CN114738643A - Ball machine mounting structure - Google Patents

Abstract

The application provides a ball machine mounting structure. The mounting structure comprises a ball machine and a mounting seat. The ball machine is including the circular top cap that is located the top with locate the installation of circular top cap is protruding, the installation arch is followed the radial evagination of circular top cap, and is followed the axial epirelief of circular top cap, the installation arch is including the hoist and mount joint portion of locating the top and locate the wall of lateral part joint portion. The mount pad is used for with load structure fixed connection, the mount pad is including joining in marriage the portion of connecting, join in marriage connecting portion optionally with hoist and mount joint portion with wall dress joint portion connects in the joint, wherein, ball machine mounting structure disposes into, hoist and mount joint portion can follow the horizontal direction with join in marriage the cooperation of portion joint, make the ball machine is installed with hoist and mount mode, and wall dress joint portion can follow vertical direction with join in marriage the cooperation of portion joint, make the ball machine is installed with wall dress mode. The scheme meets the hoisting and wall mounting requirements of the ball machine, and realizes the quick disassembly and quick assembly of the ball machine.

Description

Ball machine mounting structure

Technical Field

The application relates to the technical field of monitoring, in particular to a ball machine mounting structure.

Background

A camera such as a dome camera needs to be fixed on a bearing structure such as a wall surface, a ceiling or a telegraph pole. The existing mounting bracket can only realize one mounting mode, namely, the mounting bracket can not be hung on the wall when meeting the requirement of lifting, and different mounting brackets need to be replaced if the mounting mode of the camera needs to be changed, so that inconvenience is brought to mounting work.

Disclosure of Invention

The application provides a ball machine mounting structure, can satisfy the installation demand of hoist and mount and wall-mounted simultaneously.

The application provides a ball machine mounting structure includes:

the ball machine comprises a circular top cover positioned at the top and an installation bulge arranged on the circular top cover, wherein the installation bulge protrudes outwards along the radial direction of the circular top cover and axially along the circular top cover, and the installation bulge comprises a hoisting clamping part arranged at the top and a wall clamping part arranged at the side part; and

the mount pad for with load structure fixed connection, the mount pad is including joining in marriage the portion of connecing, join in marriage the portion of connecing optionally with hoist and mount joint portion or wall joint portion connects in marriage, wherein, ball machine mounting structure configures into, hoist and mount joint portion can follow the horizontal direction with join in marriage the cooperation of portion joint, make the ball machine is installed with hoist and mount mode, and wall joint portion can follow vertical direction with join in marriage the cooperation of portion joint, make the ball machine is installed with the wall mode.

Optionally, the installation arch includes the perpendicular to circular top cap and follows the convex first curb plate in edge of circular top cap, second curb plate and middle curb plate, first curb plate with the second curb plate is parallel, middle curb plate is located first curb plate with between the second curb plate, hoist and mount joint portion including form in first curb plate with the first joint structure of second curb plate, and be formed in the second joint structure of middle curb plate, first joint structure with second joint structure all with join in marriage the portion joint.

Optionally, the first side plate and/or the second side plate are provided with hoisting guide structures, the matching part comprises a hoisting guide matching structure, the hoisting guide structure is in sliding fit with the hoisting guide matching structure along the horizontal direction, and in the sliding process, the first clamping structure and the second clamping structure are respectively clamped with the matching part correspondingly.

Optionally, the hoisting guide structure is set as a first chute, the hoisting guide matching structure is set as a strip protrusion, the first clamping structure comprises a first clamping groove which is arranged in the first chute and is recessed along the thickness direction of the first side plate, the matching and connecting part comprises a protrusion which is arranged in the protruding clamping and connecting part of the strip protrusion, and the clamping and connecting part is protruded in the first clamping groove, wherein the strip protrusion and the horizontal relative sliding in-process of the first chute are clamped in the first clamping groove.

Optionally, the groove width of the first sliding groove is gradually reduced along the clamping direction; and/or

The size of the strip-shaped protrusion in the width direction of the first sliding groove is gradually increased along the clamping direction.

Optionally, the installation arch still include with first curb plate with the perpendicular end plate that meets of second curb plate, wall dress joint portion including form in first curb plate with the third joint structure of second curb plate, and form in the fourth joint structure of end plate, third joint structure with fourth joint structure all with the joint portion joint.

