CN207339830U - Installation stablizes and easy to the radio communication device of debugging - Google Patents

Abstract

The utility model discloses a kind of install to stablize and easy to the radio communication device of debugging, including wireless communication module and installation pedestal, the first rotor plate of installation pedestal can centered on its center of circle where the first rotor plate rotation with surface；Head rod lower end is fixed on the first rotor plate center, and upper end and one end of the second connecting rod are rotatablely connected；Second fixed plate side is fixedly connected with the other end of the second connecting rod, opposite side connects the side of the second rotor plate, wireless communication module is fixed on the opposite side of the second rotor plate, the second rotor plate can centered on its center of circle where the second rotor plate rotation with surface.The utility model has installation pedestal, wireless communication module can be fixed on the wall or on top by the installation pedestal, and the multi-directional rotation of wireless communication module can be realized after fixing, so as to adjust aerial position, receiving intensity needed for ensureing, later stage will not bring the change in signal strength brought by change in location to install and debug all very convenient.

Description

Installation stablizes and easy to the radio communication device of debugging

Technical field

It the utility model is related to wireless communication technology field, and in particular to a kind of install is stablized and easy to the channel radio of debugging T unit.

Background technology

Radio communication device is because it has the advantages that to exempt to connect up, is easy for installation, inexpensive, and the application in life is very Extensively.Radio communication device can be all applied in fields such as remote controler, remote control gate, wireless security protection alarm, wireless monitors, it is this kind of to answer In, generally use at least 2 radio communication devices use in pairs, carry out the transmitting-receiving of data.

Antenna is the important component of radio receiving transmitting module, in order to save installation space and prevent thunder and lightning, is had at present Significant portion wireless communication module uses built-in aerial.And in order to realize the data transmit-receive of 2 radio communication devices, wireless communication Device necessarily be in the antenna footprint of the radio communication device matched with it, and strong in order to reach required reception Degree, it is necessary to tested rotating platform to suitable position is subjected to partial occlusion to antenna according to signal strength or is not blocked, and by In built-in antenna, the position of antenna can not be seen, adjustment when can only the whole radio receiving transmitting module of integrated regulation.In some fields Close, such as elevator annex, radio receiving transmitting module can only be hung according to definite position, so installed insecure and influenced U.S. See, and suspension be easy to cause radio receiving transmitting module position change so that antenna is caused to block or remove it is initial block, Cause the change of signal receiving strength.In addition, in installation process, suspension installation measures and debugs very inconvenient.

Utility model content

The purpose of this utility model is to provide a kind of install to stablize and easy to the radio communication device of debugging, the channel radio T unit has an installation pedestal, and wireless communication module can be fixed on the wall or on top by the installation pedestal, and after fixing It can realize the multi-directional rotation of wireless communication module, so as to adjust aerial position, ensure required receiving intensity, wireless communication Module position can fix after determining, the later stage will not bring the change in signal strength brought by change in location；In installation process, It will be fixedly mounted after pedestal that to adjust wireless communication module position again very simple, installation and debugging are all very convenient.

The utility model is achieved through the following technical solutions：

Installation stablizes and easy to the radio communication device of debugging, including wireless communication module and installation pedestal, the installation Pedestal includes the first fixed plate, the first rotor plate, head rod, the second connecting rod, the second fixed plate and the second rotor plate, and First fixed plate, the first rotor plate, the second fixed plate and the second rotor plate are circular slab；

First rotor plate is arranged in the first fixed plate parallel to the first fixed plate, and the center of circle of the two overlaps, institute State the first rotor plate can centered on its center of circle where the first rotor plate rotation with surface；Along it on first rotor plate N number of first tapped through hole circumferentially is uniformly provided with, first tapped through hole is axially perpendicular to the first rotor plate；Described first The upper surface of fixed plate is uniformly provided with least 4N the first blind holes, axial direction and the first screw thread of first blind hole along its circumferential direction Through hole it is axially in parallel；N is the natural number not less than 1 and is even number, all first tapped through holes to the center of circle of the first rotor plate Distance be equal, the distance in the center of circle of all first blind holes to the first fixed plate is equal and equal to the first tapped through hole to the The distance in the center of circle of one rotor plate；

The head rod lower end is fixed on the first rotor plate center, and upper end and one end of the second connecting rod rotate company Connect；

The second fixed plate side is fixedly connected with the other end of the second connecting rod, and opposite side connects the second rotor plate Side,

