CN111787722A

CN111787722A - 5G mobile communication signal tester

Info

Publication number: CN111787722A
Application number: CN202010733649.XA
Authority: CN
Inventors: 杨小继
Original assignee: Heze Bird New Energy Co ltd
Current assignee: Shanghai zhongzhixin Information Technology Co.,Ltd.
Priority date: 2020-07-27
Filing date: 2020-07-27
Publication date: 2020-10-16
Anticipated expiration: 2040-07-27
Also published as: CN111787722B

Abstract

The invention discloses a 5G mobile communication signal tester, which structurally comprises a tester, a display screen, a carrying handle, a wiring port and a control panel, wherein the carrying handle is arranged at the right side position of the tester, the wiring port is embedded and fixed at the front end position of the tester, the control panel is connected with the tester, the tester and the display screen are of an integrated structure, the tester and the display screen can be inserted into soil through an insertion block on a supporting block, thereby the position of the tester can be fixed, the tester is kept horizontal with the ground by the abutting plate abutting against the ground, and the stress board can swing in the same direction along with the top of the shrub plants by pushing the shrub plants in the reverse direction, the small shrub plants generate upward thrust on the inner swinging plate, so that the inner swinging plate can swing upwards along the contraction block, thereby make the plant can stretch into between two interior pendulum boards to can prevent that the small-size bush plant of conflict board below will support the condition of touch panel jack-up.

Description

5G mobile communication signal tester

Technical Field

The invention relates to the field of 5G communication signal inductors, in particular to a 5G mobile communication signal tester.

Background

5G mobile communication signal tester is mainly used for carrying out the equipment that tests 5G communication signal intensity, can receive the regional 5G signal in place through signal receiving terminal, rethread data display screen carries out the data ization demonstration to 5G signal intensity, and have the characteristics of convenient portable that remove, extensive application is in the detection of outdoor 5G communication signal, and 5G mobile communication signal tester carries out signal detection time measuring outdoors, in order to guarantee the accuracy of test signal intensity, often need parallel placement to operate on ground, based on the discovery of the inventor of the above-mentioned description, the current 5G mobile communication signal tester mainly has following not enough, for example:

because the open space can not be found temporarily in outdoor place reason, often can flatten the plant on ground, the reuse is used for placing 5G mobile communication signal tester, and 5G mobile communication signal tester is for the convenience of carrying often self quality lighter, so that the stronger shrub class plant of branch toughness who is placed when ground and is buckled can reverse jack-up 5G mobile communication signal tester, leads to 5G mobile communication signal tester to appear the slope, thereby can lead to the fact the decline to 5G signal reception effect.

Disclosure of Invention

In view of the above problems, the present invention provides a 5G mobile communication signal tester.

In order to achieve the purpose, the invention is realized by the following technical scheme: A5G mobile communication signal tester structurally comprises a tester, a display screen, a carrying handle, a wiring port and a control panel, wherein the carrying handle is installed at the right side of the tester, the wiring port is embedded and fixed at the front end of the tester, the control panel is connected with the tester, and the tester and the display screen are of an integrated structure; the tester comprises a plate body, a reset rod, an elastic sheet, a stress plate and a supporting block, wherein the reset rod is hinged with the upper surface of the stress plate, the elastic sheet is installed between the reset rod and the stress plate, the stress plate is movably clamped at the bottom of the plate body, and the supporting block and the plate body are of an integrated structure.

As a further optimization of the invention, the support block comprises a board surface, a combination board, a guide board, two insertion blocks, a touch board and a deformation surface, wherein the combination board and the board surface are of an integrated structure, the guide board is embedded and fixed at the bottom position of the combination board, one end of each insertion block is movably clamped with the guide board, the other end of each insertion block is connected with the upper surface of the corresponding insertion block, the touch board is fixed at the bottom center position of the combination board through the deformation surface, and the two insertion blocks are uniformly and symmetrically distributed below the combination board through the matching of the insertion blocks and the guide board.

As a further optimization of the invention, the insertion block comprises a bearing surface, an outer swinging plate and a lifting rod, the bearing surface is hinged with the lifting rod, the outer swinging plate is in clearance fit with the lifting rod, and the two bearing surfaces are uniformly and symmetrically distributed on two sides of the lifting rod.

