CN221081302U - Wireless device mounting structure - Google Patents

Abstract

The application provides a wireless equipment mounting structure, which comprises a mounting box, a clamping assembly, a limiting mechanism and a pushing mechanism, wherein the limiting mechanism is arranged on the mounting box; the mounting box is used for being fixed on the holding pole, the clamping assembly comprises two first blocks and two second blocks, the two first blocks are used for being fixed on the back surface of the wireless equipment at intervals, the two second blocks are fixed on the surface of the mounting box at intervals, and the inserting part on one of the first blocks and the second blocks corresponds to the inserting groove on the other one; the limiting mechanism comprises a limiting component and a limiting hole, the limiting component is arranged on the wireless equipment, the limiting hole is arranged on the mounting box, the limiting component is configured to be slidably inserted into the inserting groove at the inserting part, the limiting component is opposite to the limiting hole, and part of the limiting component is clamped in the limiting hole; the part pushing mechanism is arranged in the mounting box and is used for pushing the part limiting assembly to be separated from the limiting hole. The wireless equipment installation structure provided by the application is convenient to install and disassemble and good in reliability.

Description

Wireless device mounting structure

Technical Field

The application relates to the technical field of equipment installation, in particular to a wireless equipment installation structure.

Background

In the information age, it is a common contact means to transmit or receive signals through a wireless device, and the wireless device generally transmits information through radio waves, so that the wireless device is installed because of its frequent use.

In the related art, when installing wireless equipment, firstly install the mounting on the embracing pole, then lift the handle of wireless equipment, correspond the through-hole on the wireless equipment change piece with the through-hole on the mounting, then use hexagon socket head cap screw to pass the through-hole on the wireless equipment change piece and the through-hole on the mounting in proper order to sheathe in fixation nut, realize fastening with hexagon socket head cap wrench at last, ensure wireless equipment not hard up.

But the installation and the disassembly of the wireless equipment are complicated by adopting the installation mode, so that the working efficiency of staff is affected.

Disclosure of utility model

The application provides a wireless device mounting structure, which is used for solving the problems of complicated mounting and dismounting and low operation efficiency when a wireless device mounting mode in the related technology is adopted.

The application provides a wireless equipment mounting structure, which comprises a mounting box, a clamping assembly, a limiting mechanism and a pushing mechanism, wherein the limiting mechanism is arranged on the mounting box; the mounting box is used for fixing on the pole, and the block subassembly includes two first blocks and two second blocks, and two first blocks are used for the interval to be fixed on wireless device's the back, and two second blocks interval is fixed on the surface of mounting box, and one of first block and second block is provided with the grafting portion, and the grafting groove has been seted up to the other, grafting portion and grafting groove one-to-one.

The limiting mechanism comprises a limiting assembly and a limiting hole, wherein the limiting assembly is arranged on the wireless device, the limiting hole is formed in the mounting box, the limiting assembly is configured to be slidably inserted into the inserting groove at the inserting portion, the limiting assembly is opposite to the limiting hole, and part of the limiting assembly is clamped in the limiting hole.

The part pushing mechanism is arranged in the mounting box and is used for pushing the part limiting assembly to be separated from the limiting hole.

In one possible implementation, the wireless device mounting structure provided by the application, the limit component comprises a shell, a limit spring and a limit block; the shell is used for being fixed on the back of the wireless device, and a first access opening is formed in one surface of the shell, which is close to the mounting box; the limiting spring and part of limiting blocks are arranged in the shell, one end of the limiting spring is fixedly connected with the inner wall of the shell, the other end of the limiting spring is fixedly connected with one end of the limiting block, and the other end of the limiting block enters and exits the shell through the first entrance.

The spacing hole is offered on the mounting box, and the other end and the surface butt of mounting box of stopper, and when stopper and spacing hole were relative, spacing spring reset, the stopper was removed for the casing to in making the stopper joint to spacing hole.

In one possible implementation manner, the pushing mechanism of the wireless device mounting structure provided by the application comprises a first pushing component and a second pushing component, wherein the first pushing component is in sliding connection with the inner wall of the mounting box, the first pushing component is opposite to the limiting hole, part of the second pushing component is arranged in the mounting box in a sliding manner, and the second pushing component is configured to push the first pushing component to move towards the limiting hole so as to enable the limiting block to be far away from the limiting hole.

In one possible implementation, the present application provides a wireless device mounting structure, wherein a first pushing component includes a slider and a pushing block; the sliding block and the pushing block are both arranged in the installation box, and the sliding block is in sliding connection with the inner wall of the installation box; the pushing block is fixed on one surface of the sliding block, which is close to the limiting hole, and the second pushing component pushes the sliding block to move relative to the installation box so as to drive the pushing block to be close to the limiting hole and push the limiting block through the limiting hole, so that the limiting block is separated from the limiting hole.

In a possible implementation manner, the wireless device mounting structure provided by the application further comprises a pushing spring, one end of the pushing spring is fixedly connected with the inner wall of the mounting box, the other end of the pushing spring is fixedly connected with the sliding block, and the pushing spring is configured to drive the sliding block to reset after the second pushing component pushes the sliding block to finish.

