A door windproof device and a door windproof method using the same
By designing a windproof device with pre-installed reinforcing beams and an electric locking mechanism, the problem of cumbersome reinforcement operations for the gate in windy weather is solved, enabling rapid reinforcement and easy unlocking, thus ensuring the gate's safety and normal use.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- ZHONGSHAN ELECTRIC POWER ENG
- Filing Date
- 2026-03-30
- Publication Date
- 2026-07-07
AI Technical Summary
In existing technologies, reinforcing gates in windy weather is cumbersome and inconvenient to handle afterwards, making it difficult to complete quickly and affecting normal use.
Design a windproof device that includes a reinforced crossbeam, a locking mechanism on the closed side, and a locking mechanism on the open side. The device automatically reinforces the door before strong winds arrive by pre-installing and using an electrically driven locking mechanism, and automatically releases the lock after the weather ends, ensuring the door can be opened and closed normally.
It enables rapid reinforcement and easy unlocking of the gate, avoiding the hassle of manual operation and ensuring the gate's safety and normal use in windy weather.
Smart Images

Figure CN122344971A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to power plant facilities, and particularly to a windproof device for a gate and a method for windproofing a gate using the same. Background Technology
[0002] For power plants, the main gate needs to be reinforced before typhoons or other strong winds to prevent it from being blown down. Current technology typically involves fixing a reinforcing beam to the gate before strong winds arrive, and temporarily securing the ends of the beam to the walls on both sides of the gate. This windproofing method requires temporary work by construction personnel, which is cumbersome. In urgent situations with strong winds, it's difficult to complete the reinforcement work quickly. Furthermore, after the winds subside, the temporary fixing structure needs to be manually dismantled to avoid affecting the normal opening and closing of the gate, making subsequent handling quite troublesome. Summary of the Invention
[0003] This invention aims to solve at least one of the technical problems existing in the prior art. To this end, this invention proposes a windproof device for gates, which can quickly reinforce gates, is easy to operate, and requires simple post-installation handling.
[0004] The present invention also proposes a method for windproofing a gate, which is applied to the aforementioned gate windproofing device.
[0005] According to a first aspect of the present invention, a gate windproof device includes: a reinforcing beam for horizontal connection to a gate; a closing-side locking mechanism for installation on a closing-side wall, the closing-side wall being the side of the wall in which the gate moves when it is laterally closed, the closing-side locking mechanism being able to lock one end of the reinforcing beam when the gate is closed; and an opening-side locking mechanism for installation on an opening-side wall, the opening-side wall being the side of the wall in which the gate moves when it is laterally opened, the gate retracting to the rear side of the opening-side wall when it is open, the rear side of the opening-side wall having a receiving groove, the receiving groove being covered when the gate is closed and exposed when the gate is open, the opening-side locking mechanism being disposed in the receiving groove, the opening-side locking mechanism being movably disposed in the receiving groove and being able to extend from and retract into the receiving groove, the opening-side locking mechanism being able to extend from the receiving groove and lock the other end of the reinforcing beam when the gate is closed.
[0006] The windproof gate device according to embodiments of the present invention has at least the following advantages: The aforementioned windproof gate device allows the reinforcing beam, the closing-side locking mechanism, and the opening-side locking mechanism to be pre-installed in their respective positions. Before a strong wind arrives, power station personnel can directly lock both ends of the reinforcing beam using the closing-side and opening-side locking mechanisms to reinforce the gate, eliminating the need for temporary fixing work and simplifying operation. When the strong wind ends, the closing-side locking mechanism releases its lock on one end of the reinforcing beam, and the opening-side locking mechanism releases its lock on the other end of the reinforcing beam and retracts into the receiving slot, thus not affecting the normal opening and closing of the gate. Post-event handling is simple and convenient.
[0007] According to some embodiments of the present invention, the door-closing locking mechanism includes a first locking seat, a fixed pin, and a first locking device. The first locking seat is used to fix the door-closing side wall. The fixed pin is disposed in the first locking seat and extends along the length direction of the reinforcing beam and is opposite to one end of the reinforcing beam. The reinforcing beam is provided with a pin hole opposite to the fixed pin. The first locking device is disposed in the first locking seat and is located on the periphery of the axis of the fixed pin. When the door is closed, one end of the reinforcing beam is engaged with the fixed pin through the pin hole. The first locking device is used to engage with the periphery of one end of the reinforcing beam and lock one end of the reinforcing beam.
[0008] According to some embodiments of the present invention, the first locking seat includes a fixed base and a connecting seat. The fixed base is used to fix to the closed door side wall, the connecting seat is fixed to the fixed base, and the fixing pin and the first locking device are disposed on the connecting seat. The connecting seat is an L-shaped seat and includes a first rod portion and a second rod portion. One end of the first rod portion and the second rod portion are connected to each other, the other end of the first rod portion is fixed to the fixed base, the fixing pin is fixed to the first rod portion, and the first locking device is fixed to the second rod portion.
