frame assembly; 101. truss steel bars; 102. assembling a bolt; 2. a support assembly; 201. a support bar; 202. a supporting seat; 203. a middle position frame; 204. a frame plate; 3. a telescoping assembly; 301. a telescopic square tube; 302. a panel; 303. embedding a frame; 304. stretching the sleeve; 305. a positioning frame; 306. a guide sleeve; 307. a guide bar; 4. a tooling assembly; 401. wall plates; 402. angle steel; 403. a station plate; 5. a ventilation assembly; 501. a ventilation motor; 502. a crankshaft; 503. a connecting rod; 504. a hanging rod; 505. a two-way valve tube; 50501. a pipe shell; 50502. a horn mouth; 50503. a cross limiting part; 50504. a terminal cover; 50505. a spring; 50506. a piston head; 50507. a suction gap; 50508. an exhaust arc port; 50509. and (4) a filter screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

Example one

Referring to fig. 1-7, an embodiment of the present invention is shown: the utility model provides an energy-concerving and environment-protective big data computer network safety device, includes frame subassembly 1, supporting component 2, flexible subassembly 3, frock subassembly 4 and subassembly 5 of taking a breath, and frame subassembly 1 includes truss billet 101, and truss billet 101 sets up along the edge of cube, through assembly bolt 102 fixed connection between two adjacent truss billets 101.

The supporting assembly 2 comprises a supporting strip 201, the supporting strip 201 is fixedly arranged between the front truss steel bar 101 and the rear truss steel bar 101 on the bottom side, a supporting seat 202 is fixedly arranged at the top of the supporting strip 201, the supporting seat 202 is of a hollow structure, threading holes are formed in the side surfaces of the top and the bottom of the supporting seat 202, sealing plugs are sleeved on the inner sides of the threading holes, a middle position frame 203 is fixedly arranged in the middle of the supporting seat 202, the middle position frame 203 is vertically arranged, the supporting seat 202 and the bottom of the middle position frame 203 are arranged in a penetrating mode, and the middle of the outer surface of the supporting seat 202 and the middle position frame 203 are arranged in a welding mode.

A frame plate 204 is fixedly arranged on the top of the supporting seat 202.

The telescopic assembly 3 comprises two telescopic square pipes 301, and the two telescopic square pipes 301 are respectively sleeved on the left side and the right side of the middle position frame 203. The square tube is matched with the middle frame 203, the panel 302 and the embedded frame 303 to form a closed wrapping structure, namely a bionic lung structure, outside the station plate 403.

The opposite side ports of the two telescopic square pipes 301 are fixedly provided with an embedded plate 302, the outer edge of one side surface of the embedded plate 302 facing the station plate 403 is fixedly provided with a connecting frame, the connecting frame is in a shape of a Chinese character 'hui', the outer side surface of the connecting frame is provided with a groove, the port part of the telescopic square pipe 301 is sleeved on the outer surface of the connecting frame and is attached to the inner side of the groove, the surface of the connecting frame is fixedly connected with a pressing strip, the pressing strip is pressed on the outer surface of the port part of the telescopic square pipe 301 and is matched with the groove to form clamping and locking, the outer side of the embedded plate 302 is fixedly sleeved with an embedded frame 303, the outer side surface of the embedded frame 303 is fixedly bonded with a stretching sleeve 304, the stretching sleeve 304 is made of elastic material, the stretching sleeve 304 is arranged in a horizontal square bucket shape, and the outer side flaring position of the stretching sleeve 304 is fixedly bonded with a positioning frame 305. The left and right side panels 302 move in opposite directions and away from each other, the inner side space of the telescopic square tube 301 is compressed, and the inner space of the bionic lung part structure is compressed when exhausting, so that the backflow stroke of gas in the bionic lung part structure is greatly reduced, and the rapid discharge of a hot gas medium is facilitated.

The opposite surfaces of the left and right panels 302 are fixedly provided with guide sleeves 306, and guide rods 307 are inserted and sleeved inside the guide sleeves 306.

Frock subassembly 4 includes wallboard 401, wallboard 401 is the shape structure that returns, wallboard 401's four corners respectively with four guide bar 307 vertical fixation, left and right sides lateral wall board 401 parallel arrangement each other, the front and back side of the opposite face of left and right sides lateral wall board 401 is all fixed and is provided with angle steel 402, the fixed station board 403 that is provided with in top of angle steel 402, station board 403 is horizontal to parallel arrangement each other, it is gapped to remain between two adjacent station boards 403 from top to bottom, the side is relative with the fretwork position at wallboard 401 middle part respectively about this clearance, and the horn mouth 50502 of two-way valve pipe 505 is towards this clearance.

