CN114871211A

CN114871211A - Data center cold channel connecting pipeline pull throughs

Info

Publication number: CN114871211A
Application number: CN202210522024.8A
Authority: CN
Inventors: 付志平; 刘凡清
Original assignee: Jiangxi Resing Communication Equipment Co ltd
Current assignee: Jiangxi Resing Communication Equipment Co ltd
Priority date: 2022-05-13
Filing date: 2022-05-13
Publication date: 2022-08-09
Anticipated expiration: 2042-05-13
Also published as: CN114871211B

Abstract

The invention relates to a pipeline dredging device, in particular to a dredging device for a cold channel connecting pipeline of a data center. The invention provides a dredging device for a cold channel connecting pipeline of a data center, which has a good dredging effect. The utility model provides a data center cold passageway connecting tube pull throughs, is including enclosing frame, support frame, connecting plate, advancing mechanism and sweeping the mechanism, encloses the frame bottom and is connected with the support frame, encloses the even interval of frame front side and is connected with three connecting plate, encloses to be connected with advancing mechanism on the frame, is connected with the mechanism of sweeping that is used for dredging the pipeline on the advancing mechanism. The rotary dredging brush is driven to move to the deep part of the pipeline by the front push plate, so that the rotary dredging brush cleans and dredges the inner wall of the pipeline.

Description

Data center cold channel connecting pipeline pull throughs

Technical Field

The invention relates to a pipeline dredging device, in particular to a dredging device for a cold channel connecting pipeline of a data center.

Background

In the data center, the pipeline of connecting in the cold passageway is after using a period, and a large amount of impurity are attached to the pipeline inner wall easily, and then take place to block up, have influenced the ventilation efficiency of pipeline. The inner wall of the pipeline is generally washed by a high-pressure water gun in the prior art to remove impurities in the pipeline, so that the aim of dredging the pipeline is fulfilled. But when the impurity of the darker department of clearance pipeline inner wall, the high-pressure squirt is difficult to aim at the position and the dynamics of water can reduce for the impurity of the darker department of pipeline inner wall is difficult to clear up to the high-pressure squirt, makes the mediation effect to the pipeline relatively poor.

How to design a better data center cold passageway connecting line pull throughs of mediation effect is the technical problem that this patent need solve.

Disclosure of Invention

In order to overcome among the prior art high-pressure squirt when clearing up the impurity of the darker department of pipeline inner wall, the high-pressure squirt is difficult to aim at the position and the dynamics of water can reduce for the impurity of the darker department of pipeline inner wall is difficult to clear up to the high-pressure squirt, makes the relatively poor shortcoming of mediation effect to the pipeline, the technical problem who solves: the dredging device for the cold channel connecting pipeline of the data center has a good dredging effect.

The technical scheme is as follows: the utility model provides a data center cold passageway connecting tube pull throughs, is including enclosing frame, support frame, connecting plate, advancing mechanism and sweeping the mechanism, encloses the frame bottom and is connected with the support frame, encloses the even interval of frame front side and is connected with three connecting plate, encloses to be connected with advancing mechanism on the frame, is connected with the mechanism of sweeping that is used for dredging the pipeline on the advancing mechanism.

As preferred, advancing mechanism is including multistage cylinder, the back orifice plate, preceding push pedal, the mounting, spacing and reset spring, it is connected with the back orifice plate to enclose the frame inside rear side, even interval is connected with four multistage cylinders on the back orifice plate, be connected with preceding push pedal between four multistage cylinder's the telescopic link front side, it is connected with four mountings to enclose the even interval of frame inside front side, equal sliding type connection has spacing on the mounting, be connected with four reset spring between the mounting of upside and the spacing of upside, be connected with four reset spring between mounting of downside and the spacing of downside, be connected with four reset spring between left mounting and the left spacing, be connected with four reset spring between mounting on right side and the spacing on right side, spacing all passes and encloses the frame.

As preferred, sweep the motive and construct including connecting seat, first contact wheel, stopper and rotatory mediation brush, the even interval in preceding push pedal front side is connected with four connecting seats, and preceding push pedal front side is connected with eight stoppers, is connected with the rotatory mediation brush that is used for dredging the pipeline between four connecting seats and eight stoppers, and the even interval rotary type is connected with four first contact wheels on the rotatory mediation brush.

