阅读说明：本技术 一种基于通讯电子的移动式天线检测器 (Mobile antenna detector based on communication electronics ) 是由 徐建萍 于 2021-10-19 设计创作，主要内容包括：本发明提供一种基于通讯电子的移动式天线检测器,涉及通讯电子天线检测技术领域,解决了对通讯电子在极端恶劣的天气下进行过渡检测的问题。一种基于通讯电子的移动式天线检测器,包括检测箱；所述电热部A与电热部B与电热部C以及电热部D每相邻间距相同,且电热部A与电热部B与电热部C以及电热部D间距位置均穿插检测箱设置的三个保温阻燃隔板。将电热部A所产生温度调整至75℃度±1的温度,接下来将电热部B所产生温度调整至50℃度±1的温度,再将电热部C所产生温度调整至25℃度±1的温度,最后将电热部D温度保证在0℃度以下,保证检测箱三个保温阻燃隔板分割的检测箱四个空间温度不同做到多个温差环境温度中的传输能力检测的效果。(The invention provides a mobile antenna detector based on communication electronics, relates to the technical field of communication electronics antenna detection, and solves the problem of transient detection of the communication electronics in extremely severe weather. A mobile antenna detector based on communication electronics comprises a detection box; every adjacent interval of electric heating part A and electric heating part B and electric heating part C and electric heating part D is the same, and electric heating part A and electric heating part B and electric heating part C and electric heating part D interval position all alternate three heat preservation fire-retardant baffles that the detection case set up. The temperature generated by the electric heating part A is adjusted to be 75 +/-1 ℃, the temperature generated by the electric heating part B is adjusted to be 50 +/-1 ℃, the temperature generated by the electric heating part C is adjusted to be 25 +/-1 ℃, and finally the temperature of the electric heating part D is ensured to be below 0 ℃, so that the effect of detecting the transmission capacity in a plurality of temperature difference environment temperatures is achieved due to the fact that the four space temperatures of the detection box divided by the three heat-preservation flame-retardant partition plates of the detection box are different.)

1. A mobile antenna detector based on communication electronics is characterized in that: comprises a detection box (1) and a lifting piece (3); the utility model discloses a fire-retardant baffle of detection case (1) inside three heat preservation that is provided with, and the interval of every two adjacent fire-retardant baffles that keep warm is the same, and detection case (1) front end right side position passes through the hinge rotation with closed door (2) right side and is connected, and closed door (2) front end position has seted up the tongue, and closed door (2) right side rear end position is provided with trapezoidal scute, and detection case (1) is including: the electric heating part A (101), the electric heating part A (101) is fixedly connected to the upper position of the left side of the detection box (1), and a switch and a temperature gauge are arranged on the left side of the electric heating part A (101); the electric heating part B (102), the electric heating part B (102) is fixedly connected to the upper position of the middle of the left side of the detection box (1), the electric heating part B (102) is located in the middle of the heat-preservation flame-retardant partition plate at the upper end of the detection box (1) and the middle heat-preservation flame-retardant partition plate, and a switch and a temperature gauge are arranged on the left side of the electric heating part B (102); the lifting piece (3) comprises: the two pushing parts (301) are respectively fixed at the positions of two sides of the lifting piece (3), and a sliding rail is arranged below the pushing parts (301).

2. A portable antenna sensor according to claim 1 wherein: the detection box (1) further comprises: the electric heating part C (103), the electric heating part C (103) is fixedly connected to the lower position of the middle of the left side of the detection box (1), the electric heating part B (102) is positioned at the middle position of the middle heat-preservation flame-retardant partition plate and the lower heat-preservation flame-retardant partition plate of the detection box (1), and a switch and a temperature gauge are arranged on the left side of the electric heating part C (103); electric heating part D (104), electric heating part D (104) fixed connection is in detection case (1) left side below position, and electric heating part A (101) left side is equipped with the switch and is provided with the thermometer.

