TWM322070U - Automatic rotation platform of unipolar antenna - Google Patents

Description

M322070 VIII. New Description: [New Technology Field] This creation is about an automatic rotating platform for a single-polarized antenna. It mainly connects a single-polarized antenna to an antenna rotating structure, with a plastic pneumatic cylinder. Actuation to drive the single-polarized antenna to the desired test position, the function of actively adjusting the test position of the single-polarized antenna without manual adjustment, and the application of the low-reflection material of the plastic pneumatic cylinder to provide interference-free production. Test environment [Prior technology] In general, in the development and testing of wireless communication products, in order to avoid the interference of other external signals and affect the accuracy of the test results, it is necessary to isolate the external noise. Test the wireless transceiver product related transceiver function in the isolation room (Shielding Room or Charmer) to verify whether the wireless communication product meets the requirements of relevant test specifications. In the test process, in addition to the location and direction of the mobile phone, it is required to comply with the relevant test. In addition to the requirements of the specification, the receiving antenna (including low frequency receiving antenna and high frequency receiving antenna) ) It is also necessary to switch between plane, plane (horizontal) and ν plane (vertical) directions to cover the complete climbing test plane requirements. According to the above, the test labs or certification laboratories of various mobile phone factories are used for radiation. The tested antenna includes a dual-polarized antenna and a single-polarized antenna. Since the price of the single-polarized antenna is lower than that of the dual-polarized antenna and the time of introduction is earlier, the use situation is more popular, but the single-polarized antenna itself can only At the same time, the same plane, including the horizontal or vertical planes of the test direction, does not have the simultaneous automatic horizontal and vertical signal receiving function, so it is necessary to manually adjust the antenna plane to meet the test conditions, which is caused by In addition to the waste of manpower and test time, if the door of the isolation room is opened, the wireless test will be disturbed due to the external M322070: the signal enters the isolation port, and the test result may also be caused by frequent _ «wave dark t reduces the use of the Ϊ room. 曰 Based on the above-mentioned original 'this creation' - can provide automatic _ platform for self-polarization reading, Μ is a monopole The antenna is connected to the 2 ^ line (4) structure, and the plastic pneumatic cylinder is actuated to drive the single-polarized antenna to rotate to the desired (four) m position, so that the tilting position of the test position of the green-polarized antenna can be actively adjusted without the adjustment of the human guard, and cooperated. The application of the low-reflection material of the pneumatic cylinder provides the purpose of a test environment without interference, and has the advantages of simplicity and low cost, and effectively improves the testing process, saving test manpower and time. [New content] The main purpose of this creation is An automatic rotating platform for a single-polarized antenna is provided, which has a single-polarized antenna that can be arbitrarily rotated to a designated test plane. Another object of the present invention is to provide an automatic rotating platform of a single-polarized antenna having a low reflection coefficient. The plastic pneumatic cylinder drives a single-polarized antenna to reduce electromagnetic interference. Another object of the present invention is to provide an automatic rotating platform for a single-polarized antenna, providing a simple, low-cost test platform to reduce the cost of erection and effectively improve the testing process. , saving test manpower and time. [Embodiment] In order to enable your review committee to further understand the techniques, means and effects of this creation in order to achieve the intended purpose, please refer to the following detailed description and drawings of this creation, and believe the purpose, characteristics and characteristics of this creation. It is to be understood that the invention is not limited by the description and description. M322070 Please refer to Figure 1 and Figure 2, which is a schematic diagram of the automatic rotation platform of the single-polarized antenna rotated to the horizontal and vertical positions respectively. The automatic rotation platform of the single-polarized antenna includes an antenna rotation. Structure u, a plastic T pneumatic cylinder linkage structure 12 and a plastic pneumatic cylinder fixed support structure 16; the single-polarized antenna 10 is fixed on the antenna rotating structure 11 to rotate the single-polarized antenna 10 around the antenna rotating structure 11 Change between the horizontal (Figure 1) and vertical (Figure 2) positions to facilitate the single-polarized antenna to accept test positions for different signals. According to the above, a further one-to-step, the jujube is created on the hard-turning structure U, and a plastic pneumatic cylinder linkage structure 12 is provided at one end of the single-polarized antenna 10 in the opposite direction, and is pushed in a plastic pneumatic cylinder 13 The rod portion 14 and the other end of the plastic gas calendar 13 are a pneumatic pressure accumulating portion 15' and connect the pneumatic pressure accumulating portion 15 to a plastic gas-fixing and fixing structure 16, and at the same time, the action of the plastic gas pressure 13 It is driven by the air pressure source and the control computer. This creation controls the reiay_n action on the control interface card connected to the 1-system computer through the automatic test program in the control computer. The intake and exhaust of the meal rainbow check 13 actuate the plastic pressure. Connected to (4) also = line with the sky, connect, and then control the connection to the plastic; = the second turn knot 2, the creation of the face 'can

