CN218005233U - Antenna installation device - Google Patents

Abstract

The application provides an antenna installation device, this antenna installation device includes first installed part and second installed part, first installed part is used for dismantling with the antenna and is connected, the second installed part rotates with first installed part to be connected, first installed part can rotate around the axis for the second installed part, any one in first installed part and the second installed part is provided with location portion, another is provided with two at least spacing portions, when first installed part rotates first default position, location portion can dismantle with spacing portion and be connected, in order to be spacing in first default position with first installed part. Because each spacing portion sets up uniquely in the position of second installed part for the every single move angle of antenna is restricted at preset angle value, and the signal coverage of antenna is difficult for taking place the skew promptly. The pitching angle adjusting precision of the antenna installation device is higher, the signal coverage range of the antenna is more accurate, the user equipment can effectively receive signals, and the user experience is higher.

Description

Antenna installation device

Technical Field

The application relates to the technical field of communication equipment, in particular to an antenna installation device.

Background

With the acceleration of the urbanization process, a large number of high-rise residential buildings are newly built in each city, and the height and the density of the buildings are increased, so that the signals of the peripheral base stations cannot effectively cover the interior of a residential district. In order to solve the technical problem, in the prior art, a reflector lamp antenna is installed in a high-rise residential building by using an antenna installation device, and signals are covered in a residential community. However, the antenna mounting device in the prior art has the problem of inaccurate pitching angle positioning, and easily causes the antenna signal coverage to deviate from the target range.

SUMMERY OF THE UTILITY MODEL

The application provides an antenna installation device, angle modulation precision is high, can improve the antenna signal coverage degree of accuracy.

The application provides an antenna installation device, this antenna installation device includes first installed part and second installed part, first installed part is used for dismantling with the antenna and is connected, the second installed part rotates with first installed part to be connected, first installed part can rotate around the axis for the second installed part, any one in first installed part and the second installed part is provided with location portion, another is provided with two at least spacing portions, when first installed part rotates first preset position, location portion can be dismantled with spacing portion and be connected to it is spacing in first preset position with first installed part.

The antenna is mounted on a first mount which is rotatable about an axis relative to a second mount to vary the pitch angle of the first mount (antenna) relative to the second mount so that the signal coverage of the antenna can be adjusted. In one possible design, the first mounting part may be provided with one positioning part, and the second mounting part may be provided with at least two limiting parts. When the connection relation between the positioning part and one limiting part is cancelled, the first installation part drives the antenna to rotate to a first preset position, the pitching angle of the first installation part (antenna) relative to the second installation part is adjusted, and namely the signal coverage range of the antenna is adjusted to a target range. When the positioning part is detachably connected with the limiting part positioned at the first preset position, the pitching angle of the first installation part (antenna) is limited to a preset angle value because the limiting parts are arranged only at the position of the second installation part, namely the signal coverage range of the antenna is not easy to deviate. Compared with the prior art that the antenna mounting piece is mounted on the sliding groove of another mounting piece, the problem that the antenna mounting piece is easy to slide and deviate in the sliding groove (the pitching angle of the antenna deviates) due to the influence of factors such as self weight of the antenna, wind power or nonstandard manual assembly operation and the like is solved. The pitching angle adjusting precision of the antenna installation device is higher, the signal coverage range of the antenna is more accurate, the user equipment can effectively receive signals, and the user experience is higher.

In a possible design, location portion is for setting up in the first connecting hole of first installed part, and spacing portion is for setting up in the second connecting hole of second installed part, and antenna installation device still includes first connecting piece, and first connecting hole can be dismantled with the second connecting hole through first connecting piece and be connected.

In one possible design, two adjacent second connection holes are arranged at intervals, or a part of two adjacent second connection holes is overlapped.

In a possible design, the second connecting holes are distributed on the second mounting piece along an arc line, and the axis passes through the center of the arc line.

In a possible design, the first installation part is further provided with a third connecting hole, the second installation part is further provided with a first sliding groove, the antenna installation device further comprises a second connecting piece, the second connecting piece penetrates through the third connecting hole and the first sliding groove, the second connecting piece can slide along the first sliding groove, when the second connecting piece drives the first installation part to slide to a first preset position, the first connecting hole is detachably connected with the second connecting hole through the first connecting piece, and the third connecting hole is detachably connected with the first sliding groove through the second connecting piece so as to limit the first installation part at the first preset position.

In a possible design, the first sliding groove is an arc-shaped groove, and the first sliding groove is concentric with the arc line.

In one possible design, the antenna mounting device comprises two first mounting parts and two second mounting parts, the two first mounting parts and the two second mounting parts are arranged along the first direction, the two second mounting parts are detachably connected with the corresponding first mounting parts respectively, and the two first mounting parts are detachably connected with two oppositely arranged sides of the antenna respectively.