[0009] According to some embodiments of the present invention, the door-opening side locking mechanism includes a rotating frame and a second locking device. The rotating frame is an L-shaped frame, and the rotating frame includes a third rod and a fourth rod. One end of the third rod and the fourth rod are connected to each other, and the other end of the third rod is rotatably disposed in the receiving groove along a vertically arranged rotation axis. The second locking device is disposed on the fourth rod. The rotating frame can rotate into the receiving groove and rotate to extend the fourth rod out of the receiving groove. When the door is closed and the rotating frame rotates out of the receiving groove, the other end of the reinforcing beam is retracted to the front side of the fourth rod. The second locking device is used to cooperate with the periphery of the other end of the reinforcing beam and lock the other end of the reinforcing beam.
[0010] According to some embodiments of the present invention, the door-opening side locking mechanism further includes a rotary drive mechanism, which is disposed in the receiving groove and used to drive the rotating frame to rotate; the rotary drive mechanism includes a linkage gear and a drive motor, the linkage gear is rotatably disposed on the groove wall of the receiving groove via a pivot shaft disposed vertically, the other end of the third rod is fixed to the linkage gear, the drive motor is fixed in the receiving groove, and the output shaft of the drive motor is linked to the linkage gear to drive the linkage gear to rotate.
[0011] According to a second aspect embodiment of the present invention, a method for windproofing a gate includes the following steps: installing the windproofing device for a gate as described in the first aspect embodiment of the present invention at the gate; when it is necessary to reinforce the gate for windproofing, closing the gate and locking one end of the reinforcing beam by the closing-side locking mechanism, so that the opening-side locking mechanism extends out from the receiving groove and locks the other end of the reinforcing beam; when it is not necessary to reinforce the gate for windproofing, releasing the locking of the closing-side locking mechanism and the opening-side locking mechanism at both ends of the reinforcing beam, and retracting the opening-side locking mechanism into the receiving groove.
[0012] The windproofing method for gates according to embodiments of the present invention has at least the following beneficial effects: the above method can be used to easily reinforce and windproof gates, and the operation is convenient.
[0013] According to some embodiments of the present invention, the closing-side locking mechanism and the opening-side locking mechanism are both electrically driven mechanisms, and the closing-side locking mechanism and the opening-side locking mechanism are electrically connected to a control host. The control host is equipped with a network module for obtaining weather forecast information, and the control host is configured to, when a strong wind forecast is issued, control the closing-side locking mechanism and the opening-side locking mechanism to lock the two ends of the reinforcing beam respectively within a predetermined time while the door is closed.
[0014] According to some embodiments of the present invention, the closing-side locking mechanism and the opening-side locking mechanism are both electrically driven mechanisms, and the closing-side locking mechanism and the opening-side locking mechanism are electrically connected to a control host; the control host is electrically connected to a wind speed sensor for detecting the wind speed around the door, and the control host is configured to control the closing-side locking mechanism and the opening-side locking mechanism to lock the two ends of the reinforcing beam respectively when the wind speed detected by the wind speed sensor is greater than a predetermined value and the door is closed.
[0015] According to some embodiments of the present invention, the door-closing locking mechanism and the door-opening locking mechanism are both electrically driven mechanisms, and the door-closing locking mechanism and the door-opening locking mechanism are electrically connected to a control host; the control host is provided with a network module for obtaining weather forecast information and a communication module for communicating with a smart terminal, the communication module storing a contact list of management personnel and a contact list of execution personnel, and the control host is also electrically connected to a wind speed sensor for detecting the wind speed around the door; The control host is configured with a control method, which includes the following steps: The local weather forecast information is obtained in real time through the network module, and the wind speed data is obtained in real time through the wind speed sensor. When the network module obtains weather forecast information for strong winds, it sends the information to the smart terminals of the managers and employees through the communication module and the manager address book and the employee address book stored therein, in order to issue an initial warning; When the time reaches the day before the start date of the strong wind weather forecast, or when the wind speed detected by the wind speed sensor exceeds the first predetermined value, the information is sent to the smart terminals of the manager and the execution personnel through the communication module for a secondary warning; after the control host has issued the secondary warning, the control host sends confirmation information to the manager for gate reinforcement and waits for the manager to send a command to allow gate reinforcement; when the control host receives the command to reinforce the gate, it notifies the execution personnel to close the gate through the communication module; after the gate is closed, the control host locks both ends of the reinforcement beam through the closing side locking mechanism and the opening side locking mechanism; When the wind speed detected by the wind speed sensor exceeds the second predetermined value, the control host automatically controls the locking mechanism on the closed side and the locking mechanism on the open side to lock both ends of the reinforcing beam after the gate is closed, and then sends the information that emergency reinforcement has been carried out to the management personnel and the execution personnel through the communication module, wherein the second predetermined value is greater than the first predetermined value; When the predicted period of strong winds has passed and the wind speed detected by the wind speed sensor is lower than the third predetermined value, the control host controls the locking mechanism on the closed side and the locking mechanism on the open side to release the locking of the reinforced crossbeam, and notifies the management personnel and the execution personnel through the communication module.
