CN110409720B

CN110409720B - Automatic resetting skylight system

Info

Publication number: CN110409720B
Application number: CN201910601313.5A
Authority: CN
Inventors: 赵韦华; 陈晨; 居承宗; 张忠贵; 张定根
Original assignee: ZHEJIANG SHIP ELECTRONIC TECHNOLOGY CO LTD
Current assignee: ZHEJIANG SHIP ELECTRONIC TECHNOLOGY CO LTD
Priority date: 2019-07-03
Filing date: 2019-07-03
Publication date: 2020-06-19
Anticipated expiration: 2039-07-03
Also published as: WO2021000409A1; CN110409720A

Abstract

The invention provides an automatic resetting skylight system, which belongs to the technical field of data centers and comprises two front and back cabinet top supporting pieces and a plurality of skylights which are hinged between the two cabinet top supporting pieces, wherein two rotating shafts of each skylight respectively extend out of the two cabinet top supporting pieces and are arranged in a way of deviating from the gravity center of the skylight, electromagnetic locks with the same number as the number of the skylights are arranged on one cabinet top supporting piece, and the electromagnetic locks attract window frames of the corresponding skylights, and the automatic resetting skylight system also comprises: the swing rod assembly is fixedly arranged below the front rotating shaft of the corresponding skylight; the push rod mechanism comprises an electric telescopic rod arranged at the left end of a front cabinet top supporting piece, a sliding rod horizontally arranged along the front cabinet top supporting piece, and a sliding block component fixedly arranged on the sliding rod, wherein the sliding block component is connected with a corresponding swing rod component through a connecting piece, and the telescopic end of the electric telescopic rod pushes the sliding rod to slide rightwards and simultaneously all swing rod components to rotate. The invention has the advantages of simple structure and coordinated operation.

Description

Automatic resetting skylight system

Technical Field

The invention belongs to the technical field of data centers, and relates to an automatic resetting skylight system.

Background

The skylight of the existing data center cold channel is a skylight which cannot be automatically closed, and a skylight which can be automatically closed. Automatically closable roof windows are disclosed: cn201610783599.x shows the following: the cabinet top support comprises a cabinet top support piece, a base frame and a rotating frame, wherein the base frame comprises a long frame edge and a short frame edge, a magnetic lock is arranged on the long frame edge, the rotating frame is in shaft connection with the short frame edge through a rotating shaft, and the rotating shaft is fixedly connected with the rotating frame; the rotating shaft is fixedly connected with a shaft connecting piece; electric telescopic handle and slider are equipped with to short frame edge, and the slider includes the bottom plate and locates the curb plate on the bottom plate, and the axle connecting piece is located the slip intracavity that curb plate and bottom plate formed, and the curb plate is located between axle connecting piece and electric telescopic handle's the flexible end.

However, the skylight system of the data center is complex in structure, each skylight needs to be provided with a point telescopic rod independently, the skylight opening speed is not uniform, the current load is large, the equipment power consumption is large, the number of fault points is large, and the skylight system is not beneficial to long-term use and later maintenance.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an automatic resetting skylight system which is simple in structure and coordinated in operation.

The purpose of the invention can be realized by the following technical scheme: automatic skylight system resets, including the cabinet top support piece that sets up around two, articulated a plurality of skylight of installing between two cabinet top support pieces, two pivots in every skylight stretch out two cabinet top support pieces respectively and with the skew setting in focus in skylight, install the electromagnetic lock with the same quantity in skylight on one of them cabinet top support piece, the window frame in skylight is corresponded in the electromagnetic lock actuation, still includes:

the number of the swing rod assemblies is the same as that of the skylight, and the swing rod assemblies are fixedly arranged below the front rotating shaft of the corresponding skylight;

push rod mechanism, it is including installing in the electric telescopic handle of preceding cabinet top support piece left end, along the slide bar of preceding cabinet top support piece level setting, set firmly the sliding block set on the slide bar, the quantity of sliding block set is the same with the pendulum rod subassembly, every sliding block set passes through the connecting piece and links to each other with corresponding the pendulum rod subassembly, when electric telescopic handle's flexible end promoted the slide bar slide right, whole skylight orientation rotated near the direction of magnetic force lock.

As a further improvement of the invention, the connecting piece is a spring, and the left end and the right end of the spring are respectively connected with the swing rod component and the sliding block component.

As a further improvement of the invention, the left end and the right end of the spring are both in a hook shape and are respectively connected with the swing rod component and the slide block component hook.

