MAINTENANCE WINDOW LOCKING DEVICE

TECHNICAL FIELD

The embodiments of the present application relate to, but are not limited to, the technical field of communications, and more particularly to, but are not limited to, a maintenance window locking device.

BACKGROUND

In the field of communications, there are more and more requirements for radio remote unit (RRU), active antenna unit (AAU) or the like, including smaller and smaller volume, higher and higher impression and operation, and convenience for engineering installation and subsequent maintenance. This requires that the structures of respective parts of a product should be as easy to operate as possible, and so should a maintenance window. At present, most of the commonly used maintenance windows are fixed and locked by hinges and screws, that is, a maintenance window cover and a maintenance window body are connected by a hinge, thereby realizing rotation. A cable outgoing position is located at one end opposite to the position where the maintenance window body is hinged. After a cable is drawn out from the maintenance window body, the maintenance window cover is rotated to be buckled with the maintenance window body, and then fixed to the maintenance window body with a screw, so as to compress sealing rubber materials fixed on the maintenance window body and the maintenance window cover, thereby preventing foreign matter and water from entering the maintenance window and improving the protection level of the ingress protection (IP) of the maintenance window.

The existing maintenance window locking structure requires at least two screws to realize the locking of the maintenance window cover and the maintenance window body. Therefore, corresponding operating tools must be carried on an engineering installation site. However, it is difficult and time-consuming to tighten the screws one by one under harsh environmental conditions. Meanwhile, the probability of protection failure of a maintenance window device due to incomplete tightening of the screws or other unreliable tightening reasons is also increased, thereby affecting the safe operation of the entire equipment.

SUMMARY

A maintenance window locking device provided by an embodiment of the present application aims to solve one of the related technical problems at least to a certain extent, including how to improve the protection level of the ingress protection of a maintenance window and the reliability of the maintenance window locking device.

In view of this, an embodiment of the present application provides a maintenance window locking device. The maintenance window locking device includes: a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, and a roller. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body is connected to a first end of the maintenance window cover. The fastening plate body is rotatably connected to a second end of the maintenance window cover. The first limiting mechanism is located on the maintenance window body. The fastening plate body drives the maintenance window cover to move toward the maintenance window body. The roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that the maintenance window cover and the maintenance window body are tightly attached.

Other features and corresponding beneficial effects of the present application are set forth in subsequent parts of the description, and it should be understood that at least some of the beneficial effects will become apparent from the description of the present application.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a schematic structural diagram of a maintenance window locking device according to example Embodiment one of the present application;

FIG. 2 is an exploded view of a maintenance window locking device according to example Embodiment two of the present application;

FIG. 3 is a side view of a fastening plate relative to a maintenance window body when a maintenance window is closed according to example Embodiment two of the present application;

FIG. 4 is a partial enlarged view of a position of a first limiting mechanism relative to a roller according to example Embodiment two of the present application;

FIG. 5 is a sectional view corresponding to the partial enlarged view of FIG. 4;

FIG. 6 is a partial enlarged view of a position of a spring lock hook relative to a baffle plate after the maintenance window is locked according to example Embodiment two of the present application;

FIG. 7 is a schematic structural diagram after the maintenance window locking device is locked according to example Embodiment two of the present application;

FIG. 8 is a sectional view after a maintenance window body, a maintenance window cover, a rotating shaft and a shaft sleeve are assembled according to example Embodiment two of the present application;

FIG. 9 is a schematic structural diagram of a maintenance window locking device according to example Embodiment three of the present application;

FIG. 10 is a schematic diagram of a mounting position of the maintenance window locking device applied to AUU according to example Embodiment three of the present application;

FIG. 11 is a schematic structural diagram of a maintenance window locking device according to Embodiment 4 of the present application; and

FIG. 12 is a partial enlarged sectional view after a captive screw is locked to a maintenance window cover according to Embodiment 4 of the present application.

- Reference numerals: 1 refers to maintenance window body; 2 refers to maintenance window cover; 3 refers to fastening plate; 1a refers to first limiting mechanism; 1b refers to rotating shaft; 1c refers to first shaft sleeve; 1d refers to second shaft sleeve; le refers to support with a first connecting hole; 2a1 refers to baffle plate; 2a2 refers to threaded hole; 3a refers to roller; 3b1 refers to spring lock hook; 3b2 refers to captive screw; 3c refers to pin.