Optionally, the first side plate and/or the second side plate include a wall-mounted guide structure, the mating part includes a wall-mounted guide mating structure, the wall-mounted guide structure is in sliding fit with the wall-mounted guide mating structure along a vertical direction, and in the sliding process, the third clamping structure and the fourth clamping structure are respectively clamped with the mating part correspondingly.

Optionally, the wall-mounted guiding structure is set as a second sliding groove, the wall-mounted guiding matching structure is the bar-shaped protrusion, the third clamping structure comprises a second clamping groove arranged in the second sliding groove, and the clamping protrusion is clamped into the second clamping groove by the bar-shaped protrusion and the second sliding groove in the vertical sliding process.

Optionally, the end plate with the middle curb plate meets perpendicularly, fourth joint structure set up in the end plate with the position department that meets of middle curb plate.

Optionally, the hoisting clamping portion is clamped with the mating portion at three points, and the three clamping points are arranged in a triangular manner; and/or

The wall-mounted clamping part is clamped with the matching and connecting part at three points, and the three clamping points are arranged in a triangular mode.

The technical scheme provided by the application can at least achieve the following beneficial effects:

the application provides a ball machine mounting structure, wherein, ball machine mounting structure configures into hoist and mount joint portion can follow the horizontal direction with join in marriage the cooperation of portion joint, make the ball machine is installed with the hoist and mount mode, and vertical direction can be followed to wall joint portion with join in marriage the cooperation of portion joint, make the ball machine is installed with the wall mode. Therefore, the installation requirements of the ball machine in two modes of lifting and wall mounting are met. And the hoisting and wall-mounting adopt a clamping and matching mode, so that the quick disassembly and quick assembly of the dome camera during hoisting and wall-mounting are realized, the mounting and maintenance of the dome camera are facilitated, and the manpower and material resources are saved.

Drawings

FIG. 1 is a schematic view of a mounting structure of a ball machine in a hoisting mode shown in an exemplary embodiment of the present application;

FIG. 2 is a schematic illustration of a wall-mounted ball drop machine mounting arrangement shown in an exemplary embodiment of the present application;

FIG. 3 is a schematic view of the ball machine shown in FIGS. 1 and 2;

FIG. 4 is a schematic diagram of a portion of the structure of the ball machine shown in FIGS. 1 and 2;

FIG. 5 is a schematic view of the mount shown in FIGS. 1 and 2;

FIG. 6 is a schematic illustration of the ball machine hoist installation process;

FIG. 7 is a schematic diagram of a wall mount installation process for a ball machine;

fig. 8 is an enlarged view of the mounting projection.

Detailed Description

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

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. Unless otherwise defined, technical or scientific terms used herein shall have the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs. As used in this application, the terms "first," "second," and the like do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. Similarly, the terms "a" or "an" and the like do not denote a limitation of quantity, but rather denote the presence of at least one, and if only "a" or "an" is denoted individually. "plurality" or "a number" means two or more. Unless otherwise specified, "front", "back", "lower" and/or "upper", "top", "bottom", and the like are for ease of description only and are not limited to one position or one spatial orientation. The word "comprising" or "comprises", and the like, means that the element or item listed as preceding "comprising" or "includes" covers the element or item listed as following "comprising" or "includes" and its equivalents, and does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect.

Referring to fig. 1 and 2, fig. 1 is a schematic diagram illustrating a mounting structure of a ball machine in a hoisting mode according to an exemplary embodiment of the present application. FIG. 2 is a schematic diagram illustrating a wall-mounted ball drop mounting arrangement according to an exemplary embodiment of the present application.

The embodiment of the application provides a ball machine mounting structure, including ball machine 1 and mount pad 2. The mounting base 2 is used for being fixedly connected with a bearing structure, and the bearing structure can be a wall, a roof or a telegraph pole. Ball machine 1 installs in mount pad 2, keeps relatively fixed through mount pad 2 and load structure, and mount pad 2 can satisfy the installation demand that ball machine 1 hoisted and wall-mounted.

Referring to fig. 3, fig. 3 is a schematic view of the ball machine 1 shown in fig. 1.

The ball machine 1 comprises a circular top cover 11 positioned at the top and a mounting protrusion 12 arranged on the circular top cover 11. In one embodiment, the circular top cover 11 and the mounting protrusion 12 are formed as an integral structure, so that the circular top cover 11 and the mounting protrusion 12 are combined into one part, the number of parts is reduced, and the mounting structure of the ball machine is simplified and optimized. In one embodiment, the circular top cover 11 is provided with screw holes 110, and the circular top cover 11 can be detachably assembled to the main body of the ball machine 1 by screws, but is not limited thereto.