Second fixed plate is overlapped with the center of circle of the second rotor plate, and the second rotor plate can centered on its center of circle Rotation with surface where second rotor plate；On second rotor plate M the second tapped through holes, institute are uniformly provided with along its circumferential direction That states the first tapped through hole is axially perpendicular to the second rotor plate；The opposite side of second fixed plate is uniformly provided with along its circumferential direction At least 4M the second blind holes, the axial direction of second blind hole is axially in parallel with the second tapped through hole, and M is the nature not less than 1 Number and be even number；The distance in the center of circle of all second tapped through holes to the second rotor plate is equal, all second blind holes to second The distance in the center of circle of fixed plate is equal and equal to the distance of the second tapped through hole to the center of circle of the second rotor plate；

The wireless communication module is fixed on the opposite side of the second rotor plate.

As further improvement of the utility model, the cross section of the head rod and the second connecting rod is square Shape, the trailing flank of second connecting rod are connected to the leading flank of head rod.

Further, the upper end of the head rod and one end of the second connecting rod offer connection through hole, the company The axial direction for connecting hole is anteroposterior direction, and rotation axis, the rotation axis are fixedly connected with the connection through hole of the head rod The connection through hole of the second connecting rod is also extended through, second connecting rod can be rotated around rotation axis；In second connecting rod A threaded connection hole is further opened with by connection through hole, and the upper end of the head rod is further opened with multiple by connection through hole Tapped blind hole, multiple tapped blind holes are annularly distributed centered on the connection through hole of head rod；The threaded connection hole and The axial axial direction each parallel to connection through hole of tapped blind hole；And the threaded connection hole is to the connection through hole of second connecting rod Distance is also equal with the distance of the connection through hole of tapped blind hole to head rod, is 3-5cm.

As further improvement of the utility model, the side of the wireless communication module is provided with connection otic placode, the company Ear connecting plate is welded or is bolted on the second rotor plate.

As the another improvement of the utility model, the first fixation board diameter is more than the first rotor plate, and first fixes At least four installation through-hole, the axial direction for being axially parallel to the first fixed plate of the installation through-hole are also opened up on plate, all installations are led to The circumferential direction of hole along the first fixed plate is uniformly distributed and outside the first rotor plate.

The utility model compared with prior art, has the following advantages and advantages：

The installation of the utility model is stablized and the radio communication device easy to debugging has installation pedestal, wireless communication module It can be fixed by the installation pedestal on the wall or on top, and the multi-faceted rotation of wireless communication module can be realized after fixing Turn, so as to adjust aerial position, ensure required receiving intensity；

The installation of the utility model stablizes and after the wireless communication module location determination easy to the radio communication device of debugging It can fix, the later stage will not bring the change in signal strength brought by change in location；In installation process, after pedestal is fixedly mounted It is very simple that wireless communication module position is adjusted again, and installation and debugging are all very convenient.

Brief description of the drawings

Attached drawing described herein is used for providing further understanding the utility model embodiment, forms the one of the application Part, does not form the restriction to the utility model embodiment.In the accompanying drawings：

Fig. 1 is the utility model structure diagram；

Fig. 2 is the explosive view of the first fixed plate and the first rotor plate.

Mark and corresponding parts title in attached drawing：

1- wireless communication modules, the first fixed plates of 21-, 211- installation through-holes, the first blind holes of 212-, the first rotor plates of 22-, The first tapped through holes of 221-, 23- head rods, the second connecting rods of 24-, 241- rotation axis, 242- threaded connection holes, 25- Two fixed plates, the second rotor plates of 26-, the second tapped through holes of 261-, 3- shafts.

Embodiment

For the purpose of this utility model, technical solution and advantage is more clearly understood, with reference to embodiment and attached drawing, The utility model is described in further detail, and the exemplary embodiment and its explanation of the utility model are only used for explaining this Utility model, is not intended to limit the scope of the present invention.

In the following description, a large amount of specific details are elaborated in order to provide a thorough understanding of the present invention.However, for this Field those of ordinary skill it is evident that：The present invention need not be carried out using these specific details.In other instances, it is The present invention that avoids confusion, does not specifically describe known structure, circuit, material or method.

Throughout the specification, meaning is referred to " one embodiment ", " embodiment ", " example " or " example " ：It is comprised in reference to a particular feature, structure, or characteristic that the embodiment or example describe at least one embodiment of the present invention. Therefore, the phrase " in one embodiment ", " in embodiment ", " example " occurred in each place of entire disclosure Or " example " is not necessarily all referring to the same embodiment or example.Furthermore, it is possible to any appropriate combination and or sub-portfolio will be specific Feature, structure or property combination in one or more embodiments or example.In addition, those of ordinary skill in the art should manage Solution, diagram is provided to the purpose of explanation provided herein, and diagram is not necessarily drawn to scale.Art used herein Language "and/or" includes any and all combination for the project that one or more correlations are listed.