[0016] According to some embodiments of the present invention, the gate is configured to be electrically opened and closed, the control host is electrically connected to the drive device that controls the opening and closing of the gate, and before the control host controls the locking mechanism on the closing side and the locking mechanism on the opening side to lock the two ends of the reinforcing beam respectively, when the gate is not closed, the control host controls the gate to close first.
[0017] Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. Attached Figure Description
[0018] The above and / or additional aspects and advantages of the present invention will become apparent and readily understood from the description of the embodiments taken in conjunction with the following drawings, in which: Figure 1 This is a three-dimensional schematic diagram of the gate when it is open, according to an embodiment of the present invention. Figure 2 This is a three-dimensional schematic diagram of the gate when it is closed, according to an embodiment of the present invention. Figure 3 This is a perspective view of the closed-door side enclosure and the closed-door side locking mechanism according to an embodiment of the present invention; Figure 4 for Figure 3 A three-dimensional diagram from another perspective; Figure 5 This is a perspective view of the gate according to an embodiment of the present invention; Figure 6 for Figure 2 Enlarged view of point A; Figure 7 for Figure 2 Enlarged view of point B; Figure 8 for Figure 7 A schematic diagram of the structure after the door-opening side locking mechanism locks the reinforced crossbeam.
[0019] Figure label: 1. Main gate; 2. Wall on the side with the gate closed; 3. Wall on the side with the gate open; 31. Reception slot; Reinforce the crossbeam 100, and the pin hole 110; The door-closing side locking mechanism 200 includes a first locking seat 210, a fixed pin 220, a first locking device 230, a fixed base 211, a connecting seat 212, a front side plate 2111, a rear side plate 2112, a first rod 2121, and a second rod 2122. The door opening side locking mechanism 300, the rotating frame 310, the second locking device 320, the rotation drive mechanism 330, the third rod 311, the fourth rod 312, the connecting gear 331, and the drive motor 332. Detailed Implementation
[0020] Embodiments of the present invention are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.
[0021] In the description of this invention, it should be understood that the orientation descriptions, such as up, down, front, back, left, right, etc., are based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limiting this invention.
[0022] In the description of this invention, "several" means one or more, "more than" means two or more, "greater than," "less than," and "exceeding" are understood to exclude the stated number, while "above," "below," and "within" are understood to include the stated number. The use of "first" and "second" in the description is merely for distinguishing technical features and should not be construed as indicating or implying relative importance, or implicitly indicating the number of indicated technical features, or implicitly indicating the order of the indicated technical features.
[0023] In the description of this invention, unless otherwise explicitly defined, terms such as "set up," "install," and "connect" should be interpreted broadly, and those skilled in the art can reasonably determine the specific meaning of the above terms in this invention in conjunction with the specific content of the technical solution.
[0024] Reference Figures 1 to 8 A windproof device for a gate includes: a reinforcing beam 100, a locking mechanism on the closing side 200, and a locking mechanism on the opening side 300. The reinforcing beam 100 is horizontally connected to the gate 1, and the locking mechanism on the closing side 200 is installed on the wall 2 on the closing side, which is the side of the wall that the gate 1 faces when it is moved to close. The locking mechanism on the closing side 200 can lock one end of the reinforcing beam 100 when the gate 1 is closed. The door-opening side locking mechanism 300 is installed on the door-opening side wall 3, which is the side wall that the door 1 moves towards when it is opened. When the door 1 is opened, it is retracted to the rear side of the door-opening side wall 3. The rear side of the door-opening side wall 3 is provided with a receiving groove 31. When the door 1 is closed, the receiving groove 31 is covered, and when the door 1 is opened, the receiving groove 31 is exposed. The door-opening side locking mechanism 300 is set in the receiving groove 31. The door-opening side locking mechanism 300 is movable in the receiving groove 31 and can extend out of and retract into the receiving groove 31. When the door 1 is closed, the door-opening side locking mechanism 300 can extend out of the receiving groove 31 and lock the other end of the reinforcing beam 100.
[0025] The aforementioned windproof gate device allows the reinforcing beam 100, the closing-side locking mechanism 200, and the opening-side locking mechanism 300 to be pre-installed in their respective positions. Before a strong wind arrives, power station personnel can directly lock both ends of the reinforcing beam 100 using the closing-side locking mechanism 200 and the opening-side locking mechanism 300 to reinforce the gate 1, eliminating the need for temporary fixing and simplifying the operation. When the strong wind subsides, the closing-side locking mechanism 200 releases its lock on one end of the reinforcing beam 100, and the opening-side locking mechanism 300 releases its lock on the other end of the reinforcing beam 100 and retracts into the receiving slot 31, thus not affecting the normal opening and closing of the gate 1. Post-event handling is simple and convenient.