In a possible implementation manner, the wireless device mounting structure provided by the application has the advantages that the second pushing component comprises the push rod and the handle, the mounting box is provided with the second access opening, the handle is fixedly connected with one end of the push rod, the other end of the push rod is arranged in the mounting box in a sliding way through the second access opening, and the push rod moves towards the sliding block to push the sliding block, so that the pushing block follows the sliding block to approach the limiting hole.

In one possible implementation manner, the moving direction of the push rod through the second access opening is consistent with the moving direction of the sliding block; or, the moving direction of the push rod through the second access opening is perpendicular to the moving direction of the slide block, one surface of the slide block, which is close to the second access opening, is an inclined surface, and the pushing assembly further comprises a conical block which is fixedly connected with the other end of the push rod and is in moving contact with the inclined surface.

In one possible implementation manner, the wireless device mounting structure provided by the application has the advantages that the moving direction of the push rod coincides with the axial direction of the push rod, and the pushing assembly further comprises a rotary drum, an L-shaped inserted link and an alignment link; the rotary drum rotates with the installation case to be connected, and in the installation case was arranged in to partial rotary drum through the second access & exit, L type inserted bar was fixed on the push rod, offered in the rotary drum with L type inserted bar matched with slot, the push rod was located in the rotary drum through L type inserted bar slip cap.

One end and the handle fixed connection of counterpoint pole, the other end of counterpoint pole extends towards the mounting box, has seted up the counterpoint hole on the mounting box, and the rotary drum rotation is followed to the push rod to the other end and the counterpoint hole of messenger counterpoint pole set up relatively.

In one possible implementation manner, the wireless device mounting structure provided by the application further comprises a torsion spring and a sleeve, wherein the sleeve is fixed in the mounting box, the sleeve is sleeved on a part of the rotary drum, the torsion spring is arranged between the rotary drum and the sleeve, one end of the torsion spring is fixedly connected with the outer wall of the sleeve, and the other end of the torsion spring is fixedly connected with the inner wall of the sleeve.

In one possible implementation, the present application provides a wireless device mounting structure wherein the axis of the drum coincides with the axis of the sleeve.

According to the wireless equipment installation structure, the installation box is arranged and fixed on the holding pole, two first blocks are fixed on the back surface of the wireless equipment at intervals and two second blocks are fixed on the surface of the installation box at intervals, one of the first blocks and the second blocks is provided with the plugging part, the other is provided with the plugging groove, the plugging parts are in one-to-one correspondence with the plugging grooves, the wireless equipment is provided with the limiting assembly, and the installation box is provided with the limiting hole; when the wireless equipment is required to be installed, the plug-in part is slidably inserted into the plug-in groove, so that the limiting assembly is opposite to the limiting hole, and part of the limiting assembly is clamped in the limiting hole, so that the wireless equipment is reliably installed on the installation box. The pushing mechanism is further arranged, so that part of the pushing mechanism is arranged in the mounting box, when the wireless equipment needs to be dismounted, the limiting assembly of the pushing mechanism is pushed to be separated from the limiting hole, and then the plugging part is manually slid to be separated from the plugging groove so as to conveniently dismount the wireless equipment. The wireless equipment installation structure provided by the application is convenient to install and disassemble and good in reliability.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and together with the description, serve to explain the principles of the application.

Fig. 1 is an application scenario diagram of a wireless device installation structure provided in an embodiment of the present application;

Fig. 2 is a schematic structural diagram of a first block and a limiting component in a wireless device mounting structure according to an embodiment of the present application;

Fig. 3 is a cross-sectional view of a limiting assembly in a wireless device mounting structure according to an embodiment of the present application;

Fig. 4 is a cross-sectional view showing connection between a mounting box and a pushing mechanism in a wireless device mounting structure according to an embodiment of the present application;

FIG. 5 is a schematic view of the other view of FIG. 4;

fig. 6 is a schematic structural view of a drum in a wireless device mounting structure according to an embodiment of the present application;

Fig. 7 is a connection diagram of an L-shaped plunger and a push rod in the wireless device mounting structure according to the embodiment of the present application.

Reference numerals illustrate:

100-mounting boxes;

101-a second doorway; 102-aligning holes; 110-mounting plates; 120-bolts;

200-clamping assembly;

210-a first block; 220-a second block;

211-a plug-in part; 221-inserting grooves;

300-a limiting mechanism;

310-a limiting assembly; 320-limiting holes;

311-a housing; 312-limit springs; 313-limiting block; 314-moving plate;

3111-a first doorway;

400-pushing mechanism;

410-a first pushing assembly; 420-a second pushing assembly;

411-sliders; 412-pushing the block; 413-a push spring; 421-push rod; 422-handle; 423-conical blocks; 424-rotating drum; 425-alignment rod; 426—torsion spring; 427-sleeve;

4121-ramp; 4211-L-shaped insert rod; 4241-slots;

500-wireless device.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the application. Rather, they are merely examples of apparatus and methods consistent with aspects of the application as detailed in the accompanying claims.

In the description of the present application, it should be noted that, unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be fixedly connected, or indirectly connected through intermediaries, for example, or may be in communication with each other between two elements or in an interaction relationship between the two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present application, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "front", "rear", "left", "right", etc., are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present application.

The terms first, second, third, fourth and the like in the description and in the claims and in the above drawings are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the application described herein may be implemented, for example, in sequences other than those illustrated or otherwise described herein.

Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Just as in the background art, in the related art, when installing wireless equipment, firstly install the installed part on the embracing pole, then lift the handle of wireless equipment, correspond the through-hole on the wireless equipment change piece with the through-hole on the installed part, then use the allen screw to pass through the through-hole on the wireless equipment change piece and the through-hole on the installed part in proper order to sheathe in fixation nut, realize fastening with allen wrench at last, ensure wireless equipment not hard up.

But the installation and the disassembly of the wireless equipment are complicated by adopting the installation mode, so that the working efficiency of staff is affected.

In view of the above, the present application provides a wireless device mounting structure, by providing a mounting box, fixing the mounting box on a pole, fixing two first blocks on the back surface of a wireless device and two second blocks on the surface of the mounting box at intervals, providing an inserting portion on one of the first blocks and the second blocks, providing an inserting slot on the other, and making the inserting portion correspond to the inserting slot one by one, simultaneously providing a limiting assembly on the wireless device, and providing a limiting hole on the mounting box; when the wireless equipment is required to be installed, the plug-in part is slidably inserted into the plug-in groove, so that the limiting assembly is opposite to the limiting hole, and part of the limiting assembly is clamped in the limiting hole, so that the wireless equipment is reliably installed on the installation box. The pushing mechanism is further arranged, so that part of the pushing mechanism is arranged in the mounting box, when the wireless equipment needs to be dismounted, the limiting assembly of the pushing mechanism is pushed to be separated from the limiting hole, and then the plugging part is manually slid to be separated from the plugging groove, so that the wireless equipment can be conveniently dismounted.

Fig. 1 is an application scenario diagram of a wireless device installation structure provided in an embodiment of the present application; fig. 2 is a schematic structural diagram of a first block and a limiting component in a wireless device mounting structure according to an embodiment of the present application. Fig. 1 to 2 are schematic diagrams illustrating respective components in the wireless device mounting structure, and the specific structures of the remaining components in the wireless device mounting structure are not limited to the illustrations of fig. 1 to 2.

The wireless device of the embodiment of the application can be set as remote radio unit (Radio Remote Unit, RRU) equipment.

Referring to fig. 1 and 2, the wireless device 500 mounting structure provided by the present application may include a mounting case 100, a snap assembly 200, a limiting mechanism 300, and a pushing mechanism 400; the mounting box 100 is used for being fixed on a holding pole, the clamping assembly 200 comprises two first blocks 210 and two second blocks 220, the two first blocks 210 are used for being fixed on the back surface of the wireless device 500 at intervals, the two second blocks 220 are fixed on the surface of the mounting box 100 at intervals, one of the first blocks 210 and the second blocks 220 is provided with a plug-in portion 211, the other one is provided with a plug-in groove 221, and the plug-in portion 211 corresponds to the plug-in groove 221 one by one.

The limiting mechanism 300 includes a limiting component 310 and a limiting hole 320, the limiting component 310 is configured to be disposed on the wireless device 500, the limiting hole 320 is disposed on the mounting box 100, the limiting component 310 is configured to be slidably inserted into the inserting groove 221 at the inserting portion 211, so that the limiting component 310 is opposite to the limiting hole 320, and a part of the limiting component 310 is clamped in the limiting hole 320.

A portion of the pushing mechanism 400 is disposed in the mounting case 100, and the pushing mechanism 400 is used to push the portion of the spacing assembly 310 out of the spacing hole 320.

In particular, the back of the mounting box 100 may be provided with a mounting plate 110, wherein the size of the back of the mounting box 100 is smaller than the size of the mounting plate 110, the mounting box 100 is located in a middle region of the mounting plate 110, and the mounting box 100 is fixedly connected with the mounting plate 110.

Screw holes are formed in both upper and lower ends of the mounting plate 110, so that the mounting plate 110 is connected to the pole through bolts 120, and the mounting box 100 is fixed to the pole. In specific implementation, after determining a specific installation position of the wireless device 500 on the pole according to factors such as actual conditions, the installation box 100 is first fixed on the pole, and then the wireless device 500 is installed.

To facilitate the mounting work of the wireless device 500 on the mounting box 100, two first blocks 210 may be fixed on the back surface of the wireless device 500 at intervals in the left-right direction, and correspondingly, two second blocks 220 may be fixed on the surface of the mounting box 100 at intervals in the left-right direction. By providing the insertion portion 211 on the first block 210 and providing the insertion groove 221 on the second block 220 from the top downward, the insertion portion 211 and the insertion groove 221 are in one-to-one correspondence. Thus, by lifting the wireless device 500, the wireless device 500 is positioned above the mounting box 100, and the plugging portions 211 on the two first blocks 210 are aligned to the corresponding plugging grooves 221, so that the plugging portions 211 are slidably inserted into the plugging grooves 221 downward, thereby completing the mounting of the wireless device 500.

It should be noted that the first block 210 may be provided with a socket 221, and the second block 220 may be provided with a socket 211.