The mounting protrusion 12 protrudes outward in the radial direction of the circular top cover 11 and protrudes upward in the axial direction of the circular top cover 11. That is, the mounting protrusion 12 protrudes outward from the outer edge of the circular top cover 11 and upward from the upper surface of the circular top cover 11, forming an upward convex structure that is offset with respect to the center of the circular top cover 11, so that the connection of the mounting protrusion 12 with the mounting seat 2 can be facilitated.

Referring to fig. 4 and 5, fig. 4 is a schematic view of the circular cover 11 and the mounting protrusion 12 of the ball machine 1. Fig. 5 shows a schematic view of the mounting base 2.

The mounting protrusion 12 includes a hanging clip portion 120 at the top and a wall clip portion 122 at the side. The mounting base 2 includes a mating portion 21, and the mating portion 21 can be selectively mated with the hanging clip portion 120 or the wall-mounted clip portion 122. Wherein, the ball machine mounting structure configures into, hoist and mount joint portion 120 can follow the horizontal direction with join in marriage joint portion 21 joint cooperation, make ball machine 1 installs with the hoist and mount mode, and wall mount joint portion 122 can follow vertical direction with join in marriage joint portion 21 joint cooperation, make ball machine 1 installs with the wall mount mode. Therefore, the installation requirements of the ball machine 1 in two modes of lifting and wall mounting are met. In addition, under the hoisting and wall-mounting modes, the ball machine 1 and the mounting base 2 are in clamping fit, so that quick disassembly and quick assembly during hoisting and wall mounting of the ball machine 1 are realized, the installation and maintenance of the ball machine 1 are facilitated, and manpower and material resources are saved.

Referring to fig. 6, fig. 6 shows a schematic diagram of the process of installing the dome camera 1 by hoisting.

In the first step, the mounting base 2 is mounted on a top bearing structure 4 such as a ceiling by using a screw 3, and the screw 3 can be preferably an expansion screw.

And secondly, moving the ball machine 1 along the horizontal direction (arrow direction in fig. 6), so that the hoisting clamping part 120 is clamped in along the horizontal direction and is in clamping fit with the matching part 21, and the ball machine 1 is clamped and fixed with the mounting seat 2. At this time, the ball machine 1 is hung on the bearing structure 4.

When the ball machine 1 needs to be dismounted, the ball machine 1 can be dismounted only by pulling the ball machine 1 along the direction opposite to the arrow shown in the figure, so that the quick dismounting and the quick mounting of the hoisting and mounting of the ball machine 1 are realized, and the mounting and the maintenance of the ball machine 1 are facilitated.

Referring to fig. 7, fig. 7 shows a schematic diagram of the wall-mounted process of the ball machine 1.

In the first step, the mounting seat 2 is mounted on a side bearing structure 4 such as a wall surface by using a screw 3, and the screw 3 can be preferably an expansion screw.

And secondly, moving the ball machine 1 along the vertical direction (arrow direction in fig. 7), so that the wall-mounted clamping part 122 is clamped in along the vertical direction and is in clamping fit with the matching part 21, and the ball machine 1 is clamped and fixed with the mounting seat 2. At this time, the ball machine 1 is fixed in a wall-mounted manner.

When the ball machine 1 needs to be disassembled, the ball machine 1 can be disassembled only by pulling the ball machine 1 along the direction opposite to the arrow shown in the figure, so that the quick disassembly and the quick assembly of the wall mounting of the ball machine 1 are realized, and the installation and the maintenance of the ball machine 1 are convenient.

Referring to fig. 8, fig. 8 is an enlarged view of the mounting boss 12.

In one embodiment, the mounting protrusion 12 includes a first side plate 121, a second side plate 123 and a middle side plate 124 perpendicular to the circular top cover 11 and protruding outward from an edge of the circular top cover 11. The first side plate 121 and the second side plate 123 are parallel to each other and spaced apart from each other by a predetermined distance. The middle side plate 124 is disposed between the first side plate 121 and the second side plate 123, and the specific arrangement manner is not limited. In this embodiment, the middle side plate 124 is parallel to the first side plate 121 and the second side plate 123. Of course, in other embodiments, the middle side plate 124 may be inclined or perpendicular to the first side plate 121 and the second side plate 123.