As a further improvement of the invention, the swing rod component comprises a swing piece fixedly connected with the front rotary shaft, the lower end face of the swing piece is connected with the connecting piece, the upper end face of the swing piece is concave downwards to form a movable groove for the sliding rod to pass through, and a limiting plate is fixedly arranged above the right side of the movable groove.

As a further improvement of the invention, the sliding block component comprises a support and a connecting block arranged above the support, the bottom surface of the support is attached to the front cabinet top supporting piece and is provided with a limiting groove, a limiting bulge fixedly connected with the front cabinet top supporting piece is arranged in the limiting groove, and the limiting bulge slides left and right along the limiting groove.

As a further improvement of the invention, a left clamping strip is arranged along the upper left side of the skylight window frame, a right clamping strip is arranged along the lower right side of the skylight window frame, and the left clamping strip of the rear skylight and the left clamping strip of the front skylight are matched with each other in a vertically concave-convex manner.

As a further improvement of the invention, the front side and the rear side of the skylight window frame respectively extend outwards and horizontally to form first flanges, the two first flanges are positioned on the left side of the corresponding skylight rotating shaft and respectively extend out of the two cabinet top supporting pieces, the electromagnetic lock is used for sucking one of the first flanges, the inner walls of the two cabinet top supporting pieces respectively extend inwards and horizontally to form second flanges corresponding to each skylight, and the two second flanges are positioned on the right side of the skylight rotating shaft and extend to the upper side of the corresponding skylight.

As a further improvement of the invention, a first groove is formed in a position, corresponding to the skylight rotating shaft, of the inner wall of the cabinet top supporting piece in a concave mode, a clamping and fixing plate is further installed in a position, corresponding to the skylight rotating shaft, of the cabinet top supporting piece, a second groove is formed in a concave mode on the clamping and fixing plate, the skylight rotating shaft is embedded between the first groove and the second groove, two screws penetrate through the clamping and fixing plate and are in threaded connection with the cabinet top supporting piece, and the clamping and fixing plate is provided with two strip-shaped grooves for the screws to slide left and right.

As a further improvement of the invention, the electric telescopic handle type power distribution cabinet further comprises a front row of cabinet and a rear row of cabinet, an operation panel arranged on a door plate of the cabinet and a control box arranged on the top of the cabinet, wherein two cabinet top supporting pieces are respectively arranged on the tops of the two rows of cabinets, the electric telescopic handle and the electromagnetic lock are electrically connected with the control box, and the operation panel is electrically connected with the control box so as to start and stop the electric telescopic handle.

As a further improvement of the invention, an environment monitoring unit is also arranged between the two rows of cabinets, the environment monitoring unit is electrically connected with the control box, and the operation panel controls the electric telescopic rod and the electromagnetic lock to work according to information fed back by the environment monitoring unit.

Based on the technical scheme, the embodiment of the invention can at least produce the following technical effects:

1. when the skylight is reset to the closed state from the open state, the electric telescopic rod is started and pushes the sliding rod to slide rightwards, and drives all the connecting pieces and the sliding block components to slide rightwards, and all the swing rod components swing rightwards under the pulling action of the connecting pieces, further driving the window frames of all the skylights to rotate towards the direction close to the magnetic lock until the electric telescopic rod returns to the initial state after the window frames are attracted with the magnetic lock, when the magnetic lock releases the window frame, the skylight is automatically opened under the action of gravity due to the eccentric structure, and the synchronous opening effect is achieved through the reverse motion of the swing rod component, the sliding block component and the sliding rod, and finally the synchronous opening and closing effect of all the skylights is achieved, compared with the existing structure, the structure of the whole system is simplified, only one motor is needed, the load is small, the cost is low, the operation is coordinated, the uniformity is high, and the opening and closing efficiency of the skylight is higher.

2. Because of machining precision and assembly error's reason, every skylight reaches the required effort of complete closure different, but the effort that electric telescopic rod applyed the slide bar is the same, consequently, for guaranteeing that whole skylight is complete closed, need the cooperation of electric telescopic rod to apply the effort of maximum demand, but can lead to other skylight excessive stress, produce the condition of deformation, set up the connecting piece into the spring, the reduction has arrived the effort that preset position skylight received, and then make the slide bar apply flexible effort to different skylights adaptively, when guaranteeing that whole skylights are complete closed, whole skylight system is not fragile, long service life is higher, the reliability is better.

Drawings

FIG. 1 is a perspective view of a preferred embodiment of the present invention.

Fig. 2 is a schematic structural view of the closed state of the sunroof.

Fig. 3 is a schematic structural view of the open state of the sunroof.

Fig. 4 is a partially enlarged view of a portion a in fig. 3.

Fig. 5 is a schematic structural view of the swing assembly.