In particular, the two first blocks 210 may be fixed at intervals in the up-down direction on the back surface of the wireless device 500, and the two second blocks 220 may be fixed at intervals in the up-down direction on the surface of the mounting box 100. By providing the first block 210 with the insertion grooves 221 from the left to the right and providing the second block 220 with the insertion portions 211, the insertion portions 211 and the insertion grooves 221 are in one-to-one correspondence. Accordingly, by placing the wireless device 500 on the left side of the installation box 100 and aligning the plugging grooves 221 on the two first blocks 210 to the corresponding plugging portions 211, a rightward pushing force is further applied to the wireless device 500 body, so that the plugging grooves 221 slide rightward, and the plugging portions 211 are plugged into the plugging grooves 221, thereby completing the installation of the wireless device 500.

It will be appreciated that the first block 210 may be provided with the insertion portion 211, and the second block 220 may be provided with the insertion groove 221 correspondingly, where the second block 220 may be provided with the insertion groove 221 from the right to the left.

In order to improve stability of the wireless device 500 after being mounted on the mounting box 100, the back of the wireless device 500 is provided with the limiting component 310, and the surface of the mounting box 100 is provided with the limiting hole 320, when the wireless device 500 is mounted, the plugging portion 211 is slidably plugged into the plugging groove 221, so that the limiting component 310 is opposite to the limiting hole 320, and meanwhile, part of the limiting component 310 is clamped in the limiting hole 320, so that shaking, unstable mounting and other phenomena of the wireless device 500 after being mounted can be well avoided.

In view of the failure of the wireless device 500 after prolonged use, the wireless device 500 needs to be removed from the mounting box 100 for subsequent maintenance or replacement. Therefore, in order to facilitate the disassembly of the wireless device 500, in a specific implementation, the pushing mechanism 400 is provided, and a part of the pushing mechanism 400 is placed in the installation case 100.

When the wireless device 500 needs to be disassembled, firstly, pushing force is applied to a part of the limiting assembly 310 clamped in the limiting hole 320 by using the pushing mechanism 400, so that the part of the pushing assembly is separated from the limiting hole 320; then, the maintenance personnel can easily slide the insertion portion 211 of one of the first block 210 and the second block 220 out of the insertion groove 221 of the other. Therefore, the operation experience of maintenance personnel is improved.

According to the wireless device 500 installation structure provided by the embodiment of the application, the installation box 100 is fixed on the holding pole, when the wireless device 500 needs to be installed, the plug-in part 211 is slidably inserted into the plug-in groove 221, so that the limiting assembly 310 is opposite to the limiting hole 320, and part of the limiting assembly 310 is clamped in the limiting hole 320, thereby the wireless device 500 is reliably installed on the installation box 100. When the wireless device 500 needs to be disassembled, the pushing mechanism 400 pushes the part of the limiting assembly 310 to be separated from the limiting hole 320, and then the plug part 211 is manually slid to be separated from the plug groove 221, so that the wireless device 500 can be conveniently disassembled. The wireless device 500 mounting structure provided by the embodiment of the application is convenient to mount and dismount and good in reliability.

The specific structure and operation of the spacing assembly 310 will be described below.

Fig. 3 is a cross-sectional view of the spacing component 310 in the installation structure of the wireless device 500 according to the embodiment of the present application. Referring to fig. 1, 2 and 3, in some embodiments, the stop assembly 310 includes a housing 311, a stop spring 312 and a stop 313; the housing 311 is used for being fixed on the back surface of the wireless device 500, and a first inlet 3111 is formed on one surface of the housing 311 close to the mounting box 100; the limiting spring 312 and a part of limiting block 313 are arranged in the shell 311, one end of the limiting spring 312 is fixedly connected with the inner wall of the shell 311, the other end of the limiting spring 312 is fixedly connected with one end of the limiting block 313, and the other end of the limiting block 313 enters and exits the shell 311 through the first inlet 3111.

The limiting hole 320 is formed in the mounting box 100, the other end of the limiting block 313 is abutted to the surface of the mounting box 100, when the limiting block 313 is opposite to the limiting hole 320, the limiting spring 312 is reset, and the limiting block 313 moves relative to the shell 311, so that the limiting block 313 is clamped into the limiting hole 320.

In particular, the left side surface of the housing 311 is fixed in contact with the back surface of the wireless device 500, the surface of the housing 311 close to the mounting box 100 is the right side surface, and the first inlet 3111 is opened on the right side surface of the housing 311.

One end of the limiting spring 312 is fixedly connected with the inner wall of the left side face of the shell 311, the other end of the limiting spring 312 is fixedly connected with the left end of the limiting block 313, and the limiting block 313 slides relative to the shell 311, so that the right end of the limiting block 313 can enter and exit the shell 311 through the first inlet 3111.

In the whole, in the unstressed state of the stopper spring 312, part of the stopper 313 is exposed out of the housing 311 through the first inlet 3111, and a certain distance is provided between the right end of the stopper 313 and the right side surface of the housing 311.

When a pushing force is applied to the stopper 313 toward the housing 311, the stopper 313 will move to the left, the stopper 313 moves to compress the stopper spring 312, and when the pushing force is large, the right end of the stopper 313 will enter the housing 311 through the first inlet 3111 after approaching the right side of the housing 311.

When the pushing force disappears, the limiting spring 312 performs a reset action and drives the limiting block 313 to move rightward, so that the right end of the limiting block 313 is exposed out of the housing 311 through the first inlet 3111, and after the reset of the limiting spring 312 is completed, a certain distance is still maintained between the right end of the limiting block 313 and the right side surface of the housing 311.