Hoisting joint portion 120 including form in first curb plate 121 with the first joint structure 1200 of second curb plate 123, and form in the second joint structure 1202 of middle curb plate 124, first joint structure 1200 with second joint structure 1202 all with join in marriage joint portion 21 joint. So for hoist and mount joint portion 120 and join in marriage joint portion 21 and realized the multiple spot joint, joint stability and reliability are higher. It should be noted that, in the process of clamping the ball machine 1 with the matching part 21 along the horizontal direction, the first clamping structure 1200 and the second clamping structure 1202 may be correspondingly clamped with the corresponding parts of the matching part 21, respectively. There are various embodiments of the latch structure, and the shape of the first latch structure 1200 and the second latch structure 1202 is not particularly limited in this application.

In addition, the arrangement positions of the plurality of card contact points are not limited, and the number of the card contact points is not limited. In this embodiment, based on the three-point stabilization principle, the first clamping structure 1200, the second clamping structure 1202 and the mating portion 21 form a three-point clamping, and the connecting lines of the three clamping points form a triangle, which is beneficial to improving the stability of the clamping structure.

As shown in fig. 5 and 8, the first side plate 121 is provided with a lifting guide structure 1210, and the lifting guide structure 1210 extends along the horizontal direction of the first side plate 121 protruding from the circular top cover 11. The mating part 21 comprises a hoisting guide matching structure 210, the hoisting guide structure 1210 is in sliding fit with the hoisting guide matching structure 210 along the horizontal direction, and in the sliding process, the first clamping structure 1200 and the second clamping structure 1202 are correspondingly clamped with the mating part 21 respectively. Therefore, the accuracy of the clamping direction can be ensured by the sliding fit of the hoisting guide structure 1210 and the hoisting guide matching structure 210, so that the first clamping structure 1200 and the second clamping structure 1202 are respectively aligned with the corresponding clamping position on the matching part 21, and the clamping precision and the clamping reliability are ensured.

In some application scenarios, the second side plate 123 may be provided with a hoisting guide structure (not shown), and correspondingly, the mating portion 21 is provided with a hoisting guide mating structure in sliding fit with the hoisting guide structure of the second side plate 123, so that the clamping accuracy and the clamping reliability can be ensured as well. In the embodiment shown in fig. 5 and 8, the first side plate 121 and the second side plate 123 are both provided with hoisting guide structures 1210, and the mating portion 21 is provided with two hoisting guide matching structures 210 which are in one-to-one sliding fit with the two hoisting guide structures 1210. So, can be so that hoist and mount joint portion 120 and joining in marriage joint portion 21 and lead through a plurality of positions cooperation when the horizontal direction joint, further increase the stationarity and the accuracy of joint process. In this embodiment, the two lifting guide structures 1210 are respectively disposed on the top of the side surfaces of the first side plate 121 and the second side plate 123 facing each other, and are level in height. It should be further noted that the two hoisting guide structures 1210 respectively disposed on the first side plate 121 and the second side plate 123 may be the same or different, and the two hoisting guide matching structures 210 disposed on the mating portion 21 may be the same or different, only by ensuring that the corresponding hoisting guide structures 1210 are matched with the hoisting guide matching structures 210.

The application does not limit the specific implementation of the hoisting guide structure 1210 and the hoisting guide matching structure 210. In the embodiment shown in fig. 5 and 8, the hoisting guide structure 1210 is configured as a first sliding groove 13, and the hoisting guide matching structure 210 is configured as a strip-shaped protrusion 22, and the strip-shaped protrusion 22 can slide in the first sliding groove 13. First joint structure 1200 including set up in first spout 13 is interior and follow the recessed first draw-in groove 1201 of the thickness direction of first curb plate 121, join in marriage portion 21 including the protrusion set up in the protruding 211 of joint of the protruding 22 of bar, the protruding 211 of joint is in the protruding 22 of bar with the in-process card of 13 relative slip of first spout is gone into in the first draw-in groove 1201. So set up, first spout 13 not only can play the joint guide effect with the protruding 211 cooperation of joint, but also can accept first draw-in groove 1201 in first spout 13 for the space in first spout 13 is effectively utilized, improves layout structure's compactedness. Moreover, under the guiding action of the first sliding groove 13 and the strip-shaped protrusions 22, accurate alignment of the clamping protrusions 211 and the first clamping grooves 1201 can be achieved, and therefore clamping matching precision is improved.