In the description of the utility model, term "front", "rear", "left", "right", " on ", " under ", " vertical ", " level ", The orientation or position relationship of the instruction such as " height ", " low " " interior ", " outer " be based on orientation shown in the drawings or position relationship, be only for Described easy to description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that limitation to scope of protection of the utility model.

As shown in Figure 1, the installation of the utility model stablizes and easy to the radio communication device of debugging, including radio communication mold Block 1 and installation pedestal, the installation pedestal are used to install wireless communication module 1.

The installation pedestal include the first fixed plate 21, the first rotor plate 22, head rod 23, the second connecting rod 24, Second fixed plate 25 and the second rotor plate 26, and the first fixed plate 21, the first rotor plate 22, the second fixed plate 25 and second rotate Plate 26 is circular slab, and the first fixed plate 21 and the first rotor plate 22 are horizontally mounted, the second fixed plate 25 and the second rotor plate 26 It is that circular slab is vertically-mounted；

Specifically, as shown in Fig. 2, first rotor plate 22 is arranged on the first fixed plate 21 parallel to the first fixed plate 21 On, and the center of circle of the two overlaps, first rotor plate 22 can be centered on its center of circle in 22 place plane of the first rotor plate Interior rotation rotates in the horizontal plane；On first rotor plate 22 4 the first tapped through holes are uniformly provided with along its circumferential direction 221, the axial vertical direction of first tapped through hole 221 is perpendicular to the first rotor plate 22；First fixed plate 21 it is upper Surface is uniformly provided with least 16 the first blind holes 212, axial direction and the first tapped through hole of first blind hole 212 along its circumferential direction 221 it is axially in parallel；The distance in the center of circle of all the 221 to the first rotor plates of first tapped through hole 22 is equal, and all first is blind The distance in the center of circle of the fixed plate of hole 212 to the first 21 is equal and equal to the circle of first the 221 to the first rotor plate of tapped through hole 22 The distance of the heart；Ensure that the first rotor plate 22 turns to any position and all has the lower section of the first tapped through hole of at least two 221 each just To first blind hole 212, puller bolt is installed in first tapped through hole 221, and puller bolt can extend into first In blind hole 212.In the present embodiment, it at least can guarantee that the first rotor plate 22 often rotates 22.5 °, the first all tapped through holes 221 One the first blind hole 212 of each face in lower section, installation is more firm, and 22.5 ° of precision also meets the position adjustment of wireless communication module It is required that.

The head rod 23 arranges that lower end is fixed on 22 center of the first rotor plate, upper end and the second connecting rod vertically 24 left end rotation connection；The left side of second fixed plate 25 is fixedly connected with the right end of the second connecting rod 24, and right end connects the The left side of two rotor plates 26；The wireless communication module 1 is fixed on the right side of the second rotor plate 26.

Second fixed plate 25 is overlapped with the center of circle of the second rotor plate 26, and the second rotor plate 26 can using its center of circle as Center is rotated in 26 place rotation with surface of the second rotor plate in perpendicular；Along its circumferential direction on second rotor plate 26 4 the second tapped through holes 261 are uniformly provided with, the axial direction of first tapped through hole 261 is horizontal direction, perpendicular to second turn Movable plate 26；The opposite side of second fixed plate 25 is uniformly provided with least 16 the second blind holes along its circumferential direction, and described second is blind The axial direction in hole is axially in parallel with the second tapped through hole 261；The center of circle of all the 261 to the second rotor plates of second tapped through hole 26 Distance is equal, and the distance in all second blind holes to the center of circle of the second fixed plate 25 is equal and is equal to the second tapped through hole 261 To the distance in the center of circle of the second rotor plate 26；Ensure that the second rotor plate 26 turns to any position and all has at least two second Each one the second blind hole of face in the left side of tapped through hole 261.Puller bolt is also installed in second tapped through hole 221, and is pushed up Tight bolt can extend into the second blind hole.In the present embodiment, it at least can guarantee that the second rotor plate 22 often rotates 22.5 °, it is all Each one the second blind hole of face in the left side of second tapped through hole 261, installation is more firm, and 22.5 ° of precision also meets radio communication mold The position adjustment requirement of block.

Wherein, the cross section of 23 and second connecting rod 24 of head rod is rectangle, second connecting rod 24 Trailing flank be connected to the leading flank of head rod 23.