In a possible design, the antenna installation device further comprises a third installation part and a third connecting part, the two ends of the third installation part are provided with second sliding grooves arranged along the first direction, the positions of the two second installation parts correspond to the two ends of the third installation part respectively, the second installation part is provided with a fourth connecting hole, the third connecting part penetrates through the corresponding second sliding grooves and the corresponding fourth connecting holes, the third connecting part can slide along the corresponding second sliding grooves, when the third connecting part drives the corresponding second installation part to slide to the second preset position, the fourth connecting hole can be detachably connected with the corresponding second sliding grooves through the corresponding third connecting part, and therefore the corresponding second installation part is limited to the second preset position.

In one possible design, the antenna mounting device further includes a fourth mounting part and a fourth connecting part, the fourth mounting part is rotatably connected with the third mounting part around the second direction, and/or the fourth mounting part is connected with the third mounting part in a sliding manner along the second direction, and the third mounting part is detachably connected with the fourth mounting part through the fourth connecting part so as to limit the movement of the third mounting part relative to the fourth mounting part.

In a possible design, the fourth installed part includes first base and sets up in the cylinder pole that extends along the second direction of first base, and the third installed part includes the pipe, and the cylinder pole is located to the pipe cover, and the lateral wall of pipe is provided with the fifth connecting hole, fourth connecting piece and fifth connecting hole threaded connection, fourth connecting piece can with cylinder pole butt or separation.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the application.

Drawings

Fig. 1 is a schematic structural diagram of an antenna mounting apparatus according to an embodiment of the present application;

FIG. 2 is a schematic view of the first mount of FIG. 1;

FIG. 3 is a schematic view of the second mount of FIG. 1 in a first embodiment;

FIG. 4 is a schematic view of the second mount of FIG. 3 from another perspective;

FIG. 5 is a schematic view of the second mount of FIG. 4 in a second embodiment;

FIG. 6 is a schematic view of a third embodiment of the second mount of FIG. 4;

FIG. 7 is a schematic view of the third mount of FIG. 1;

FIG. 8 is a schematic view of the fourth mount of FIG. 1;

fig. 9 is a schematic structural view of the fifth mounting member of fig. 1.

Reference numerals:

1-a first mount;

1 a-a first body;

11-a positioning section;

11 a-first connection hole;

12-a third connection hole;

13-a seventh connection hole;

14-eighth connection hole;

1 b-a first bend;

2-a second mount;

2 a-a second body;

21-a limiting part;

21 a-a second connection hole;

21 b-arc;

22-a first runner;

23-ninth connection hole;

24-angle scale;

2 b-a second bend;

25-a fourth connection hole;

3-a third mount;

3 a-a third body;

31-a second runner;

3 b-round tube;

32-a through hole;

33-side wall;

331-fifth connection hole;

3 c-a third bend;

4-a fourth mount;

41-a first base;

411-tenth connection hole;

412-eleventh connection hole;

42-cylindrical rod;

5-a fifth mount;

51-a second base;

511-twelfth connection hole;

52-a fourth bend;

521-a thirteenth connection hole;

6-an antenna;

an O-axis;

x-a first direction;

y-a second direction.

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

Detailed Description

For better understanding of the technical solutions of the present application, the following detailed descriptions of the embodiments of the present application are provided with reference to the accompanying drawings.

It should be understood that the embodiments described are only a few embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terminology used in the embodiments of the present application is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the examples of this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be understood that the term "and/or" as used herein is merely one type of association that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter associated objects are in an "or" relationship.

It should be noted that the terms "upper", "lower", "left", "right", and the like used in the embodiments of the present application are described in terms of the angles shown in the drawings, and should not be construed as limiting the embodiments of the present application. In addition, in this context, it will also be understood that when an element is referred to as being "on" or "under" another element, it can be directly on "or" under "the other element or be indirectly on" or "under" the other element via an intermediate element.

The application provides an antenna installation device, which can be used in the technical field of communication equipment and is used for installing an antenna on buildings such as buildings, towers and poles to realize signal coverage in a specific area so that equipment of a user can effectively receive signals. The following embodiments will be described mainly in the context of mounting an antenna in a building. Referring to fig. 1 to 3, an antenna mounting apparatus according to an embodiment of the present disclosure includes a first mounting member 1 and a second mounting member 2. First installed part 1 is used for dismantling with antenna 6 and is connected, second installed part 2 rotates with first installed part 1 and is connected, and first installed part 1 can rotate around axis O (axis O is parallel with first direction X) for first installed part 1, and arbitrary one in first installed part 1 and the second installed part 2 is provided with location portion 11, and another is provided with two at least spacing portions 21, and when first installed part 1 rotated first default position, location portion 11 can dismantle with spacing portion 21 and be connected to it is spacing in first default position to with first installed part 1. Wherein the first predetermined position described herein is not a fixed position, as there is more than one predetermined position herein, but is merely used to describe the position that the first mount 1 may reach when rotated relative to the second mount 2.

