CN220267511U - Sliding door assembly for data center machine room channel - Google Patents

Abstract

The utility model provides a sliding door component for a data center machine room channel, which comprises a moving component and a door component, wherein the moving component is used for connecting a plurality of data center machine rooms; the movable assembly is positioned above the door assembly and connected with the door assembly, and the door assembly moves on the movable assembly to realize the opening or closing of the door assembly. According to the sliding door assembly for the machine room channel of the data center, provided by the utility model, the material consumption and the area of the sliding door frame of the sliding door are reduced through the long and short side sectional materials, the glass occupancy of the sliding door is enlarged, the weight of the sliding door is reduced, the light transmission effect is improved, the sealing effect of the sliding door can be improved by adding the sealing hairbrush and the sealing rubber pad, the synchronous relative movement of the two doors can be realized through the staggered movement of the synchronous belts at the upper part and the lower part of the synchronous belt, the door closer can realize automatic door closing, the synchronous closing of the two doors can be realized by utilizing the synchronous belt, the manual operation is reduced, the rapid and automatic closing of the sliding door is ensured, the opening time is shortened, and the sealing effect is improved.

Description

Sliding door assembly for data center machine room channel

Technical Field

The utility model relates to a sliding door component for a data center machine room channel.

Background

With the rapid development of the information technology 5G application of big data, various fields are applied to computer systems, and the computer systems improve the working efficiency and reduce the working intensity. But the reliability of the operation in the machine room must be ensured in order to maintain the integrity and reliability of the system functions. Therefore, the cold channel is adopted for processing, so that the heat dissipation requirement is realized and the energy can be saved. At present, the social environment is required to be low in carbon, energy conservation and emission reduction are realized, the PUE value of machine room construction is an index for measuring the energy efficiency of a data center, the original channel door is difficult to produce and install, cold air leakage is easy to cause, and resources are wasted.

In order to improve the leakproofness of dodge gate, need seal the dodge gate all around, guarantee the airtight of passageway, but traditional dodge gate is because the needs of activity, can not accomplish totally sealed, can all use sealing gasket to realize sealing all around, just so need the high quality of sealing gasket and the degree of fit good, just can satisfy the seal, but sealing gasket is added in the assembly process, and manual installation hardly guarantees its precision.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the utility model provides a money data center computer lab passageway is with moving door subassembly utilizes the structure to seal, and the door frame of moving door adopts the section bar structure to carry out supplementary sealedly to reduce the sealed problem of moving door, improve the glass region of moving door, realize automatic door closing simultaneously, improve the work efficiency of moving door.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the movable door component for the data center machine room channel comprises a movable component and a door component; the moving assembly is positioned above the door assembly and connected with the door assembly, and the door assembly moves on the moving assembly to realize the opening or closing of the door assembly;

the movable assembly comprises a guide rail, a hanging wheel assembly, a door closer, a driven wheel and a synchronous belt; the guide rail is positioned below the movable door lintel and is fixed on the door lintel and used for bearing the whole movable door; the hanging wheel assembly is positioned on the guide rail and matched with the guide rail, and the lower part of the hanging wheel assembly is connected with the door assembly to drive the door assembly to freely move on the guide rail; the door closer is positioned on the guide rail, downwards extends to the hanging wheel assembly, is positioned on one side of the hanging wheel assembly and is used for automatically closing the opened movable door; the driven wheels are positioned at two sides of the guide rail and are connected with the guide rail; the synchronous belt is positioned on the driven wheel, spans the guide rail, is connected with the hanging wheel assembly and the door closer, the door closer is connected with the upper part of the synchronous belt, and the hanging wheel assembly is connected with the lower part of the synchronous belt;

the door assembly comprises a movable door frame, a ball collision card and a brush; the movable door frame wraps the periphery of the movable door and supports the movable door to form a door structure; the ball collision clamps are positioned above the movable door frame and distributed along the vertical direction, and are positioned at one side of the movable door frame; the hairbrush is positioned on the inner side of the movable door frame, is connected with the movable door frame and contacts the ground or the wall of the data center machine room.

Further, the hanging wheel assembly is provided with a supporting plate, a connecting plate, a moving plate and a moving pulley; the supporting plate is positioned above the movable door frame and is fixedly connected with the movable door frame; the connecting plates are positioned above the supporting plates and distributed along the vertical direction, and one side of each connecting plate is fixedly connected with the supporting plates; the movable plate is positioned on the supporting plate and is parallel to the connecting plate and fixedly connected with the connecting plate through bolts; the movable pulley is positioned on the movable plate, is connected with the movable plate and freely slides in the guide rail.

Further, the hanging wheel assemblies are arranged in four, two hanging wheel assemblies are distributed on two doors of the movable door, the hanging wheel assembly on one door is contacted with the door closer, and the hanging wheel assembly on the other door is connected with the synchronous belt.

