CN204117169U - A kind of internet of things data acquisition operating platform equipment - Google Patents

Abstract

The utility model provides a kind of internet of things data acquisition operating platform equipment, and this equipment comprises rack (1), display (2), main frame (3), rfid interrogator antenna (4), cylindrical vertical rod (5), rfid interrogator antenna fixing device (6), rfid interrogator (7).Display (2) is installed on the casing (102) of rack (1) by fixed mount (1021).Cylindrical vertical rod (5) is vertically fixed in the top of main cabinet (101) by a chassis and is fixedly connected with rfid interrogator antenna (4) by rfid interrogator antenna fixing device (6).RFID label tag recognition device and computing machine focus in same rack by the utility model, keeper can be managed RFID label tag data in time by computing machine while collection site monitors RFID label tag data acquisition, effectively improves treatment effeciency.

Description

A kind of internet of things data acquisition operating platform equipment

Technical field

The utility model relates to technical field of electronic equipment, particularly relates to a kind of internet of things data acquisition operating platform equipment.

Background technology

Technology of Internet of things and radio-frequency (RF) identification (Radio Frequency Identification is called for short RFID) technology are widely used in the electronic management of various article.Internet of Things asset management equipment portable mostly at present is hand-held, and handheld RFID identification equipment is only suitable for low speed, the application scenarios that closely identifies and needing takies artificial.New identification equipment is needed in the article identification scene of remote, robotization identification for requiring.

Utility model content

The technical matters that the utility model solves is that handhold RFID identification equipment cannot be applied at a distance, the recognition of devices scene of robotization identification.

The utility model provides internet of things data acquisition operating platform equipment, and described operating platform equipment comprises: rack 1, display 2, main frame 3, rfid interrogator antenna 4, cylindrical vertical rod 5, rfid interrogator antenna fixing device 6, rfid interrogator 7;

Described rack 1 comprises main cabinet 101 and casing 102, described main cabinet 101 is rectangular structure, described casing 102 is positioned at the top of described main cabinet 101, the back side of described casing 102 and the back side of described main cabinet 101 are integrally formed near the side at right back angle, the right flank of described casing 102 and the right flank of described main cabinet 101 are integrally formed near the side at described right back angle, the left surface of described casing 102 and the end face of described main cabinet 101 are integrally formed and form right angle bending structure, the front of described casing 102 and the end face of described main cabinet 101 are integrally formed and form obtuse angle bending structure, the front of described casing 102 is provided with rectangular aperture and is provided with multiple fixed mount 1021, described display 2 is installed on described casing 102 by described fixed mount 1021, described main frame 3 is arranged in described main cabinet 101, described display 2 is connected by electronic connecting line with described main frame 3,

Described cylindrical vertical rod 5 is vertically fixed in the top of described main cabinet 101 by a chassis, be fixedly connected with described rfid interrogator antenna 4 by described rfid interrogator antenna fixing device 6, described rfid interrogator 7 is connected by electronic connecting line with described rfid interrogator antenna 4, described rfid interrogator 7 is connected by electronic connecting line with described main frame 3, and the end face of described main cabinet 101 is provided with a through hole 1010 passed through for electronic connecting line.

Wherein, described rfid interrogator antenna fixing device 6 comprises fixture 61, U-shaped anchor ear 62, mat piece 63; described fixture 61 is right-angle bending structure, comprise the first plate 611 and the second plate 612 being slab construction, described first plate 611 is provided with the through hole for connecting rfid interrogator antenna, first bight 6120 of described second plate 612 is provided with the first fiducial through holes 6121 and the second fiducial through holes 6122, described second plate 612 is provided with the multiple positioning through hole 6123 forming arc-shaped, the central point of each positioning through hole 6123 is identical apart from the distance of the central point of described first fiducial through holes 6121, described second plate 612 is provided with the arc-shaped cavity 6124 of point between described positioning through hole 6123 and described second fiducial through holes 6122 and centered by described second fiducial through holes 6122, the central point of described positioning through hole 6123 is identical with the diameter of described U-shaped anchor ear 62 with the spacing of described first fiducial through holes 6121, the center camber line of described arc-shaped cavity 6124 is identical with the diameter of described U-shaped anchor ear 62 with the spacing of the central point of described second through hole 6122, described mat piece 63 is channel-shaped components of U-shaped section, comprise the first plate 631 and the second plate 632 and the 3rd plate 633 that are symmetricly set in described first plate 631 two ends, described first plate 631 is provided with two through holes, the spacing of the central point of these two through holes is identical with the diameter of described U-shaped anchor ear 62, and the middle part away from one end of described first plate 631 on described second plate 632 and described 3rd plate 633 is depressed part, second plate 612, the described mat piece 63 of described fixture 61 are fixedly connected with by described U-shaped anchor ear 62 with described cylindrical vertical rod 5.