The subassembly of taking a breath 5 includes air change motor 501, air change motor 501 is the double-shaft motor, air change motor 501 is the fixed horizontal neutral position that sets up at right side wall board 401 from beginning to end, all through shaft coupling fixedly connected with bent axle 502 on the front and back spindle of air change motor 501, bent axle 502 includes that the level is from beginning to end to the rotation portion with air change motor 501's shaft collineation and the connection is in the front and back rotation portion's each the portion of bending left and right, bent axle 502 includes that the level is from beginning to end to the rotation portion with air change motor 501 shaft collineation and the connection is in the front and back rotation portion's each the portion of bending left and right, one of them rotation portion passes through shaft coupling and air change motor 501's shaft fixed connection, another rotation portion rotates the internal surface of connection at mid-frame 203, the portion of bending sets up for U type structure, the mid-position of the portion of bending is the parallel portion with the rotation portion. The parallel parts of the surface of the crankshaft 502 are rotatably connected with connecting rods 503, the end positions of the left and right connecting rods 503 are rotatably connected with hanging rods 504, the hanging rods 504 are L-shaped rods, one end of each hanging rod 504 is fixedly connected to the surface of the panel 302, the other end of each hanging rod 504 is sleeved with the corresponding connecting rod 503, and the axis of the other end of each hanging rod 504 is parallel to the axis of the crankshaft of the ventilation motor 501. The ventilation motor 501 rotates to drive the crankshaft 502 to rotate, the crankshaft 502 rotates to pull the left and right connecting rods 503 to pull and push the panels 302, and under the direction constraint of the guide sleeve 306 and the guide rod 307, the left and right panels 302 generate opposite and opposite actions to drive the telescopic square tube 301 to generate compression and expansion actions, so that the bionic lung structure generates exhaust and suction actions.

The breather assembly 5 further includes a two-way valve tube 505, the two-way valve tube 505 being disposed in a matrix on the surface of the panel 302. The uniform arrangement of the two-way valve pipe 505 realizes simultaneous exhaust and suction actions of multiple positions, and the relative arrangement of the gaps of the station plates 403 enables the gas medium for heat exchange between the station plates 403 to be rapidly and thoroughly discharged and introduced.