[0026] In this embodiment, the door-closing locking mechanism 200 includes a first locking seat 210, a fixed pin 220, and a first locking device 230. The first locking seat 210 is used to fix the door-closing wall 2. The fixed pin 220 is disposed in the first locking seat 210. The fixed pin 220 extends along the length of the reinforcing beam 100 and is opposite to one end of the reinforcing beam 100. The reinforcing beam 100 is provided with a pin hole 110 opposite to the fixed pin 220. The first locking device 230 is disposed in the first locking seat 210 and is located on the periphery of the axis of the fixed pin 220. When the door 1 is closed, one end of the reinforcing beam 100 is engaged with the fixed pin 220 through the pin hole 110. The first locking device 230 is used to engage with the periphery of one end of the reinforcing beam 100 and lock one end of the reinforcing beam 100. When the gate 1 is closed, the fixing pin 220 can be directly inserted into one end of the reinforcing beam 100 along its length to form a fixed position, and then further locked by the first locking device 230, thereby firmly fixing one end of the reinforcing beam 100. When it is not necessary to lock the reinforcing beam 100, the first locking device 230 can be released, and when the gate 1 is opened, the fixing pin 220 can be directly removed, thus not affecting the closing of the gate. The locking mechanism 200 on the closing side adopts the above structure, which can stably lock one end of the reinforcing beam 100. In the embodiment, the end of the fixing pin 220 is tapered, which facilitates the guidance to the pin hole 110 inserted into one end of the reinforcing beam 100.
[0027] In this embodiment, the first locking seat 210 includes a fixed base 211 and a connecting seat 212. The fixed base 211 is fixed to the closed-door side wall 2, and the connecting seat 212 is fixed to the fixed base 211. A fixing pin 220 and a first locking device 230 are disposed on the connecting seat 212. The connecting seat 212 is an L-shaped seat and includes a first rod portion 2121 and a second rod portion 2122. One end of the first rod portion 2121 and the second rod portion 2122 are connected to each other, and the other end of the first rod portion 2121 is fixed to the fixed base 211. The fixing pin 220 is fixed to the first rod portion 2121, and the first locking device 230 is fixed to the second rod portion 2122. The first locking seat 210, with the above-described structure, can structurally and simply form a layout structure for the fixing pin 220 and the first locking device 230.
[0028] In this embodiment, the fixed base 211 includes a front side plate 2111 and a rear side plate 2112. The front side plate 2111 and the rear side plate 2112 are respectively used to fit against the front and rear sides of the closed-door side wall 2. The front side plate 2111 and the rear side plate 2112 are fixed to each other by fasteners that pass through the closed-door side wall 2. The connecting seat 212 is fixed to the rear side plate 2112. With the above structure and through-wall fixing method, the first locking seat 210 is firmly fixed.
[0029] In the embodiment, the aforementioned fastener may be a screw that passes through or is embedded in the closed side wall 2. The front side plate 2111 and the rear side plate 2112 are provided with corresponding openings. The screw passes through the opening and is locked by a nut, thereby achieving fixation.
[0030] It is conceivable that the fixed base 211 is not limited to the structure described above for fixing. In this field, there are many ways to fix the base to the wall, which will not be described one by one here.
[0031] In this embodiment, the door-opening locking mechanism 300 includes a rotating frame 310 and a second locking device 320. The rotating frame 310 is an L-shaped frame and includes a third rod 311 and a fourth rod 312. One end of the third rod 311 and the fourth rod 312 are connected to each other. The other end of the third rod 311 is rotatably disposed in the receiving groove 31 along the vertically arranged rotation axis. The second locking device 320 is disposed on the fourth rod 312. The rotating frame 310 can rotate into the receiving groove 31 and rotate to make the fourth rod 312 extend out of the receiving groove 31. When the door 1 is closed and the rotating frame 310 rotates out of the receiving groove 31, the other end of the reinforcing beam 100 is retracted to the front side of the fourth rod 312. The second locking device 320 is used to cooperate with the periphery of the other end of the reinforcing beam 100 and lock the other end of the reinforcing beam 100. When the gate 1 is closed, the rotating frame 310 can be rotated out of the receiving groove 31 and locked at the other end of the reinforcing beam 100 by the second locking device 320, thus completing the locking of the other end of the reinforcing beam 100. After a windy day, the locking of the reinforcing beam 100 can be released by the second locking device 320, and then the rotating frame 310 can be rotated to retract into the receiving groove 31, so as not to affect the normal closing of the gate 1. The locking mechanism 200 on the closing side adopts the above structure, which is simple and easy to implement. The rotating frame 310 has an L-shaped structure. When the gate 1 is closed, it can lock the other end of the reinforcing beam 100, and with the locking action of the second locking device 320, the locking is secure.