Wherein, described rfid interrogator antenna fixing device 6 comprises two fixation kits; Each fixation kit comprises two mat pieces, 63, web member, 64, two body of bolt and at least six nuts; Described mat piece 63 is channel-shaped components of U-shaped section, comprise the first plate 631 and the second plate 632 and the 3rd plate 633 that are symmetricly set in described first plate 631 two ends, described first plate 631 is provided with two through holes, and the middle part away from one end of described first plate 631 on described second plate 632 and described 3rd plate 633 is depressed part; Described web member 64 is annular closing structure body, comprise the first plate 641 and the second plate 642 be oppositely arranged, described first plate 641 is provided with two through holes, and the distance of the central point of these two through holes is identical with the distance of the central point of two through holes on the first plate of described mat piece 63 and be greater than the diameter of described cylindrical vertical rod 5; In described fixation kit, the first plate 631 of two mat pieces 63 and the first plate 641 of described web member 64 are fixedly connected with by described bolt and described nut, and described two mat pieces 63 are arranged in the mode that opening is relative and cylindrical vertical rod 5 described in the depressed part clamping of described two mat pieces 63.

Wherein, the described depressed part on described second plate 632 of described mat piece 63 and described 3rd plate 633 comprises the bottom that is parallel to the interior linea angulata of the bending part of described mat piece 63, also comprises the stair-stepping avris portion being symmetricly set in this two bottom sides; Or described depressed part is arc-shaped; Or described depressed part is zigzag.

Wherein, described display 2 is LCDs or touch display screen.

Wherein, be also provided with lithium battery power supply in described main cabinet 101, described lithium battery power supply is connected by electronic connecting line with described display 2 with described main frame 3 respectively.

Wherein, described main frame 3 and described display 2 are also connected with power lead, and the back side of described main cabinet 101 is provided with the power lead opening passed through for described power lead.

Wherein, the bottom of described main cabinet 101 is provided with four universal wheels.

Wherein, be positioned at described casing 102 in described main cabinet 101 below place be provided with glove drawer.

Wherein, the carbon structure steel that described rack 1 is 1.2 millimeters by thickness are formed.

The utility model is applied to far Distance RFID tag recognition, identifies that workload is large, needs monitoring in time and the application scenarios of RFID label data.

Internet of things data acquisition operating platform equipment in the utility model can carry out the automatic identification of far Distance RFID label and the label information of acquisition is uploaded to computing machine automatically, and RFID label tag recognition device and computing machine focus in same rack by the utility model, it is on-the-spot that rack directly can be positioned over RFID label tag data acquisition by staff, inquired about in time, sorts out, adds up and other bookkeeping while collection site monitoring RFID label tag data acquisition by the computing machine in rack to RFID label tag data.The utility model effectively can improve the treatment effeciency in RFID label tag identification and management process, and saves human resources.

Rfid interrogator antenna fixing device in the utility model can regulate the angle of inclination of rfid interrogator antenna easily while stably fixed RF identification read write line rfid interrogator antenna, be applicable to the various same application scenarios different to the requirement of rfid interrogator antenna tilt, in addition, this device also supports that circular abutment is perpendicular to ground and the two kinds of set-up modes being parallel to ground, makes the applicable scene of this device more extensive.In sum, this device good fixing effect, be easy to regulate, easy for installation, applied widely.