The two-way valve tube 505 comprises a tube shell 50501, the tube shell 50501 is connected with a panel 302 in a penetrating manner, a compression nut is connected to the outer surface of the tube shell 50501 in a threaded manner, the two compression nuts are respectively abutted against the left side and the right side of the panel 302, an integrated horn mouth 50502 is fixedly arranged at one end of the tube shell 50501, a cross limiting piece 50503 is fixedly arranged at the opening position of the inner side of the horn mouth 50502, an end cap 50504 is connected to the other end of the tube shell 50501 in a threaded manner, a spring 50505 is fixedly arranged on the inner side of the end cap 50504, a piston head 50506 is fixedly connected to one end of the spring 50505 in a manner, the radial length of the piston head 50506 is larger than that of the horn mouth 50502 and smaller than the gap distance from an exhaust arc 50508 to the end cap 50504, the piston head 50506 is inserted and sleeved on the inner side of the valve tube, the outer surface of the piston head 50506 is connected with the inner surface of the tube shell 50501 in a sliding manner, the piston head 50506 is arranged at the normal position where the tube shell 50502 and the tube shell 50501 is connected under the influence of the pressure of the spring 50505, an air suction gap 50507 is arranged at the top of the piston head 50506, the air suction gap 50507 is of a top opening structure, a gap is reserved between one end of the air suction gap 50507 and the end face, facing the horn mouth 50502 direction, of the piston head 50506, the other end of the air suction gap 50507 penetrates through the end face, facing the end head direction, of the piston head 50506, an exhaust arc 50508 penetrating through the inner side and the outer side of the tube shell 50501 is formed in the bottom of the tube shell 50501, a gap is reserved between the exhaust arc 50508 and the end head cover 50504 in the radial direction of the tube shell 50501, a filter screen 50509 is covered on the surface of the exhaust arc 50508, a sliding groove is formed in the outer surface of the tube shell 50501 in the bus direction, the section of the sliding groove is in a T shape, one end of the sliding groove penetrates through the end face, facing the end cover 50504, of the tube shell 50501, and the other end of the sliding groove extends to the top side of the exhaust arc 50508. The two side port positions of the filter screen 50509 are fixedly provided with sliding blocks, the sections of the sliding blocks are T-shaped, the sliding blocks are connected to the positions of the sliding grooves in a sliding mode, and when the sliding blocks slide to the upper portion of the exhaust arc port 50508 in the sliding grooves, the sliding blocks are clamped and fixed with the sliding grooves. The flared nose 50502 of the two-way valve tube 505 is located on the inside of the bionic "lung" portion structure, and the tip cover 50504 and the exhaust arc 50508 are located on the outside of the bionic "lung" portion structure. When the bionic lung part structure generates an expansion inhalation action, the piston head 50506 is sucked to move towards the inner side of the horn mouth 50502 by the negative pressure effect on the inner side of the telescopic square tube 301, when the end face of the piston head 50506 abuts against the cross limiting piece 50503, the air suction gap 50507 on the top of the piston head 50506 is not covered by the inner wall of the tube shell 50501, the inner port and the outer port of the tube shell 50501 are communicated through the air suction gap 50507, at the moment, external air media of equipment can be filtered through the filter screen 50509 and then are introduced into the inner side of the bionic lung part structure to realize an inhalation action, the inhalation action can be started from the initial stage of the separation action of the panels 302 on the two sides, and the inhalation action of air is slowly retarded and continuously. When the bionic lung part structure generates compression and exhaust actions, the piston head 50506 is sucked to the end head to move towards the inner side by the positive pressure effect of the inner side of the telescopic square tube 301, when the bottom surface of the piston head 50506 outwards skips over the exhaust arc port 50508, the air pressure of the inner side of the telescopic square tube 301 is released, the strong pressure air flow impacts the inner surface of the filter screen 50509, dust on the outer surface of the filter screen 50509 is blown away, the exhaust actions are realized, the exhaust actions need to be realized by the fact that the panels 302 on the two sides move for a certain distance in an opposite direction, and when the pressure intensity is high enough, exhaust can be performed, and the strong pressure instant exhaust actions are realized.

The working principle is as follows: the circuit board piece and the computer equipment used by the big data can be arranged on the surface of the station board 403, the electric connecting line and the signal line are connected with the external connecting line through the supporting seat 202, and the lines are plugged through the sealing ring, so that the inner side space of the telescopic square pipe 301 is sealed, and the influence of the external environment is reduced.

The telescopic square tube 301, the middle frame 203, the embedded plate 302 and the embedded frame 303 form a bionic lung part structure which is wrapped and sealed at the outer side of the station plate 403.

When the panel is in normal operation, the ventilation motor 501 rotates at a constant speed to drive the crankshaft 502 to rotate, the connecting rod 503 rotatably connected to the surface of the crankshaft 502 pushes and pulls the panel 302, and the left and right panels 302 move away from and towards each other under the restriction of the penetration and sleeving of the guide rod 307 and the guide sleeve 306.

When the panel 302 moves away from each other, the inner space of the bionic lung portion structure is expanded, the negative pressure causes the piston head 50506 to move from the end position of the inner side of the tube shell 50501 to the inner side of the horn mouth 50502, the spring 50505 is stretched, the stretching stroke is short, when one side of the piston head 50506 abuts against the cross limiting piece 50503, the other side of the piston head 50506 is still inside the tube shell 50501, but the air suction gap 50507 is not shielded by the inner wall of the tube shell 50501, air outside the telescopic square tube 301 enters the inner side of the telescopic square tube 301 through the filter screen 50509, the exhaust arc 50508, the air suction gap 50507, the tube shell 50501 and the horn mouth 50502 and is filled into electronic elements in the stacking gap of the station plate 403, and the air suction action of the bionic lung portion structure is achieved.

When the panel 302 moves oppositely, the inner space of the bionic lung structure is compressed by hot gas, the piston head 50506 is driven to be sleeved on the inner side of the tube shell 50501 by positive pressure and moves to the position of the end cover 50504 by the positive pressure, the spring 50505 is compressed by the compression stroke, the elastic force resists the pressure of the hot gas until the piston head 50506 is extruded by the hot gas to slightly pass through the exhaust arc 50508 and is abutted against the inner surface of the end cover, at the moment, the hot gas is exhausted outwards through the horn mouth 50502, the tube shell 50501 and the exhaust arc 50508, at the moment, the gas pressure is strong, the instantly released high-pressure gas impacts the inner arc surface of the filter screen 50509, and dust impurities attached to the outer surface of the filter screen 50509 are cleaned, so that the automatic cleaning action is realized, and the exhaust action of the bionic lung structure is completed.