FIG. 6 is a schematic structural view of a slider assembly.

Fig. 7 is a schematic view of the mounting of the clamping plate and the cabinet top support.

Fig. 8 is a schematic view of the structure of the sunroof.

In the figure, 100, a cabinet top support; 110. a second flange; 120. a first groove;

200. a skylight; 210. a rotating shaft; 220. a window frame; 221. a left clamping strip; 222. a right clamping strip; 223. a first flange;

300. an electromagnetic lock;

400. a swing rod component; 410. a swinging member; 411. a movable groove; 412. a limiting plate; 413. hooking;

500. a push rod mechanism; 510. an electric telescopic rod; 520. a slide bar; 530. a slider assembly; 531. a support; 531a, a limit groove; 531b, a limit bulge; 532. connecting blocks; 540. a spring;

600. a clamping and fixing plate; 610. a second groove; 620. a strip-shaped groove;

700. a cabinet; 710. an operation panel; 720. and a control box.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 8, the automatic resetting skylight system includes two rows of front and rear cabinets 700, two cabinet top supporting members 100 installed on the tops of the two rows of cabinets 700, and a plurality of skylights 200 installed between the two cabinet top supporting members 100, wherein two of the plurality of skylights 200 are tightly attached to each other, two rotating shafts 210 of a single skylight 200 respectively extend out of the two cabinet top supporting members 100 and are arranged in a left deviation manner relative to the gravity center of the skylight 200, the front cabinet top supporting members 100 are provided with electromagnetic locks 300 with the same number as the number of the skylights 200, the electromagnetic locks 300 attract and attach to window frames 220 of the corresponding skylights 200, a swing link assembly 400 is welded below the front rotating shaft 210 of the single skylight 200, and the swing link assembly 400 is pushed.

The push rod mechanism 500 specifically comprises an electric telescopic rod 510 installed at the left end of the front cabinet top supporting piece 100, a sliding rod 520 horizontally arranged along the front cabinet top supporting piece 100, and sliding block assemblies 530 fixedly arranged on the sliding rod 520, wherein the number of the sliding block assemblies 530 is the same as that of the swinging rod assemblies 400, each sliding block assembly 530 is connected with the corresponding swinging rod assembly 400 through a connecting piece and is positioned at the right side of the swinging rod assembly 400, and when the telescopic end of the electric telescopic rod 510 pushes the sliding rod 520 rightwards, all the skylights 200 rotate towards the direction close to the magnetic lock.

When the skylight 200 is reset from the open state to the closed state, the electric telescopic rod 510 is started and pushes the sliding rod 520 to slide rightwards, all the connecting pieces and the sliding block component 530 are driven to slide rightwards, all the swing rod components 400 swing rightwards under the pulling action of the connecting pieces to rotate, and further the window frames 220 of all the skylights 200 are driven to rotate towards the direction close to the magnetic locks, until the window frames 220 and the magnetic locks are attracted and wait for 2s, the electric telescopic rod 510 returns to the initial state, after the magnetic locks release the window frames 220, the skylight 200 is automatically opened under the action of gravity due to the eccentric structure, and the synchronous opening effect is achieved through the reverse motion of the swing rod components 400, the sliding block components 530 and the sliding rod 520, and finally the synchronous opening and closing effect of all the skylights 200 is achieved, compared with the existing structure, the whole system structure is simpler, only one motor is needed, the load is, uniformity is high and opening and closing efficiency of sunroof 200 is higher.

In this application, the connecting member is a spring 540, and the left and right ends of the spring 540 are respectively connected to the swing link assembly 400 and the slider assembly 530. Because of the reasons of processing precision and assembly error, the effort that every skylight 200 reached complete closure is different, but the effort that electric telescopic handle 510 applyed to slide bar 520 is the same, consequently for guaranteeing that whole skylight 200 is complete closure, need the cooperation of electric telescopic handle 510 to apply the effort of maximum demand, but can lead to other skylight 200 excessive stress, produce the condition of deformation, set up the connecting piece into spring 540, reduce the effort that preset position skylight 200 received, and then make slide bar 520 exert flexible effort to different skylight 200 adaptively, when guaranteeing that whole skylight 200 is complete closure, whole skylight system is not fragile, long service life is higher, the reliability is better.

Because the spring 540 is a quick-wear part, in order to facilitate the later maintenance and protection of the skylight system, the left end and the right end of the spring 540 are both in a hook shape and are respectively connected with the swing rod assembly 400 and the slide block assembly 530 hook, so that the spring 540 is more convenient to disassemble, assemble and replace.