Accompanying drawing explanation

Fig. 1 is the structural drawing of internet of things data acquisition operating platform equipment in the utility model;

Fig. 2 is the structural representation of the first rfid interrogator antenna fixing device;

Fig. 3 is the structural representation of fixture 61 in the first rfid interrogator antenna fixing device;

Fig. 4 is the structural representation of mat piece 63 in the first rfid interrogator antenna fixing device;

Fig. 5 makes rfid interrogator antenna and ground in the use-pattern schematic diagram of stationary installation when being less than the angle of 90 degree after the first rfid interrogator antenna fixing device fixes rfid interrogator antenna;

Fig. 6 is the structural representation of the second rfid interrogator antenna fixing device;

Fig. 7 makes rfid interrogator antenna and ground in the use-pattern schematic diagram of stationary installation when being less than the angle of 90 degree after the second rfid interrogator antenna fixing device fixes rfid interrogator antenna.

Reference numeral: rack 1, display 2, main frame 3, rfid interrogator antenna 4, cylindrical vertical rod 5, rfid interrogator antenna fixing device 6, rfid interrogator 7, main cabinet 101, casing 102, fixed mount 1021, through hole 1010, fixture 61, U-shaped anchor ear 62, mat piece 63, first plate 611 of fixture, second plate 612 of fixture, first bight 6120 of the second plate of fixture, first fiducial through holes 6121, second fiducial through holes 6122, positioning through hole 6123, arc-shaped cavity 6124, first plate 631 of mat piece, second plate 632 of mat piece, 3rd plate 633 of mat piece, web member 64, first plate 641 of web member, second plate 642 of web member.

Specific embodiment

For making the object of the utility model embodiment, technical scheme and advantage clearly, below in conjunction with the accompanying drawing in the utility model embodiment, technical scheme in the utility model embodiment is clearly and completely described, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combination in any mutually.

The antenna will fixed in the utility model is the antenna of radio-frequency identification reader/writer, and this antenna is generally rectangular flat shape.

Scheme of the present utility model is described in detail below in conjunction with accompanying drawing.

It is the structural drawing of internet of things data acquisition operating platform equipment 1 in the utility model in Fig. 1.Internet of things data acquisition operating platform equipment comprises: rack 1, display 2, main frame 3, rfid interrogator antenna 4, cylindrical vertical rod 5, rfid interrogator antenna fixing device 6, rfid interrogator 7.

Rack 1 comprises main cabinet 101 and casing 102.Main cabinet 101 is rectangular structure, casing 102 is positioned at the top of main cabinet 101, the back side of casing 102 and the back side of main cabinet 101 are integrally formed near the side at right back angle, the right flank of casing 102 and the right flank of main cabinet 101 are integrally formed near the side at right back angle, the left surface of casing 102 and the end face of main cabinet 101 are integrally formed and form right angle bending structure, and the front of casing 102 and the end face of main cabinet 101 are integrally formed and form obtuse angle bending structure.The front of casing 102 is provided with rectangular aperture and is provided with fixed mount 1021, and display 2 is installed on casing 102 by fixed mount 1021.Main frame 3 is arranged in main cabinet 101, and display 2 is connected by electronic connecting line with main frame 3.

Cylindrical vertical rod 5 is vertically fixed in the top of main cabinet 101 by a chassis, be fixedly connected with rfid interrogator antenna 4 by rfid interrogator antenna fixing device 6, rfid interrogator 7 is connected by electronic connecting line with rfid interrogator antenna 4, rfid interrogator 7 is connected by electronic connecting line with main frame 3, and the end face of main cabinet 101 is provided with a through hole 1010 passed through for electronic connecting line.Rfid interrogator 7 can be positioned over the end face of main cabinet 101, is passed by the electronic connecting line being used for connecting rfid interrogator 7 and main frame 3 from through hole 1010.Rfid interrogator 7 can also be positioned over the inside of main cabinet 101, passes being used for connecting rfid interrogator 7 with the electronic connecting line of rfid interrogator antenna 4 from through hole 1010.

Wherein, display 2 is LCDs or touch display screen.When display 2 is LCDs, main frame 3 is also connected with the input medias such as mouse.