Further, the upper end of the head rod 23 and one end of the second connecting rod 24 offer connection through hole, institute The axial direction for stating connection through hole is anteroposterior direction, and rotation axis 241, institute are fixedly connected with the connection through hole of the head rod 23 The connection through hole that rotation axis 241 also extends through the second connecting rod 24 is stated, second connecting rod 24 can be rotated around rotation axis 241； Be further opened with a threaded connection hole 242 by connection through hole in second connecting rod 24, the head rod 23 it is upper End is further opened with multiple tapped blind holes by connection through hole, these tapped blind holes are annularly distributed centered on rotation axis 241；Institute State the axial axial direction each parallel to connection through hole of threaded connection hole 242 and tapped blind hole；And the threaded connection hole 242 is to The distance of the connection through hole of two connecting rods 24 is also equal with the distance of the connection through hole of tapped blind hole to head rod 23, is 3-5cm.Puller bolt is also installed in the threaded connection hole 242, puller bolt herein can extend into screw thread In blind hole.

The radio communication device of the utility model when mounted first fixes the first fixed plate 21 on the wall or on top Or ground or other fixable places, then by rotating the first rotor plate 22, the second rotor plate 26 and the second connecting rod 24 can adjust the position of wireless communication module 1.After adjusting good position, by the first tapped through hole 221 of the first rotor plate 22 Puller bolt tighten, the first rotor plate 22 is fixed in the first fixed plate 21；Then by the screw thread in the second connecting rod 24 Puller bolt in connecting hole 242 is tightened, and 24 left end of the second connecting rod is fixed on head rod 23；Finally by second Puller bolt in second tapped through hole 261 of rotor plate 26 is tightened, and the second rotor plate 26 is fixed on the second fixed plate 22 On.The fixation of all components has been achieved in that it, whole installation pedestal and wireless communication module are fixedly mounted, and the later stage will not produce Raw movement, would not also bring the change of signal strength.

During position is adjusted, according to signal strength, the second rotor plate 26 can drive wireless communication module 1 perpendicular The upward 360 ° of rotations of Nogata, the first rotor plate 22 can drive head rod 23 thereon, the second connecting rod 24, second to fix 25 and second rotor plate 26 of plate and wireless communication module 1 rotate in the horizontal direction, and the second connecting rod 26 can drive second Fixed plate 25, the second rotor plate 26 and wireless communication module 1 rotate in the lateral direction, it is achieved that in the first fixed plate Position adjustment on more than 21 half of sphere, such radio communication device can first look for a mount point to be supported afterwards again Row debugging, installation and debugging are very simply and conveniently.

As shown in Fig. 2, the first rotor plate 22 is connected with the connection mode of the first fixed plate 21 for shaft in the present embodiment, the One rotor plate 22 and 21 center of the first fixed plate are equipped with same root shaft 3, and wherein the shaft 3 is fixed with the first fixed plate 21 Connection, is rotatablely connected with the first rotor plate 22, and the first rotor plate 22 axis can be rotated centered on the shaft 3.

Equally, the connection mode of the second rotor plate 26 and the second fixed plate 25 also be connected for shaft, the second rotor plate 26 and Second fixed plate, 25 center is also equipped with same root shaft, which is fixedly connected with the second fixed plate 25, is rotated with second Plate 26 is rotatablely connected, and the second rotor plate 26 axis can be rotated centered on the shaft.Second fixed plate 25 and the second rotor plate 26 connection mode is not shown with the first fixed plate 21 and the connection mode of the first rotor plate 22 in figure, but refers to Fig. 2.

Further, the side of the wireless communication module 1 is provided with connection otic placode, which welds or pass through spiral shell Bolt is fixed on the second rotor plate 26.

Further, 21 diameter of the first fixed plate is more than the first rotor plate 22, and also opened up in the first fixed plate 21 to Few 4 installation through-holes 21, the axial direction for being axially parallel to the first fixed plate 21 of the installation through-hole 211, all installation through-holes 211 are uniformly distributed along the circumferential direction of the first fixed plate 21 and outside the first rotor plate 22.

It is repeated no more in wireless communication module, that is, radio receiving transmitting module of the prior art the application in the present embodiment Concrete structure and circuit.

Above-described embodiment, the purpose of this utility model, technical solution and beneficial effect have been carried out into One step describes in detail, it should be understood that the foregoing is merely specific embodiment of the present utility model, is not used to limit Determine the scope of protection of the utility model, where within the spirit and principles of the present invention, any modification for being made, equally replace Change, improve, should be included within the scope of protection of this utility model.