In this embodiment, referring to fig. 1 to fig. 3, the antenna 6 is mounted on the first mounting element 1, and the first mounting element 1 can rotate around the axis O relative to the second mounting element 2 to change the tilt angle of the first mounting element 1 (antenna 6) relative to the second mounting element 2, so as to adjust the signal coverage of the antenna 6. In one embodiment, the first mounting member 1 may be provided with one positioning portion 11, and the second mounting member 2 may be provided with at least two limiting portions 21. When the connection relationship between the positioning part 11 and one of the limiting parts 21 is cancelled, and the first mounting part 1 drives the antenna 6 to rotate to the first preset position, the pitching angle of the first mounting part 1 (the antenna 6) relative to the second mounting part 2 is adjusted, that is, the signal coverage range of the antenna 6 is adjusted to the target range. When the positioning portion 11 is detachably connected to the limiting portion 21 located at the first preset position, since each limiting portion 21 is uniquely provided at the position of the second mounting member 2, the pitch angle of the first mounting member 1 (antenna 6) is limited to a preset angle value, that is, the signal coverage of the antenna 6 is not easily deviated. Compared with the prior art that the antenna mounting piece is mounted on the sliding groove of another mounting piece, the problem that the antenna mounting piece is easy to slide and deviate in the sliding groove (the pitching angle of the antenna deviates) due to the influence of factors such as self weight of the antenna, wind power or nonstandard manual assembly operation and the like is solved. The pitching angle adjusting precision of the antenna installation device is higher, the signal coverage range of the antenna 6 is more accurate, the user equipment can effectively receive signals, and the user experience is higher.

Wherein the first mount 1 is rotatable in the range of 0 deg. -90 deg. relative to the second mount 2.

Of course, in another embodiment (not shown), at least two limiting portions 21 may be provided on the first mounting member 1, and one positioning portion 11 may be provided on the second mounting member 2.

Of course, in another embodiment (not shown in the figures), the number of the positioning portions 11 may be at least two, the number of the limiting portions 21 is greater than two, and at least two positioning portions 11 are matched with the corresponding number of limiting portions 21, so that the connection reliability between the positioning portions 11 and the limiting portions 21 can be increased.

The description of the embodiments that follow will be mainly given by taking as an example that one positioning part 11 is provided on the first mounting part 1 and at least two limiting parts 21 are provided on the second mounting part 2.

In the embodiment of the present application, either one of the positioning portion 11 and the limiting portion 21 may be a convex portion, and the other one may be a concave portion, and the convex portion and the concave portion are clamped. Wherein, the bulge can be provided with the elastic component, and when being pressed, the bulge can be separated from the dent. Or, any one of the positioning portion 11 and the limiting portion 21 may be a magnetic member, the other may be a magnetic member or a metal member, and the positioning portion 11 and the limiting portion 21 are connected by magnetic attraction. Alternatively, the positioning portion 11 and the limiting portion 21 are both connected holes, and the positioning portion 11 and the limiting portion 21 are connected by a connecting member (e.g., a bolt or a pin). The three modes can limit the rotation of the first mounting part 1 (antenna 6) relative to the second mounting part 2 around the first direction X, namely limit the pitching angle of the first mounting part 1 (antenna 6) relative to the second mounting part 2 at a preset angle value, the signal coverage range of the antenna 6 is not easy to deviate, the equipment of a user can effectively receive signals, and the user experience is high.

Specifically, referring to fig. 2, the positioning portion 11 may be a first connection hole 11a disposed in the first mounting member 1, referring to fig. 3, the limiting portion 21 may be a second connection hole 21a disposed in the second mounting member 2, and the antenna mounting device further includes a first connection member (not shown), wherein the first connection hole 11a is detachably connected to the second connection hole 21a through the first connection member. When the user adjusts and mounts the first connection hole 11a to the second connection hole 21a at another position, the tilt angle of the first mounting member 1 (antenna 6) with respect to the second mounting member 2 can be adjusted to change the signal coverage of the antenna 6. On the other hand, since each second connection hole 21a is uniquely set (angle setting) at the position of the second mounting member 2, when the first connection hole 11a is connected to any second connection hole 21a, the first mounting member 1 (antenna 6) is limited to a preset angle value, that is, the signal coverage of the antenna 6 is not easily deviated, the device of the user can effectively receive the signal, and the user experience is high.