Specifically, along ball machine 1's card income direction, first draw-in groove 1201 is located the front end of first spout 13, and the protruding 211 setting of joint is in the rear end of the protruding 22 of bar, along with the protruding 22 of bar and the gradual increase of the first spout 13 cooperation length, first draw-in groove 1201 is close gradually with the protruding 211 of joint, and in the protruding 211 card of joint goes into first draw-in groove 1201, the completion joint. At this time, the second engaging structure 1202 also engages with the mating portion 21.

The positions of the first slide groove 13 and the strip-shaped protrusion 22 may be interchanged. For example, the mating portion 21 is provided with a first sliding groove 13, and the hoisting guide structure 1210 is provided as a strip-shaped protrusion 22. In addition, the positions of the catching protrusion 211 and the first catching groove 1201 may be interchanged. For example, first latch structure 1200 includes latch protrusion 211, and mating portion 21 includes first latch slot 1201.

In order to reduce the difficulty of the clamping protrusion 211 being clamped into and separated from the clamping groove 1201, the inner surface of the clamping groove 1201 is a concave arc surface, and the outer surface of the clamping protrusion 211 is a convex arc surface, so that the clamping and the separation can be facilitated, the automatic centering can be realized, and the quick and accurate clamping can be realized.

In order to avoid loosening after the snap-in fastening, in one embodiment, the width of the first sliding groove 13 is gradually reduced along the snap-in direction. That is to say, if the width of the bar-shaped protrusion 22 is not changed, the gap between the bar-shaped protrusion 22 and the first sliding groove 13 is gradually reduced along with the increase of the matching length, so that a friction force is generated between the bar-shaped protrusion 22 and the inner wall of the first sliding groove 13, and it is ensured that the bar-shaped protrusion 22 does not move in the first sliding groove 13, and can move relatively only by being pushed by an external force, so as to ensure the stability of the clamping structure.

In order to achieve the above technical effects, in another embodiment, the size of the bar-shaped protrusion 22 in the width direction of the first sliding groove 13 may be gradually increased along the click-in direction. That is, in the case that the groove width of the first sliding groove 13 is not changed, by changing the width of the bar-shaped protrusion 22, the frictional force can be also generated, and the stability of the catching structure is ensured by the frictional force.

In the present embodiment, the groove width of the first slide groove 13 gradually decreases and the size of the bar-shaped protrusion 22 in the width direction of the first slide groove 13 gradually increases in the click-in direction. Like this, the clearance surplus of bar arch 22 and first spout 13 is littleer, can increase the area of contact of bar arch 22 and first spout 13 inner wall from this to further increase frictional force, make the stability of joint structure further strengthened.

The embodiment of the second snap structure 1202 is not limited. In this embodiment, the second clamping structure 1202 is located on the top of the middle side plate 214 and is configured as a wedge-shaped clamping pin 14, the mating portion 21 includes a clamping groove 215, and the wedge-shaped clamping pin 14 can be clamped into the clamping groove 215 in the process of sliding fit between the bar-shaped protrusion 22 and the first sliding groove 13. The catching groove 215 may be formed in a gap between two protrusions, but is not limited thereto.

The positions of the wedge-shaped clamping feet 14 and the clamping grooves 215 can be interchanged. For example, the mating portion 21 is provided with wedge-shaped clamping legs, and the second clamping structure 1202 is configured as a clamping groove.

With reference to fig. 8, the mounting protrusion 12 further includes an end plate 125 perpendicularly connected to the first side plate 121 and the second side plate 123, the wall-mounted clamping portion 122 includes a third clamping structure 1220 formed on the first side plate 121 and the second side plate 123, and a fourth clamping structure 1222 formed on the end plate 125, and both the third clamping structure 1220 and the fourth clamping structure 1222 are clamped to the mating portion 21 in a wall-mounted manner. So for wall mount joint portion 122 has realized the multiple spot joint with joining in marriage connecting portion 21, and joint stability and reliability are higher. There are various embodiments of the clamping structure, and the shape of the third clamping structure 1220 and the fourth clamping structure 1222 is not particularly limited in this application.