Preferably, the pipeline dredging device further comprises an agitating mechanism for further dredging the pipeline, the agitating mechanism comprises a first fixing frame, a second contact wheel, a tip disc, a second fixing frame, limiting rings, a gear set, a first connecting shaft and a flat belt, the front side of the front push plate is connected with the first fixing frame, the left side and the right side of the first fixing frame are rotatably connected with the second contact wheel, the left side of the second contact wheel is contacted with the left side of the first contact wheel, the right side of the second contact wheel is contacted with the right side of the first contact wheel, the tip disc for dredging the pipeline is rotatably connected in the middle of the first fixing frame, the middle of the first fixing frame is connected with the second fixing frame, the middle of the first fixing frame is connected with the two limiting rings, the two limiting rings are rotatably connected with the tip disc, the upper side and the lower side of the rear part of the second fixing frame are rotatably connected with the first connecting shaft, the gear set is connected between the first connecting shaft and the tip disc, the gear train comprises three gear, and two gears of rear side all with the gear intermeshing of front side, the first connecting axle of downside and the second contact wheel on left have flat belt through the belt pulley around, and the first connecting axle of upside and the second contact wheel on right side have flat belt through the belt pulley around.

As preferred, still including the suction means who is used for clearing up the impurity of pipeline inner wall, suction means is including the connecting hole dish, the aspirator, the arc pipeline, support arc and flexible pipe, preceding push pedal rear side intermediate junction has the connecting hole dish, connecting hole dish rear side is connected with the aspirator that is used for absorbing the impurity of pipeline inner wall, be connected with four arc pipelines on the aspirator, four arc pipelines all communicate with the connecting hole dish, the rear portion is connected with the support arc in enclosing the frame, be connected with flexible pipe between back orifice plate and the aspirator, flexible pipe is placed on supporting the arc.

Preferably, the collecting device also comprises a collecting mechanism for collecting impurities in a centralized manner, the collecting mechanism comprises a connecting square rod, a connecting round hole plate, a rotating filter plate, a first connecting column, a first torsion spring, a limiting slide way, a box, a second connecting column, a rotating plate and a second torsion spring, the rear side of an arc-shaped pipeline on the upper side is connected with the connecting square rod, the rear end of the telescopic pipe is rotatably connected with the first connecting column, the upper side of the first connecting column is connected with the connecting round hole plate, the connecting square rod moves backwards to be in contact with the connecting round hole plate, the middle part of the first connecting column is connected with the rotating filter plate for closing the telescopic pipe, the rotating filter plate is positioned in the telescopic pipe, two first torsion springs are connected between the first connecting column and the rear end of the telescopic pipe, the rear side of the bottom of the telescopic pipe is connected with the limiting slide way, the limiting slide way is connected with the first connecting column in a sliding manner, the rear side of the enclosure frame is connected with the box for collecting impurities in a centralized manner, the case and flexible pipe intercommunication, the case lower part front side is connected with the second spliced pole, and the last rotation type of second spliced pole is connected with the rotor plate that is used for closed case bottom, is connected with four second torsion spring between rotor plate and the second spliced pole.

Preferably, the automatic opening and closing device further comprises an opening and closing mechanism for automatically opening the rotating plate, the opening and closing mechanism comprises a connecting pore plate, a connecting rod, a cam disc, a second connecting shaft, a straight pore inclined plate and a driving rod, the lower portion of the rear side of the rear pore plate is connected with the connecting pore plate, the rear side of the connecting pore plate is rotatably connected with the connecting rod, the upper side of the connecting rod is connected with the first connecting column, the bottom of the connecting rod is connected with the cam disc, the left side and the right side of the front side of the lower portion of the box are rotatably connected with the second connecting shaft, the straight pore inclined plate is rotatably connected to the second connecting shaft, the rear side of the straight pore inclined plate is connected with the sliding type rotating plate, the driving rod is slidably connected between the upper portions of the straight pore inclined plates, and the driving rod is slidably connected with the cam disc.