Can adopt battery powered mode in this equipment, also be provided with lithium battery power supply in this mode in main cabinet 101, lithium battery power supply is connected by electronic connecting line with display 2 with main frame 3 respectively.Rfid interrogator 7 indirectly obtains electric power by being connected with main frame 3 via main frame 3 or rfid interrogator 7 is directly connected with lithium battery power supply.Or, can the mode of Power supply in this equipment, in this mode, main frame 3 and display 2 are also connected with power lead, and rfid interrogator 7 indirectly obtains electric power by being connected with main frame 3 via main frame 3 or rfid interrogator 7 is directly connected with power supply by power lead.The back side of main cabinet 101 is provided with the power lead opening passed through for power lead, and each power lead thus power lead opening passes.

The bottom of main cabinet 101 is provided with four universal wheels, thus make internet of things data acquisition operating platform equipment can according to collection position need carry out position easily and move.

Be positioned at place below casing 102 in main cabinet 101 and be provided with glove drawer, thus make this platform device 1 can preserve file needed for staff or articles for use easily.

The carbon structure steel that rack 1 is 1.2 millimeters by thickness are formed.

This equipment is applied to far Distance RFID tag recognition, identifies that workload is large, needs monitoring in time and the application scenarios of RFID label data.This platform device can carry out the automatic identification of far Distance RFID label and the label information of acquisition is uploaded to computing machine automatically, and RFID label tag recognition device and computing machine are focused in same rack, it is on-the-spot that rack directly can be positioned over RFID label tag data acquisition by staff, inquired about in time, sorts out, adds up and other bookkeeping while collection site monitoring RFID label tag data acquisition by the computing machine in rack to RFID label tag data.This platform device effectively can improve the treatment effeciency in RFID label tag identification and management process, and saves human resources.

Operating platform equipment in the utility model can be typically applied in abandoned car and disassemble on the streamline of monitoring administrating system.Rfid interrogator 7 receives automobile zero device (the such as engine of distance rfid interrogator antenna 4 tens meters far away even tens meters of distant places by rfid interrogator antenna 4, wheel box, heating radiator etc.) electronic labeling information, and this electronic labeling information is uploaded to main frame 3 automatically.The management software that abandoned car disassembles monitoring administrating system is installed in main frame 3, staff manually reads the electronic tag on each automobile zero device without the need to using handhold RFID read-write equipment, just can monitor the whole flow process of RFID label tag data acquisition at collection site and be inquired about by electronic tag data on 3 pairs of automobile zero devices of the main frame in rack, sort out, added up and other bookkeeping.By using the operating platform equipment in the utility model, whole flow process can be made more convenient, quick, intelligent and be easy to management.

The rfid interrogator antenna fixing device 6 used in this equipment has two kinds of implementations, describes in detail below in conjunction with accompanying drawing.

The first rfid interrogator antenna fixing device 6:

Fig. 2 is the structural representation of rfid interrogator antenna fixing device.This stationary installation comprises fixture 61, U-shaped anchor ear 62, mat piece 63.Fixture 61 comprises the first plate 611 and the second plate 622.Second plate 612, the mat piece 63 of fixture 61 are fixedly connected with by U-shaped anchor ear 62 with cylindrical vertical rod 5.

Fig. 3 is the structural representation of fixture 61.Fixture 61 is right-angle bending structure, comprises the first plate 611 and the second plate 612 being slab construction.First plate 611 is provided with the through hole for connecting rfid interrogator antenna.First bight 6120 of the second plate 612 is provided with the first fiducial through holes 6121 and the second fiducial through holes 6122.Second plate 612 is also provided with the multiple positioning through hole 6123 forming arc-shaped, the central point of each positioning through hole 6123 is identical apart from the distance of the central point of the first fiducial through holes 6121.Second plate 612 is also provided with the arc-shaped cavity 6124 of point between positioning through hole 6123 and the second fiducial through holes 6122 and centered by the second fiducial through holes 6122.The central point of positioning through hole 6123 is identical with the diameter of U-shaped anchor ear 62 with the spacing of the first fiducial through holes 6121, and the center camber line of arc-shaped cavity 6124 is identical with the diameter of U-shaped anchor ear 62 with the spacing of the central point of the second through hole 6122.Wherein, the central point of interior linea angulata positioning through hole 6123 farthest of the bending part of distance fixture 61 and the line of the central point of the first fiducial through holes 6121 are perpendicular to linea angulata in the bending part of fixture 61.