[0032] In this embodiment, the door-opening locking mechanism 300 further includes a rotary drive mechanism 330. The rotary drive mechanism 330 is disposed in the receiving groove 31 and is used to drive the rotating frame 310 to rotate. The rotary drive mechanism 330 includes a connecting gear 331 and a drive motor 332. The connecting gear 331 is rotatably disposed on the groove wall of the receiving groove 31 via a pivot shaft arranged vertically. The other end of the third rod portion 311 is fixed to the connecting gear 331. The drive motor 332 is fixed inside the receiving groove 31. The output shaft of the drive motor 332 is linked to the connecting gear 331 to drive the connecting gear 331 to rotate. With the above structure, the rotating frame 310 can be electrically driven to rotate, facilitating automated operation.
[0033] In one embodiment, the output shaft of the drive motor 332 can be connected to a drive gear, which in turn meshes with a connecting gear 331, thereby driving the rotating frame 310 to rotate. It is conceivable that in other embodiments, the drive motor 332 can also be linked to the connecting gear 331 via other linkage mechanisms, such as belt drives, etc., depending on the specific configuration required.
[0034] In one embodiment, the first locking device 230 specifically employs a locking motor, which drives the nut to rotate. A stud, compatible with the nut, is provided on the circumferential surface of the other end of the reinforcing beam 100. The nut is fixed by screwing it onto the stud. Alternatively, in some embodiments, the locking motor drives a screw to rotate and screws it into a corresponding threaded hole on the circumferential surface of the other end of the reinforcing beam 100 for locking. In another embodiment, the second locking device 320 specifically employs a clamping motor with a telescopic end. The telescopic end can press against the circumferential surface of the other end of the reinforcing beam 100 or insert into a positioning hole on the circumferential surface of the other end of the reinforcing beam 100, thereby achieving fixation. It is conceivable that in other embodiments, the implementation methods of the first locking device 230 and the second locking device 320 can be interchanged or one of the above-described embodiments can be used simultaneously, or a manual locking device structure can be employed.
[0035] In this embodiment, the closing-side locking mechanism 200 and the opening-side locking mechanism 300 are mainly electrically operated for ease of operation. In some embodiments, to reduce costs, a manual structure can also be used to lock both ends of the reinforcing beam 100. For example, in some embodiments (not shown in the figures), both the closing-side locking mechanism 200 and the opening-side locking mechanism 300 include a U-shaped rod. The U-shaped rod includes a snap-fit rod and rotating rods connected to both ends of the snap-fit rod. The snap-fit rod and the two rotating rods form a U-shape. A sliding block is hinged to the end of the rotating rod. The sliding block is slidably disposed on the upper and lower walls of the receiving groove 31. The sliding block can be locked in position relative to the receiving groove 31 by a locking mechanism. When the sliding block moves to the side of the receiving groove 31 closer to the door opening, rotating the U-shaped rod will allow the entire U-shaped rod to be retracted into the receiving groove 31. A locking mechanism for locking the position of the sliding block is provided between the sliding block and the corresponding side wall. Multiple locking teeth are provided on the rear sides of both ends of the reinforcing beam 100. These teeth are arranged along the length of the reinforcing beam 100, and each tooth has a locking slot on its side near the middle of the reinforcing beam 100 that matches the locking rod of the U-shaped rod. When it is necessary to lock both ends of the reinforcing beam 100, the U-shaped rods of the closing-side locking mechanism 200 and the opening-side locking mechanism 300 are rotated and extended out of the receiving groove 31. The position of the U-shaped rod is adjusted by moving the sliding block, so that the U-shaped rod is sleeved onto the corresponding end of the reinforcing beam 100. The locking rod engages with the locking slot of the locking tooth, and finally, the position of the sliding block is locked by the locking mechanism. Through the above structure, the locking tooth structure forms a pull rod lock, ensuring a reliable lock on the reinforcing beam 100. The above structure can also be easily operated manually. In the above embodiment, the sliding block can be locked and fixed by a structure such as a fastening screw or a pin, which can be configured according to the actual situation.
[0036] In other embodiments, the locking mechanism 200 on the closed side and the locking mechanism 300 on the open side are not limited to the above-described implementation. In the art, there are many specific implementation structures for locking components, which will not be described one by one here.
[0037] In this embodiment, two reinforcing beams 100 are arranged vertically, and the locking mechanism 200 on the closed side, the locking mechanism 300 on the open side, and the reinforcing beams 100 are arranged in corresponding groups. Using this structure, the gate 1 can be more effectively reinforced. In this embodiment, two reinforcing beams 100 are provided. In other embodiments, the number of reinforcing beams 100 is not limited to two; for example, it can be one or more, depending on the actual situation.
[0038] In this embodiment, the reinforcing beam 100 can be attached to the gate 1 by means of overlapping, snap-fitting, fastener connection or welding, etc.