Preferably, the portable umbrella further comprises a handle, and the top of the enclosing frame is connected with the handle which is convenient for a user to carry.

The invention has the advantages that:

1. the rotary dredging brush is driven to move to the deep part of the pipeline by the front push plate, so that the rotary dredging brush cleans and dredges the inner wall of the pipeline;

2. according to the invention, the interior of the pipeline is dredged through the pointed disk, impurities are stirred to the periphery of the pointed disk, and the impurities can be conveniently collected subsequently;

3. according to the invention, impurities are sucked into the telescopic pipe through the arc-shaped pipeline by the air suction machine, so that the inner wall of the pipeline is automatically cleaned, and the impurities are discharged through the telescopic pipe;

4. according to the invention, impurities in the telescopic pipe fall into the box, the box collects the impurities in a centralized manner, and the limiting slide way limits the first connecting column so as to limit the rotary filter plate, so that when the impurities pass through the rotary filter plate, the impurities drive the rotary filter plate to rotate continuously to close the telescopic pipe again;

5. the connecting rod and the cam disc are driven to rotate forwards through the first connecting column, the driving rod is driven to move upwards under the action of the cam disc, the driving rod drives the straight hole inclined plate to rotate forwards, the rotating plate is driven to rotate backwards and automatically open, and therefore people do not need to manually rotate to open the rotating plate, and manual operation is reduced.

Drawings

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

Fig. 2 is a schematic sectional perspective view of the propulsion mechanism of the present invention.

Fig. 3 is a schematic perspective view of the invention at a.

Fig. 4 is a schematic perspective view of the sweeping mechanism of the present invention.

Fig. 5 is a partial perspective view of the sweeping mechanism of the present invention.

Fig. 6 is a perspective view of the agitation mechanism of the present invention.

Fig. 7 is a partially cut-away perspective view of the agitation mechanism of the present invention.

Fig. 8 is a bottom side perspective view of the agitation mechanism of the present invention.

Fig. 9 is a schematic view of a first partially separated body structure of the suction mechanism of the present invention.

Fig. 10 is a second partial solid structure diagram of the suction mechanism of the present invention.

Fig. 11 is a schematic view of a first partial body structure of the collection mechanism of the present invention.

Fig. 12 is a schematic perspective view of the invention at position B.

Fig. 13 is a schematic view of a second partial body configuration of the collection mechanism of the present invention.

Fig. 14 is a first perspective view of the opening and closing mechanism of the present invention.

Fig. 15 is a second perspective view of the opening and closing mechanism of the present invention.

Fig. 16 is a partial perspective view of the opening and closing mechanism of the present invention.

Description of reference numerals: 1_ surrounding frame, 2_ handle, 3_ supporting frame, 4_ connecting plate, 5_ pushing mechanism, 51_ multistage cylinder, 52_ rear orifice plate, 53_ front push plate, 54_ fixing member, 55_ limiting frame, 56_ return spring, 6_ sweeping mechanism, 61_ connecting seat, 62_ first contact wheel, 63_ limiting block, 64_ rotary dredging brush, 7_ stirring mechanism, 71_ first fixing frame, 72_ second contact wheel, 73_ tip disc, 74_ second fixing frame, 75_ limiting ring, 76_ gear set, 77_ first connecting shaft, 78_ flat belt, 8_ suction mechanism, 81_ connecting orifice disc, 82_ aspirator, 83_ arc pipe, 84_ supporting arc plate, 85_ telescopic pipe, 9_ collecting mechanism, 91_ connecting square rod, 92_ connecting circular orifice plate, 93_ rotary filter plate, 94_ first connecting column, 95_ first torsion spring, 96_ limiting slide way, 97_ box, 98_ second connecting column, 99_ rotating plate, 910_ second torsion spring, 10_ opening and closing mechanism, 101_ connecting pore plate, 102_ connecting rod, 103_ cam plate, 106_ second connecting shaft, 107_ straight pore inclined plate and 109_ driving rod.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

Example 1

The utility model provides a data center cold passageway connecting tube pull throughs, refer to fig. 1-5, including enclosing frame 1, handle 2, support frame 3, connecting plate 4, advancing mechanism 5 and sweeping mechanism 6, enclose 1 bottom of frame and be connected with support frame 3, enclose 1 front side of frame and evenly the interval connection have three connecting plate 4, enclose and be connected with advancing mechanism 5 on the frame 1, be connected with sweeping mechanism 6 on advancing mechanism 5, sweeping mechanism 6 is used for dredging the pipeline, enclose 1 top of frame and be connected with handle 2 that the user of being convenient for carried.