The diameter of U-shaped anchor ear 62 refers to the spacing of the central point at the two ends of U-shaped anchor ear 62.

Fig. 4 is the structural drawing of mat piece 63.Mat piece 63 is channel-shaped components of U-shaped section, comprise the first plate 631 and the second plate 632 and the 3rd plate 633 that are symmetricly set in the first plate 631 two ends, first plate 631 is provided with two through holes, the spacing of the central point of these two through holes is identical with the diameter of U-shaped anchor ear 62, and the middle part away from one end of the first plate 631 on the second plate 632 and the 3rd plate 633 is depressed part.

When using this stationary installation to fix rfid interrogator antenna, rfid interrogator antenna is fixedly connected with by screw with the first plate 611 of fixture 61, by U-shaped anchor ear 62, cylindrical vertical rod 5, mat piece 63 are connected with the second plate 612 of fixture 61, depressed part on second plate 632 of mat piece 63 and the 3rd plate 633 all docks with cylindrical vertical rod 5, the turn of bilge of U-shaped anchor ear 62 is surrounded on the outside of cylindrical vertical rod 5, and two rod members of U-shaped anchor ear 62 are passed the second plate 612 of fixture 61 and fixed by two nuts.

When cylindrical vertical rod 5 is fixed perpendicular to ground, the fixed form of rfid interrogator antenna can comprise following two kinds:

The first: the first rod member of U-shaped anchor ear 62 is fixed on the first fiducial through holes 6121, second rod member and is fixed on a positioning through hole 6123.When the second rod member of U-shaped anchor ear 62 is fixed in the bending place of a fixture 61 linea angulata positioning through hole 6123 farthest, rfid interrogator antennas orthogonal can be made in ground.When the second rod member of U-shaped anchor ear 62 is fixed on other different positioning through hole 6123, rfid interrogator antenna and ground can be made to form different angles, as shown in Figure 5.

The second: the first rod member of U-shaped anchor ear 62 is fixed on a certain position that the second fiducial through holes 6121, second rod member is fixed on arc-shaped cavity 6124.When the second rod member of U-shaped anchor ear 62 is fixed on the diverse location of arc-shaped cavity 6124, rfid interrogator antenna and ground can be made to form different angles.

Above-mentioned stationary installation can regulate the angle of inclination of rfid interrogator antenna easily while stably fixed RF identification read write line rfid interrogator antenna, is applicable to the various same application scenarios different to the requirement of rfid interrogator antenna tilt.

This stationary installation also has following characteristics:

On second plate 612 of fixture 61 bending place towards fixture 61 of arc-shaped cavity 6124 extended line on be also provided with at least one through hole.This through hole, as the supplementary through hole of arc-shaped cavity 6124, is supported the use by this through hole and the first fiducial through holes, and the angular range making rfid interrogator antenna variable increases.

Number for the through hole connecting rfid interrogator antenna on first plate 611 of fixture 61 is greater than 1 and forms round-shaped.By screw, rfid interrogator antenna can be fixedly connected with the first plate 611 more than one through hole on round-shaped, such as can select round-shaped on a pair through hole at diameter two ends, or select to be uniformly distributed in round-shaped multiple through holes circumferentially.

The round-shaped middle position that through hole on first plate 611 of fixture 61 is formed is provided with a star or circular cavity, can save steel and make appearance looks elegant.

Multiple positioning through hole 6123 on second plate 612 of fixture 61 are when arranging, and the spacing of the central point of adjacent positioned through hole 6123 can be the same or different, and can arrange according to the needs of rfid interrogator antenna applications scene.

On second plate 612 of fixture 61, the number of positioning through hole 6123 can be arranged, such as 3 to 8 according to the needs of rfid interrogator antenna applications scene, typically can be set to 7.

On the section of fixture 61, the length of the second plate 612 is greater than the length of the first plate 611.