Claims (5)

1. installation stablizes and easy to the radio communication device of debugging, including wireless communication module (1), it is characterised in that further includes Installation pedestal, the installation pedestal include the first fixed plate (21), the first rotor plate (22), head rod (23), the second company Extension bar (24), the second fixed plate (25) and the second rotor plate (26), and the first fixed plate (21), the first rotor plate (22), second Fixed plate (25) and the second rotor plate (26) are circular slab；

First rotor plate (22) is arranged in the first fixed plate (21) parallel to the first fixed plate (21), and the center of circle of the two Overlap, first rotor plate (22) can be centered on its center of circle in the first rotor plate (22) place rotation with surface；It is described On first rotor plate (22) N number of first tapped through hole (221), first tapped through hole (221) are uniformly provided with along its circumferential direction Be axially perpendicular to the first rotor plate (22)；The upper surface of first fixed plate (21) is uniformly provided with least 4N along its circumferential direction A first blind hole (212), the axial direction of first blind hole (212) are axially in parallel with the first tapped through hole (221)；N is not small In 1 natural number and be even number, the distance in the center of circle of all first tapped through holes (221) to the first rotor plate (22) is equal, The distance in the center of circle of all first blind holes (212) to the first fixed plate (21) is equal and is arrived equal to the first tapped through hole (221) The distance in the center of circle of the first rotor plate (22)；

Head rod (23) lower end is fixed on the first rotor plate (22) center, upper end and one end of the second connecting rod (24) Rotation connection；

Second fixed plate (25) side is fixedly connected with the other end of the second connecting rod (24), and opposite side connection second rotates The side of plate (26),

Second fixed plate (25) overlaps with the center of circle of the second rotor plate (26), and the second rotor plate (26) can be with its center of circle Centered on where the second rotor plate (26) rotation with surface；On second rotor plate (26) M is uniformly provided with along its circumferential direction A second tapped through hole (261), second tapped through hole (261) are axially perpendicular to the second rotor plate (26)；Described second The opposite side of fixed plate (25) is uniformly provided with least 4M the second blind holes, the axial direction and second of second blind hole along its circumferential direction Tapped through hole (261) it is axially in parallel, M is natural number not less than 1 and is even number；All second tapped through holes (261) are to The distance in the center of circle of two rotor plates (26) is equal, and the distance in all second blind holes to the center of circle of the second fixed plate (25) is equal And equal to the distance of the second tapped through hole (261) to the center of circle of the second rotor plate (26)；

The wireless communication module (1) is fixed on the opposite side of the second rotor plate (26).

2. installation according to claim 1 stablizes and easy to the radio communication device of debugging, it is characterised in that described first The cross section of connecting rod (23) and the second connecting rod (24) is rectangle, and the trailing flank of second connecting rod (24) is connected to The leading flank of one connecting rod (23).

3. installation according to claim 2 stablizes and easy to the radio communication device of debugging, it is characterised in that described first The upper end of connecting rod (23) and one end of the second connecting rod (24) offer connection through hole, before the axial direction of the connection through hole is Rear direction, rotation axis (241) is fixedly connected with the connection through hole of the head rod (23), the rotation axis (241) is also Through the connection through hole of the second connecting rod (24), second connecting rod (24) can rotate around rotation axis (241)；Described second In connecting rod (24) threaded connection hole (242), the upper end of the head rod (23) are further opened with by connection through hole Multiple tapped blind holes are further opened with by connection through hole, multiple tapped blind holes are centered on the connection through hole of head rod (23) Distribution annular in shape；The threaded connection hole (242) and the axial axial direction each parallel to connection through hole of tapped blind hole；And the spiral shell Distance and the connection of tapped blind hole to head rod (23) of the line connecting hole (242) to the connection through hole of the second connecting rod (24) The distance of through hole is also equal, is 3-5cm.

4. installation according to claim 1 stablizes and easy to the radio communication device of debugging, it is characterised in that described wireless The side of communication module (1) is provided with connection otic placode, which welds or be bolted on the second rotor plate (26) on.

5. installation according to claim 1 stablizes and easy to the radio communication device of debugging, it is characterised in that described first Fixed plate (21) diameter is more than the first rotor plate (22), and also opens up at least four installation through-hole in the first fixed plate (21) (211), the axial direction for being axially parallel to the first fixed plate (21) of the installation through-hole (211), all installation through-holes (211) are along The circumferential direction of one fixed plate (21) is uniformly distributed and is located at the first rotor plate (22) outside.