As a further optimization of the invention, the bearing surface comprises a top plate, a middle connecting plate and a grabbing hook, wherein the middle connecting plate and the top plate are of an integrated structure, the grabbing hook is embedded and fixed at the bottom of the top plate, and the grabbing hook is of a barb structure.

As a further optimization of the invention, the abutting plate comprises a bearing plate, an elastic strip, a fixing block, an inner swinging plate and a contraction block, the elastic strip is arranged between the bearing plate and the fixing block, the fixing block is movably clamped with the contraction block, the inner swinging plate is hinged with the contraction block, the contraction block is in clearance fit with the bearing plate, and the inner swinging plate is provided with two inner swinging plates which are uniformly and symmetrically distributed on the inner sides of the two contraction blocks.

As a further optimization of the invention, the inner swing plate comprises a lower sliding plate, a linkage plate, a bottom plate and a pulling strip, the lower sliding plate is movably clamped at the right side of the bottom plate, the linkage plate is hinged with the bottom of the lower sliding plate, the pulling strip is installed between the bottom plate and the lower sliding plate, and the lower sliding plate can slide downwards along the bottom plate by the downward pulling force generated by the friction between plants and the lower sliding plate when the mechanism ascends.

As a further optimization of the invention, the linkage plate comprises a stressed ball, a guide frame, a rebound strip and a plate block, wherein the stressed ball is movably clamped with the guide frame, the guide frame is fixedly embedded and connected with the right side of the inner wall of the plate block, the rebound strip is arranged at the inner position of the guide frame, and the stressed ball can slide inwards along the guide frame to shrink by extrusion of plants on the stressed ball.

The invention has the following beneficial effects:

1. inside can pricking soil through inserting the piece on the supporting shoe to make the tester can carry out the rigidity, support ground through the conflict board and can keep the level with ground, and through bush class plant reverse promotion atress board then can make the atress board follow the top of bush class plant and carry out the syntropy swing, the effectual strong bush class plant of branch toughness of having avoided being buckled can be reverse with the condition of tester jack-up.

2. Through the ascending thrust of small-size bush class plant production to the interior swing board, can make interior swing board along shrink piece upwards swing to make the plant can stretch into between two interior swing boards, thereby can prevent that the small-size bush class plant of conflict board below will support the condition of touch panel jack-up.

Drawings

Fig. 1 is a schematic structural diagram of a 5G mobile communication signal tester according to the present invention.

FIG. 2 is a side view of the tester of the present invention.

FIG. 3 is a schematic side view of a support block according to the present invention.

Fig. 4 is a side sectional view of the insert block of the present invention.

FIG. 5 is a side view of the receiving surface of the present invention.

FIG. 6 is a schematic structural diagram of a side view cross section of the touch panel of the present invention.

FIG. 7 is a schematic structural diagram of a side view cross section of the hypocycloid of the present invention.

FIG. 8 is a schematic view of a linkage plate according to the present invention in a partial side view.

In the figure: the tester-1, the display screen-2, the carrying handle-3, the wire connection port-4, the control panel-5, the plate body-11, the reset rod-12, the elastic sheet-13, the stress plate-14, the supporting block-15, the plate surface-a 1, the combination plate-a 2, the guide plate-a 3, the connecting rod-a 4, the insertion block-a 5, the collision plate-a 6, the deformation surface-a 7, the bearing surface-a 51, the outer swinging plate-a 52, the lifting rod-a 53, the top plate-b 1, the middle swinging plate-b 2, the grabbing hook-b 3, the bearing plate-c 1, the elastic strip-c 2, the fixing block-c 3, the inner swinging plate-c 4, the contraction block-c 5, the lower sliding plate-c 41, the linkage plate-c 42, the bottom plate-c 43, the pulling strip-c 44, the stressed ball-d 1, the wire connection port-d 1, A guide frame-d 2, a rebound bar-d 3 and a plate-d 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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 invention.

Example 1

As shown in fig. 1-5:

the invention provides a 5G mobile communication signal tester, which structurally comprises a tester 1, a display screen 2, a carrying handle 3, a wiring port 4 and a control panel 5, wherein the carrying handle 3 is arranged at the right side position of the tester 1, the wiring port 4 is fixedly embedded at the front end position of the tester 1, the control panel 5 is connected with the tester 1, and the tester 1 and the display screen 2 are of an integrated structure; the tester 1 comprises a plate body 11, a reset rod 12, an elastic sheet 13, a stress plate 14 and a supporting block 15, the reset rod 12 is hinged to the upper surface of the stress plate 14, the elastic sheet 13 is installed between the reset rod 12 and the stress plate 14, the stress plate 14 is movably clamped at the bottom of the plate body 11, and the supporting block 15 and the plate body 11 are of an integrated structure.