The Switch computer gives instructions to operate the control. The operator controls the air pressure source by controlling the interface of the computer cylinder 13 through the control interface (not automatically controlled by the program). The air pressure source is plastic. The air pressure ~# test requires that the single-polarized antenna rotates to a M322070 plane position, for example, from a horizontal position to a vertical position or from a vertical position to a horizontal position, and the control computer controls the air pressure source through the interface. Pressurizing the plastic pneumatic cylinder 13 or controlling the pressure relief valve to release pressure, the plastic=, the pusher portion 14 of the cylinder 13 is pushed or retracted by the plastic pneumatic cylinder linkage structure 12, and the rotating structure 11 is pushed or retracted. In turn, the single-polarized antenna is driven. = Rotating action is made to meet the vertical or horizontal plane position required by the test, and the test position 2 of the single-polarized antenna 10 can be automatically adjusted without manual operation. The low-reflective material is applied to the test environment generated by magnetic interference. In summary, the creation is an automatic rotation of a freshly polarized antenna, which can be arbitrarily rotated to a designated test plane by a single-polarized antenna 10, and its functions, utilities, and advantages are as follows: 八/,百之(1) Perform automatic rotation of the horizontal/vertical plane of the single-polarized antenna 1G to effectively improve the test flow and shorten the test time. (2) The pneumatic cylinder 13 is used as the power source for the single-polarized antenna 1G rotation, which effectively reduces the development cost and test. The interference of the process, (3) ===; the support structure 16 and the antenna rotating structure 11 are both (4) plastic pneumatic red fixed support structure disturbance. The antenna frame is used for customized design. (4) According to each test site (5==: plastic_cylinder fixed branch structure... to confirm (8) can borrow two: two (7) ^ to confirm the rotation of the day (four) ^^= change the secret rotation, all have low The two sides of the reflection provide a self-rotating flat M322070 single-polarized antenna, which mainly connects a single-polarized antenna 10 to an antenna rotating structure 11 and drives the single polarization by controlling the action of the plastic pneumatic cylinder 13. The antenna 10 is rotated to the desired test position, and the function of actively adjusting the test position of the single-polarized antenna 10 without manual adjustment is provided, and the application of the low-reflection material of the plastic pneumatic cylinder 13 and the plastic gas/cylinder fixed support structure 16 is adopted. The purpose of providing a test environment without interference is that the above-mentioned techniques cannot be easily achieved, so the creation technique is practical, novel and progressive, and the application is made according to law. Even though the creation has been The above embodiments are described in detail and can be modified by those skilled in the art, without departing from the scope of the appended claims. [Simplified Schematic] Figure 1 is a single The perspective view of the antenna is rotated to the horizontal position. Figure 2 is a perspective view of the single-polarized antenna rotated to the vertical position. [Main component symbol description] 11 antenna rotating structure 13 plastic pneumatic cylinder 15 pneumatic pressure accumulating part • 10 single-polarized antenna 12 plastic Pneumatic cylinder linkage structure 14 push rod portion 16 plastic pneumatic cylinder fixed support structure

Claims (1)

M322070 IX. Patent application scope: 1. An automatic rotating platform for a single-polarized antenna, comprising: a single-polarized antenna; an antenna rotating structure, the single-polarized antenna is fixed on the rotating structure of the antenna, • making the single The polarized antenna is rotatable; a plastic pneumatic cylinder fixed support structure; a plastic pneumatic cylinder linkage structure; and a plastic pneumatic cylinder having a push rod portion coupled with the plastic pneumatic cylinder linkage structure, the plastic pneumatic cylinder having A pneumatic pressure accumulating portion is coupled to the plastic gas/cylinder fixed support structure; when the plastic pneumatic cylinder is actuated, the single-polarized antenna can be driven to rotate to a desired test position. 2. The automatic rotating platform of the single-polarized antenna according to claim 1, wherein the plastic pneumatic cylinder is made of a low-reflection plastic material. 3. The automatic rotary platform of the single-polarized antenna according to claim 1, wherein the plastic pneumatic cylinder fixed support structure is made of a low-reflection plastic material. 4. The automatic rotary slewing platform of the single-polarized antenna according to claim 1, wherein the plastic pneumatic cylinder linkage structure is made of a low-reflection plastic material.