[0039] The windproofing method for a gate provided by this invention includes the following steps: Installing the windproofing device of the first aspect embodiment of this invention at the gate 1; when windproofing the gate 1 needs to be reinforced, closing the gate 1, locking one end of the reinforcing beam 100 by the closing-side locking mechanism 200, and allowing the opening-side locking mechanism 300 to extend from the receiving groove 31 and lock the other end of the reinforcing beam 100; when windproofing the gate 1 does not need to be reinforced, releasing the locking of the closing-side locking mechanism 200 and the opening-side locking mechanism 300 at both ends of the reinforcing beam 100, and retracting the opening-side locking mechanism 300 into the receiving groove 31. Using the above method, windproofing the gate 1 can be conveniently reinforced, and the operation is easy.
[0040] In this embodiment, both the door-closing locking mechanism 200 and the door-opening locking mechanism 300 are electrically driven mechanisms. The door-closing locking mechanism 200 and the door-opening locking mechanism 300 are electrically connected to the control host, thereby enabling electric reinforcement operations.
[0041] In one embodiment, the control host is equipped with a network module for obtaining weather forecast information. The control host is configured to, when a strong wind forecast is received, control the locking mechanism 200 on the closed side and the locking mechanism 300 on the open side to lock both ends of the reinforcing beam 100 within a predetermined time, while the gate 1 is closed. Using this method, by obtaining weather forecasts via the network, the gate 1 can be automatically reinforced against strong winds within a predetermined time when a strong wind forecast is received, preventing property damage to the power station due to forgetfulness or insufficient personnel during the failure to reinforce the gate 1.
[0042] In another embodiment, the control host is electrically connected to a wind speed sensor for detecting wind speed around the gate 1. The control host is configured to, when the wind speed detected by the wind speed sensor exceeds a predetermined value, control the locking mechanism 200 on the closed side and the locking mechanism 300 on the open side to lock both ends of the reinforcing beam 100, respectively, while the gate 1 is closed. Using the above method, by detecting wind speed through a sensor, the gate 1 can be automatically reinforced against wind when the wind speed exceeds a predetermined safe range, preventing property damage to the power station due to forgetfulness or insufficient personnel in failing to reinforce the gate 1.
[0043] In other embodiments, the control host is equipped with a network module for obtaining weather forecast information and a communication module for communicating with smart terminals. The communication module stores the address book of management personnel and the address book of execution personnel. The control host is also electrically connected to a wind speed sensor for detecting the wind speed around the gate 1. The control host is configured with a control method, which includes the following steps: The local weather forecast information is obtained in real time through the network module, and the wind speed data is obtained in real time through the wind speed sensor. When the network module obtains weather forecast information for strong winds, it sends the information to the smart terminals of the managers and employees through the communication module and its stored contact lists for managers and employees to issue an initial warning. When the time reaches the day before the start date of the gale weather forecast, or when the wind speed detected by the wind speed sensor exceeds the first predetermined value, the information is sent to the smart terminals of the management personnel and the execution personnel through the communication module for secondary warning; after the control host has issued the secondary warning, the control host sends the management personnel confirmation information to reinforce the gate, and waits for the management personnel to send the command notification to allow the gate reinforcement; when the control host receives the command to reinforce the gate, it notifies the execution personnel to close gate 1 through the communication module. After gate 1 is closed, the control host locks both ends of the reinforcement beam 100 through the door-closing side locking mechanism 200 and the door-opening side locking mechanism 300. When the wind speed detected by the wind speed sensor exceeds the second predetermined value, the control host automatically controls the locking mechanism 200 on the closed side and the locking mechanism 300 on the open side to lock and reinforce both ends of the crossbeam 100 after the gate 1 is closed. Then, it sends the information that emergency reinforcement has been carried out to the management personnel and the execution personnel through the communication module. The second predetermined value is greater than the first predetermined value. When the predicted period of strong winds has passed and the wind speed detected by the wind speed sensor is lower than the third predetermined value, the control host controls the door-closing locking mechanism 200 and the door-opening locking mechanism 300 to release the locking of the reinforcing beam 100, and notifies the management personnel and the execution personnel through the communication module.
[0044] By clearly defining the responsibilities of management and execution personnel, wind protection management of Gate 1 can be implemented more meticulously. Access to weather forecasts via network and on-site wind speed monitoring allows for multiple confirmations, improving the scientific rigor and accuracy of wind protection management. Multiple, reasonable wind warnings and emergency reinforcement features ensure that Gate 1 can be reinforced against wind when needed. These methods combined form a scientific, rational, and meticulous gate wind protection management system, effectively guaranteeing the property security of the power station.
[0045] In the embodiments, the first predetermined value, the second predetermined value, and the third predetermined value can be configured reasonably according to the actual situation.
[0046] In this embodiment, the control host can be an industrial control computer, PLC, etc. In this embodiment, the networking module can be the control program of the control host or a networking device. It is understood that networking modules are a conventional technical means in this field and can be implemented using existing technologies as needed. In this embodiment, the smart terminal can be a mobile phone, tablet, computer, etc.