3. A portable antenna sensor according to claim 1 wherein: the adjacent distances between the electric heating part A (101) and the electric heating part B (102) and the electric heating part C (103) and between the electric heating part D (104) are the same, and three heat-preservation flame-retardant partition plates arranged on the detection box (1) are inserted into the distance positions between the electric heating part A (101) and the electric heating part B (102) and the electric heating part C (103) and between the electric heating part D (104).

4. A portable antenna sensor according to claim 1 wherein: the closing door (2) comprises: the stop piece (201), the stop piece (201) is fixed to be set up in closed door (2) tongue, and the position of stop piece (201) upper end extends to closed door (2) top outside position, and stop piece (201) top position fixedly connected with lift driving medium (202), and lift driving medium (202) bottom is provided with the screw drive pole, and lift driving medium (202) screw drive pole is located the inboard position in the middle of stop piece (201).

5. A portable antenna sensor according to claim 1 wherein: two chutes are formed in the front end of the lifting piece (3), threaded holes are formed in the middle positions of the two chutes, the threaded rod of the lifting transmission piece (202) is rotatably connected in the threaded holes of the lifting piece (3), and the lifting piece (3) is connected to the rear end of the limiting piece (201) in a sliding mode through the matching of the lifting transmission piece (202).

6. A portable antenna sensor according to claim 5, wherein: the lifting piece (3) comprises: hold carrier (302), hold carrier (302) front end both sides position and be provided with the link of L shape respectively, and every L shape link front end position all is provided with the spout, the extension rod rear end position of two propelling movement portions (301) respectively with hold carrier (302) two L shape link rear end upper position fixed connection, and two link spouts respectively with two propelling movement portions (301) slide rail sliding connection, hold carrier (302) rear end position fixed connection and have driving piece (4).

7. A portable antenna sensor according to claim 6, wherein: the driving piece (4) comprises: adjusting part (401), adjusting part (401) bottom position and driving piece (4) upper end pivot fixed connection, adjusting part (401) both sides are provided with the bevel gear knob, and the inside intermediate position of adjusting part (401) rotates and is connected with the adjusting disk, and adjusting disk lower extreme gear meshes with the bevel gear knob mutually, and adjusting disk upper end position is provided with the spiral line.

8. A portable antenna sensor according to claim 6, wherein: the driving piece (4) further comprises: the fixing clamp (402), four fixing clamp (402) bottom stripes and adjusting part (401) adjusting disk upper end spiral line mesh mutually, four fixing clamp (402) sliding connection are in adjusting part (401) upper end position, and every fixing clamp (402) inboard elastic connection has fan-shaped clamping piece.

Technical Field

The invention belongs to the technical field of communication electronic antenna detection, and particularly relates to a mobile antenna detector based on communication electronics.

Background

Communication electronics are related products based on electric energy, such as mobile phones, computers and the like, the communication electronics are generally used as a general name to summarize, the electronic products are often influenced by various harmful effects of the surrounding environment in the processes of storage, transportation and use, such as influencing the working performance, the use reliability, the service life and the like of the electronic products, an antenna is a converter which converts guided waves transmitted on a transmission line into electromagnetic waves transmitted in a borderless medium or carries out reverse conversion, and antenna components are often added in communication electronic equipment to provide other adaptive effects such as position positioning and the like for people, so that the life quality level of people is improved.

The antenna detector in the communication electronics similar to the one in the present application has the following disadvantages:

when the antenna capacity of the communication electronics is detected, the wavelength and the antenna transmission efficiency of the communication electronics antenna are often detected, the antenna receiving and transmission capacity is improved, transition detection can not be performed on the communication electronics in extremely severe weather, and then the sudden temperature difference drop adaptive capacity of the communication electronics product antenna cannot be effectively detected.

Disclosure of Invention

In order to solve the above technical problems, the present invention provides a mobile antenna detector based on communication electronics, so as to solve the problems that the existing antenna capability detection for communication electronics often detects the wavelength and the antenna transmission efficiency of a communication electronic antenna, improves the antenna receiving and transmission capability, does not perform transition detection on communication electronics in extremely bad weather, and further cannot effectively detect the adaptive capability of a communication electronic product antenna for sudden temperature difference drop.