Depressed part on second plate 632 of mat piece 63 and the 3rd plate 633 comprises the bottom that is parallel to the interior linea angulata of the bending part of mat piece 63, also comprises the stair-stepping avris portion being symmetricly set in this two bottom sides.In this stair-stepping avris portion, the number of perpendicular type projecting block can be set to multiple, not by the restriction of exemplary statement in accompanying drawing.Above-mentioned depressed part can also be set to other shape, as long as can the shape of the cylindrical vertical rod 5 of clamping, and such as arc-shaped, zigzag or other shape.

The second rfid interrogator antenna fixing device 6:

Fig. 6 is the structural representation of rfid interrogator antenna fixing device.This stationary installation comprises two fixation kits, and each fixation kit comprises two mat pieces, 63, web member, 64, two body of bolt and at least six nuts.

The structure of mat piece 63 describes in the related content of the first rfid interrogator antenna fixing device, repeats no more herein.

Web member 64 is annular closing structure body, comprise the first plate 641 and the second plate 642 be oppositely arranged, first plate 641 is provided with two through holes, the distance of the central point of these two through holes is identical with the distance of the central point of two through holes on the first plate 631 of mat piece 63 and be greater than the diameter of cylindrical vertical rod 5.

In fixation kit, the first plate 631 of two mat pieces 63 and the first plate 641 of web member 64 are fixedly connected with by bolt and nut, and two mat pieces 63 are arranged in the mode that opening is relative and the cylindrical vertical rod 5 of the depressed part clamping of two mat pieces 63.

The version of web member 64 can have multiple.A kind of typical mode is: web member 64 is rectangular tubular structure, and comprise four plates forming rectangular configuration, wherein the first plate 641 is relative with the second plate 642.Another kind of typical mode is: it is web first U-shaped and be web with the second plate 642 second U-shaped that web member 64 comprises with the first plate 641, first U-shaped interlocks in the mode that opening is relative with second U-shaped, and the flange plate of first U-shaped is fixedly connected with the flange plate of second U-shaped.Wherein, the second plate 642 of web member 64 is provided with the through hole for being connected with rfid interrogator antenna, the diameter of this through hole is greater than the diameter of through hole on the first plate 641.Spacing in web member 64 between first plate 641 and the second plate 642 is greater than the diameter of cylindrical vertical rod 5, the length of the first plate 631 or the 3rd plate 633 on the U-shaped section that the diameter of cylindrical vertical rod 5 is greater than mat piece 63.

In this stationary installation, the concrete size of each assembly can be arranged accordingly according to application scenarios.In a kind of typical apply, the length of bolt is 30 centimetres to 80 centimetres, and the diameter of through hole is 8 millimeters to 20 millimeters.

When using above-mentioned stationary installation to fix rfid interrogator antenna, after cylindrical vertical rod 5 is fixing perpendicular to ground, rfid interrogator antennas orthogonal can be regulated in the angle on ground by regulating fixation kit overhead far away.

Fixing means when making rfid interrogator antenna perpendicular to the ground: cylindrical vertical rod 5 is fixed perpendicular to ground, respectively the second plate 642 of web member 64 in two fixation kits is fixedly connected with rfid interrogator antenna, cylindrical vertical rod 5 is connected in depressed part in the mode that opening is relative by two mat pieces 63, by body of bolt through the first plate 631 of two mat pieces 63 and the first plate 641 of web member 64, fixed by nut.The first plate 631 near the mat piece 63 of web member 64 is adjacent to the first plate 641 of web member 64 and fixes, and rfid interrogator antenna can keep the angle perpendicular to ground.