Illustratively, a moving plate 314 may be further disposed inside the housing 311, where the moving plate 314 is slidably disposed inside the housing 311, and an upper portion of the moving plate 314 is slidably connected to an inner wall of an upper side of the housing 311, and a lower portion of the moving plate 314 is slidably connected to an inner wall of a lower side of the housing 311. The other end of the limiting spring 312 is fixedly connected with the left end of the limiting block 313 through the moving plate 314, so that the limiting spring 312 can be fully contacted with the limiting block 313 through the moving plate 314, connection reliability between the limiting spring 312 and the limiting block 313 is ensured, and the movement stability of the right end of the limiting block 313 when the right end of the limiting block 313 enters and exits the shell 311 is improved.

Further, a limiting hole 320 matching the size of the limiting block 313 is formed on the surface of the mounting case 100.

Through the above arrangement, in the process of installing the wireless device 500, when the plugging portion 211 starts to be slidably inserted into the plugging slot 221, the portion of the stopper 313 exposed to the outside of the housing 311 through the first inlet 3111 is subject to the thrust action of the surface of the installation box 100, so that the stopper 313 moves leftwards and drives the limiting spring 312 to compress under the force, and meanwhile, the right end of the stopper 313 is abutted against the surface of the installation box 100.

It can be understood that, during the process of sliding the insertion portion 211 into the insertion groove 221, the right end of the limiting block 313 is always kept in contact with the surface of the mounting box 100.

After the plugging portion 211 is plugged into the plugging slot 221, the limiting assembly 310 is opposite to the limiting hole 320, at this time, the pushing force received by the part of the limiting block 313 exposed to the outside of the housing 311 through the first inlet 3111 disappears, and the limiting spring 312 resets and drives the limiting block 313 to move rightward, so that the part of the limiting block 313 is clamped in the limiting hole 320, and therefore, the part of the limiting block 313 is limited by the limiting hole 320 and cannot move, so that the phenomena of shaking, unstable installation and the like of the wireless device 500 after installation can be well avoided.

The specific structure and operation principle of the pushing mechanism 400 will be described below.

Fig. 4 is a cross-sectional view showing connection between a mounting box and a pushing mechanism in a wireless device mounting structure according to an embodiment of the present application. Referring to fig. 1-4, in some examples, the pushing mechanism 400 includes a first pushing component 410 and a second pushing component 420, the first pushing component 410 is slidably connected with an inner wall of the mounting box 100, and the first pushing component 410 is disposed opposite to the limiting hole 320, and a portion of the second pushing component 420 is slidably disposed in the mounting box 100, and the second pushing component 420 is configured to push the first pushing component 410 to move toward the limiting hole 320 so as to move the limiting block 313 away from the limiting hole 320.

Specifically, the first pushing component 410 is located in the mounting box 100, and the first pushing component 410 is opposite to the limiting hole 320, when the wireless device 500 needs to be dismounted, the first pushing component 410 contacts with the right end of the limiting block 313 and applies a pushing force to the limiting block, so that a part of the limiting block 313 clamped in the limiting hole 320 can be separated from the limiting hole 320, and therefore, the limiting block 313 loses the limiting effect of the limiting hole 320, the sliding of the plugging portion 211 relative to the plugging slot 221 is not restricted, and a maintainer can conveniently separate the wireless device 500 from the mounting box 100.

The second pushing component 420 is configured to push the first pushing component 410 to move towards the limiting block 313, so as to implement an action process that the first pushing component 410 can contact with the right end of the limiting block 313 and apply a pushing force to the right end of the limiting block 313.

In particular, a portion of the second pushing component 420 is slidably disposed in the mounting box 100, and the remaining portion of the second pushing component 420 is exposed out of the housing 311, so that a maintenance person can conveniently control the second pushing component 420, and by sliding a portion of the second pushing component 420 located in the mounting box 100 relative to the mounting box 100, the portion of the second pushing component 420 is close to the first pushing component 410 to apply a pushing force to the first pushing component 410.

With continued reference to fig. 1-4, in a specific example, the first pushing assembly 410 includes a slider 411 and a push block 412; the sliding block 411 and the pushing block 412 are both arranged in the installation box 100, and the sliding block 411 is in sliding connection with the inner wall of the installation box 100; the pushing block 412 is fixed on one surface of the slider 411 near the limiting hole 320, and the second pushing component 420 pushes the slider 411 to move relative to the mounting box 100, so as to drive the pushing block 412 to approach the limiting hole 320, and push the limiting block 313 through the limiting hole 320, so that the limiting block 313 is separated from the limiting hole 320.

In a specific implementation, the left side of the slider 411 is slidably connected to the inner wall of the left side of the mounting box 100, and the right side of the slider 411 is slidably connected to the inner wall of the right side of the mounting box 100. The sliding block 411 is used for driving the pushing block 412 to move close to the limiting hole 320, and the pushing block 412 is used for pushing the limiting block 313.

By setting the size of the pushing block 412 to match the size of the limiting hole 320, the limiting block 313 can be completely separated from the limiting hole 320 when the pushing block 412 approaches the limiting hole 320 and pushes the limiting block 313.

