CN214797690U - Mounting structure of satellite receiving antenna - Google Patents

Abstract

The utility model discloses a satellite receiving antenna's mounting structure, its back splint, regulation head and stand that connect gradually, adjust be equipped with in the head with the cavity of stand one end adaptation is in order to install the stand, the cavity orientation two clamping pieces are extended to the back splint, the back splint is located two between the clamping piece. And a first reinforcing rib protruding outwards is formed on any one of the clamping pieces, and a second reinforcing rib protruding outwards is formed on the first reinforcing rib. Any one of the second reinforcing ribs is provided with at least one through first mounting hole at the position close to the upright post. And the first mounting hole on one clamping piece is connected with the corresponding first mounting hole on the other clamping piece through a first bolt, so that the adjusting head is locked with the upright post. The utility model discloses mounting structure is more firm to satellite receiving antenna's fixed, can make satellite receiving antenna can remain stable operating condition.

Description

Mounting structure of satellite receiving antenna

Technical Field

The utility model relates to an antenna preparation field, specific is a satellite receiving antenna's mounting structure.

Background

The satellite receiving antenna is vertically arranged on a preset installation surface, such as the ground, through the installation structure. The mounting structure has an important influence on the operational stability of the satellite receiving antenna.

The mounting structure for a satellite receiving antenna generally comprises a back clip, an adjustment head and a post. The adjusting head is provided with a cavity matched with one end of the upright post for mounting the upright post. The cavity extends towards the back clamp to form two clamping pieces, the back clamp is arranged between the two clamping pieces, and the convex surface of the satellite receiving antenna is arranged on the back clamp.

Because satellite receiving antenna can receive external force's such as wind-force influence in the use, if mounting structure's poor stability, then can lead to satellite receiving antenna to take place to rock when receiving external effort, and then influence its performance.

In the prior art, the clamping piece has low strength, and when the satellite receiving antenna is influenced by external forces such as wind power, the clamping piece is easy to deform, so that the fixation of the clamping piece to the back clamp is poor, the satellite receiving antenna is rocked, and the receiving and feedback of the satellite receiving antenna to signals are influenced.

In the prior art, the two clamping pieces can be locked through the first bolt so as to fix the upright post. When the satellite receiving antenna is influenced by external force such as wind power, the clamping piece is easy to deform and dent in the area due to the arrangement of the mounting hole corresponding to the first bolt, the fixing performance of the stand column is poor, the rejection rate of the satellite receiving antenna is high, and the cost is increased.

In view of the above, it is necessary to provide a mounting structure of a satellite receiving antenna.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model provides a novel satellite receiving antenna's mounting structure, it is more firm to satellite receiving antenna's fixed, can make satellite receiving antenna can remain stable operating condition.

The utility model discloses an installation structure of a satellite receiving antenna, which comprises a back clip, an adjusting head and a stand column which are connected in sequence, wherein the adjusting head is provided with a cavity matched with one end of the stand column for installing the stand column, the cavity extends two clamping pieces towards the back clip, and the back clip is arranged between the two clamping pieces;

a first reinforcing rib protruding outwards is formed on any one of the clamping pieces, and a second reinforcing rib protruding outwards is formed on the first reinforcing rib;

at least one through first mounting hole is formed in the position, close to the upright post, of any one second reinforcing rib;

and the first mounting hole on one clamping piece is connected with the corresponding first mounting hole on the other clamping piece through a first bolt, so that the adjusting head is locked with the upright post.

Preferably, the cross section of the cavity is arc-shaped, openings are formed in the side face of the cavity corresponding to the two clamping pieces, the openings are formed in the chord positions corresponding to the arc-shaped, and any one of the clamping pieces is connected with the openings in the direction perpendicular to the chord.

Further preferably, the cross section of the cavity is a major arc.

Preferably, the inner wall of the cavity is provided with a plurality of sharp corners, any one of the sharp corners is arranged close to the opening, and any one of the sharp corners abuts against the upright post.

Preferably, any one of the clamping pieces is provided with a second mounting hole close to the back clamp, the second mounting hole is formed in the first reinforcing rib, the second mounting hole in one of the clamping pieces is connected with the corresponding second mounting hole in the other clamping piece through a second bolt, and the second bolt penetrates through the back clamp so that the adjusting head is locked with the back clamp.

Preferably, at least one blocking piece is arranged at the top of the cavity of the adjusting head, and the extending direction of any one blocking piece is perpendicular to the extending direction of the upright post in the cavity.