The swing link assembly 400 includes a swing member 410 fixedly connected to the front rotating shaft 210, a lower end surface of the swing member 410 is connected to a hook of a spring 540 through a hook 413, a movable groove 411 for the sliding rod 520 to pass through is formed in a concave manner on an upper end surface of the swing member 410, and a limit plate 412 is fixedly disposed above a right side of the movable groove 411. By arranging the limiting plate 412, the damage to the skylight system caused by the excessive rotation of the skylight 200 under the extreme condition is prevented, so that the skylight system is protected, and the reliability is better.

The slider component 530 comprises a support 531 and a connecting block 532 arranged above the support 531, the bottom surface of the support 531 is attached to the front cabinet top supporting piece 100 and is provided with a limiting groove 531a, a limiting protrusion 531b fixedly connected with the front cabinet top supporting piece 100 is arranged in the limiting groove 531a, and the limiting protrusion 531b slides left and right along the limiting groove 531 a. Through the cooperation of the limiting protrusion 531b and the limiting groove 531a, the sliding block component 530 is guaranteed to move linearly without shaking left and right, the transmission effect is better and reliable, and the opening or closing process of the skylight system is smoother and more stable.

In order to ensure that adjacent skylights 200 are tightly attached to each other so as to ensure the sealing effect of the skylight system on the data center, a left clamping strip 221 with an inverted-L-shaped cross section is arranged above the left side of a window frame 220 of each skylight 200, a right clamping strip 222 with an L-shaped cross section is arranged below the right side of the window frame 220 of each skylight 200, and the left clamping strip 221 of the next skylight 200 is matched with the left clamping strip 221 of the previous skylight 200 in a vertically concave-convex manner. Preferably, the left clamping strip 221 and the right clamping strip 222 can be respectively bonded with sealing strips with elasticity, and the two sealing strips are in up-and-down wedge-shaped fit, so that when all the skylights 200 are closed, the two sealing strips are tensioned and sealed up and down.

In order to control the rotation posture of the skylight 200, the front side and the rear side of the skylight 200 window frame 220 are respectively provided with a first rib 223 extending outwards and horizontally, the two first ribs 223 are positioned at the left side of the corresponding skylight 200 rotating shaft 210 and respectively extend out of the two cabinet top supporting pieces 100, the electromagnetic lock 300 attracts one of the first ribs 223, the inner walls of the two cabinet top supporting pieces 100 are respectively provided with a second rib 110 extending inwards and horizontally and corresponding to each skylight 200, and the two second ribs 110 are positioned at the right side of the skylight 200 rotating shaft 210 and extend to the upper side of the corresponding skylight 200.

When electromagnetic lock 300 and first flange 223 butt, skylight 200 reachs the preset position of closed condition, and when first flange 223 and second flange 110 butt, skylight 200 reachs the preset position of open condition to guarantee skylight 200 at the rotation of predetermineeing the within range, skylight 200 activity safe and reliable more.

For reducing the processing difficulty of cabinet top support piece 100 and the installation complexity of skylight 200, the position that the inner wall of cabinet top support piece 100 corresponds skylight 200 pivot 210 is recessed to be formed with first recess 120, cabinet top support piece 100 still installs chucking board 600 in the position that corresponds skylight 200 pivot 210, chucking board 600 is recessed to be formed with second recess 610, the top surface of second recess 610 is circular-arc, skylight 200 pivot 210 imbeds between first recess 120, the second recess 610, two screws pass chucking board 600 and cabinet top support piece 100 spiro union, chucking board 600 is equipped with two strip-shaped grooves 620 that supply the screw to slide from side to side.

When the skylight 200 is installed, the rotating shaft 210 of the skylight 200 is firstly embedded into the first groove 120 of the cabinet top supporting piece 100, then the clamping plate 600 is inserted above the rotating shaft 210 along the second groove 610 to limit the vertical and horizontal translation movement of the rotating shaft 210, then the clamping groove is fixed on the cabinet top supporting piece 100 by using screws, and the installation position of the clamping plate 600 can be adjusted left and right along the strip-shaped groove 620, so that the installation gap of the rotating shaft 210 is reduced as much as possible, and the installation position of the skylight 200 can be adjusted.

This application is still including installing in the operating panel 710 of rack 700 door plant, install in the control box 720 at rack 700 top, electric telescopic handle 510, electromagnetic lock 300 is connected with control box 720 electricity, operating panel 710 is connected with control box 720 electricity and is stopped electric telescopic handle 510 in order to open, still install the environmental monitoring unit between two rows of racks 700, the environmental monitoring unit is connected with control box 720 electricity, operating panel 710 is according to the information control electric telescopic handle 510 of environmental monitoring unit feedback, the work of electromagnetic lock 300.