The first connecting piece can be a bolt, a pin or other connecting pieces.

More specifically, as shown in fig. 3 to 4, two adjacent second connection holes 21a may be spaced apart from each other.

In this embodiment, referring to fig. 3-4, an interval may be provided between every two second connection holes 21a on the second mounting member 2, so that when the first connection hole 11a is connected to any one of the second connection holes 21a through the first connection member, the possibility that the first connection hole 11a is connected to another second connection hole 21a is low, that is, the first mounting member 1 (antenna 6) is limited to a predetermined angle value. Compare among the prior art with be connected on the spout and take place easily for spout sliding deviation's problem, the connection reliability of this application embodiment is higher, and antenna 6's signal coverage is difficult to take place to deviate, and user's equipment can receive the signal effectively, and user uses and experiences higher.

The second connecting holes 21a with different diameters can be machined, and the spacing distance between every two adjacent second connecting holes 21a can be changed, so that the minimum adjusting angle is different, the number of preset angle values is different, and the angle adjusting requirements of different users are met.

In another embodiment, please refer to fig. 5, the two adjacent second connection holes 21a are partially overlapped, the arrangement can make the centers of the two adjacent second connection holes 21a more compact, and more second connection holes 21a can be arranged within a limited angle variation range, so that the variation of the pitch angle of the first mounting element 1 (antenna 6) relative to the second mounting element 2 can be smaller, the adjustment precision is higher, and the use requirement of the user on the angle fine adjustment is met.

The following embodiments are mainly described by taking the example of setting the interval between two adjacent second connecting holes 21a.

Referring to fig. 3-4, the second connecting holes 21a are distributed along an arc 21b on the second mounting member 2, and the axis O passes through the center of the arc 21 b. Wherein the arc 21b is shown by a dotted line through the second coupling hole 21a in fig. 3-4.

In this embodiment, referring to fig. 1, since the first mounting member 1 rotates around the axis O relative to the second mounting member 2, the movement locus of the first connecting hole 11a of the first mounting member 1 relative to the second mounting member 2 is an arc, and therefore, the second connecting holes 21a of the second mounting member 2 should also be distributed along an arc. As shown in fig. 3-4, the centers of the second connecting holes 21a are on the arc 21b, so that when the first mounting member 1 rotates, the first connecting holes 11a can correspond to the second connecting holes 21a for easy connection. In this embodiment, the axis O of the first mounting part 1 rotating around the second mounting part 2 is taken as the center of the arc 21b, so as to facilitate the processing of the second connection hole 21a corresponding to the position.

As shown in fig. 2, the first mounting member 1 may be provided with a seventh connection hole 13. Referring to fig. 3, the second mounting member 2 may be provided with a ninth coupling hole 23. The antenna mounting device further includes a connecting member (not shown) such as a rotating shaft or a bolt for connecting the seventh connecting hole 13 and the ninth connecting hole 23. And a line connecting the circle center of the seventh connecting hole 13 and the circle center of the ninth connecting hole 23 is an axis O.

Referring to fig. 2, the first mounting member 1 is further provided with a third connecting hole 12, referring to fig. 3 to 4, the second mounting member 2 is further provided with a first sliding groove 22, the antenna mounting device further includes a second connecting member (not shown in the drawings), the second connecting member passes through the third connecting hole 12 and the first sliding groove 22, the second connecting member can slide along the first sliding groove 22, when the second connecting member drives the first mounting member 1 to slide to a first preset position, the first connecting hole 11a is detachably connected with the second connecting hole 21a through the first connecting member, and the third connecting hole 12 is detachably connected with the first sliding groove 22 through the second connecting member, so that the first mounting member 1 is limited to the first preset position.

In this embodiment, referring to fig. 2 to fig. 4, when the user changes the pitch angle of the antenna 6, after the first connecting member is detached, the connection between the third connecting hole 12 and the first sliding groove 22 is loosened, and the second connecting member drives the first mounting member 1 to slide to the first preset position along the first sliding groove 22, the first connecting member is used to stably connect the first connecting hole 11a and the second connecting hole 21a together, so that the first mounting member 1 is limited to the first preset position (the pitch angle of the antenna 6 is limited to a preset angle value), that is, the signal coverage range of the antenna 6 is not easily deviated, and meanwhile, the second connecting member is used to stably connect the third connecting hole 12 and the first sliding groove 22 together, so as to further increase the connection reliability of the first mounting member 1 and the second mounting member 2, and the signal coverage range of the antenna 6 is not easily deviated. The user's labor intensity is also low since the second connector does not need to be completely disassembled.

Wherein, the second connecting piece can be a bolt, a pin and other connecting pieces.