The second embodiment:

the second embodiment is different from the first embodiment in that: the two-way valve tube 505 of the present invention can be replaced with two one-way conduits and a cylindrical filter screen 50509.

During replacement, the cylindrical filter screen 50509 is sleeved on the inner side of the one-way conduction pipe, the two one-way conduction pipes are in a group, the two one-way conduction pipes are oppositely arranged, namely, the conduction directions are opposite, the two one-way conduction pipes vertically penetrate and are fixed on the surface of the panel 302, and two ends of each one-way conduction pipe are respectively arranged on the inner side and the outer side of the telescopic square pipe 301.

This replacement setting can guarantee the normal exhaust ventilation action of flexible square pipe 301, can realize the thorough exhaust action of low-power consumption. However, this arrangement cannot automatically clean the filter screen 50509, and the arrangement has a large hardware structure and occupies a large space, and when the station plates 403 are stacked and arranged too densely, the spatial layout of the station plates will affect the air flow circulation in the gaps between the station plates 403.

Example three:

the third embodiment is different from the first embodiment in that: according to the invention, the ventilation motor 501 is arranged in the middle of the outer surface of the middle frame 203, the shaft sleeve of the ventilation motor 501 is provided with the synchronizing wheel, when a plurality of protection devices are horizontally arranged in a straight line, the adjacent synchronizing wheels are sleeved and driven through the synchronous belt, so that 'one-to-many' ventilation action can be realized, the heat dissipation control of equipment in a machine room is facilitated, and the self heat dissipation of the ventilation motor 501 is also facilitated.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (8)

1. An energy-saving and environment-friendly big data computer network safety protection device comprises a frame assembly (1), a supporting assembly (2), a telescopic assembly (3), a tooling assembly (4) and a ventilation assembly (5), and is characterized in that the frame assembly (1) comprises truss steel bars (101), the truss steel bars (101) are arranged along the edges of a cube, and every two adjacent truss steel bars (101) are fixedly connected through an assembling bolt (102);

the supporting assembly (2) comprises a supporting bar (201), the supporting bar (201) is fixedly arranged between a front truss steel bar (101) and a rear truss steel bar (101) at the bottom side, a supporting seat (202) is fixedly arranged at the top of the supporting bar (201), a middle position frame (203) is fixedly arranged in the middle of the supporting seat (202), and the middle position frame (203) is vertically arranged;

a frame plate (204) is fixedly arranged at the top of the supporting seat (202);

the telescopic assembly (3) comprises two telescopic square tubes (301), and the two telescopic square tubes (301) are respectively sleeved on the left side and the right side of the middle position frame (203);

the embedded plates (302) are fixedly arranged at the back side ports of the two telescopic square tubes (301), the outer sides of the embedded plates (302) are fixedly sleeved with embedded frames (303), the outer side surfaces of the embedded frames (303) are fixedly bonded with stretching sleeves (304), the stretching sleeves (304) are made of elastic materials, the stretching sleeves (304) are horizontally arranged in a square bucket shape, and the outer side flaring positions of the stretching sleeves (304) are fixedly crimped with positioning frames (305);

the opposite surfaces of the left side and the right side of the panel (302) are fixedly provided with guide sleeves (306), and guide rods (307) are inserted and sleeved on the inner sides of the guide sleeves (306);

the tool assembly (4) comprises a wall plate (401), the wall plate (401) is of a clip structure, four corners of the wall plate (401) are respectively and vertically fixed with four guide rods (307), the wall plates (401) on the left side and the right side are arranged in parallel, angle steel (402) is fixedly arranged on the front side and the rear side of the opposite surface of the wall plate (401) on the left side and the right side, and a station plate (403) is fixedly arranged on the top of the angle steel (402);

the ventilation assembly (5) comprises a ventilation motor (501), the ventilation motor (501) is a double-shaft motor, the ventilation motor (501) is fixedly arranged at the horizontal middle axis position of the right side wall plate (401) in the front-back direction, the front shaft and the rear shaft of the ventilation motor (501) are fixedly connected with crankshafts (502) through couplings, two parallel parts, parallel to the axis, of the surfaces of the crankshafts (502) are rotatably connected with connecting rods (503), the end positions of the connecting rods (503) on the left side and the right side are rotatably connected with hanging rods (504), and one end of each hanging rod (504) is fixedly connected with the surface of the panel (302);