Referring to fig. 2 to 3, the propelling mechanism 5 includes a multi-stage cylinder 51, a rear orifice plate 52, a front push plate 53, mounting 54, spacing 55 and reset spring 56, enclose in the frame 1 rear side and be connected with back orifice plate 52, even interval connection has four multistage cylinders 51 on the back orifice plate 52, be connected with preceding push pedal 53 between four multistage cylinders 51's the telescopic link front side, enclose in the frame 1 front side even interval connection have four mounting 54, equal sliding connection has spacing 55 on the mounting 54, be connected with four reset spring 56 between the mounting 54 of upside and the spacing 55 of upside, be connected with four reset spring 56 between the mounting 54 of downside and the spacing 55 of downside, be connected with four reset spring 56 between left mounting 54 and the left spacing 55, be connected with four reset spring 56 between mounting 54 on right side and the spacing 55 on right side, spacing 55 all passes and encloses frame 1.

Referring to fig. 4-5, the sweeping mechanism 6 includes a connecting seat 61, first contact wheels 62, limiting blocks 63 and a rotary dredging brush 64, four connecting seats 61 are uniformly connected to the front side of the front pushing plate 53 at intervals, eight limiting blocks 63 are connected to the front side of the front pushing plate 53, the rotary dredging brush 64 is connected between the four connecting seats 61 and the eight limiting blocks 63, the rotary dredging brush 64 is used for dredging the pipeline, and four first contact wheels 62 are rotatably connected to the rotary dredging brush 64 at uniform intervals.

When the device is used, firstly, the front end of the enclosure frame 1 extends into the pipeline port, so that the pipeline port is clamped between the enclosure frame 1 and the connecting plate 4, the first contact wheel 62 is contacted with the inner wall of the pipeline, when the limiting frame 55 is contacted with the pipeline port, the limiting frame 55 is inwards extruded by the pipeline port, the reset spring 56 is compressed, the limiting frame 55 is abutted against the inner wall of the pipeline under the action of the reset spring 56, then the multi-stage cylinder 51 is started, the telescopic rod of the multi-stage cylinder 51 is extended to drive the front push plate 53 to move forwards, the front push plate 53 drives the connecting seat 61, the first contact wheel 62, the limiting block 63 and the rotary dredging brush 64 to move forwards, so that the first contact wheel 62 rotates, the rotary dredging brush 64 cleans and dredges the inner wall of the pipeline, further, impurities attached to the inner wall of the pipeline are cleaned, when the device is not used, the telescopic rod of the multi-stage cylinder 51 is controlled to contract to drive the front push plate 53 to move backwards to reset, preceding push pedal 53 drives connecting seat 61, first contact wheel 62, stopper 63 and rotatory mediation brush 64 and moves backward and resets, closes multistage cylinder 51 again, separates bounding wall and pipeline mouth afterwards, and spacing 55 and pipeline mouth separate, and then drive spacing 55 outside removal of removal and reset under the effect that reset spring 56 resets, carries through handle 2 convenient to use person.

Example 2

On the basis of embodiment 1, referring to fig. 1, 6, 7 and 9, the stirring device 7 further comprises a stirring mechanism 7, wherein the stirring mechanism 7 comprises a first fixing frame 71, a second contact wheel 72, a tip disk 73, a second fixing frame 74, a limiting ring 75, a gear set 76, a first connecting shaft 77 and a flat belt 78, the first fixing frame 71 is connected to the front side of the front push plate 53, the second contact wheel 72 is rotatably connected to both the left and right sides of the first fixing frame 71, the second contact wheel 72 on the left side is in contact with the first contact wheel 62 on the left side, the second contact wheel 72 on the right side is in contact with the first contact wheel 62 on the right side, the tip disk 73 is rotatably connected to the middle of the first fixing frame 71, the tip disk 73 is used for dredging the pipeline, the second fixing frame 74 is connected to the middle of the first fixing frame 71, two limiting rings 75 are connected to the middle of the first fixing frame 71, the two limiting rings 75 are rotatably connected to the tip disk 73, the upper and lower both sides at second mount 74 rear portion are all connected with first connecting shaft 77 in the rotary type, first connecting shaft 77 all with be connected with gear train 76 between the pointed disk 73, gear train 76 comprises three gear, two gears of rear side all with the gear intermeshing of front side, the first connecting shaft 77 of downside and left second contact wheel 72 have flat belt 78 through the belt pulley around, the first connecting shaft 77 of upside and the second contact wheel 72 on right side have flat belt 78 through the belt pulley around.