[0047] In this embodiment, the gate 1 is configured to open and close electrically. The control host is electrically connected to the drive device that controls the opening and closing of the gate 1. Before the control host locks the two ends of the reinforcing beam 100 with the closing-side locking mechanism 200 and the opening-side locking mechanism 300 respectively, when the gate 1 is not closed, the control host controls the gate 1 to close first. Using the above method, when the gate 1 needs to be reinforced, the gate 1 can be automatically closed, realizing automated operation.
[0048] The technical features of the above embodiments can be combined in any way. For the sake of brevity, not all possible combinations of the technical features in the above embodiments are described. However, as long as there is no contradiction in the combination of these technical features, they should be considered to be within the scope of this specification.
[0049] The embodiments of the present invention have been described in detail above with reference to the accompanying drawings. However, the present invention is not limited to the above embodiments. Within the scope of knowledge possessed by those skilled in the art, various changes can be made without departing from the spirit of the present invention.
Claims
1. A windproof device for a gate, characterized in that, include: A reinforcing beam (100) is used for horizontal connection to the gate (1); A door-closing side locking mechanism (200) is used to install on the door-closing side wall (2), the door-closing side wall (2) is the side wall in which the door (1) moves when it is closed. The door-closing side locking mechanism (200) can lock one end of the reinforcing beam (100) when the door (1) is closed. A door-opening side locking mechanism (300) is installed on the door-opening side wall (3). The door-opening side wall (3) is the side wall in which the door (1) moves when it is opened. When the door (1) is opened, it retracts to the rear side of the door-opening side wall (3). A receiving groove (31) is provided on the rear side of the door-opening side wall (3). When the door (1) is closed, it covers the receiving groove (31). When the door (1) is opened, it exposes the receiving groove (31). The door-opening side locking mechanism (300) is provided in the receiving groove (31). The door-opening side locking mechanism (300) is movably provided in the receiving groove (31) and can extend out of the receiving groove (31) and retract into the receiving groove (31). When the door (1) is closed, the door-opening side locking mechanism (300) can extend out of the receiving groove (31) and lock the other end of the reinforcing beam (100).
2. The gate windproof device according to claim 1, characterized in that: The door-closing side locking mechanism (200) includes a first locking seat (210), a fixing pin (220), and a first locking device (230). The first locking seat (210) is used to fix the door-closing side wall (2). The fixing pin (220) is disposed on the first locking seat (210). The fixing pin (220) extends along the length of the reinforcing beam (100) and is opposite to one end of the reinforcing beam (100). The reinforcing beam (100) is provided with a locking device that is connected to the fixing pin. The pin (220) is opposite the pin hole (110), and the first locking device (230) is disposed on the first locking seat (210) and located on the periphery of the axis of the fixed pin (220); when the door (1) is closed, one end of the reinforcing beam (100) is inserted and engaged with the fixed pin (220) through the pin hole (110), and the first locking device (230) is used to engage with the periphery of one end of the reinforcing beam (100) and lock one end of the reinforcing beam (100).
3. The gate windproof device according to claim 2, characterized in that: The first locking seat (210) includes a fixed base (211) and a connecting seat (212). The fixed base (211) is used to fix to the closed door side wall (2). The connecting seat (212) is fixed to the fixed base (211). The fixed pin (220) and the first locking device (230) are disposed on the connecting seat (212). The connecting seat (212) is an L-shaped seat and includes a first rod part (2121) and a second rod part (2122). One end of the first rod part (2121) and the second rod part (2122) are connected to each other. The other end of the first rod part (2121) is fixed to the fixed base (211). The fixed pin (220) is fixed to the first rod part (2121). The first locking device (230) is fixed to the second rod part (2122).
4. The gate windproof device according to claim 1, characterized in that: The door-opening side locking mechanism (300) includes a rotating frame (310) and a second locking device (320). The rotating frame (310) is an L-shaped frame, and includes a third rod (311) and a fourth rod (312). One end of the third rod (311) and the fourth rod (312) are connected to each other. The other end of the third rod (311) is rotatably disposed in the receiving groove (31) along the vertically arranged rotating axis. The second locking device (320) is disposed on the fourth rod (311). 12), the rotating frame (310) can rotate into the receiving groove (31) and rotate so that the fourth rod (312) extends out of the receiving groove (31); when the door (1) is closed and the rotating frame (310) rotates out of the receiving groove (31), the other end of the reinforcing beam (100) is retracted to the front side of the fourth rod (312), and the second locking device (320) is used to cooperate with the periphery of the other end of the reinforcing beam (100) and lock the other end of the reinforcing beam (100).