Referring to fig. 3-4, the first sliding slot 22 is an arc-shaped slot, and the first sliding slot 22 is concentric with the arc 21b and is adapted to a second connecting member moving along an arc track.

In the above embodiment, please refer to fig. 4, the second mounting member 2 is further provided with an angle scale 24 for indicating an angle value corresponding to each second connection hole 21a on the second connecting member 2 to a user, so that the user can quickly adjust the first connecting member 1 (antenna 6) to the second connection hole 21a corresponding to the corresponding pitch angle, and the working efficiency is high.

In the above embodiment, referring to fig. 6, two groups of second connection holes 21a may be respectively disposed on the second mounting part 2 along the arc 21b, wherein a center of the second connection hole 21a in one group may correspond to a space between two adjacent second connection holes 21a in the other group. Correspondingly, first installed part 1 can be provided with two first connecting holes 11a (not shown in the figure), and the position of two first connecting holes 11a corresponds the second connecting hole 21a of different groups respectively, and this setting makes first installed part 1 (antenna 6) can be littleer for the change of the every single move angle of second installed part 2, and the regulation precision is higher, satisfies the user demand to the fine setting of angle.

In the above embodiment, please refer to fig. 1, the antenna mounting apparatus may include two first mounting elements 1 and two second mounting elements 2, wherein the two first mounting elements 1 and the two second mounting elements 2 are both arranged along the first direction X, the two second mounting elements 2 are detachably connected to the corresponding first mounting elements 1, and the two first mounting elements 1 are respectively configured to be detachably connected to two opposite sides of the antenna 6. On the one hand, the setting distance between the two second mounting parts 2 (the two first mounting parts 1) can be adjusted according to the antennas 6 of different types, so that the antenna mounting device in the embodiment of the application can be adapted to the antennas 6 of different widths, and different use requirements of users are met. On the other hand, by increasing the number of connection positions, the connection reliability between the antenna mounting device and the antenna 6 in the embodiment of the present application can be improved, and the interference of windy weather can be more resisted.

The second installation member 2 can be directly installed on a wall body, a roof and other building body structures through connecting members such as expansion screws. Alternatively, the second installation member 2 may be installed to other installation members, and then installed to a building structure such as a wall, a roof, etc. through the other installation members.

In the above embodiment, please refer to fig. 2, the first mounting element 1 includes a first body 1a and a first bending part 1b connected to each other. The first body 1a is provided with a first connection hole 11a for connection with the second connection hole 21a, the first body 1a is provided with a third connection hole 12 for connection with the first sliding groove 22, the first body 1a is provided with a seventh connection hole 13 for connection with the ninth connection hole 23, and the first body 1a is further provided with an eighth connection hole 14 for connection of the antenna 6. The first bent portion 1b is used for supporting at least a portion of the antenna 6 (e.g., a frame of the antenna 6).

The first body 1a and the first bending portion 1b may be integrally formed or may be connected by welding. When the first mounting member 1 is a metal plate, the first body 1a and the first bending portion 1b can be formed only by performing a press bending process on the first mounting member 1.

Referring to fig. 2, a plane of the first body 1a may be perpendicular to a plane of the first bending portion 1b.

In the above embodiment, the antenna 6 may be a device for transmitting signals, which is provided with corresponding connection holes that can be detachably connected to the eighth connection hole 14 by means of a bolt, a pin, or the like. Alternatively, the antenna 6 includes a device for transmitting signals and a frame connected thereto, and the frame is provided with corresponding connection holes to be detachably connected to the eighth connection holes 14 by means of bolts, pins, or the like.

Specifically, referring to fig. 1, the antenna mounting device further includes a third mounting member 3 and a third connecting member (not shown). Referring to fig. 7, two ends of the third mounting member 3 are provided with second sliding grooves 31 respectively arranged along the first direction X, referring to fig. 1, positions of the two second mounting members 2 respectively correspond to two ends of the third mounting member 3, referring to fig. 3, the second mounting member 2 is provided with a fourth connecting hole 25, the third connecting member passes through the corresponding second sliding groove 31 and the corresponding fourth connecting hole 25, the third connecting member can slide along the corresponding second sliding groove 31, when the third connecting member drives the corresponding second mounting member 2 to slide to the second preset position, the fourth connecting hole 25 is detachably connected with the corresponding second sliding groove 31 through the corresponding third connecting member, so as to limit the corresponding second mounting member 2 at the second preset position. Wherein the second predetermined position described herein is not a fixed position, as there is more than one predetermined position described herein, but is merely used to describe the position that the second mount 2 may reach when sliding relative to the third mount 3.