When the first contact wheel 62 rotates, the second contact wheel 72 is driven to rotate, the second contact wheel 72 drives the first connecting shaft 77 to rotate through the belt pulley and the flat belt 78, the first connecting shaft 77 drives the tip disc 73 to rotate through the gear set 76, the tip disc 73 dredges the inside of the pipeline, impurities are stirred towards the periphery of the tip disc 73, and subsequent collection of the impurities is facilitated.

Referring to fig. 1, fig. 9 and fig. 10, further including the suction mechanism 8, the suction mechanism 8 includes a connection hole plate 81, an aspirator 82, an arc-shaped pipeline 83, a support arc-shaped plate 84 and an extension pipe 85, a connection hole plate 81 is connected in the middle of the rear side of the front push plate 53, the rear side of the connection hole plate 81 is connected with the aspirator 82, the aspirator 82 is used for sucking impurities on the inner wall of the pipeline, four arc-shaped pipelines 83 are connected on the aspirator 82, the four arc-shaped pipelines 83 are all communicated with the connection hole plate 81, the rear portion in the enclosure frame 1 is connected with the support arc-shaped plate 84, the extension pipe 85 is connected between the rear hole plate 52 and the aspirator 82, and the extension pipe 85 is placed on the support arc-shaped plate 84.

Starting the aspirator 82, when the front push plate 53 moves forward, drive the connecting hole dish 81, aspirator 82 and arc pipeline 83 move forward, flexible pipe 85 is elongated, aspirator 82 inhales impurity into flexible pipe 85 through arc pipeline 83, and then clear up the pipeline inner wall automatically, impurity comes out through flexible pipe 85, after the clearance finishes, when the front push plate 53 moves backward and resets, drive the connecting hole dish 81, aspirator 82 and arc pipeline 83 move backward and reset, flexible pipe 85 resets thereupon, after the impurity in flexible pipe 85 all comes out, it can to close aspirator 82 again.

Referring to fig. 1, 11, 12 and 13, the device further comprises a collecting mechanism 9, the collecting mechanism 9 comprises a connecting square rod 91, a connecting circular hole plate 92, a rotary filter plate 93, a first connecting column 94, a first torsion spring 95, a limiting slide 96, a box 97, a second connecting column 98, a rotary plate 99 and a second torsion spring 910, the connecting square rod 91 is connected to the rear side of the upper arc-shaped pipe 83, the first connecting column 94 is rotatably connected to the rear end of the telescopic pipe 85, the connecting circular hole plate 92 is connected to the upper side of the first connecting column 94, the connecting square rod 91 moves backwards to contact with the connecting circular hole plate 92, the rotary filter plate 93 is connected to the middle of the first connecting column 94, the rotary filter plate 93 is used for closing the telescopic pipe 85, the rotary filter plate 93 is located inside the telescopic pipe 85, two first torsion springs 95 are connected between the first connecting column 94 and the rear end of the telescopic pipe 85, the limiting slide 96 is connected to the rear side of the bottom of the telescopic pipe 85, spacing slide 96 and first spliced pole 94 sliding type connection enclose 1 rear side and are connected with case 97, and case 97 is used for concentrating and collects impurity, and case 97 and flexible pipe 85 intercommunication, case 97 lower part front side are connected with second spliced pole 98, and the last rotation type of second spliced pole 98 is connected with rotor plate 99, and rotor plate 99 is used for closed case 97 bottom, is connected with four second torsion spring 910 between rotor plate 99 and the second spliced pole 98.

