IN DEGREE-ADJUSTABLE WIFI MOUNTING BRACKET FOR ACCESS POINT AND ANTENNA

Abstract

 The invention relates to a mounting apparatus used for the connection of a Wi-Fi device (50) and a signal booster antenna (100). The invention is characterized in that the mounting apparatus comprises a movement plate (70) extending in the form of a semicircle downward from the side surface a neck fixing member (60) and performing the rotational movement together with the neck fixing member (60) in order to enable the antenna (100) to be positioned horizontally at the desired angle, a curved channel (71) located on the movement plate (70), and a movable connection member (80) moving up and down inside the curved channel (71) and enabling the antenna (100) fixed to the lower surface thereof to be connected to the movement plate (70) by way of being positioned vertically at the desired angle.

Description

Technical Field

[0001] The invention relates to a mounting apparatus used for the connection of antennas and Wi-Fi devices in the business centers, offices, hotels, sports centers, shopping malls, conference halls and schools.

[0002] The invention relates in particular to a mounting apparatus, which enables the Wi-Fi devices and the antennas used as signal boosters to be mounted together and further enables the antennas to be positioned vertically and horizontally in an angled manner in a mounting area.

State of the Art

[0003] Wi-Fi (Wireless Fidelity) is the most popular method for connecting to the wireless internet. Today, the wireless connection domains constitute the basis for the digital communication. A safe and adequate data network is needed for transmitting and receiving the digital information in every field where the use of internet is necessary.

[0004] According to the current practice, the brackets, which enable the Wi-Fi devices to be used by way of being fixed to a wall, are employed for the internet access in the indoor and outdoor spaces. However, these brackets are intended only for fixing a Wi-Fi device to a wall and are not suitable for mounting the antennas, which are used together with the Wi-Fi devices. On the other hand, it is not possible to distribute the signals of the Wi-Fi devices to the users in an accurate and proper manner with the brackets used according to the state of the art. The installation of the wireless network is quite important for the internet performance and the efficient use of the web. For example, a reinforced concrete wall prevents the computers or smart devices from receiving the signals. In order to prevent such problems, it is important to avoid the obstacles that would deteriorate the signal quality. However, in the installations realized with the bracket structures according to the state of the art, the data networks are unable to satisfy the demands and the needs of the users and lead to the inability to adjust the data network signals when necessary.

[0005] Consequently, the need has arisen to provide a mounting bracket, which enables the Wi-Fi devices and the signal booster antennas to be adjusted together and in different directions in a manner that suits the need, even when the circumstances change.

[0006] The document no. CN205896629 found in the literature search may be mentioned as an example of the state of the art. Said document relates to a multifunctional mounting bracket. According to said invention, a second mounting base, capable of moving along the vertical axis, is disposed on a first mounting base. A RFID (Radio Frequency Identification) antenna for the RFID technology is connected on said second mounting base and the installation angle of said antenna is varied by means of the vertical motion of the second mounting base. The first mounting base is mounted by way of being rotated during the mounting. However, the rotation angle of the first mounting base may not be changed after the mounting. This leads to the fact that said mounting bracket is adjustable only by a vertical angle. Moreover, since the mounting bracket includes the mounting base only for a RFID antenna, it is not suitable for the simultaneous use of a Wi-Fi device and an antenna.

[0007] The document no. US9692109 may be mentioned as an example of the state of the art. Said document relates to the antennas, the access points (radio transmission devices) and a mounting apparatus, which enable the same to be positioned together in such a way that they will operate as a single device instead of two separate parts or components. The mounting apparatus basically comprises a base and a tray attached to said base in a rotatable manner. An access point is fixed on said base and the antenna is fixed on the tray. Even though the antenna and the access point are enabled to be mounted together on the mounting apparatus according to said invention, the tray is allowed to move only by a vertical angle. Therefore, it is not possible for the antenna to move by a horizontal angle.

[0008] Consequently, the presence of the above-mentioned problems and the inadequacy of the available solutions have made it necessary to carry out an improvement in the relevant art.

Object of the Invention

[0009] The most important object of the invention is to present a mounting apparatus, which consists of a small number of parts, is easy to mount, is of low cost and makes it possible to mount the devices (Wi-Fi, antenna) on different axes with its simple structure.

[0010] A primary object of the invention is to present a mounting apparatus, which enables the Wi-Fi devices and the antennas used as signal boosters to be mounted together.

[0011] An object of the invention is to present a mounting apparatus, which enables the antennas that are mounted along with the Wi-Fi devices to be positioned vertically and horizontally in an angled manner in a mounting area.

[0012] Another object of the invention is to present a mounting apparatus, which, owing to the ability to adjust the position of the antenna vertically and horizontally, enables the data network signals to be correctly directed to the areas of use and accordingly, enables the data network signals to be distributed to the users in a correct and efficient manner.

[0013] Another object of the invention is to present a mounting apparatus, which enables the antennas that are mounted together with the Wi-Fi devices to be adjusted according to the conditions of use and when necessary upon a change in the circumstances.