DETAILED DESCRIPTION

In order to make the objectives, technical schemes and advantages of the present application more clear, the embodiments of the present application will be further described in detail below through implementations in conjunction with the accompanying drawings. It should be understood that the embodiments described herein are only used to explain the present application, but not to limit the present application.

Example Embodiment One

In order to improve the protection level of the ingress protection of a maintenance window and the reliability of a maintenance window locking device, the present application provides a maintenance window locking device. The maintenance window locking device provided by the present application is described below with reference to the embodiments.

FIG. 1 is a schematic structural diagram of a maintenance window locking device according to example Embodiment one of the present application. The maintenance window locking device includes: a maintenance window body 1, a maintenance window cover 2, a fastening plate 3, a first limiting mechanism 1a including a groove, and a roller 3a. The fastening plate 3 includes a fastening plate body and a pin 3c (not shown in FIG. 1) which are of an integrated structure; the pin 3c is rotatably connected to the roller 3a. The maintenance window body 1 is hinged to a first end of the maintenance window cover 2. The fastening plate 3 body is rotatably connected to a second end of the maintenance window cover 2. The first limiting mechanism 1a is located on the maintenance window body 1. The fastening plate 3 body drives the maintenance window cover 2 to move toward the maintenance window body 1. The roller 3a rolls along the first limiting mechanism 1a until the roller is clamped into the groove, such that the maintenance window cover 2 and the maintenance window body 1 are tightly attached. The pin 3c is located on an inner side surface at an end of the fastening plate body where the fastening plate body is rotatably connected to the second end of the maintenance window cover. The fastening plate body may be in a shape of “hollow square (like a Chinese character” or in a “U” shape. When the fastening plate body is in the shape of “hollow square”, the fastening plate body further includes at least one strip structure or triangular structure at one end; and when the fastening plate body is in a “U” shape, the fastening plate 3 body further includes at least one strip structure or triangular structure at the open end, and the pin 3c rotatably connected to the roller 3a is located on an inner side surface of the strip structure or triangular structure. The pin 3c may include a first pin and a second pin. The roller 3a may include a first roller and a second roller. The first roller is rotatably connected to the first pin. The second roller is rotatably connected to the second pin.

The first limiting mechanism 1a including the groove in this embodiment is located on the maintenance window body 1. The fastening plate 3 body drives the maintenance window cover 2 to move toward the maintenance window body 1. The roller 3a rolls along the first limiting mechanism 1a until the roller is clamped into the groove of the first limiting mechanism 1a, such that the maintenance window cover 2 and the maintenance window body 1 are tightly attached. An elastic sealing material is provided on the maintenance window cover 2 and/or on the maintenance window body 1. It is worth noting that the first limiting mechanism 1a may be mounted on the maintenance window body 1 as shown in FIG. 2, or the first limiting mechanism 1a and the maintenance window body 1 are of an integrated structure as shown in FIG. 9. When the first limiting mechanism 1a is integrated with the maintenance window body 1, the overall shape is compact and attractive, with a small occupied space and low manufacturing and mounting cost. It is worth noting that a size of the groove of the first limiting mechanism 1a may be larger than a size of the roller 3a, and may not be matched with the size of the roller 3a, such that the groove does not completely wrap the roller 3a, in which case the roller 3a can have a proper range of motion in the groove. The size of the groove may also be matched with the size of the roller 3a, that is, slightly larger than the size of the roller 3a, such that the roller 3a rolls along the first limiting mechanism 1a until the roller 3a is completely wrapped by the groove.

In some embodiments, a latching device may also be arranged on the fastening plate body, and a second limiting mechanism matched with the latching device is arranged on the maintenance window cover 2. The latching device may be a spring lock hook 3b1, a captive screw 3b2, a hook or the like. The second limiting mechanism may be a baffle plate 2a1 matched with the spring lock hook 3b1 or the hook, and the second limiting mechanism may also be a threaded hole 2a2 matched with the captive screw 3b2. The latching device on the fastening plate 3 body is matched with the second limiting mechanism, which can ensure that the roller 3a mechanism will not escape from the groove of the first limiting mechanism 1a, thereby ensuring the reliability in locking and sealing of the entire maintenance window device.