In addition, the arrangement position of the plurality of card contact points is not limited and the specific number of the card contact points is not limited. In this embodiment, based on the three-point stabilization principle, the third clamping structure 1220, the fourth clamping structure 1222 and the mating portion 21 form a three-point clamping, and the connection line of the three clamping points forms a triangle, which is beneficial to improving the stability of the clamping structure.

With reference to fig. 5 and 8, in an embodiment, the first side plate 121 includes a wall-mounted guiding structure 1212, the mating part 21 includes a wall-mounted guiding mating structure 212, the wall-mounted guiding structure 1212 is slidably mated with the wall-mounted guiding mating structure 212 in a vertical direction, and during the sliding process, the third clamping structure 1220 and the fourth clamping structure 1222 are correspondingly clamped with the mating part 21 respectively. In this way, the wall-mounted guiding structure 1212 and the wall-mounted guiding mating structure 212 can be slidably mated to ensure the accuracy of the clamping direction, so that the third clamping structure 1220 and the fourth clamping structure 1222 are aligned with the corresponding clamping portions of the mating part 21, respectively, and the clamping accuracy and the clamping reliability are ensured.

In other embodiments, the second side plate 123 may include a wall-mounted guiding structure (not shown), and accordingly, the mating portion 21 is provided with a hanging guiding mating structure slidably mating with the wall-mounted guiding structure 1212, so as to ensure the clamping accuracy and the clamping reliability.

In the embodiment shown in fig. 5 and 8, the first side plate 121 and the second side plate 123 are each provided with a wall-mounted guiding structure 1212, and the mating part 21 is provided with two wall-mounted guiding engagement structures 212 slidably engaged with the two wall-mounted guiding structures 1212 one by one. So, can make wall-mounted guide structure 1212 and join in marriage portion 21 through the cooperation of a plurality of positions when vertical direction joint direction, further increase the stationarity and the accuracy of joint process.

The present application is not limited to the specific embodiments of the wall-mount guide structure 1212 and the wall-mount guide mating structure 212. In the embodiment shown in fig. 5 and 8, the wall-mounted guide structure 1212 is provided as a second chute 15, the second chute 15 extending in a vertical direction, perpendicular to the first chute 13. The wall-mounted guiding and matching structure 212 is the strip-shaped protrusion 22, the third clamping structure 1220 includes a second clamping groove 1221 arranged in the second sliding groove 15, and the clamping protrusion 211 of the matching and connecting part 21 is clamped into the second clamping groove 1221 in the vertical sliding process of the strip-shaped protrusion 22 and the second sliding groove 15. That is to say, the wall-mounted guiding and matching structure 212 and the lifting guiding and matching structure 210 are the same structure and are both the strip-shaped protrusion 22, in the lifting mode, the strip-shaped protrusion 22 is matched with the first sliding groove 13, and in the wall-mounted mode, the strip-shaped protrusion 22 is matched with the second sliding groove 15. In this way, the same structure can be used in different mounting manners, which simplifies the structure of the mating portion 21 and reduces the difficulty of assembly.

The second clamping groove 1221 may be set as a bar-shaped groove, and a predetermined distance is extended from the front end of the card-in direction to the rear end, and when the bar-shaped protrusion 22 slides relative to the second sliding groove 15, the clamping protrusion 211 moves along the length direction of the bar-shaped groove until contacting with the upper side wall of the bar-shaped groove, and clamping is completed. At this time, the fourth engaging structure 1222 can also be engaged with the mating portion 21.

In one embodiment, the end plate 125 is perpendicular to the middle side plate 124, and the fourth clamping structure 1222 is disposed at the position where the end plate 125 meets the middle side plate 124. So, can improve the intensity and the rigidity of end plate 125, avoid joint in-process end plate 125 to warp or fracture, guarantee the stability in position of fourth joint structure 1222.

The fourth snap structure 1222 is located on top of the end plate 125 and is configured as a wedge-shaped protrusion that can snap fit with the snap groove 215 of the mating portion 21. Thus, the compatibility of the clamping groove 215 under the wall-mounted and hoisting modes is realized.

Referring to fig. 5 again, the mounting base 2 is a plate-shaped structure, and is provided with a mounting hole 23 penetrating through the mounting base in the thickness direction, and the screw 3 penetrates through the mounting hole 23 and is fixedly connected to the force-bearing structure. The number of the mounting holes 23 is not limited, and may be one or more. In this embodiment, three mounting holes 23 are provided and arranged in a triangular shape. In the ceiling-mounted mode, the axis of the mounting hole 23 is perpendicular to the ceiling, and in the wall-mounted mode, the axis of the mounting hole 23 is perpendicular to the ceiling and to the wall.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the scope of protection of the present application.