The user opens or closes the skylight 200 through the manual control operation panel 710, the skylight 200 can also be opened or closed according to the automatic control of the information that monitoring unit feedbacks in data center, and environmental monitoring unit can monitor data center temperature, humidity, smog and break-make electricity and fire control signal lamp information to improve the fail safe nature of skylight system and data center.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims

1. The utility model provides an automatic skylight system resets, includes the cabinet top support piece that sets up around two, articulates a plurality of skylight of installing between two cabinet top support pieces, and two pivots in single skylight stretch out two cabinet top support pieces respectively and with the skew setting in focus in skylight, install the electromagnetic lock with the same quantity in skylight on one of them cabinet top support piece, the window frame in skylight is corresponded in the electromagnetic lock actuation, its characterized in that still includes:

push rod mechanism, it is including installing in the electric telescopic handle of preceding cabinet top support piece left end, the slide bar that sets up along preceding cabinet top support piece level, set firmly the sliding block set on the slide bar, the quantity of sliding block set is the same with the pendulum rod subassembly, every sliding block set passes through the connecting piece and links to each other with corresponding the pendulum rod subassembly, the connecting piece is the spring, both ends are continuous with pendulum rod subassembly, sliding block set respectively about the spring, when electric telescopic handle's flexible end promoted the slide bar slide right, whole skylight rotated towards the direction that is close to the magnetic lock.

2. An automatic resetting skylight system according to claim 1, characterized in that: the left end and the right end of the spring are both in a hook shape and are respectively connected with the swing rod assembly and the sliding block assembly hook.

3. An automatic resetting skylight system according to claim 1, characterized in that: the swing rod assembly comprises a swing piece fixedly connected with the front rotary shaft, the lower end face of the swing piece is connected with the connecting piece, a movable groove for the sliding rod to penetrate through is formed in the lower concave portion of the upper end face of the swing piece, and a limiting plate is fixedly arranged above the right side of the movable groove.

4. An automatic resetting skylight system according to claim 1, characterized in that: the sliding block component comprises a support and a connecting block arranged above the support, the bottom surface of the support is attached to the front cabinet top supporting piece, a limiting groove is formed in the bottom surface of the support, a limiting protrusion fixedly connected with the front cabinet top supporting piece is arranged in the limiting groove, and the limiting protrusion slides left and right along the limiting groove.

5. An automatic resetting skylight system according to claim 1, characterized in that: and a left clamping strip is arranged above the left side of the skylight frame, a right clamping strip is arranged below the right side of the skylight frame, and the left clamping strip of the rear skylight and the left clamping strip of the front skylight are matched with each other in a vertically concave-convex manner.

6. An automatic resetting skylight system according to claim 1, characterized in that: the front side and the rear side of the skylight window frame respectively extend outwards and horizontally to form first flanges, the two first flanges are located on the left side of the corresponding skylight rotating shaft and respectively extend out of the two cabinet top supporting pieces, the electromagnetic lock is used for sucking one of the first flanges, the inner walls of the two cabinet top supporting pieces respectively extend inwards and horizontally to form second flanges corresponding to each skylight, and the two second flanges are located on the right side of the skylight rotating shaft and extend to the position above the corresponding skylight.

7. An automatic resetting skylight system according to claim 1, characterized in that: the inner wall of the cabinet top supporting piece is concavely provided with a first groove corresponding to the position of the skylight rotating shaft, a clamping and fixing plate is further installed at the position of the cabinet top supporting piece corresponding to the position of the skylight rotating shaft, a second groove is concavely formed on the clamping and fixing plate, the skylight rotating shaft is embedded between the first groove and the second groove, two screws penetrate through the clamping and fixing plate and are in threaded connection with the cabinet top supporting piece, and the clamping and fixing plate is provided with two strip-shaped grooves for the screws to slide left and right.

8. An automatic resetting skylight system according to claim 1, characterized in that: the electric telescopic handle is characterized by further comprising a front row of cabinets, a rear row of cabinets, an operation panel arranged on a door plate of the cabinet and a control box arranged on the top of the cabinet, wherein two cabinet top supporting pieces are respectively arranged on the tops of the two rows of cabinets, the electric telescopic handle, the electromagnetic lock and the control box are electrically connected, and the operation panel is electrically connected with the control box to start and stop the electric telescopic handle.

9. An automatic resetting skylight system according to claim 8, characterized in that: an environment monitoring unit is further installed between the two rows of cabinets and electrically connected with the control box, and the operation panel controls the electric telescopic rod and the electromagnetic lock to work according to information fed back by the environment monitoring unit.