In some embodiments, the maintenance window locking device may further include: a rotating shaft 1b, and a support 1e with a first connecting hole. The support with the hole is arranged on the maintenance window body 1. A second connecting hole is formed at the first end of the maintenance window cover 2. The maintenance window body 1 is hinged to the first end of the maintenance window cover 2, including: the rotating shaft 1b passes through the second connecting hole at the first end of the maintenance window cover 2 and into the first connecting hole, and a tightening nut locks the rotating shaft 1b, the maintenance window body 1 and the maintenance window cover 2. The maintenance window locking device may further include a shaft sleeve or a pressing block. The shaft sleeve is clamped between the rotating shaft 1b and the first connecting hole. The shaft sleeve and the rotating shaft 1b are in tight fit to a certain amount of interference, so as to bring damping to rotation and ensure that the maintenance window cover 2 will not automatically rotate and fall due to the influence of gravity in a free state after opening. In some examples, the first connecting hole may be a blind hole, which allows the shaft to pass through from one side without the need for structural avoidance on the other side. During production and engineering maintenance, the maintenance window cover 2 may be removed and replaced from one side, thereby improving the reliability and convenience of the product. In some embodiments, the second connecting hole may also be a blind hole, but the first connecting hole is a through hole; and the maintenance window body 1 is hinged to the first end of the maintenance window cover 2, including: the rotating shaft 1b passes through the first connecting hole and into the second connecting hole, and a tightening nut locks the rotating shaft 1b, the maintenance window body 1 and the maintenance window cover 2.

In some embodiments, a third connecting hole may be formed at the first end of the maintenance window cover 2. The third connecting hole is a blind hole, and both the first connecting hole and the second connecting hole are through holes. The maintenance window body 1 is hinged to the first end of the maintenance window cover 2, including: the rotating shaft 1b passes through the second connecting hole and the first connecting hole formed at the first end of the maintenance window cover 2 and into the third connecting hole, and a tightening nut locks the rotating shaft 1b, the maintenance window body 1 and the maintenance window cover 2. When the third connecting hole is further formed at the first end of the maintenance window cover 2, the shaft sleeve in the maintenance window locking device may include a first shaft sleeve 1c and a second shaft sleeve 1d. The first shaft sleeve 1c is clamped between the rotating shaft 1b and the first connecting hole, and the second shaft sleeve is clamped between the rotating shaft 1b and the third connecting hole.

An embodiment of the present application provides a maintenance window locking device, which includes a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, and a roller. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body is hinged to a first end of the maintenance window cover. The fastening plate body is rotatably connected to a second end of the maintenance window cover. The first limiting mechanism is located on the maintenance window body. The fastening plate body drives the maintenance window cover to move toward the maintenance window body. The roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that the maintenance window cover and the maintenance window body are tightly attached to compress rubber sealing materials respectively fixed on the maintenance window cover and the maintenance window body, till the maintenance window cover and the maintenance window body are completely closed and locked, thereby achieving a sealing effect. Therefore, the protection level of the ingress protection of the maintenance window and the reliability of the maintenance window locking device are improved.

Example Embodiment Two

A maintenance window locking device of the present application improves the protection level of the ingress protection of a maintenance window and the reliability of the maintenance window locking device. For the convenience of understanding, a maintenance window locking device provided by the present application is described below by an example.