The utility model has the advantages as follows:

the utility model discloses satellite receiving antenna's mounting structure, through setting up arbitrary one be formed with outside bellied first strengthening rib on the clamping piece, be formed with outside bellied second strengthening rib on the first strengthening rib to the intensity of clamping piece has been increased, makes clamping piece non-deformable, makes mounting structure more firm to satellite receiving antenna's fixed, makes satellite receiving antenna can remain stable operating condition.

The utility model discloses satellite receiving antenna's mounting structure, through setting up arbitrary one the second strengthening rib is close to in it is provided with the first mounting hole that at least one link up in stand department for the clamping piece can not take place sunken deformation corresponding to the region of first mounting hole, has increased the locking force of first bolt to the stand, makes the fixed more firm between regulation head and the stand from this.

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a mounting structure in an embodiment of the present invention after being connected to a satellite receiving antenna;

FIG. 2 is a schematic structural diagram of an adjusting head according to an embodiment of the present invention;

reference numerals of the above figures: 1-an adjustment head; 2-back splint; 3-upright column; 4-a satellite receiving antenna; 5-a baffle plate; 101-a cavity; 102-a clip; 103-a first reinforcing rib; 104-a second reinforcing rib; 105-a first mounting hole; 106-a second mounting hole; 108 — first bend; 109-second bend; 110-sharp corner.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present embodiment provides a mounting structure of a satellite receiving antenna 4. The satellite receiving antenna 4 has a concave surface and a convex surface, and the concave surface of the satellite receiving antenna 4 is used for receiving and feeding back signals.

The mounting structure comprises a back splint 2, an adjusting head 1 and a stand column 3 which are connected in sequence. The back clamp 2 is arranged on a convex surface of the satellite receiving antenna 4, and the end surface of the back clamp 2 facing the satellite receiving antenna 4 is fixed with the satellite receiving antenna 4 through screws.

The upright post 3 is connected with the back splint 2 through the adjusting head 1.

The one end of stand 3 is installed on subaerial, and the other end of stand 3 extends towards the convex surface of satellite receiving antenna 4, when extending to regulation head 1 below, then vertical upwards extends to the one end that makes stand 3 keep away from ground can get into in the regulation head 1.

Be equipped with the cavity 101 with the one end looks adaptation that stand 3 kept away from ground in the regulation head 1, the one end that stand 3 kept away from ground is located in the cavity 101 of regulation head 1, promptly, adjusts head 1 cover and locates on stand 3.

Cavity 101 extends two jaws 102 towards back clip 2. The two jaws 102 are oppositely disposed. The back clip 2 is disposed between the two jaws 102.

A first reinforcing rib 103 protruding outward is formed on any one of the clips 102.

The first reinforcing rib 103 extends from an end of the clip 102 connected to the cavity 101 to an end of the clip 102 away from the cavity 101, in other words, the first reinforcing rib 103 extends along a length direction of the clip 102. Meanwhile, the first reinforcing rib 103 extends toward the upper and lower ends of the clip 102, in other words, the first reinforcing rib 103 extends in the width direction of the clip 102 at the same time.

The first reinforcing rib 103 is formed with a second reinforcing rib 104 protruding outward. The second reinforcing bead 104 is disposed adjacent to the cavity 101. The second rib 104 extends from the end of the clip 102 connected to the cavity 101 to the end of the clip 102 away from the cavity 101. The upper and lower ends of the second reinforcing rib 104 and the upper and lower ends of the first reinforcing rib 103 have a predetermined distance therebetween, respectively. From this, increased the intensity of clip 102 for clip 102 is difficult to deform, thereby mounting structure is more firm to satellite receiving antenna 4's fixed, makes satellite receiving antenna 4 can keep stable operating condition.

In this embodiment, the clip 102 can be divided into a first section, a second section and a third section, the first section of the clip 102 is connected to the cavity 101, the third section of the clip 102 is connected to the back clip 2, and the second section of the clip 102 is disposed between the first section and the third section.

The first sections of the two jaws 102 are parallel and oppositely disposed. The second section of any one of the clamping pieces 102 extends in a direction away from the other clamping piece 102, and the third sections of the two clamping pieces 102 are parallel and opposite to each other, so that a first bending part 108 is formed between the first section and the second section of any one of the clamping pieces 102, and a second bending part 109 is formed between the second section and the third section of any one of the clamping pieces 102, so that the distance between the two clamping pieces 102 can be adapted to not only the cavity 101 of the adjusting head 1 with a small size, but also the back clamp 2 with a large size. The first bending portion 108 and the second bending portion 109 are disposed on the second reinforcing rib 104, so that the strength of the clip 102 is enhanced, and the clip 102 is not easily deformed.