the ventilation assembly (5) further comprises two-way valve tubes (505), the two-way valve tubes (505) are arranged on the surface of the panel (302) in a matrix;

the double-way valve tube (505) comprises a tube shell (50501), one end of the tube shell (50501) is fixedly provided with an integrated horn mouth (50502), the opening position of the inner side of the horn mouth (50502) is fixedly provided with a cross limiting piece (50503), the other end of the tube shell (50501) is in threaded connection with a end cover (50504), the inner side of the end cover (50504) is fixedly provided with a spring (50505), one end of the spring (50505) is fixedly connected with a piston head (50506), the piston head (50506) is inserted and sleeved on the inner side of the valve tube, the top of the piston head (50506) is provided with an air suction gap (50507), the bottom of the tube shell (50501) is provided with an air discharge arc-shaped port (50508) penetrating through the inner side of the tube shell (50501), the air discharge arc-shaped port (50508) and the end cover (04) are retained in a gap (50501) in the radial direction, and a filter screen (50509) is arranged on the surface of the air discharge arc-shaped cover (50508), the filter screen (50509) is clamped with the pipe shell (50501).

2. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the supporting seat (202) and the bottom of the middle position frame (203) are arranged in a penetrating mode, and the middle of the outer surface of the supporting seat (202) and the middle position frame (203) are arranged in a welding mode;

the supporting seat (202) is of a hollow structure, threading holes are formed in the side surfaces of the top and the bottom of the supporting seat (202), and sealing plugs are sleeved on the inner sides of the threading holes.

3. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the panel (302) is provided with the connection frame towards the outer edge of one side surface of station board (403) is fixed, and the connection frame is back shape, and the outside of connection frame is seted up flutedly on the surface, the port portion cover of flexible square pipe (301) is established at the surface of connection frame, and pastes and lean on at the recess inboard, and the surface lock joint of connection frame is connected with the layering, and the layering is pressed on the surface of flexible square pipe (301) port portion and is cooperated the recess and form the centre gripping lock solid.

4. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the station plates (403) are horizontally arranged in parallel, a gap is reserved between every two adjacent station plates (403), the left side and the right side of the gap are opposite to the hollow part in the middle of the wall plate (401), and the horn mouth (50502) of the two-way valve pipe (505) faces to the gap.

5. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the crankshaft (502) comprises a rotating part which is horizontally, forwards and backwards collinear with the crankshaft of the ventilation motor (501) and bent parts which are connected in series with the front and back rotating part and are respectively arranged leftwards and rightwards;

one rotating part is fixedly connected with a crankshaft of the ventilation motor (501) through a coupler, and the other rotating part is rotatably connected with the inner surface of the middle position frame (203);

the bending part is of a U-shaped structure, and the middle part of the bending part is a parallel part parallel to the rotating part.

6. The energy-saving and environment-friendly big data computer network safety protection device according to claim 1, characterized in that: the hanging rod (504) is an L-shaped shaft rod, one end of the hanging rod (504) is fixedly connected to the surface of the panel (302), the other end of the hanging rod (504) is sleeved with the connecting rod (503), and the axis of the other end of the hanging rod (504) is parallel to the axis of the crankshaft of the ventilation motor (501).

7. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the pipe shell (50501) is in penetrating connection with the panel (302), the outer surface of the pipe shell (50501) is in threaded connection with compression nuts, and the two compression nuts are respectively abutted to the left side and the right side of the panel (302);

the outer surface of the pipe shell (50501) is provided with a sliding groove along the direction of a bus, one end of the sliding groove penetrates through the end face of the position of the end cover (50504) on the surface of the pipe shell (50501), and the other end of the sliding groove extends to the top side of the exhaust arc port (50508);

the two side ports of the filter screen (50509) are fixedly provided with sliding blocks, and the sliding blocks are connected to the sliding grooves in a sliding mode.

8. The energy-saving and environment-friendly big data computer network safety protection device as claimed in claim 1, wherein: the radial length of the piston head (50506) is greater than that of the bell mouth (50502) and less than the clearance distance from the exhaust arc (50508) to the end cap (50504);

the outer surface of the piston head (50506) is in sliding fit connection with the inner surface of the pipe shell (50501), and the piston head (50506) is normally arranged at the position where the horn mouth (50502) is connected with the pipe shell (50501) under the influence of the pressure of the spring (50505).

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