FIG. 2 is an exploded view of a maintenance window locking device according to example Embodiment two of the present application. The maintenance window locking device includes a maintenance window body 1, a maintenance window cover 2, a fastening plate 3, a first limiting mechanism 1a including a groove, a roller 3a, a spring lock hook 3b1, and a second limiting mechanism. The fastening plate 3 includes a fastening plate 3 body and a pin 3c which are of an integrated structure. The pin 3c is rotatably connected to the roller 3a; the maintenance window body 1 is hinged to a first end of the maintenance window cover 2. The spring lock hook 3b1 is mounted on the fastening plate body, and the second limiting mechanism matched with the spring lock hook 3b1 is arranged on the maintenance window cover 2. The second limiting mechanism is a baffle plate 2a1. The first limiting mechanism 1a is mounted on the maintenance window body 1. The fastening plate body is rotatably connected to a second end of the maintenance window cover 2. The first limiting mechanism 1a is located on the maintenance window body 1. The fastening plate body drives the maintenance window cover 2 to move toward the maintenance window body 1. The roller 3a rolls along the first limiting mechanism 1a until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover 2 and the maintenance window body 1 are tightly attached. FIG. 3 shows a view when the roller 3a and the first limiting mechanism 1a are matched to close and lock the maintenance window, the partial enlarged views may refer to FIG. 4 and FIG. 5. The fastening plate 3 is connected to the other end of the maintenance window cover 2 through pins at both sides. Rollers are respectively mounted on the pins inwardly extending at both sides of the end of the fastening plate 3 (below rotating shafts at both sides). The rollers are capable of freely rotating about the respective pins. When the fastening plate 3 drives the maintenance window cover 2 to move, the roller 3a may be attached to the first limiting mechanism 1a mounted on the maintenance window body 1 and roll along the first limiting mechanism 1a until the roller is clamped into the groove of the first liming mechanism 1a. At this time, the maintenance window cover 2 is just attached to the maintenance window body 1 to compress the sealing materials. In this case, the maintenance window cover 2 and the maintenance window body 1 are completely closed and locked to achieve a sealing effect.

The spring lock hook 3b1 and the limiting baffle plate 2a1 in this embodiment are shown in FIG. 6. The spring lock hook 3b1 is mounted on the fastening plate 3, and the baffle plate 2a1 is mounted at a corresponding position on the maintenance window cover 2. When the maintenance window cover 2 and the maintenance window body 1 are attached to compress the sealing materials, the spring lock hook 3b1 can be clamped into the limiting baffle plate 2a1, such that the roller 3a will not escape from the groove of the first limiting mechanism 1a due to vibration or other external forces, thereby ensuring the reliability in locking and sealing of the entire maintenance window device. FIG. 7 is a schematic diagram after the maintenance window locking device of the present application is completely locked, with a small overall occupied space, as well as beautiful and generous appearance.

The maintenance window locking device further includes a rotating shaft 1b and a support 1e with a first connecting hole, where the support with the hole is arranged on the maintenance window body 1, and a second connecting hole and a third connecting hole are formed at the first end of the maintenance window cover 2. The third connecting hole is a blind hole, and both the first connecting hole and the second connecting hole are through holes. The maintenance window body 1 is hinged to the first end of the maintenance window cover 2, including: the rotating shaft 1b passes through the second connecting hole and the first connecting hole formed at the first end of the maintenance window cover 2 and into the third connecting hole, and a tightening nut locks the rotating shaft 1b, the maintenance window body 1 and the maintenance window cover 2. When the third connecting hole is further formed at the first end of the maintenance window cover 2, the shaft sleeve may include a first shaft sleeve 1c and a second shaft sleeve 1d. In the sectional view shown in FIG. 8, the first shaft sleeve 1c is clamped between the rotating shaft 1b and the first connecting hole, and the second shaft sleeve 1d is clamped between the rotating shaft 1b and the third connecting hole. The shaft sleeve and the rotating shaft 1b are in tight fit to a certain amount of interference. During the tightening process of the rotating shaft 1b, two sections of tapered polished shafts in the middle and at the rear end of the rotating shaft 1b may press the shaft sleeve 1c and the shaft sleeve 1d to the right, so as to form a damping effect when the maintenance window cover 2 rotates around a hinge mechanism. Therefore, it is ensured that when being opened and in a free state, the maintenance window cover 2 will not fall automatically due to the influence of gravity, thereby having no influence on the installation on the engineering site, and meanwhile ensuring the safety of related operations.