The invention relates to a mobile antenna detector based on communication electronics, which is achieved by the following specific technical means: a mobile antenna detector based on communication electronics comprises a detection box and a lifting piece; the inside fire-retardant baffle that is provided with three heat preservation of detection case, and the interval of every two adjacent fire-retardant baffles that keeps warm is the same, and detection case front end right side position passes through the hinge rotation with the closed door right side and is connected, and closed door front end position has seted up the tongue, and closed door right side rear end position is provided with trapezoidal scute, and the detection case is including: the electric heating part A is fixedly connected to the upper position of the left side of the detection box, and a switch and a temperature gauge are arranged on the left side of the electric heating part A; the electric heating part B is fixedly connected to the upper position of the middle of the left side of the detection box, is positioned between the heat-preservation flame-retardant partition plate at the upper end of the detection box and the middle heat-preservation flame-retardant partition plate, and is provided with a switch and a temperature gauge on the left side; the electric heating part C is fixedly connected to the lower position of the middle of the left side of the detection box, the electric heating part B is positioned between the middle heat-preservation flame-retardant partition plate of the detection box and the lower heat-preservation flame-retardant partition plate of the detection box, and a switch and a temperature gauge are arranged on the left side of the electric heating part C; the electric heating part D is fixedly connected to the lower position of the left side of the detection box, and a switch and a temperature gauge are arranged on the left side of the electric heating part A; the adjacent distances between the electric heating part A and the electric heating part B and between the electric heating part C and between the electric heating part D are the same, and the positions of the distances between the electric heating part A and the electric heating part B and between the electric heating part C and between the electric heating part D are all inserted with three heat-insulating flame-retardant partition plates arranged in the detection box; the lifting piece comprises: the two pushing parts are respectively fixed at the positions of two sides of the lifting piece, and a sliding rail is arranged below the pushing parts.

Further, the closing door comprises: the locating part, locating part fixed set up in the closed door tongue, and locating part upper end position extends to closed door top outside position, and locating part top position fixedly connected with lift driving medium, lift driving medium bottom is provided with the screw drive pole, and lift driving medium screw drive pole is located the inboard position in the middle of the locating part.

Further, two chutes are formed in the front end of the lifting piece, threaded holes are formed in the middle positions of the two chutes, the lifting transmission piece threaded rod is rotatably connected in the lifting piece threaded holes, and the lifting piece is connected to the rear end of the limiting piece in a sliding mode through the matching of the lifting transmission piece.

Further, the lifting member includes: the carrier holds, holds carrier front end both sides position and is provided with the link of L shape respectively, and every L shape link front end position all is provided with the spout, and the extension rod rear end position of two propelling movement portions respectively with hold carrier two L shape link rear end upper position fixed connection, and two link spouts respectively with two propelling movement portion slide rail sliding connection, hold carrier rear end position fixed connection and have the driving piece.

Further, the driving member comprises: the bottom of the adjusting part is fixedly connected with a rotating shaft at the upper end of the driving part, bevel gear knobs are arranged on two sides of the adjusting part, an adjusting disc is rotatably connected at the middle position in the adjusting part, a gear at the lower end of the adjusting disc is meshed with the bevel gear knobs, and spiral threads are arranged at the upper end of the adjusting disc; the fixation clamp, four fixation clamp bottom stripes mesh with regulating part adjustment disk upper end spiral line mutually, and four fixation clamp sliding connection are in regulating part upper end position, and the inboard elastic connection of every fixation clamp has fan-shaped clamping piece.

Compared with the prior art, the invention has the following beneficial effects:

because the shapes of the communication electronic products are different, the fan-shaped clamping pieces on the inner sides of the four fixing clamps are subjected to self-adaptive contraction when the communication electronic products are fixed, and the firmness of the communication electronic products clamped and fixed in the middle is ensured.