Claims (10)

1. A ball machine mounting structure, comprising:

the ball machine comprises a circular top cover positioned at the top and an installation bulge arranged on the circular top cover, wherein the installation bulge protrudes outwards along the radial direction of the circular top cover and upwards along the axial direction of the circular top cover, and the installation bulge comprises a hoisting clamping part arranged at the top and a wall-mounted clamping part arranged at the side part; and

the mount pad for with load structure fixed connection, the mount pad is including joining in marriage the portion of connecing, join in marriage the portion of connecing optionally with hoist and mount joint portion or wall joint portion connects in marriage, wherein, ball machine mounting structure configures into, hoist and mount joint portion can follow the horizontal direction with join in marriage the cooperation of portion joint, make the ball machine is installed with hoist and mount mode, and wall joint portion can follow vertical direction with join in marriage the cooperation of portion joint, make the ball machine is installed with the wall mode.

2. The ball machine mounting structure of claim 1, wherein the mounting protrusion comprises a first side plate, a second side plate and a middle side plate which are perpendicular to the circular top cover and protrude from the edge of the circular top cover, the first side plate is parallel to the second side plate, the middle side plate is located between the first side plate and the second side plate, the hoisting clamping portion comprises a first clamping structure formed on the first side plate and the second side plate and a second clamping structure formed on the middle side plate, and the first clamping structure and the second clamping structure are clamped with the mating portion.

3. The ball machine mounting structure according to claim 2, wherein the first side plate and/or the second side plate is provided with a hoisting guide structure, the mating part comprises a hoisting guide matching structure, the hoisting guide structure and the hoisting guide matching structure are in sliding fit along a horizontal direction, and in the sliding process, the first clamping structure and the second clamping structure are correspondingly clamped with the mating part respectively.

4. The ball machine mounting structure according to claim 3, wherein the hoisting guide structure is configured as a first sliding groove, the hoisting guide matching structure is configured as a bar-shaped protrusion, the first clamping structure comprises a first clamping groove which is arranged in the first sliding groove and is recessed along the thickness direction of the first side plate, the matching part comprises a clamping protrusion which is arranged in the bar-shaped protrusion in a protruding manner, and the clamping protrusion is clamped into the first clamping groove in the horizontal relative sliding process of the bar-shaped protrusion and the first sliding groove.

5. The ball machine mounting structure according to claim 4, wherein a groove width of the first chute is gradually reduced in a snap-in direction; and/or

The size of the strip-shaped protrusion in the width direction of the first sliding groove is gradually increased along the clamping direction.

6. The ball machine mounting structure of claim 4, wherein the mounting protrusion further comprises an end plate vertically connected to the first side plate and the second side plate, the wall-mounted clamping portion comprises a third clamping structure formed on the first side plate and the second side plate and a fourth clamping structure formed on the end plate, and the third clamping structure and the fourth clamping structure are clamped to the mating portion.

7. The ball machine mounting structure of claim 6, wherein the first side plate and/or the second side plate comprises a wall-mounted guiding structure, the mating part comprises a wall-mounted guiding engagement structure, the wall-mounted guiding structure and the wall-mounted guiding engagement structure are slidably engaged in a vertical direction, and during the sliding process, the third clamping structure and the fourth clamping structure are correspondingly clamped with the mating part respectively.

8. The ball machine mounting structure of claim 7, wherein the wall-mounted guiding structure is configured as a second sliding groove, the wall-mounted guiding engagement structure is the bar-shaped protrusion, the third engaging structure includes a second engaging groove disposed in the second sliding groove, and the engaging protrusion is engaged in the second engaging groove during vertical sliding of the bar-shaped protrusion and the second sliding groove.

9. The ball machine mounting structure of claim 7, wherein the end plate is vertically connected to the middle side plate, and the fourth clamping structure is disposed at a connection position of the end plate and the middle side plate.

10. The mounting structure of the ball machine according to any one of claims 1 to 9, wherein the hoisting clamping portion is clamped with the mating portion at three points, and three clamping points are arranged in a triangular shape; and/or

The wall-mounted clamping part is clamped with the matching and connecting part at three points, and the three clamping points are arranged in a triangular mode.

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