An embodiment of the present application provides a maintenance window locking device, which includes a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, a roller, a spring lock hook and a second limiting mechanism. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body 1 is hinged to a first end of the maintenance window cover; and the spring lock hook is mounted on the fastening plate body, and the second limiting mechanism matched with the spring lock hook is arranged on the maintenance window cover. The second limiting mechanism is a baffle plate. The first limiting mechanism is mounted on the maintenance window body. The fastening plate body is rotatably connected to a second end of the maintenance window cover. The first limiting mechanism is located on the maintenance window body. The fastening plate body drives the maintenance window cover to move toward the maintenance window body. The roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover and the maintenance window body are tightly attached to compress rubber sealing materials respectively fixed on the maintenance window cover and the maintenance window body, till the maintenance window cover and the maintenance window body are completely closed and locked, thereby achieving a sealing effect. Therefore, the protection level of the ingress protection of the maintenance window and the reliability of the maintenance window locking device are improved. Since the spring lock hook is matched with the second limiting mechanism, the roller cannot escape from the groove of the first limiting mechanism due to vibration or other external forces, thereby ensuring the reliability in locking and sealing of the entire maintenance window device.

Example Embodiment Three

A maintenance window locking device of the present application improves the protection level of the ingress protection of a maintenance window and the reliability of the maintenance window locking device. For the convenience of understanding, another maintenance window locking device provided by the present application is described below by an example.

FIG. 9 is a schematic structural diagram of a maintenance window locking device according to example Embodiment three of the present application. The maintenance window locking device includes a maintenance window body 1, a maintenance window cover 2, a fastening plate 3, a first limiting mechanism 1a including a groove, a roller 3a, a spring lock hook 3b1, and a second limiting mechanism. The fastening plate 3 includes a fastening plate 3 body and a pin 3c which are of an integrated structure. The pin 3c is rotatably connected to the roller 3a. The maintenance window body 1 is hinged to a first end of the maintenance window cover 2. The spring lock hook 3b1 is mounted on the fastening plate 3 body, and the second limiting mechanism matched with the spring lock hook 3b1 is arranged on the maintenance window cover 2. The second limiting mechanism is a baffle plate 2a1. The fastening plate 3 body is rotatably connected to a second end of the maintenance window cover 2. The first limiting mechanism 1a is located on the maintenance window body 1. The fastening plate 3 body drives the maintenance window cover 2 to move toward the maintenance window body 1. The roller 3a rolls along the first limiting mechanism 1a until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover 2 and the maintenance window body 1 are tightly attached. The difference from example Embodiment two lies in that the first limiting mechanism 1a and the maintenance window body 1 are of an integrated structure, which reduces the number of parts and the processing and mounting cost. The maintenance window locking device may be applied to an AAU or RRU. FIG. 10 is a schematic diagram of example Embodiment three of the present application specifically applied to a certain type of AUU. A maintenance window is integrated with an AAU body, achieving a compact and attractive overall shape, small occupied space and low manufacturing and mounting cost.

An embodiment of the present application provides a maintenance window locking device, which includes a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, a roller, a spring lock hook and a second limiting mechanism. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body is hinged to a first end of the maintenance window cover. The spring lock hook is mounted on the fastening plate body, and the second limiting mechanism matched with the spring lock hook is arranged on the maintenance window cover. The second limiting mechanism is a baffle plate. The first limiting mechanism and the maintenance window body are of an integrated structure. The fastening plate body is rotatably connected to a second end of the maintenance window cover; the first limiting mechanism is located on the maintenance window body; the fastening plate body drives the maintenance window cover to move toward the maintenance window body; and the roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover and the maintenance window body are tightly attached to compress the rubber sealing materials respectively fixed on the maintenance window cover and the maintenance window body, till the maintenance window cover and the maintenance window body are completely closed and locked, thereby achieving a sealing effect. Therefore, the protection level of the ingress protection of the maintenance window and the reliability of the maintenance window locking device are improved, the number of parts is decreased, and the processing and mounting cost is reduced.

Embodiment Four

A maintenance window locking device of the present application improves the protection level of the ingress protection of a maintenance window and the reliability of the maintenance window locking device. For the convenience of understanding, another maintenance window locking device provided by the present application is described below by an example.