In this embodiment, referring to fig. 1, 3 and 7, when the user loosens the third connecting member, the user operates the third connecting member to drive the fourth connecting hole 25 to slide in the second sliding slot 31, and when the second mounting member 2 slides to the second preset position, the third connecting member is used to stably connect the fourth connecting hole 25 and the second sliding slot 31 together. On the one hand, can change the interval (the interval between the first installed part 1 that is located the relative both sides that set up of antenna 6) between the second installed part 2 that is located the relative both sides that set up of antenna 6 through this setting in a flexible way to the antenna 6 of the different width of adaptation satisfies user's different user demands. On the other hand, because the two second installation parts 2 are installed on the third installation part 3, connection parts corresponding to the number, positions and intervals of the fourth connection holes 25 do not need to be arranged on the building structures such as the wall body and the roof, and only fixed parts connected with the third installation part 3 need to be arranged on the building structures such as the wall body and the roof, so that unnecessary processing on the building structures is reduced.

Wherein, the third connecting piece can be a bolt, a pin and other connecting pieces.

In addition, because the two ends of the third installation part 3 are respectively connected with the second installation parts 2, the positions of the second installation parts 2 at one end relative to the third installation part 3 along the first direction X can be adjusted, or the positions of the second installation parts 2 at the two ends relative to the third installation part 3 along the first direction X can be adjusted simultaneously, so that different use requirements of users can be met.

Referring to fig. 3, the second mounting member 2 is provided with four fourth connection holes 25, and each two fourth connection holes 25 form a pair. Referring to fig. 7, each end of the third mounting member 3 is provided with two second sliding grooves 31. Each pair of the fourth connecting holes 25 can be detachably connected with the corresponding second sliding groove 31 through the third connecting piece, and the connection reliability of the second mounting piece 2 and the third mounting piece 3 is higher.

In the above described embodiments the third mounting element 3 may be mounted directly to the building structure by means of expansion screws. Alternatively, the third installation member 3 is installed to another installation member, and then is installed to a building structure such as a wall, a roof, or the like through another installation member.

In the above embodiment, referring to fig. 3, the second mounting part 2 may include a second body 2a and a second bending part 2b connected to each other, the second body 2a is provided with a second connection hole 21a for connecting with the first connection hole 11a, the second body 2a is provided with a first sliding groove 22 for connecting with the third connection hole 12, and the second body 2a is provided with a ninth connection hole 23 for connecting with the seventh connection hole 13. The second bent portion 2b is provided with a fourth connecting hole 25 for connecting with the second chute 31.

The second body 2a and the second bent portion 2b may be integrally formed or may be connected by welding. When the second mounting member 2 is a metal plate, the second body 2a and the second bent portion 2b can be formed by only pressing and bending the second mounting member 2. The plane of the second body 2a may be perpendicular to the plane of the second bending portion 2b.

Referring to fig. 1, 7-8, the antenna mounting device further includes a fourth mounting element 4 and a fourth connecting element (not shown), wherein the fourth mounting element 4 is rotatably connected to the third mounting element 3 around the second direction Y, and/or the fourth mounting element 4 is slidably connected to the third mounting element 3 along the second direction Y. The second direction Y may be a height direction of the antenna mounting apparatus in the embodiment of the present application, and the second direction Y is perpendicular to the first direction X. The third mount 3 is detachably connected to the fourth mount 4 by a fourth connector (not shown) to restrict movement of the third mount 3 relative to the fourth mount 4.

In one embodiment (not shown), the fourth mounting element 4 and the third mounting element 3 are only rotatably connected in the second direction Y for adjusting the angle of the first mounting element 1 (antenna 6) relative to the fourth mounting element 4 in the second direction Y (the azimuth angle of the antenna 6 in the horizontal plane) to cover the signal of the antenna 6 to the target range.

In another embodiment (not shown in the figures), the fourth mounting element 4 and the third mounting element 3 can be slidably connected only along the second direction Y, so as to adjust the height of the first mounting element 1 (antenna 6) relative to the fourth mounting element 4 along the second direction Y, on one hand, the signal of the antenna 6 can be covered to a target range, and on the other hand, the antenna 6 can be separated from the ground, so that the risk of damage caused by soaking in standing water is reduced.

In another embodiment, referring to fig. 1, 7-8, the fourth mounting element 4 and the third mounting element 3 can be connected to each other in a rotatable manner around the second direction Y, and the fourth mounting element 4 and the third mounting element 3 can be connected to each other in a slidable manner along the second direction Y. Therefore, the antenna mounting device in the embodiment of the present application can adjust both the azimuth angle of the antenna 6 on the horizontal plane and the height of the antenna 6 in the second direction Y with respect to the fourth mounting member 4, so that the signal of the antenna 6 is covered to the target range.