Further, the door closer comprises a closing block and a closing hydraulic pipe; the closing block is positioned at one side of the hanging wheel assembly, is abutted against the hanging wheel assembly and is connected with the synchronous belt; the closing hydraulic pipe is positioned on the guide rail, is fixedly connected with the guide rail, one side of the closing hydraulic pipe is connected with the closing block, when the movable door is opened, the closing block moves along with one of the movable doors, after the pulling force applied by the door is disappeared, the closing hydraulic pipe drives the closing block to recover, thereby driving one of the movable doors to carry out closing movement, and the other door moves through the synchronous belt, so that automatic closing of the movable door is realized.

Further, two buffer limiting pieces are arranged on the guide rail, are fixed at fixed positions on the guide rail, and one buffer limiting piece is positioned at one side of the movable door of the door closer and used for limiting the closing position of the movable door; one on each side of the hanging wheel assembly of the other sliding door, for limiting the opening position of the sliding door.

Further, the guide rail is further provided with a collision bead, the collision bead is fixed on the guide rail and matched with the collision bead clamp, when the collision bead clamp touches the collision bead, the movable door is indicated to be opened to the maximum, and the movable door cannot be opened continuously.

Further, the movable door frame is formed by combining sectional materials, two groups of sectional materials are arranged and are respectively positioned at the periphery of two doors, namely long-side sectional materials and short-side sectional materials, and the short-side sectional materials are positioned at the upper side and the lower side and are in contact with the ground of a machine room and the guide rail; the long-side section bars are positioned at the left side and the right side and are mutually abutted or abutted with the machine room wall.

Further, the long-side section bar is provided with a brush groove and a damping seal groove, and the brush groove faces to a machine room wall and is used for installing a brush so that the movable door is sealed with the wall; the damping sealing groove is positioned on one side of the long-side profile and is used for sealing and damping between two sealing doors.

Further, the short side section is provided with a brush clamping groove and a limiting groove, and the brush clamping groove faces to the ground of a machine room or the guide rail and is used for sealing the upper side and the lower side of the movable door; the limit groove is matched with the shape of the guide rail and is used for limiting the moving track of the moving door.

Compared with the prior art, the sliding door component for the data center machine room channel provided by the utility model has the advantages that the material consumption and the area of the sliding door frame of the sliding door are reduced through the long and short side sectional materials, the glass occupancy of the sliding door is enlarged, the weight of the sliding door is reduced, the light transmission effect is improved, the sealing effect of the sliding door can be improved by adding the sealing brushes and the rubber pads, the synchronous relative movement of the two doors is realized through the dislocation movement of the synchronous belts at the upper part and the lower part of the synchronous belt, the door closer can realize the automatic closing of the two doors, the synchronous closing of the two doors can be realized by utilizing the synchronous belt, the manual operation is reduced, the rapid and automatic closing of the sliding door is ensured, the opening time of the sliding door is shortened, and the sealing effect is improved.

Drawings

Fig. 1 shows a front view of the sliding door of the present utility model.

Fig. 2 shows a schematic structural view of the sliding door of the present utility model.

Fig. 3 shows an enlarged view at a of the present utility model.

Fig. 4 shows an enlarged view at B of the present utility model.

Fig. 5 shows a cross-section of a long side profile of the utility model.

Fig. 6 shows a cross-section of a short side profile of the utility model.

Wherein: 1. moving assembly, 2, door assembly, 3, guide rail, 4, hanging wheel assembly, 5, door closer, 6, driven wheel, 7, synchronous belt, 8, moving door frame, 9, ball-striking card, 10, brush, 11, supporting plate, 12, connecting plate, 13, moving plate, 14, moving pulley, 15, closing block, 16, closing hydraulic pipe, 17, buffer limiting piece, 18, ball-striking, 19, long side section bar, 20, short side section bar, 21, brush groove, 22, shock absorption sealing groove, 23, brush clamping groove, 24 and limiting groove.

Detailed Description

As shown in the figure, a sliding door assembly 2 for a data center machine room channel comprises a moving assembly 1 and a door assembly 2; the movable assembly 1 is positioned above the door assembly 2 and connected with the door assembly 2, and the door assembly 2 moves on the movable assembly 1 to realize the opening or closing of the door assembly 2;