When the arc pipe 83 moves forward, the connecting square rod 91 is further driven to move forward, when the connecting square rod 91 contacts with the connecting circular hole plate 92, the connecting circular hole plate 92 is further driven to rotate, the connecting circular hole plate 92 drives the first connecting column 94 to rotate, the first torsion spring 95 deforms, the first connecting column 94 drives the rotating filter plate 93 to rotate and open, when the arc pipe 83 drives the connecting square rod 91 to move forward and separate from the connecting circular hole plate 92, the first connecting column 94 and the rotating filter plate 93 are further driven to rotate and reset under the reset action of the first torsion spring 95, the rotating filter plate 93 blocks the passing of impurities, so that the impurities are stored in the telescopic pipe 85, when the arc pipe 83 moves backward and resets, the connecting square rod 91 is further driven to move backward and reset, when the connecting square rod 91 contacts with the connecting circular hole plate 92, the connecting circular hole plate 92 is further driven to rotate reversely, the connecting round hole plate 92 drives the first connecting post 94 to rotate reversely, the first torsion spring 95 deforms, the first connecting post 94 drives the rotating filter plate 93 to rotate reversely and open, so that impurities in the telescopic pipe 85 fall into the box 97, the box 97 collects the impurities in a centralized manner, the limiting slide 96 limits the first connecting post 94, further limits the rotating filter plate 93, prevents the impurities from passing through the rotating filter plate 93, drives the rotating filter plate 93 to rotate continuously to close the telescopic pipe 85 again, when the connecting square rod 91 is separated from the connecting round hole plate 92, the first connecting post 94 and the rotating filter plate 93 are driven to rotate forwardly and reset under the reset action of the first torsion spring 95, the rotating filter plate 93 closes the telescopic pipe 85, when people need to clean the impurities in the box 97, the rotating plate 99 is opened by manual rotation, the second torsion spring 910 deforms, so that the impurities slide along the rotating plate 99, after all the impurities in the box 97 fall out, the rotating plate 99 is loosened, and the rotating plate 99 is driven to rotate reversely and reset under the reset action of the second torsion spring 910.

Referring to fig. 1, 14, 15 and 16, the opening and closing mechanism 10 further comprises an opening and closing mechanism 10, wherein the opening and closing mechanism 10 comprises a connecting hole plate 101, a connecting rod 102, a cam plate 103, a second connecting shaft 106, a straight hole inclined plate 107 and a driving rod 109, the lower portion of the rear side of the rear hole plate 52 is connected with the connecting hole plate 101, the rear side of the connecting hole plate 101 is rotatably connected with the connecting rod 102, the upper side of the connecting rod 102 is connected with the first connecting column 94, the bottom of the connecting rod 102 is connected with the cam plate 103, the left side and the right side of the front side of the lower portion of the box 97 are rotatably connected with the second connecting shaft 106, the straight hole inclined plate 107 is rotatably connected on the second connecting shaft 106, the rear side of the straight hole inclined plate 107 is slidably connected with the rotating plate 99, the driving rod 109 is slidably connected between the upper portions of the straight hole inclined plates 107, and the driving rod 109 is slidably connected with the cam plate 103.