Any one of the second reinforcing ribs 104 is provided with two first mounting holes 105 therethrough at a position close to the column 3, and the two first mounting holes 105 are arranged oppositely in the longitudinal direction. The first mounting hole 105 of one clamping piece 102 is connected with the corresponding first mounting hole 105 of the other clamping piece 102 through a first bolt, so that the adjusting head 1 is locked with the upright post 3. The first mounting hole 105 of one of the clamping pieces 102 is opposite to the corresponding first mounting hole 105 of the other clamping piece 102. The first mounting hole 105 is formed in the second reinforcing rib 104, so that the area, corresponding to the first mounting hole 105, of the clamping piece 102 is free from concave deformation, the locking force of the first bolt on the upright post 3 is increased, and the fixing between the adjusting head 1 and the upright post 3 is firmer.

In the embodiment, the upper end and the lower end of the cavity 101 of the adjusting head 1 are open, and the transverse section of the cavity 101 is arc-shaped. Preferably, the cross section of the cavity 101 is an arc, so that the inner wall of the cavity 101 can better wrap the upright post 3, and the connection stability is improved. The side of the cavity 101 is provided with openings corresponding to the two jaws 102. The opening extends from the upper end of the chamber 101 to the lower end of the chamber 101. The opening is arranged at the chord corresponding to the major arc, and any one of the clamping pieces 102 is connected with the opening along the direction vertical to the chord.

Two sharp corners 110 are respectively arranged on two sides of the cavity 101 corresponding to the opening, any one of the sharp corners 110 is arranged on the inner wall of the cavity 101 and close to the opening, and any one of the sharp corners 110 abuts against the upright post 3, so that the upright post 3 can be limited to prevent the upright post 3 from axially rotating in the cavity 101.

Any one of the clips 102 is provided with a second mounting hole 106 adjacent to the back clip 2. The second mounting holes 106 are disposed on the first reinforcing ribs 103, and the second mounting hole 106 on one of the clips 102 is connected to the corresponding second mounting hole 106 on the other clip 102 by a second bolt. The back clamp 2 is arranged between the two clamping pieces 102, and the second bolt penetrates through the back clamp 2, so that the adjusting head 1 and the back clamp 2 are locked. Through the arrangement of the first reinforcing rib 103, the clip 102 is not deformed under the action of the second bolt, so that the stability of the installation structure of the embodiment is improved.

Two blocking pieces 5 are arranged at the top of the cavity 101 of the adjusting head 1, and the extending direction of any one blocking piece 5 is perpendicular to the extending direction of the upright post 3 in the cavity 101. So that the upward movement of the pillar 3 in the cavity 101 can be prevented, thereby further improving the structural stability.

The utility model discloses the principle and the implementation mode of the utility model are explained by applying the concrete embodiment, and the explanation of the above embodiment is only used for helping to understand the technical scheme and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (6)

1. A mounting structure of a satellite receiving antenna comprises a back clip, an adjusting head and a stand column which are connected in sequence, wherein a cavity matched with one end of the stand column is arranged in the adjusting head to mount the stand column, the cavity extends towards the back clip to form two clamping pieces, the back clip is arranged between the two clamping pieces,

a first reinforcing rib protruding outwards is formed on any one of the clamping pieces, and a second reinforcing rib protruding outwards is formed on the first reinforcing rib;

at least one through first mounting hole is formed in the position, close to the upright post, of any one second reinforcing rib;

and the first mounting hole on one clamping piece is connected with the corresponding first mounting hole on the other clamping piece through a first bolt, so that the adjusting head is locked with the upright post.

2. The mounting structure of a satellite receiving antenna according to claim 1, wherein the cavity has an arc-shaped cross section, and openings are provided on the side surfaces of the cavity corresponding to the two clips, the openings are provided on the chords corresponding to the arc-shaped cross section, and any one of the clips is connected to the openings in a direction perpendicular to the chords.

3. The satellite receiving antenna mounting structure according to claim 2, wherein the cross section of the cavity is a major arc.

4. The mounting structure of the satellite receiving antenna as claimed in claim 2, wherein the inner wall of the cavity is provided with a plurality of sharp corners, any one of the sharp corners is arranged near the opening, and any one of the sharp corners abuts against the upright.

5. The mounting structure of a satellite receiving antenna according to claim 1, wherein any one of the clips is provided with a second mounting hole near the back clip, the second mounting hole is provided on the first reinforcing rib, the second mounting hole on one of the clips and the corresponding second mounting hole on the other clip are connected by a second bolt, and the second bolt passes through the back clip, so that the adjusting head is locked with the back clip.

6. The mounting structure of the satellite receiving antenna as claimed in claim 1, wherein at least one blocking piece is arranged at the top of the cavity of the adjusting head, and the extending direction of any one of the blocking pieces is perpendicular to the extending direction of the upright post in the cavity.

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