5. The gate windproof device according to claim 4, characterized in that: The door-opening side locking mechanism (300) further includes a rotary drive mechanism (330), which is disposed in the receiving groove (31) and used to drive the rotating frame (310) to rotate. The rotary drive mechanism (330) includes a connecting gear (331) and a drive motor (332). The connecting gear (331) is rotatably disposed on the groove wall of the receiving groove (31) through a pivot shaft set up vertically. The other end of the third rod (311) is fixed to the connecting gear (331). The drive motor (332) is fixed in the receiving groove (31). The output shaft of the drive motor (332) is linked to the connecting gear (331) to drive the connecting gear (331) to rotate.
6. A method for windproofing a gate, characterized in that, The procedure includes the following steps: installing the windproof door device according to any one of claims 1 to 5 at the door (1); when it is necessary to reinforce the door (1) for windproofing, closing the door (1), locking one end of the reinforcing beam (100) by the closing side locking mechanism (200), so that the opening side locking mechanism (300) extends out from the receiving groove (31) and locks the other end of the reinforcing beam (100); when it is not necessary to reinforce the door (1) for windproofing, releasing the locking of the closing side locking mechanism (200) and the opening side locking mechanism (300) on both ends of the reinforcing beam (100), and putting the opening side locking mechanism (300) into the receiving groove (31).
7. The windproofing method for gates according to claim 6, characterized in that: The closing-side locking mechanism (200) and the opening-side locking mechanism (300) are both electrically driven mechanisms. The closing-side locking mechanism (200) and the opening-side locking mechanism (300) are electrically connected to the control host. The control host is equipped with a network module for obtaining weather forecast information. The control host is configured to control the closing-side locking mechanism (200) and the opening-side locking mechanism (300) to lock the two ends of the reinforcing beam (100) respectively within a predetermined time when a strong wind forecast occurs and the door (1) is closed.
8. The windproofing method for gates according to claim 6, characterized in that: Both the closing-side locking mechanism (200) and the opening-side locking mechanism (300) are electrically driven mechanisms. The closing-side locking mechanism (200) and the opening-side locking mechanism (300) are electrically connected to the control host. The control host is electrically connected to a wind speed sensor for detecting the wind speed around the gate (1). The control host is configured to control the closing-side locking mechanism (200) and the opening-side locking mechanism (300) to lock the two ends of the reinforcing beam (100) respectively when the wind speed detected by the wind speed sensor is greater than a predetermined value and the gate (1) is closed.
9. The windproofing method for gates according to claim 6, characterized in that: The closing-side locking mechanism (200) and the opening-side locking mechanism (300) are both electrically driven mechanisms. The closing-side locking mechanism (200) and the opening-side locking mechanism (300) are electrically connected to the control host. The control host is equipped with a network module for obtaining weather forecast information and a communication module for communicating with smart terminals. The communication module stores the address book of management personnel and the address book of execution personnel. The control host is also electrically connected to a wind speed sensor for detecting the wind speed around the gate (1). The control host is configured with a control method, which includes the following steps: The local weather forecast information is obtained in real time through the network module, and the wind speed data is obtained in real time through the wind speed sensor. When the network module obtains weather forecast information for strong winds, it sends the information to the smart terminals of the managers and employees through the communication module and the manager address book and the employee address book stored therein, in order to issue an initial warning; When the time reaches the day before the start date of the strong wind weather forecast, or when the wind speed detected by the wind speed sensor exceeds the first predetermined value, the information is sent to the smart terminal of the manager and the execution personnel through the communication module for a second warning; after the control host has issued a second warning, the control host sends confirmation information to the manager for gate reinforcement and waits for the manager to send a command to allow gate reinforcement; when the control host receives the command to reinforce the gate, it notifies the execution personnel to close the gate (1) through the communication module; after the gate (1) is closed, the control host locks both ends of the reinforcement beam (100) through the closing side locking mechanism (200) and the opening side locking mechanism (300); When the wind speed detected by the wind speed sensor exceeds the second predetermined value, the control host automatically controls the locking mechanism (200) on the closed side and the locking mechanism (300) on the open side to lock the two ends of the reinforcing beam (100) after the gate (1) is closed, and then sends the information that the reinforcement has been urgently reinforced to the management personnel and the execution personnel through the communication module, wherein the second predetermined value is greater than the first predetermined value; When the predicted period of strong winds has passed and the wind speed detected by the wind speed sensor is lower than the third predetermined value, the control host controls the door-closing locking mechanism (200) and the door-opening locking mechanism (300) to release the locking of the reinforcing beam (100), and notifies the management personnel and the execution personnel through the communication module.
10. The windproofing method for gates according to claim 7, 8, or 9, characterized in that: The gate (1) is configured to be electrically opened and closed. The control host is electrically connected to the drive device that controls the opening and closing of the gate (1). Before the control host controls the locking mechanism (200) on the closing side and the locking mechanism (300) on the opening side to lock the two ends of the reinforcing beam (100) respectively, when the gate (1) is not closed, the control host controls the gate (1) to close first.