the moving assembly 1 comprises a guide rail 3, a hanging wheel assembly 4, a door closer 5, a driven wheel 6 and a synchronous belt 7; the guide rail 3 is positioned below the movable door lintel and is fixed on the door lintel and used for bearing the whole movable door; the hanging wheel assembly 4 is positioned on the guide rail 3 and matched with the guide rail 3, and the lower part of the hanging wheel assembly is connected with the door assembly 2 to drive the door assembly 2 to freely move on the guide rail 3; the door closer 5 is positioned on the guide rail 3, downwards extends to the hanging wheel assembly 4, is positioned on one side of the hanging wheel assembly 4 and is used for automatically closing after the movable door is opened; the driven wheels 6 are positioned at two sides of the guide rail 3 and are connected with the guide rail 3; the synchronous belt 7 is positioned on the driven wheel 6, spans the guide rail 3, is connected with the hanging wheel assembly 4 and the door closer 5, the door closer 5 is connected with the upper part of the synchronous belt 7, and the hanging wheel assembly 4 is connected with the lower part of the synchronous belt 7;

the door assembly 2 comprises a movable door frame 8, a ball collision card 9 and a brush 10; the movable door frame 8 wraps the periphery of the movable door and supports the movable door to form a door structure; the ball collision cards 9 are positioned above the movable door frame 8, distributed along the vertical direction and positioned at one side of the movable door frame 8; the brush 10 is positioned at the inner side of the movable door frame 8, is connected with the movable door frame 8, and contacts the ground or the wall of the data center machine room.

Further, the hanging wheel assembly 4 is provided with a supporting plate 11, a connecting plate 12, a moving plate 13 and a moving pulley 14; the supporting plate 11 is positioned above the movable door frame 8 and is fixedly connected with the movable door frame 8; the connecting plates 12 are positioned above the supporting plates 11 and distributed along the vertical direction, and one side of each connecting plate is fixedly connected with the supporting plates 11; the movable plate 13 is positioned on the supporting plate 11, is parallel to the connecting plate 12 and is fixedly connected with the connecting plate 12 through bolts; the movable pulley 14 is located on the movable plate 13, is connected with the movable plate 13, and freely slides in the guide rail 3.

Further, the hanging wheel assemblies 4 are arranged in four, two of the hanging wheel assemblies are distributed on two doors of the movable door, the hanging wheel assembly 4 on one door is contacted with the door closer 5, and the hanging wheel assembly 4 on the other door is connected with the synchronous belt 7.

Further, the door closer 5 comprises a closing block 15 and a closing hydraulic pipe 16; the closing block 15 is positioned at one side of the hanging wheel assembly 4, is in contact with the hanging wheel assembly 4 and is connected with the synchronous belt 7; the closing hydraulic pipe 16 is located on the guide rail 3 and fixedly connected with the guide rail 3, one side of the closing hydraulic pipe is connected with the closing block 15, when the movable door is opened, the closing block 15 moves along with one of the movable doors, after the pulling force applied by the door is disappeared, the closing hydraulic pipe 16 drives the closing block 15 to recover, so that one of the movable doors is driven to perform closing movement, and the other door moves through the synchronous belt 7, so that automatic closing of the movable door is realized.

Further, a buffer limiting piece 17 is arranged on the guide rail, the buffer limiting piece 17 is fixed on the fixed position on the guide rail, two buffer limiting pieces are arranged, one buffer limiting piece is positioned on one side of the movable door of the door closer 5 and used for limiting the closing position of the movable door; one on each side of the hanger wheel assembly 4 of the other sliding door for restricting the opening position of the sliding door.

Further, the guide rail is further provided with a ball 18, the ball 18 is fixed on the guide rail and is matched with the ball clamp 9, when the ball clamp 9 touches the ball 18, the movable door is indicated to be opened to the maximum, and the movable door cannot be opened continuously.

Furthermore, the movable door frame 8 is formed by combining profiles, two groups of profiles are arranged, the profiles are respectively positioned at the periphery of the two doors, the profiles are respectively long-side profiles 19 and short-side profiles 20, and the short-side profiles 20 are positioned at the upper side and the lower side and are in contact with the ground of a machine room and the guide rails; the long side section bars 19 are positioned at the left side and the right side and are mutually abutted or are mutually abutted with the machine room wall.

Further, the long-side profile 19 is provided with a brush groove 21 and a damping seal groove 22, and the brush groove 21 faces to a wall of a machine room and is used for installing a brush so that the movable door is sealed with the wall; the damping seal groove 22 is located at one side of the long side section bar 19 and is used for sealing and damping between two sealing doors.

Further, the short side section bar 20 is provided with a brushing slot 23 and a limiting slot 24, wherein the brushing slot 23 faces the ground of a machine room or the guide rail for sealing the upper side and the lower side of the movable door; the limit groove 24 is matched with the shape of the guide rail and is used for limiting the moving track of the moving door.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the technical solution, and those skilled in the art should understand that modifications and equivalents may be made to the technical solution of the present utility model without departing from the spirit and scope of the present utility model, and all the modifications and equivalents are included in the scope of the claims of the present utility model.