Adjusting the temperature generated by the electric heating part A to 75 +/-1 ℃, then adjusting the temperature generated by the electric heating part B to 50 +/-1 ℃, then adjusting the temperature generated by the electric heating part C to 25 +/-1 ℃, finally ensuring the temperature generated by the electric heating part D to be below 0 ℃, ensuring that the four space temperatures of the detection box divided by the three heat-preservation flame-retardant partition plates of the detection box are different, when the temperature generated by the electric heating part A is constantly positioned at the right side of the electric heating part A, integrally moving the bearing part forwards through the contraction of the pushing part, avoiding the interference between the whole bearing part and the three heat-preservation flame-retardant partition plates in the detection box, driving the whole position of the lifting part to descend through the lifting transmission part, and when the temperature of the communication electronic product is required to be at 25 ℃ to detect the antenna transmission capability of the communication electronic product, descending the lifting part to the horizontal height of the electric heating part C, the extension through propelling movement portion will hold the whole rearward movement of thing next for the whole position electricity hot part C right side position of four fixation clamps, the temperature that electricity hot part C produced can carry out the sudden temperature drop to the communication electron result of fixing in the middle of four fixation clamps and handle, and then can accomplish the transmission ability among a plurality of difference in temperature ambient temperature and detect to and the effect that detects to the signal ability in temperature rapid rising and the temperature rapid decline environment.

The driving part is started to enable the adjusting part to integrally rotate, magnetic field amplitude is generated, and then the working personnel can carry out receiving and sending signal detection on the communication electronic product fixed in the middle of the four fixing clamps, so that the receiving capacity of the communication electronic product antenna under the action of the magnetic field can be detected.

Drawings

Fig. 1 is a schematic view of the structure of the main view state of the present invention.

Fig. 2 is a left-side view structural diagram of the present invention.

FIG. 3 is a side view of the present invention.

Fig. 4 is a schematic diagram of a half-section left view structure of the present invention.

Fig. 5 is a schematic diagram of a half-section side view structure of the present invention.

Fig. 6 is a side view of the present invention in an open state.

FIG. 7 is a side elevational view of the closure door of the present invention with the trapezoidal corner panels of the closure door in a clear view.

FIG. 8 is a schematic view of the combined side view of the lifter and the driving member of the present invention.

Fig. 9 is a schematic side view of the combined extension half section of the lifting member and the driving member of the present invention, from which the two bevel gear knobs and the adjusting disk provided by the adjusting member are clearly shown.

Fig. 10 is a schematic view of a side view of a combined extended half-section bottom of the lifting member and the driving member of the present invention, from which it is clear that two L-shaped connecting frames and a sliding rail are disposed at the front end of the supporting member.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a detection box; 101. an electric heating part A; 102. an electric heating part B; 103. an electric heating part C; 104. an electric heating part D; 2. a closing door; 201. a limiting member; 202. lifting the transmission member; 3. a lifting member; 301. a pushing section; 302. a carrier; 4. a drive member; 401. an adjustment member; 402. and (4) fixing clips.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The first embodiment is as follows:

as shown in figures 1 to 10:

the invention provides a mobile antenna detector based on communication electronics, which comprises: a detection box 1 and a lifting piece 3;

three heat-preservation flame-retardant partition plates are arranged in the detection box 1, the distance between every two adjacent heat-preservation flame-retardant partition plates is the same, the right side position of the front end of the detection box 1 is rotatably connected with the right side of the sealing door 2 through a hinge, a convex groove is formed in the front end position of the sealing door 2, a trapezoidal angle plate is arranged at the rear end position of the right side of the sealing door 2, when the sealing door 2 is closed, the contact point between the sealing door 2 and the right side position of the detection box 1 is increased, and the sealing effect of the detection box is increased; the detection box 1 comprises: the electric heating part A101 is fixedly connected to the upper position of the left side of the detection box 1, and a switch and a temperature gauge are arranged on the left side of the electric heating part A101; the lifting member 3 comprises: the two pushing parts 301 are respectively fixed at the two sides of the lifting piece 3, and a sliding rail is arranged below the pushing parts 301; every adjacent distance between the electric heating part A101 and the electric heating part B102 is the same as every adjacent distance between the electric heating part C103 and the electric heating part D104, and the distance positions between the electric heating part A101 and the electric heating part B102 are all inserted into three heat-preservation flame-retardant partition plates arranged in the detection box 1, the three heat-preservation flame-retardant partition plates divide the interior of the detection box 1 into four spaces, the electric heating part A101 and the electric heating part B102 are respectively located in the four spaces of the detection box 1, and the temperature of the four Ge spaces in the detection box 1 is adjusted.