The supporting block 15 comprises a plate surface a1, a combination plate a2, a guide plate a3, a connecting rod a4, an insertion block a5, an interference plate a6 and a deformation surface a7, the combination plate a2 and the plate surface a1 are of an integrated structure, the guide plate a3 is embedded at the bottom of the combination plate a2, one end of the connecting rod a4 is movably clamped with the guide plate a3, the other end of the connecting rod a4 is connected with the upper surface of the insertion block a5, the interference plate a6 is fixed at the bottom center of the combination plate a2 through the deformation surface a7, the insertion blocks a5 are provided in two numbers, and are uniformly and symmetrically distributed below the combination plate a2 through the matching of the connecting rods a4 and the guide plate a3, and can be inserted into the soil through the insertion blocks a 5.

The inserting block a5 comprises a bearing surface a51, an outer swinging plate a52 and a lifting rod a53, the bearing surface a51 is hinged to the lifting rod a53, the outer swinging plate a52 is in clearance fit with the lifting rod a53, two bearing surfaces a51 are arranged, the two sides of the lifting rod a53 are uniformly distributed symmetrically, and the mechanism can be clamped in the soil by the aid of the bearing surfaces a51 swinging outwards.

The bearing surface a51 comprises a top plate b1, a middle connecting plate b2 and a grabbing hook b3, the middle connecting plate b2 and the top plate b1 are of an integrated structure, the grabbing hook b3 is embedded at the bottom of the top plate b1, the grabbing hook b3 is of a barb structure, and grabbing force to the interior of soil can be enhanced through the grabbing hook b 3.

The detailed use method and action of the embodiment are as follows:

in the invention, because the open ground can not be found temporarily due to the outdoor site, plants on the ground are often flattened and then used for placing the tester 1, the tester 1 is often light in weight for convenient carrying, so that shrub plants with strong toughness of branches and trunks bent when placed on the ground can jack the tester 1 reversely, the tester 1 is inclined, and the 5G signal receiving effect is reduced, the problems can be solved effectively by matching the stress plate 14 on the tester 1 with the supporting block 15, the inserting block a5 on the supporting block 15 can be pricked into the soil, and then the bearing surface a51 is extruded and unfolded outwards, so that the bearing surface a51 can enable the inserting block a5 to be clamped in the soil under the matching of the grabbing hook b3, the tester 1 can be fixed in position, and the tester 1 can be kept horizontal with the ground by propping the propping touch plate a6, when the shrub plants push the stress plate 14 reversely, the stress plate 14 can swing in the same direction along with the top of the shrub plants, and the situation that the shrub plants with strong bent branches and high toughness can jack up the tester 1 reversely is effectively avoided.

Example 2

As shown in fig. 6-8:

the contact resisting plate a6 comprises a bearing plate c1, an elastic strip c2, a fixing block c3, a swinging inner plate c4 and a contraction block c5, the elastic strip c2 is installed between the bearing plate c1 and the fixing block c3, the fixing block c3 is movably clamped with the contraction block c5, the swinging inner plate c4 is hinged with the contraction block c5, the contraction block c5 is in clearance fit with the bearing plate c1, the swinging inner plate c4 is provided with two parts, the two parts are uniformly and symmetrically distributed on the inner sides of the two contraction blocks c5, the swinging inner plate c4 can swing upwards along the contraction block c5 by means of upward extrusion of plants on the swinging inner plate c4, and therefore the plants can stretch into the mechanism.

The inner swinging plate c4 comprises a lower sliding plate c41, a linkage plate c42, a bottom plate c43 and a pulling strip c44, the lower sliding plate c41 is movably clamped at the right side position of the bottom plate c43, the linkage plate c42 is hinged to the bottom of the lower sliding plate c41, the pulling strip c44 is installed between the bottom plate c43 and the lower sliding plate c41, a downward pulling force is generated by friction between plants and the lower sliding plate c41 when the mechanism ascends, the lower sliding plate c41 can slide downwards along the bottom plate c43, and therefore the linkage plate c42 can swing inwards until the linkage plate c42 is attached to the plants.