[0014] Another object of the invention is to present a mounting apparatus, which enables the elimination of the problems encountered in the internet access in the indoor and outdoor spaces due to the signal deterioration.

[0015] In order to achieve the above-mentioned objects and all the other objects possible to become evident from the detailed description, the invention is a mounting apparatus used for the connection of a Wi-Fi device and a signal booster antenna, said mounting apparatus comprising

• a connection bracket connected to a wall,
• a connection pipe extending downward from the lower surface of the connection bracket,
• a lower connection bracket located on the lower surface of the connection pipe and enabling the Wi-Fi device to be connected,
• at least one neck fixing member located on the connection pipe and performing rotational movement on the connection pipe,
• a movement plate extending in the form of a semicircle downward from the side surface of the neck fixing member and performing rotational movement together with the neck fixing member in order to enable the antenna to be positioned horizontally at the desired angle,
• a curved channel located on the movement plate, and
• a movable connection member moving up and down inside the curved channel and enabling the antenna fixed to the lower surface thereof to be positioned vertically at the desired angle to thereby be connected to the movement plate.

Figures to Aid in Understanding the Invention

[0016] 

Figure 1: A view of the mounting bracket according to the invention in the disassembled state

Figure 2: A view of the mounting bracket according to the invention in a state assembled with a Wi-Fi device and an antenna

Figure 3: Another view of the mounting bracket according to the invention in a state assembled with a Wi-Fi device and an antenna

Figure 4: A view of the mounting bracket according to an alternative embodiment of the invention in a state assembled with a Wi-Fi device and an antenna

Description of the Part Reference Numerals

[0017] 

10. Connection bracket

20. Connection pipe

30. Lower connection bracket

40. Intermediate connection bracket

50. Wi-Fi device

60. Neck fixing member

61. Connection bolt

70. Movement plate

71. Channel

72. Tab insert

73. Extension

74. Reinforcing bend

80. Movable connection member

90. Reinforcing plate

91. Tab seat

100. Antenna

Detailed Description of the Invention

[0018] Figure 1 provides a view of the mounting apparatus according to the invention in the disassembled state. Accordingly, the mounting apparatus comprises in its most basic form a connection bracket (10) connected to a wall, a connection pipe (20) extending downward from the lower surface of the connection bracket (10), a lower connection bracket (30) located on the lower surface of the connection pipe (20) and enabling a Wi-Fi device (50) to be connected preferably by means of an intermediate connection bracket (40), a neck fixing member (60) performing rotational movement on the connection pipe (20), a movement plate (70) extending in the form of a semicircle downward from the side surface of the neck fixing member (60), a movable connection member (80) moving up and down inside the curved channel (71) on the movement plate (70) and enabling an antenna (100) to be connected to the movement plate (70), and a reinforcing plate (90) located on the movement plate (70).

[0019] As can be seen in Figure 2, a connection pipe (20) is present on the lower surface of the connection bracket (10), which enables the mounting bracket according to the invention to be connected to a wall. A lower connection bracket (30) is located on the lower surface of the connection pipe (20) extending downward from the lower surface of the connection bracket (10). The Wi-Fi device (50) is connected to the lower surface of said lower connection bracket (30). An intermediate connection bracket (40), preferably fixed to the lower connection bracket (30), may preferably be used in order to connect the Wi-Fi device (50) to the lower connection bracket (30).

[0020] At least one neck fixing member (60), which performs rotational movement through 360°, is present on the connection pipe (20). Said neck fixing member (60) is fixed on the connection pipe (20) via at least one bolt (61) and performs the rotational movement as a result of said bolt being loosened. While the ability of rotational movement on the x-axis is provided by means of said neck fixing member (60), it is also made possible to perform the fixation at the desired rotation angle by means of the bolts (61). At the same time, the movement plate (70) is provided with the ability of multi-directional movement in the directions of Y1-Y2, by means of the channel (71) having a semicircular form.

[0021] A movement plate (70) with the shape of a semicircle extends downward from the side surface of the neck fixing member (60). Said movement plate (70) performs the rotational movement together with the neck fixing member (60). The movement plate (70) is the component to which the antenna (100) intended for boosting the signal of the Wi-Fi device (50) is connected, wherein said movement plate (70) enables said antenna (100) to be positioned horizontally and vertically at the desired angle. In this way, it becomes possible to direct the data network signals to different areas.

[0022] A curved channel (71) is formed on the movement plate (70). Figure 3 illustrates the movable connection member (80) on said channel (71), said movable connection member (80) being fixed mutually to both sides of the movement plate (70) preferably by means of the bolt (61). The movable connection member (80), which enables the antenna (100) to be connected to the movement plate (70), is moved on the channel (71) having the form of a semi crescent, i.e. in the directions Y1-Y2 along said channel (71), as a result of said bolts (61) being loosened.

[0023] Owing to the movable connection member (80) moving up and down inside the channel (71), the antenna (100) is enabled to be positioned vertically at the desired angle. The horizontal movement of the antenna (100) is achieved by means of the rotational movement of the neck fixing member (60) and of the movement plate (70) together with the neck fixing member (60) on the connection pipe (20).