Illustratively, a service person slides the second push assembly 420 relative to the mounting case 100 by manipulating the second push assembly 420 such that a portion of the second push assembly 420 located within the mounting case 100 is proximate the slide 411. After the second pushing component 420 contacts with the sliding block 411, the sliding of the second pushing component 420 will apply a pushing force to the sliding block 411, so that the sliding block 411 drives the pushing block 412 to move towards the limiting hole 320 relative to the mounting box 100.

Further, the pushing block 412 contacts with the right end of the limiting block 313, so that the continuous sliding of the pushing block 412 applies a certain pushing force to the limiting block 313; under the pushing action of the pushing block 412, the right end of the limiting block 313 is exposed out of the mounting box 100 through the limiting hole 320, and therefore, a part of the limiting block 313 clamped in the limiting hole 320 is separated from the limiting hole 320. The limiting effect of the limiting block 313 losing the limiting hole 320 makes the sliding of the plug-in portion 211 relative to the plug-in slot 221 not restricted, so that the maintenance personnel can conveniently detach the wireless device 500 from the installation box 100.

With continued reference to fig. 1-4, in some embodiments, the first pushing component 410 further includes a pushing spring 413, where one end of the pushing spring 413 is fixedly connected to the inner wall of the mounting box 100, and the other end of the pushing spring 413 is fixedly connected to the slider 411, and the pushing spring 413 is configured to drive the slider 411 to return after the second pushing component 420 pushes the slider 411.

In practice, the serviceman brings a portion of the second pusher assembly 420 located within the mounting case 100 closer to contact the slider 411 by manipulating the second pusher assembly 420; continued sliding of the second pushing assembly 420 applies a pushing force to the slider 411, so that the slider 411 drives the pushing block 412 to move towards the limiting hole 320 relative to the mounting box 100, and the slider 411 moves to force the pushing spring 413 to stretch.

When the part of the limiting block 313 clamped in the limiting hole 320 is separated from the limiting hole 320, after the maintenance personnel separates the wireless device 500 from the mounting box 100, the pushing force applied by the second pushing assembly 420 to the sliding block 411 disappears, and at this time, the pushing spring 413 performs a reset action and drives the sliding block 411 and the pushing block 412 to return to the original positions. Therefore, maintenance personnel are not required to manually reset the sliding block 411, and the use experience is improved.

Fig. 5 is a schematic view of another view of fig. 4. With continued reference to fig. 4 and 5, in some embodiments, the second pushing assembly 420 includes a push rod 421 and a handle 422, the installation box 100 is provided with the second access port 101, the handle 422 is fixedly connected with one end of the push rod 421, the other end of the push rod 421 is slidably disposed in the installation box 100 via the second access port 101, and the push rod 421 moves towards the sliding block 411 to push the sliding block 411, so that the pushing block 412 follows the sliding block 411 to approach the limiting hole 320.

Specifically, the left side of the slider 411 is slidably connected to the inner wall of the left side of the installation box 100, and the right side of the slider 411 is slidably connected to the inner wall of the right side of the installation box 100. The second port 101 may be opened on the rear side of the mounting box 100, and the second port 101 is disposed opposite to the slider 411, thereby ensuring that the end of the push rod 421 slidably disposed in the mounting box 100 through the second port 101 may be in contact with the slider 411.

Specifically, when the maintenance personnel holds the handle 422 outside the mounting box 100 by hand and applies a pushing force to the push rod 421 towards the slide block 411, after the end of the push rod 421 contacts with the slide block 411, under the pushing action of the push rod 421, the slide block 411 drives the pushing block 412 to move towards the direction of the limiting hole 320 on the front side surface of the mounting box 100.

Referring to fig. 1 to 5, in a specific example, the moving direction of the push rod 421 through the second inlet 101 coincides with the moving direction of the slider 411; or, the moving direction of the push rod 421 of the second inlet 101 is perpendicular to the moving direction of the slide block 411, one surface of the slide block 411 close to the second inlet 101 is an inclined surface 4121, the pushing assembly further comprises a conical block 423, the conical block 423 is fixedly connected with the other end of the push rod 421, and the conical block 423 is in moving contact with the inclined surface 4121.

It can be understood that by opening the second doorway 101 on the rear side of the installation case 100, the moving direction of the push rod 421 through the second doorway 101 coincides with the moving direction of the slide 411, that is, both the push rod 421 and the slide 411 move toward the limit hole 320 on the front side of the installation case 100.

The second inlet 101 may also be formed on the upper side and the lower side of the installation box 100, and it is understood that the movement direction of the push rod 421 through the second inlet 101 is perpendicular to the movement direction of the slider 411. At this time, by providing the tapered block 423 at the end of the push rod 421 located in the installation case 100, when the second inlet/outlet 101 is opened at the upper side of the installation case 100, the upper side of the slide 411 is provided as the inclined surface 4121, and when the second inlet/outlet 101 is opened at the lower side of the installation case 100, the lower side of the slide 411 is provided as the inclined surface 4121.

So designed, when the push rod 421 drives the tapered block 423 to move, the tapered block 423 is close to the sliding block 411 and contacts with the inclined surface 4121 of the sliding block 411, and in the process that the tapered block 423 moves and contacts with the inclined surface 4121, the tapered block 423 pushes the sliding block 411 to move towards the direction of the limiting hole 320 on the front side of the mounting box 100.