Wherein, the closing door 2 includes: the limiting member 201, the limiting member 201 is fixed and set up in 2 tongues of closed door, and the position of the upper end of the limiting member 201 extends to 2 top outside positions of closed door, the position fixedly connected with lift driving member 202 of top position of the limiting member 201, the bottom of the lift driving member 202 is provided with the screw drive rod, the lift driving member 202 screw drive rod is located the middle inboard position of the limiting member 201.

Wherein, two spouts have been seted up to 3 front ends of lifting member, and two spout intermediate positions set up threaded hole, and lifting drive spare 202 threaded rod rotates to be connected in 3 threaded hole of lifting member, and lifting member 3 is in locating part 201 rear end position through lifting drive spare 202's cooperation sliding connection.

Wherein, lifting member 3 is including: hold carrier 302, hold carrier 302 front end both sides position and be provided with the link of L shape respectively, and every L shape link front end position all is provided with the spout, two propelling movement portion 301's extension rod rear end position respectively with hold carrier 302 two L shape link rear end upper position fixed connection, and two link spouts respectively with two propelling movement portion 301 slide rail sliding connection, hold carrier 302 rear end position fixed connection and have driving piece 4.

Wherein, driving piece 4 includes: fixing clip 402, four fixing clip 402 bottom stripes and the meshing of regulating part 401 adjusting disk upper end spiral line mutually, four fixing clip 402 sliding connection are in regulating part 401 upper end position, and every fixing clip 402 inboard elastic connection has fan-shaped clamping piece.

When in use: firstly, a communication electronic product to be detected is placed in the middle of four fixing clamps 402, then an operator rotates a bevel gear knob of any one adjusting part 401, so that an adjusting disc in the adjusting part 401 rotates, and as bottom stripes of the four fixing clamps 402 are meshed with spiral stripes at the upper end of the adjusting disc of the adjusting part 401, the four fixing clamps 402 synchronously contract on the adjusting part 401 to fix the middle communication electronic product, and as the communication electronic product is different in shape, self-adaptive contraction is performed through fan-shaped clamping pieces on the inner sides of the four fixing clamps 402 during fixing, so that the firmness of the communication electronic product fixed by clamping in the middle is ensured, after the communication electronic product is fixed, the height of the lifting part 3 is adjusted through the matching of the limiting part 201 to rise to the front end position of the electric heating part A101, then the closed door 2 is closed, and then the driving part 4 is integrally pushed to the right position of the electric heating part A101 through the two pushing parts 301, the electric heating part A101 is started to heat and raise the temperature of the top position of the detection box 1, the temperature of the top position of the detection box 1 is determined according to a temperature gauge arranged on the left side of the electric heating part A101, the temperature of the top position of the detection box 1 is kept constant, the temperature of the environment where the communication electronic product is located can be raised, and the antenna transmission capacity of the communication electronic product fixed before the four fixing clamps 402 are detected.