The second torsion spring 910 is deformed in the initial state, when the first connecting post 94 rotates, the connecting rod 102 is further driven to rotate, the connecting rod 102 drives the cam disc 103 to rotate, the rotating plate 99 is further driven to rotate to close the bottom of the box 97 under the action of the reset of the second torsion spring 910, the rotating plate 99 drives the straight hole inclined plate 107 to rotate, the driving rod 109 is further driven to move downwards to the lower end of the cam disc 103, when the first connecting post 94 reverses and resets, the connecting rod 102 is further driven to reverse and reset, the connecting rod 102 drives the cam disc 103 to reverse, the driving rod 109 is further driven to move upwards under the action of the cam disc 103, the driving rod 109 drives the straight hole inclined plate 107 to reverse, the rotating plate 99 is further driven to reverse and automatically open, the second torsion spring 910 is deformed, when the first connecting post 94 reverses, the connecting rod 102 is further driven to reverse, the connecting rod 102 drives the cam disc 103 to reverse, and the rotating plate 99 is further driven to rotate to close the bottom of the box 97 under the action of the reset of the second torsion spring 910, impurities in the extension tube 85 fall on the rotating plate 99 and are further stored in the box 97, the rotating plate 99 drives the straight hole inclined plate 107 to rotate, the driving rod 109 is further driven to move downwards to the lower end of the cam plate 103, when the first connecting column 94 returns to the positive rotation position, the connecting rod 102 is further driven to return to the positive rotation position, the connecting rod 102 drives the cam plate 103 to rotate positively, the driving rod 109 is further driven to move upwards under the action of the cam plate 103, the driving rod 109 drives the straight hole inclined plate 107 to rotate positively, the rotating plate 99 is further driven to rotate reversely and is opened automatically, the second torsion spring 910 deforms, the impurities slide along the rotating plate 99, and therefore people do not need to rotate manually to open the rotating plate 99, and manual operation is reduced.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims

1. The utility model provides a data center cold passageway connecting tube pull throughs, including enclosing frame (1), support frame (3) and connecting plate (4), enclose frame (1) bottom and be connected with support frame (3), enclose frame (1) front side even interval connection have three connecting plate (4), its characterized in that still including advancing mechanism (5) and sweep mechanism (6), enclose and be connected with advancing mechanism (5) on frame (1), be connected with the mechanism (6) of sweeping that is used for dredging the pipeline on advancing mechanism (5).

2. The dredging device for the cold channel connecting pipeline of the data center according to claim 1, wherein the propelling mechanism (5) comprises a multi-stage cylinder (51), a rear orifice plate (52), a front push plate (53), a fixing member (54), a limiting frame (55) and a reset spring (56), the rear side in the enclosure frame (1) is connected with the rear orifice plate (52), the rear orifice plate (52) is connected with four multi-stage cylinders (51) at uniform intervals, the front push plate (53) is connected between the front sides of the telescopic rods of the four multi-stage cylinders (51), the four fixing members (54) are connected with the front side in the enclosure frame (1) at uniform intervals, the fixing members (54) are all connected with the limiting frame (55) in a sliding manner, the four reset springs (56) are connected between the fixing member (54) at the upper side and the limiting frame (55) at the upper side, the four reset springs (56) are connected between the fixing member (54) at the lower side and the limiting frame (55) at the lower side, four reset springs (56) are connected between the fixing piece (54) on the left side and the limiting frame (55) on the left side, four reset springs (56) are connected between the fixing piece (54) on the right side and the limiting frame (55) on the right side, and the limiting frame (55) penetrates through the enclosure frame (1).

3. The dredging device for the cold channel connecting pipeline in the data center according to claim 2, wherein the sweeping mechanism (6) comprises a connecting seat (61), first contact wheels (62), limiting blocks (63) and a rotary dredging brush (64), the front side of the front push plate (53) is uniformly connected with four connecting seats (61) at intervals, the front side of the front push plate (53) is connected with eight limiting blocks (63), the rotary dredging brush (64) for dredging the pipeline is connected between the four connecting seats (61) and the eight limiting blocks (63), and the rotary dredging brush (64) is rotatably connected with four first contact wheels (62) at uniform intervals.

4. The dredging device for the cold channel connecting pipeline of the data center according to claim 3, further comprising an agitating mechanism (7) for further dredging the pipeline, wherein the agitating mechanism (7) comprises a first fixing frame (71), a second contact wheel (72), a pointed disk (73), a second fixing frame (74), a limiting ring (75), a gear set (76), a first connecting shaft (77) and a flat belt (78), the front side of the front push plate (53) is connected with the first fixing frame (71), the left and right sides of the first fixing frame (71) are rotatably connected with the second contact wheel (72), the left second contact wheel (72) is in contact with the left first contact wheel (62), the right second contact wheel (72) is in contact with the right first contact wheel (62), the pointed disk (73) for dredging the pipeline is rotatably connected in the middle of the first fixing frame (71), first mount (71) middle part is connected with second mount (74), first mount (71) middle part is connected with two spacing rings (75), two spacing rings (75) are connected with point dish (73) rotary type, the equal rotary type in upper and lower both sides at second mount (74) rear portion is connected with first connecting axle (77), first connecting axle (77) all with be connected with gear train (76) between point dish (73), gear train (76) comprise three gear, two gears of rear side all with the gear intermeshing of front side, first connecting axle (77) of downside and left second contact wheel (72) have flat belt (78) through the belt pulley around, first connecting axle (77) of upside and second contact wheel (72) on right side have flat belt (78) through the belt pulley around.