Fig. 6 is a schematic structural view of a drum in a wireless device mounting structure according to an embodiment of the present application; fig. 7 is a connection diagram of an L-shaped plunger and a push rod in the wireless device mounting structure according to the embodiment of the present application. Referring to fig. 4 to 7, in a specific example, the movement direction of the push rod 421 coincides with the axial direction of the push rod 421, and the pushing assembly further includes a drum 424, an L-shaped insert rod 4211, and an alignment rod 425; the rotary drum 424 is rotatably connected with the installation box 100, and part of the rotary drum 424 is arranged in the installation box 100 through the second inlet and outlet 101, the L-shaped inserted rod 4211 is fixed on the push rod 421, a slot 4241 matched with the L-shaped inserted rod 4211 is arranged in the rotary drum 424, and the push rod 421 is sleeved in the rotary drum 424 in a sliding way through the L-shaped inserted rod 4211.

One end of the alignment rod 425 is fixedly connected with the handle 422, the other end of the alignment rod 425 extends towards the mounting box 100, the mounting box 100 is provided with an alignment hole 102, and the push rod 421 rotates along with the rotary drum 424, so that the other end of the alignment rod 425 is opposite to the alignment hole 102.

As described above, when the second inlet 101 is opened on the rear side, the upper side, or the lower side of the installation box 100, the slide bar 421 slidably disposed in the installation box 100 through the second inlet 101 can push the slide block 411.

The wireless device 500 is mounted on the mounting box 100, and in a normal use process, in order to avoid that other people touch by mistake, the push rod 421 moves relative to the mounting box 100 and contacts the sliding block 411, and the phenomenon that the limiting block 313 is separated from the limiting hole 320 occurs, so that the working stability of the wireless device 500 is affected. By arranging the rotary drum 424 in the installation box 100, the rotary drum 424 is rotationally connected with the inner wall of the installation box 100, and the push rod 421 is sleeved in the slot 4241 of the rotary drum 424 in a sliding way through the L-shaped inserted rod 4211; while the alignment hole 102 is provided in the mounting box 100 and the alignment bar 425 is provided in the handle 422.

Therefore, when the push rod 421 needs to be moved, the drum 424 needs to be rotated first, and the drum 424 rotates to drive the push rod 421, the handle 422 and the alignment rod 425 to rotate together under the action of the L-shaped insert rod 4211; when the alignment rod 425 is opposite to the alignment hole 102, a pushing force is applied to the handle 422, the alignment rod 425 is forced to enter the mounting box 100 through the alignment hole 102, meanwhile, the push rod 421 is forced to move relative to the mounting box 100 and close to the slide block 411, and further, the slide block 411 is forced to drive the push block 412 to move towards the limit hole 320.

It can be appreciated that when the alignment rod 425 is staggered from the position of the alignment hole 102, after pushing force is applied to the handle 422, the alignment rod 425 is blocked by the mounting box 100 to limit the movement of the push rod 421, so that the push rod 421 cannot move relative to the mounting box 100, and thus the part of the limiting block 313 clamped in the limiting hole 320 cannot fall off.

With continued reference to fig. 4, in some examples, the pushing assembly further includes a torsion spring 426 and a sleeve 427, the sleeve 427 being secured within the mounting case 100, and the sleeve 427 being disposed over a portion of the drum 424, the torsion spring 426 being disposed between the drum 424 and the sleeve 427, one end of the torsion spring 426 being fixedly connected to an outer wall of the sleeve 427, and the other end of the torsion spring 426 being fixedly connected to an inner wall of the sleeve 427.

In particular, when the wireless device 500 needs to be disassembled, a maintainer rotates the drum 424, and the drum 424 rotates to drive the push rod 421, the handle 422 and the alignment rod 425 to rotate together, it will be appreciated that the torsion spring 426 is stretched due to the change of the position of the drum 424 relative to the sleeve 427; when the alignment rod 425 is opposite to the alignment hole 102, a pushing force is initially applied to the handle 422, and then the stopper 313 is separated from the stopper hole 320 under the pushing action of the push rod 421.

After the maintenance personnel further disengage the wireless device 500 from the mounting box 100, the pushing force is eliminated, so that the torsion spring 426 will perform a resetting action and drive the push rod 421 and the drum 424 to return to the original positions. From this, through setting up torsional spring 426 make the maintenance personal need not manual reset, be favorable to promoting the use experience.

In some embodiments, the axis of the drum 424 coincides with the axis of the sleeve 427.

Here, through setting up the axis coincidence of rotary drum 424 and sleeve 427, after the both ends of torsional spring 426 are connected with the two respectively, the rotary drum 424 can make torsional spring 426 atress even and produce tensile deformation for sleeve 427 pivoted in-process, excellent in use effect just is favorable to improving torsional spring 426's life.

In the above description, descriptions of the terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While the present application has been described with reference to the preferred embodiments shown in the drawings, it will be readily understood by those skilled in the art that the scope of the application is not limited to those specific embodiments, and the above examples are intended only to illustrate the technical aspects of the application, not to limit it; although the application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the application.