The linkage plate c42 comprises a stressed ball d1, a guide frame d2, a rebound bar d3 and a plate d4, the stressed ball d1 is movably clamped with the guide frame d2, the guide frame d2 is fixedly connected with the right side of the inner wall of the plate d4 in an embedded mode, the rebound bar d3 is installed at the inner position of the guide frame d2, the stressed ball d1 is squeezed by plants, the stressed ball d1 can slide inwards and contract along the guide frame d2, the stressed ball d1 which is not squeezed can be quickly pushed by the guide frame d2 to pop out, and therefore the plants adhered to the surface of the object can be removed.

The detailed use method and action of the embodiment are as follows:

in the invention, because the small shrubs at the bottom of the touch panel a6 push the touch panel a6 in the opposite direction, the touch panel a6 cannot be attached to the ground, so that the tester 1 can shake, the problem can be effectively solved through the inner swinging panel c4 on the touch panel a6, the small bush plants can generate upward thrust on the inner swinging panel c4, the inner swinging panel c4 can swing upwards along the contraction block c5, so that the plants can extend into the space between the two inner swinging panels c4, and the contraction block c5 can slide upwards along the bearing plate c1 through the thrust generated by the plants on the inner swinging panel c4, so that the lower sliding panel c41 can slide downwards along the bottom plate c43 by the pulling force generated by the friction of the plants, and the rebound strip d3 can push the stressed ball d1 to clamp the small shrub plants, so that the small bush plants can be fixed inside the touch panel a6, the situation that small shrubs existing at the bottom of the abutting plate a6 push the abutting plate a6 to rise reversely is effectively avoided.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a 5G mobile communication signal tester, its structure includes tester (1), display screen (2), carrying handle (3), wiring mouth (4), control panel (5), the right side position in tester (1) is installed in carrying handle (3), wiring mouth (4) are inlayed and are fixed in the front position of tester (1), control panel (5) are connected its characterized in that with tester (1): the tester (1) and the display screen (2) are of an integrated structure;

the tester (1) comprises a plate body (11), a reset rod (12), an elastic sheet (13), a stress plate (14) and a supporting block (15), wherein the reset rod (12) is hinged with the upper surface of the stress plate (14), the elastic sheet (13) is installed between the reset rod (12) and the stress plate (14), the stress plate (14) is movably clamped at the bottom of the plate body (11), and the supporting block (15) and the plate body (11) are of an integrated structure.

2. The 5G mobile communication signal tester according to claim 1, wherein: the supporting block (15) comprises a plate surface (a1), a combination plate (a2), a guide plate (a3), a connecting rod (a4), an insertion block (a5), a collision plate (a6) and a deformation surface (a7), the combination plate (a2) and the plate surface (a1) are of an integrated structure, the guide plate (a3) is embedded and fixed at the bottom position of the combination plate (a2), one end of the connecting rod (a4) is movably clamped with the guide plate (a3), the other end of the connecting rod (a4) is connected with the upper surface of the insertion block (a5), and the collision plate (a6) is fixed at the bottom center position of the combination plate (a2) through the deformation surface (a 7).

3. The 5G mobile communication signal tester according to claim 2, wherein: the inserting block (a5) comprises a bearing surface (a51), an outer swinging plate (a52) and a lifting rod (a53), the bearing surface (a51) is hinged with the lifting rod (a53), and the outer swinging plate (a52) is in clearance fit with the lifting rod (a 53).

4. A 5G mobile communication signal tester as claimed in claim 3, wherein: the bearing surface (a51) comprises a top plate (b1), a middle connecting plate (b2) and a grabbing hook (b3), the middle connecting plate (b2) and the top plate (b1) are of an integrated structure, and the grabbing hook (b3) is embedded and fixed at the bottom position of the top plate (b 1).

5. The 5G mobile communication signal tester according to claim 2, wherein: the contact resisting plate (a6) comprises a bearing plate (c1), an elastic strip (c2), a fixing block (c3), a swinging inward plate (c4) and a contraction block (c5), wherein the elastic strip (c2) is installed between the bearing plate (c1) and the fixing block (c3), the fixing block (c3) is movably clamped with the contraction block (c5), the swinging inward plate (c4) is hinged with the contraction block (c5), and the contraction block (c5) is in clearance fit with the bearing plate (c 1).