5. The dredging device for the cold channel connecting pipe of the data center according to claim 4, further comprising a suction mechanism (8) for cleaning impurities on the inner wall of the pipe, wherein the suction mechanism (8) comprises a connecting hole disc (81) and a suction machine (82), arc pipeline (83), support arc (84) and flexible pipe (85), preceding push pedal (53) rear side intermediate junction has connecting hole dish (81), connecting hole dish (81) rear side is connected with aspirator (82) that are used for absorbing the impurity of pipeline inner wall, be connected with four arc pipeline (83) on aspirator (82), four arc pipeline (83) all communicate with connecting hole dish (81), it is connected with support arc (84) to enclose frame (1) inner rear portion, be connected with flexible pipe (85) between back orifice plate (52) and aspirator (82), flexible pipe (85) are placed on supporting arc (84).

6. The dredging device for the cold channel connecting pipeline of the data center according to claim 5, further comprising a collecting mechanism (9) for collecting impurities in a centralized manner, wherein the collecting mechanism (9) comprises a connecting square rod (91), a connecting round hole plate (92), a rotating filter plate (93), a first connecting column (94), a first torsion spring (95), a limiting slide way (96), a box (97), a second connecting column (98), a rotating plate (99) and a second torsion spring (910), the rear side of the arc-shaped pipeline (83) at the upper side is connected with the connecting square rod (91), the rear end of the telescopic pipe (85) is rotatably connected with the first connecting column (94), the upper side of the first connecting column (94) is connected with the connecting round hole plate (92), the connecting square rod (91) moves backwards to be in contact with the connecting round hole plate (92), the middle part of the first connecting column (94) is connected with the rotating filter plate (93) for closing the telescopic pipe (85), rotation filter plate (93) are located flexible pipe (85) inside, be connected with two first torsion spring (95) between first spliced pole (94) and flexible pipe (85) rear end, flexible pipe (85) bottom rear side is connected with spacing slide (96), spacing slide (96) and first spliced pole (94) sliding type connection, it is connected with case (97) that are used for concentrating collection impurity to enclose frame (1) rear side, case (97) and flexible pipe (85) intercommunication, case (97) lower part front side is connected with second spliced pole (98), the last rotation type of second spliced pole (98) is connected with rotor plate (99) that are used for closed case (97) bottom, be connected with four second torsion spring (910) between rotor plate (99) and second spliced pole (98).

7. The dredging device for the connecting pipeline of the cold channel of the data center according to claim 6, further comprising an opening and closing mechanism (10) for automatically opening the rotating plate (99), wherein the opening and closing mechanism (10) comprises a connecting pore plate (101), a connecting rod (102), a cam disc (103), a second connecting shaft (106), a straight pore sloping plate (107) and a driving rod (109), the lower part of the rear side of the rear pore plate (52) is connected with the connecting pore plate (101), the rear side of the connecting pore plate (101) is rotatably connected with the connecting rod (102), the upper side of the connecting rod (102) is connected with the first connecting column (94), the bottom of the connecting rod (102) is connected with the cam disc (103), the left side and the right side of the front side of the lower part of the box (97) are rotatably connected with the second connecting shaft (106), the second connecting shaft (106) is rotatably connected with the straight pore sloping plate (107), the rear side of the straight pore sloping plate (107) is slidably connected with the rotating plate (99), a driving rod (109) is connected between the upper parts of the straight hole inclined plates (107) in a sliding way, and the driving rod (109) is connected with the cam disc (103) in a sliding way.

8. The dredging device for the cold channel connecting pipe of the data center according to claim 7, further comprising a handle (2), wherein the handle (2) is connected to the top of the enclosure frame (1) and is convenient for a user to carry.