Claims (10)

1. The wireless equipment mounting structure is characterized by comprising a mounting box, a clamping assembly, a limiting mechanism and a pushing mechanism; the mounting box is used for being fixed on the holding pole, the clamping assembly comprises two first blocks and two second blocks, the two first blocks are used for being fixed on the back surface of the wireless equipment at intervals, the two second blocks are fixed on the surface of the mounting box at intervals, one of the first blocks and the second blocks is provided with a plug-in part, the other one of the first blocks and the second blocks is provided with a plug-in groove, and the plug-in parts and the plug-in grooves are in one-to-one correspondence;

The limiting mechanism comprises a limiting component and a limiting hole, the limiting component is arranged on the wireless equipment, the limiting hole is formed in the mounting box, the limiting component is configured to be slidably inserted into the inserting groove at the inserting part, the limiting component is opposite to the limiting hole, and part of the limiting component is clamped in the limiting hole;

And part of the pushing mechanism is arranged in the installation box and is used for pushing part of the limiting assembly to be separated from the limiting hole.

2. The wireless device mounting structure of claim 1, wherein the limit assembly comprises a housing, a limit spring, and a limit block; the shell is used for being fixed on the back surface of the wireless device, and a first access opening is formed in one surface of the shell, which is close to the mounting box;

The limiting spring and part of the limiting block are arranged in the shell, one end of the limiting spring is fixedly connected with the inner wall of the shell, the other end of the limiting spring is fixedly connected with one end of the limiting block, and the other end of the limiting block enters and exits the shell through the first inlet and outlet;

The limiting block Kong Kaishe is arranged on the mounting box, the other end of the limiting block is abutted to the surface of the mounting box, when the limiting block is opposite to the limiting hole, the limiting spring is reset, and the limiting block moves relative to the shell, so that the limiting block is clamped in the limiting hole.

3. The wireless device mounting structure of claim 2, wherein the pushing mechanism comprises a first pushing assembly and a second pushing assembly, the first pushing assembly is slidably connected with an inner wall of the mounting box, the first pushing assembly is disposed opposite the limiting hole, a portion of the second pushing assembly is slidably disposed within the mounting box, and the second pushing assembly is configured to push the first pushing assembly toward the limiting hole to move the limiting block away from the limiting hole.

4. The wireless device mounting structure of claim 3, wherein the first push assembly comprises a slider and a push block; the sliding block and the pushing block are both arranged in the installation box, and the sliding block is in sliding connection with the inner wall of the installation box;

The pushing block is fixed on one surface of the sliding block, which is close to the limiting hole, and the second pushing component pushes the sliding block to move relative to the installation box so as to drive the pushing block to be close to the limiting hole and push the limiting block through the limiting hole, so that the limiting block is separated from the limiting hole.

5. The wireless device mounting structure of claim 4, wherein the first pushing assembly further comprises a pushing spring, one end of the pushing spring is fixedly connected with the inner wall of the mounting box, the other end of the pushing spring is fixedly connected with the sliding block, and the pushing spring is configured to drive the sliding block to reset after the second pushing assembly pushes the sliding block.

6. The wireless device mounting structure of claim 4, wherein the second pushing assembly includes a push rod and a handle, the mounting box is provided with a second inlet and outlet, the handle is fixedly connected with one end of the push rod, the other end of the push rod is slidably disposed in the mounting box through the second inlet and outlet, and the push rod moves towards the slide block to push the slide block, so that the pushing block follows the slide block to be close to the limiting hole.

7. The wireless device mounting structure according to claim 6, wherein a moving direction of the push rod via the second inlet and outlet coincides with a moving direction of the slider;

or, the moving direction of the push rod through the second access opening is perpendicular to the moving direction of the sliding block, one surface of the sliding block, which is close to the second access opening, is an inclined surface, the pushing assembly further comprises a conical block, the conical block is fixedly connected with the other end of the push rod, and the conical block is in moving contact with the inclined surface.

8. The wireless device mounting structure of claim 7, wherein a direction of movement of the pushrod coincides with an axial direction of the pushrod, the pushing assembly further comprising a drum, an L-shaped plunger, and an alignment rod;

The rotary drum is rotationally connected with the installation box, part of the rotary drum is arranged in the installation box through the second access opening, the L-shaped inserting rod is fixed on the push rod, a slot matched with the L-shaped inserting rod is formed in the rotary drum, and the push rod is sleeved in the rotary drum in a sliding manner through the L-shaped inserting rod;

One end of the alignment rod is fixedly connected with the handle, the other end of the alignment rod extends towards the mounting box, an alignment hole is formed in the mounting box, and the push rod follows the rotary drum to rotate so that the other end of the alignment rod and the alignment hole are oppositely arranged.

9. The wireless device mounting structure of claim 8, wherein the pushing assembly further comprises a torsion spring and a sleeve, the sleeve is fixed in the mounting box, the sleeve is sleeved on a part of the rotating drum, the torsion spring is arranged between the rotating drum and the sleeve, one end of the torsion spring is fixedly connected with the outer wall of the sleeve, and the other end of the torsion spring is fixedly connected with the inner wall of the sleeve.

10. The wireless device mounting structure of claim 9, wherein an axis of the drum coincides with an axis of the sleeve.