FIG. 11 is a schematic structural diagram of a maintenance window locking device of Embodiment four. The maintenance window locking device includes a maintenance window body 1, a maintenance window cover 2, a fastening plate 3, a first limiting mechanism 1a including a groove, a roller 3a, a captive screw 3b2, and a second limiting mechanism. The fastening plate 3 includes a fastening plate 3 body and a pin 3c which are of an integrated structure. The pin 3c is rotatably connected to the roller 3a. The maintenance window body 1 is hinged to a first end of the maintenance window cover 2. The captive screw 3b2 is mounted on the fastening plate 3 body, and the second limiting mechanism matched with the captive screw 3b2 is arranged on the maintenance window cover 2. The second limiting mechanism is a threaded hole 2a2. The first limiting mechanism 1a is mounted on the maintenance window body 1. The fastening plate 3 body is rotatably connected to a second end of the maintenance window cover 2. The first limiting mechanism 1a is located on the maintenance window body 1. The fastening plate 3 body drives the maintenance window cover 2 to move toward the maintenance window body 1. The roller 3a rolls along the first limiting mechanism 1a until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover 2 and the maintenance window body 1 are tightly attached. The captive screw 3b2 is used to replace the combination of the spring lock hook 3b1 and the limiting baffle plate 2a1 matched therewith, which reduces the number of parts and the cost.

As shown in FIG. 12, after the maintenance window cover 22 is fully buckled with the maintenance window body 11, the captive screw 3b2 may be fastened to the corresponding threaded hole 2a2 in the maintenance window cover 22, thereby ensuring the reliability in locking and sealing of the entire maintenance window device.

An embodiment of the present application provides a maintenance window locking device, which includes a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, and a roller. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body is connected to a first end of the maintenance window cover. The fastening plate body is rotatably connected to a second end of the maintenance window cover. The first limiting mechanism is located on the maintenance window body. The fastening plate body drives the maintenance window cover to move toward the maintenance window body. The roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that the maintenance window cover and the maintenance window body are tightly attached. In some implementations, the operation, including but is not limited to locking the maintenance window is easy to achieve and relatively high in efficiency. Meanwhile, the protection level of the ingress protection of the maintenance window is improved, and the maintenance window locking device is more reliable.

An embodiment of the present application provides a maintenance window locking device, which includes a maintenance window body, a maintenance window cover, a fastening plate, a first limiting mechanism including a groove, a roller, a captive screw and a second limiting mechanism. The fastening plate includes a fastening plate body and a pin which are of an integrated structure. The pin is rotatably connected to the roller. The maintenance window body is hinged to a first end of the maintenance window cover. The captive screw is mounted on the fastening plate body, and the second limiting mechanism matched with the captive screw is arranged on the maintenance window cover. The second limiting mechanism is a threaded hole. The first limiting mechanism is mounted on the maintenance window body. The fastening plate body is rotatably connected to a second end of the maintenance window cover. The first limiting mechanism is located on the maintenance window body. The fastening plate body drives the maintenance window cover to move toward the maintenance window body. The roller rolls along the first limiting mechanism until the roller is clamped into the groove, such that a rubber sealing material on the maintenance window cover and the maintenance window body are tightly attached to compress rubber sealing materials respectively fixed on the maintenance window cover and the maintenance window body, till the maintenance window cover and the maintenance window body are completely closed and locked, thereby achieving a sealing effect. Therefore, the protection level of the ingress protection of the maintenance window and the reliability of the maintenance window locking device are improved, the number of parts is decreased, and the processing and mounting cost is reduced.

The above content is a further detailed description of the embodiments of the present application in conjunction with specific implementations, and it cannot be considered that the specific implementations of the present application are limited to these descriptions. For those of ordinary skill in the art to which the present application belongs, several simple deductions or substitutions can be made without departing from the concept of the present application, which should be regarded as falling within the protection scope of the present application.

MAINTENANCE WINDOW LOCKING DEVICE

Information

Publication Number

Date Filed

Date Published

Inventors

Original Assignees

CPC

International Classifications

Abstract

Description

Claims

Priority Claims (1)

CROSS-REFERENCE TO RELATED APPLICATION

PCT Information