In the above embodiment, the third mounting element 3 is detachably connected to the fourth mounting element 4 through a fourth connecting element (not shown in the figures) to limit the movement of the third mounting element 3 relative to the fourth mounting element 4, so as to limit the first mounting element 1 (the antenna 6) at the preset position of the user, and reduce the possibility of deviation of the signal irradiation range of the antenna 6.

The fourth connector may be a bolt, pin, screw, etc. connector.

Specifically, referring to fig. 1, 7-8, the fourth mounting element 4 includes a first base 41 and a cylindrical rod 42 disposed on the first base 41 and extending along the second direction Y, the third mounting element 3 includes a circular tube 3b, the circular tube 3b is sleeved on the cylindrical rod 42, the fourth mounting element 4 and the third mounting element 3 can be rotatably and slidably connected at the same time, and the structure is simple and easy to manufacture. The side wall 33 of the circular tube 3b is provided with a fifth connecting hole 331, and a fourth connecting member is threadedly connected to the fifth connecting hole 331 and can be abutted against or separated from the cylindrical rod 42. With this arrangement, when the fourth connecting member is spirally rotated in the fifth connecting hole 331 to abut against the cylindrical rod 42, a static friction force is generated between the fourth connecting member and the cylindrical rod 42, thereby forming a self-locking effect, and restricting the rotation of the circular tube 3b relative to the cylindrical rod 42 in the second direction Y and the sliding movement thereof in the second direction Y. When the fourth connecting member is separated from the cylindrical rod 42 by being spirally rotated in the fifth connecting hole 331, there is no static friction between the fourth connecting member and the cylindrical rod 42, and the circular tube 3b can freely rotate around the second direction Y and freely slide along the second direction Y with respect to the cylindrical rod 42.

Referring to fig. 7, a plurality of fifth connecting holes 331 may be formed in the sidewall 33 of the circular tube 3 b. Accordingly, by generating static friction force between the plurality of fourth connecting members and the cylindrical rod 42, the reliability of self-locking can be improved, and therefore, the rotation of the circular tube 3b relative to the cylindrical rod 42 about the second direction Y and the sliding movement in the second direction Y can be stably restricted.

In addition, as shown in fig. 7, the circular tube 3b is provided with a through hole 32 along its own axial direction (parallel to the second direction Y), the cylindrical rod 42 is inserted into the through hole 32, and the third mounting member 3 (antenna 6) can rotate in a range of 360 ° around the second direction Y. The height adjustment range of the third mounting member 3 (antenna 6) in the second direction Y depends on the erection length of the cylindrical rod 42.

As can be seen from the above, the antenna mounting apparatus in the embodiment of the present application can adjust the rotation angle (pitch angle) of the antenna 6 around the first direction X, the rotation angle (azimuth angle) around the second direction Y, and the height along the second direction Y in a combined manner, that is, can flexibly adjust the signal coverage of the antenna 6.

Of course, the round tube 3b of the third installation part 3 in the embodiment of the present application may also be sleeved on an installation rod already connected with a building, and the fifth connection hole 331 is connected with the existing installation rod through a fourth connection member, which may reduce unnecessary damage to the building.

In the above embodiment, referring to fig. 7, the third mounting element 3 includes a third body 3a, a circular tube 3b connected to the third body 3a, and a third bending portion 3c connected to the third body 3 a. The two ends of the third body 3a are opened with second sliding grooves 31 for connecting with the fourth connecting hole 25, and each end is provided with two second sliding grooves 31. The circular tube 3b can be disposed at the center of the third body 3a, and the third body 3a is provided with a hole communicated with the through hole 32 of the circular tube 3b, so that the circular rod 42 can be sleeved with the third body 3a and the circular tube 3b at the same time. The third bending part 3c is bent relative to the third body 3a, so that the area along the second direction Y is increased, and the user can conveniently grasp the edge of the third mounting part 3 to perform position adjustment work.

When the circular tube 3b is disposed at a position where the antennas 6 are staggered from each other in the third mounting member 3, the cylindrical rod 42 may pass through the third mounting member 3 and the height of the cylindrical rod 42 is higher than that of the antennas 6, so that the cylindrical rod 42 functions as a lightning rod, reducing the risk of lightning breakdown damaging the antennas 6.

In the above embodiment, referring to fig. 8, the first base 41 may be provided with a tenth connection hole 411, and an expansion screw is driven into the building structure by connecting the expansion screw in the tenth connection hole 411, thereby fixedly mounting the antenna mounting device to the building.

Wherein the first base 41 may be a flat plate that is spread in a horizontal direction, and the first base 41 may be installed on a structure having a horizontal plane or an inclined plane in a building body.