[0024] At least one reinforcing plate (90) with a structure compatible with the form of the movement plate (70) is present on said movement plate (70). The reinforcing plate (90) is placed on the inner surface of said movement plate (70) with the form of a crescent and is fixed by way of welding or by means of a tab insert (72) fitted in the tab seats (91). This plate, by generating high resistance and strength effect in this zone, prevents the movement plate (70) from undergoing deformation. After the process of fitting the tab insert (72) in said tab seats (91) is completed, the fixing is achieved by bending the tab inserts or by performing the spot welding.

[0025] As can be seen in Figure 4, in the mounting apparatus according to the invention, there may be more than one neck fixing member (60) present on the connection pipe (20). Thus, it becomes possible to connect the movement plate (70) to each neck fixing member (60) and perform the mounting of a plurality of antennas (100) on the mounting bracket. The length of the connection pipe (20) may vary accordingly. While the connection pipe (20) may preferably have an extensible structure, it is also possible to for the same to have a longer configuration according to the place of use.

[0026] In order to reduce the number of manufacturing steps for the movement plate (70) and eliminate the necessity to form a reinforcing plate (90) on the concave surface of said movement plate (70), the mounting apparatus includes a reinforcing bend (74), which is cut in one go by way of laser cut and is formed with a one-piece structure on the concave surface of said movement plate (70) by means of the bending technique (see Figure 3).

The use of the mounting apparatus according to the invention is as follows:

[0027] The connection bracket (10) is connected to the surface of the wall and the Wi-Fi device (50) is connected to the lower surface of the lower connection bracket (30) preferably by means of the intermediate connection bracket (40). Said intermediate connection bracket (40) is made from a plastic-based lightweight material and is thus able to provide convenience in the mounting as well as minimizing the damages on and the contacts with the Wi-Fi device (50) during the mounting.

[0028] The antenna (100) is connected to the lower surface of the movable connection members (80) on the channel (71) of the movement plate (70).

[0029] The neck fixing member (60) is loosened to move the antenna (100) horizontally by the desired angle, the movement plate (70) rotates as a result of the rotational movement of the neck fixing member (60) along the x-axis on the connection pipe (20), and the antenna (100) is enabled to be positioned horizontally at the desired angle. The movement plate (70) has an extension (73), which extends with a straight angle towards the mounting surface of said neck fixing member (60).

[0030] The movable connection member (80) is loosened in order to move the antenna (100) vertically by the desired angle and the antenna (100) is enabled to be positioned vertically at the desired angle as a result of moving the movable connection member (80) up and down on the channel (71).

Claims

1. A mounting apparatus providing a Wi-Fi device (50) and a signal booster antenna (100) with the ability of movement in multiple directions characterized in that the mounting apparatus comprises

- a connection bracket (10), which is connected to a wall, and a connection pipe (20), which is configured on said connection bracket (10),

- a lower connection bracket (30), which enables the Wi-Fi device (50) to be connected to said connection pipe (20),

- at least one neck fixing member (60), which performs the rotational movement on said connection pipe (20),

- a movement plate (70), which has a channel (71) extending in the form of a semicircle, enables the antenna (100) to be positioned at different angles by means of the extension of said channel (71), and performs rotational movement together with the neck fixing member (60) and the antenna (100) with which it is connected, and

- a movable connection member (80), which enables the antenna (100) to be positioned and fixed at the desired angle by means of said channel (71) extending in the form of a semicircle.

2. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises an intermediate connection bracket (40) made from plastic-based lightweight material, which is fixed to said lower connection bracket (30) and enables the Wi-Fi device (50) to be connected to said lower connection bracket (30).

3. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises a reinforcing plate (90), which counteracts the loads imparted on said movement plate (70) and provides said plate with the high strength effect.

4. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises the tab seats (91) and the tab insert (72) protrusions in order to enable the fixing on the crescent-form inner surface of said movement plate (70).

5. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises the neck fixing member (60), which provides said signal booster antenna (100) with the rotational movement along the x-axis, and the movement plate (70), which provides the ability of movement in multiple directions, in the directions Y1-Y2, by means of the channel (71) with the form of a semicircle.

6. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises the movement plate (70), which has a crescent-form structure and which comprises the channel (71) formed exactly in the middle of said crescent structure and an extension (73) extending with a straight angle towards the mounting surface of said neck fixing member (60).

7. A mounting apparatus according to Claim 1 characterized in that the mounting apparatus comprises the movement plate (70), which has a reinforcing bend produced in one go via laser cut and formed with a one-piece structure by means of the bending technique, without having to form a reinforcing plate (90) on the concave surface of said movement plate (70).

8. A mounting apparatus according to Claim 1 characterized in that, in order to reduce the number of manufacturing steps for said movement plate (70) and eliminate the necessity to form a reinforcing plate (90) on the concave surface of said movement plate (70), the mounting apparatus comprises a reinforcing bend (74), which is cut in one go by way of laser cut and is formed with a one-piece structure on the concave surface of said movement plate (70) by means of the bending technique.

Drawing