Claims (9)

1. A movable door component for a data center machine room channel, which is characterized by comprising a movable component and a door component; the moving assembly is positioned above the door assembly and connected with the door assembly, and the door assembly moves on the moving assembly to realize the opening or closing of the door assembly;

the movable assembly comprises a guide rail, a hanging wheel assembly, a door closer, a driven wheel and a synchronous belt; the guide rail is positioned below the movable door lintel and is fixed on the door lintel and used for bearing the whole movable door; the hanging wheel assembly is positioned on the guide rail and matched with the guide rail, and the lower part of the hanging wheel assembly is connected with the door assembly to drive the door assembly to freely move on the guide rail; the door closer is positioned on the guide rail, downwards extends to the hanging wheel assembly, is positioned on one side of the hanging wheel assembly and is used for automatically closing the opened movable door; the driven wheels are positioned at two sides of the guide rail and are connected with the guide rail; the synchronous belt is positioned on the driven wheel, spans the guide rail, is connected with the hanging wheel assembly and the door closer, the door closer is connected with the upper part of the synchronous belt, and the hanging wheel assembly is connected with the lower part of the synchronous belt;

the door assembly comprises a movable door frame, a ball collision card and a brush; the movable door frame wraps the periphery of the movable door and supports the movable door to form a door structure; the ball collision clamps are positioned above the movable door frame and distributed along the vertical direction, and are positioned at one side of the movable door frame; the hairbrush is positioned on the inner side of the movable door frame, is connected with the movable door frame and contacts the ground or the wall of the data center machine room.

2. The sliding door assembly for a data center room channel according to claim 1, wherein the hanging wheel assembly is provided with a supporting plate, a connecting plate, a moving plate and a moving pulley; the supporting plate is positioned above the movable door frame and is fixedly connected with the movable door frame; the connecting plates are positioned above the supporting plates and distributed along the vertical direction, and one side of each connecting plate is fixedly connected with the supporting plates; the movable plate is positioned on the supporting plate and is parallel to the connecting plate and fixedly connected with the connecting plate through bolts; the movable pulley is positioned on the movable plate, is connected with the movable plate and freely slides in the guide rail.

3. The door moving assembly for a data center room according to claim 2, wherein the number of the hanging wheel assemblies is four, the hanging wheel assemblies are distributed on two doors of the moving door two by two, the hanging wheel assembly on one door is contacted with the door closer, and the hanging wheel assembly on the other door is connected with the synchronous belt.

4. The door moving assembly for a data center room passage according to claim 1, wherein the door closer comprises a closing block and a closing hydraulic pipe; the closing block is positioned at one side of the hanging wheel assembly, is abutted against the hanging wheel assembly and is connected with the synchronous belt; the closing hydraulic pipe is positioned on the guide rail, is fixedly connected with the guide rail, one side of the closing hydraulic pipe is connected with the closing block, when the movable door is opened, the closing block moves along with one of the movable doors, after the pulling force applied by the door is disappeared, the closing hydraulic pipe drives the closing block to recover, thereby driving one of the movable doors to carry out closing movement, and the other door moves through the synchronous belt, so that automatic closing of the movable door is realized.

5. The door moving assembly for a data center room passage according to claim 1, wherein a buffer stopper is provided on the guide rail, the buffer stopper is fixed at a fixed position on the guide rail, two buffer stoppers are provided, one buffer stopper is provided at one side of the door moving door of the door closer for restricting a closing position of the door moving door; one on each side of the hanging wheel assembly of the other sliding door, for limiting the opening position of the sliding door.

6. The door assembly for a data center room according to claim 1, wherein the guide rail is further provided with a ball, the ball is fixed on the guide rail and cooperates with the ball catch, and when the ball catch touches the ball catch, it indicates that the door is opened to the maximum, and the door cannot be opened continuously.

7. The movable door assembly for the machine room channel of the data center according to claim 1, wherein the movable door frame is formed by combining profiles, two groups of the movable door frame are arranged around two doors respectively, namely long-side profiles and short-side profiles, the short-side profiles are positioned on the upper side and the lower side and are in contact with the machine room ground and the guide rail; the long-side section bars are positioned at the left side and the right side and are mutually abutted or abutted with the machine room wall.

8. The sliding door assembly for a data center machine room channel according to claim 7, wherein the long side profile is provided with a brush groove and a shock absorbing seal groove, and the brush groove faces to a machine room wall and is used for installing a brush so that the sliding door is sealed with the wall; the damping sealing groove is positioned on one side of the long-side profile and is used for sealing and damping between two sealing doors.

9. The sliding door assembly for a data center machine room channel according to claim 7, wherein the short side profile is provided with a brush clamping groove and a limiting groove, the brush clamping groove faces the machine room ground or the guide rail and is used for sealing the upper side and the lower side of the sliding door; the limit groove is matched with the shape of the guide rail and is used for limiting the moving track of the moving door.