Example two:

based on the mobile antenna detector based on communication electronics provided by the first embodiment, the mobile antenna detector based on communication electronics can only aim at the antenna transmission capacity of a communication electronic product fixed in the middle of four fixing clamps 402 in a single temperature environment, and cannot detect the transmission capacity in multiple temperature difference environment temperatures, and meanwhile, cannot detect the signal capacity in the environment with rapidly rising temperature and rapidly falling temperature, so that the mobile antenna detector based on communication electronics further comprises an electric heating part B102, the electric heating part B102 is fixedly connected to the middle upper position of the left side of the detection box 1, the electric heating part B102 is positioned in the middle position between a heat-preservation flame-retardant partition plate at the upper end of the detection box 1 and the middle heat-preservation flame-retardant partition plate, and a switch and a temperature gauge are arranged on the left side of the electric heating part B102; the electric heating part C103 is fixedly connected to the lower position of the middle of the left side of the detection box 1, the electric heating part B102 is positioned in the middle of the heat-preservation flame-retardant partition plate at the middle of the detection box 1 and the heat-preservation flame-retardant partition plate at the lower end of the detection box, and a switch and a temperature gauge are arranged on the left side of the electric heating part C103; the electric heating part D104 is fixedly connected to the lower position of the left side of the detection box 1, and the left side of the electric heating part A101 is provided with a switch and a temperature gauge;

when the communication electronic product fixed among the four fixing clips 402 needs to be subjected to multi-environment temperature difference performance detection, the temperature generated by the electric heating part A101 is adjusted to 75 +/-1 ℃, the temperature generated by the electric heating part B102 is adjusted to 50 +/-1, the temperature generated by the electric heating part C103 is adjusted to 25 +/-1, the temperature generated by the electric heating part D104 is ensured to be below 0 ℃, the four space temperatures of the detection box 1 divided by the three heat-preservation flame-retardant partition plates of the detection box 1 are different, when the temperature generated by the electric heating part A101 on the right side of the electric heating part A101 of the bearing part 302 is constant, the position of the fixed communication electronic product is adjusted by an operator in the next step, the bearing part 302 is integrally moved forward through the contraction of the pushing part 301, and the condition that the whole bearing part 302 and the three heat-preservation flame-retardant partition plates in the detection box 1 are interfered is avoided, then, the lifting transmission member 202 is started, the lifting transmission member 202 drives the whole position of the lifting member 3 to descend, if the temperature of the communication electronic product is required to be at 25 ℃ to detect the antenna transmission capability of the communication electronic product, the lifter 3 is lowered to the level of the electrothermal portion C103, and then the carrier 302 is integrally moved backward by the extension of the pushing portion 301, so that the right side of the electrothermal part C103 at the whole position of the four fixing clips 402 is positioned, the temperature generated by the electrothermal part C103 can perform the temperature shock treatment on the communication electronic product fixed in the middle of the four fixing clips 402, meanwhile, the worker detects the transmission and reception of the communication electronic product fixed between the four fixing clips 402, and then the transmission capability detection in a plurality of temperature difference environment temperatures can be realized, and the signal capability detection in the environment with rapidly rising temperature and rapidly falling temperature can be realized.

Example three:

a portable antenna detector based on communication electron that provides based on second embodiment, though can carry out the transmission ability detection in a plurality of difference in temperature ambient temperature to it, but when communication electronics is in fixed position, signal transmission ability is comparatively stable, and the communication electronics signal that produces magnetic field interference when unable moving detects, and then a portable antenna detector based on communication electron still including driving piece 4 including: the bottom of the adjusting part 401 is fixedly connected with a rotating shaft at the upper end of the driving part 4, bevel gear knobs are arranged on two sides of the adjusting part 401, an adjusting disc is rotatably connected to the middle position inside the adjusting part 401, gears at the lower end of the adjusting disc are meshed with the bevel gear knobs, spiral threads are arranged at the upper end of the adjusting disc, and the bottom of the adjusting part 401 is fixedly connected with the top of the driving part 4;

fixed communication electronics result is under arbitrary one place temperature environment in the middle of the fixation clamp 402, starts driving piece 4 and makes the whole rotation of regulating part 401, produces the magnetic field amplitude of rotation, and the staff next is carrying out the signal detection of receiving and dispatching to the communication electronics result of fixing in the middle of four fixation clamps 402, and then can detect the receptivity of communication electronics result antenna under the magnetic field effect.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.