Referring to fig. 8, the first base 41 may further be provided with an eleventh connection hole 412. Referring to fig. 1, the antenna mounting device further includes a fifth mounting element 5, and referring to fig. 9, the fifth mounting element 5 includes a second base 51 and a fourth bending portion 52 connected to each other, the second base 51 is provided with a twelfth connecting hole 511, and the fourth bending portion 52 is provided with a thirteenth connecting hole 521. The thirteenth coupling hole 521 may be coupled to the eleventh coupling hole 412 by a coupling member such as a bolt or a pin to achieve the coupling of the fourth mounting part 4 and the fifth mounting part 5. By connecting the expansion screw in the twelfth connection hole 511, the expansion screw is driven into the structure of the building, thereby fixedly mounting the antenna mounting device to the building.

The second base 51 may be a flat plate extending in a horizontal direction, the fourth bent portion 52 may be a flat plate extending in a height direction (the second direction Y), and the fourth bent portion 52 may be mounted on a side wall of a wall (e.g., a parapet).

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made to the present application by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. An antenna mounting apparatus, comprising:

the first mounting piece is used for being detachably connected with the antenna;

a second mounting member rotatably coupled to the first mounting member, the first mounting member being rotatable relative to the second mounting member about an axis;

any one of the first mounting part and the second mounting part is provided with a positioning part, the other one of the first mounting part and the second mounting part is provided with at least two limiting parts, and when the first mounting part rotates to a first preset position, the positioning part is detachably connected with the limiting parts so as to limit the first mounting part at the first preset position.

2. The antenna mounting apparatus according to claim 1, wherein the positioning portion is a first connection hole provided in the first mounting member, and the stopper portion is a second connection hole provided in the second mounting member;

the antenna installation device further comprises a first connecting piece, and the first connecting hole is detachably connected with the second connecting hole through the first connecting piece.

3. The antenna mounting apparatus according to claim 2, wherein two adjacent second connection holes are provided at intervals;

or, the two adjacent second connecting holes are partially overlapped.

4. The antenna mounting device of claim 2, wherein the second connecting holes are distributed along an arc on the second mounting member;

the axis passes through the center of the arc.

5. The antenna mounting arrangement of claim 4, wherein the first mounting element is further provided with a third connection aperture, and the second mounting element is further provided with a first runner;

the antenna mounting device further comprises a second connecting piece, the second connecting piece penetrates through the third connecting hole and the first sliding groove, and the second connecting piece can slide along the first sliding groove;

the second connecting piece drives first installed part slides when first preset position, first connecting hole passes through first connecting piece with the connection can be dismantled to the second connecting hole, just the third connecting hole passes through the second connecting piece with the connection can be dismantled to first spout, in order with first installed part is spacing in first preset position.

6. The antenna mounting apparatus of claim 5, wherein the first slot is an arc-shaped slot, and the first slot is concentric with the arc.

7. An antenna mounting arrangement according to any of claims 1-6, wherein the antenna mounting arrangement comprises two of the first mounting sections and two of the second mounting sections;

two first installed part and two the second installed part is all arranged along first direction, and two the second installed part respectively with correspond first installed part can be dismantled the connection, two first installed part respectively be used for with the connection can be dismantled to the both sides of the relative setting of antenna.

8. The antenna mounting device according to claim 7, further comprising a third mounting member and a third connecting member, wherein both ends of the third mounting member are provided with second sliding grooves arranged along the first direction, the positions of the two second mounting members respectively correspond to both ends of the third mounting member, and the second mounting member is provided with a fourth connecting hole;

the third connecting piece penetrates through the corresponding second sliding groove and the corresponding fourth connecting hole, and the third connecting piece can slide along the corresponding second sliding groove;

when the third connecting piece drives the corresponding second mounting piece to slide to the second preset position, the fourth connecting hole is connected with the corresponding second chute in a detachable mode through the corresponding third connecting piece, so that the second mounting piece is limited to the second preset position.

9. The antenna mounting device of claim 8, further comprising a fourth mounting element and a fourth connecting element, wherein the fourth mounting element is rotatably connected with the third mounting element around the second direction and/or the fourth mounting element is slidably connected with the third mounting element along the second direction;

the third mounting part is detachably connected with the fourth mounting part through the fourth connecting part so as to limit the movement of the third mounting part relative to the fourth mounting part.

10. The antenna mounting apparatus of claim 9, wherein the fourth mounting member includes a first base and a cylindrical rod extending in the second direction provided to the first base;

the third mounting part comprises a circular tube, and the circular tube is sleeved on the cylindrical rod;

the side wall of the circular tube is provided with a fifth connecting hole, the fourth connecting piece is in threaded connection with the fifth connecting hole, and the fourth connecting piece can be abutted to or separated from the cylindrical rod.

Images