Make the fixing means of rfid interrogator antenna certain angle perpendicular to the ground: be fixedly connected with rfid interrogator antenna by the second plate 642 of web member 64 in two fixation kits respectively.Cylindrical vertical rod 5 is connected in depressed part in the mode that opening is relative by mat piece 63 in overhead nearer fixation kit, by body of bolt through the first plate 631 of two mat pieces 63 and the first plate 641 of web member 64, fixed by nut, make the first plate 631 of the mat piece 63 near web member 64 be adjacent to the first plate 641 of web member 64 and fix.For overhead nearer fixation kit, by body of bolt through the first plate 631 of two mat pieces 63 and the first plate 641 of web member 64, by nut, two mat pieces 63 and cylindrical vertical rod 5 are fixed, after web member 64 and the first plate 631 of mat piece 63 are kept at a certain distance away, by nut, web member 64 is fixed on body of bolt end.After using said method fixing, as shown in Figure 7, rfid interrogator antenna and ground keep a fixed angle being less than 90 degree.By regulating the distance of web member in fixation kit overhead far away 64 with mat piece 63, i.e. the angle on adjustable rfid interrogator antenna and ground.

Rfid interrogator antenna fixing device in the utility model can regulate the angle of inclination of rfid interrogator antenna easily while stably fixed RF identification read write line rfid interrogator antenna, be applicable to the various same application scenarios different to the requirement of rfid interrogator antenna tilt, in addition, this device also supports that circular abutment is perpendicular to ground and the two kinds of set-up modes being parallel to ground, makes the applicable scene of this device more extensive.In sum, this device good fixing effect, be easy to regulate, easy for installation, applied widely.

It should be noted that, term " comprises " in this article, " comprising " or its any other variant be intended to contain comprising of nonexcludability, thus make to comprise the article of a series of key element or equipment not only comprises those key elements, but also comprise other key elements clearly do not listed, or also comprise by this article or the intrinsic key element of equipment.

Above-described content can combine enforcement individually or in every way, and these variant are all within protection domain of the present utility model.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit.Although be described in detail the utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (10)

1. an internet of things data acquisition operating platform equipment, it is characterized in that, described operating platform equipment comprises: rack (1), display (2), main frame (3), rfid interrogator antenna (4), cylindrical vertical rod (5), rfid interrogator antenna fixing device (6), rfid interrogator (7);

Described rack (1) comprises main cabinet (101) and casing (102), described main cabinet (101) is rectangular structure, described casing (102) is positioned at the top of described main cabinet (101), the back side of described casing (102) and the back side of described main cabinet (101) are integrally formed near the side at right back angle, the right flank of described casing (102) and the right flank of described main cabinet (101) are integrally formed near the side at described right back angle, the left surface of described casing (102) and the end face of described main cabinet (101) are integrally formed and form right angle bending structure, the front of described casing (102) and the end face of described main cabinet (101) are integrally formed and form obtuse angle bending structure, the front of described casing (102) is provided with rectangular aperture and is provided with multiple fixed mount (1021), described display (2) is installed on described casing (102) by described fixed mount (1021), described main frame (3) is arranged in described main cabinet (101), described display (2) is connected by electronic connecting line with described main frame (3),

Described cylindrical vertical rod (5) is vertically fixed in the top of described main cabinet (101) by a chassis, be fixedly connected with described rfid interrogator antenna (4) by described rfid interrogator antenna fixing device (6), described rfid interrogator (7) is connected by electronic connecting line with described rfid interrogator antenna (4), and be connected by electronic connecting line with described main frame (3), the end face of described main cabinet (101) is provided with a through hole passed through for electronic connecting line (1010).

2. internet of things data acquisition operating platform equipment as claimed in claim 1, is characterized in that,

Described rfid interrogator antenna fixing device (6) comprises fixture (61), U-shaped anchor ear (62), mat piece (63);

Described fixture (61) is right-angle bending structure, comprise the first plate (611) and the second plate (612) that are slab construction, described first plate (611) is provided with the through hole for connecting rfid interrogator antenna, first bight (6120) of described second plate (612) is provided with the first fiducial through holes (6121) and the second fiducial through holes (6122), described second plate (612) is provided with the multiple positioning through hole (6123) forming arc-shaped, the central point of each positioning through hole (6123) is identical apart from the distance of the central point of described first fiducial through holes (6121), described second plate (612) is provided with to be positioned between described positioning through hole (6123) and described second fiducial through holes (6122) and centered by described second fiducial through holes (6122) the arc-shaped cavity (6124) of point, the central point of described positioning through hole (6123) is identical with the diameter of described U-shaped anchor ear (62) with the spacing of described first fiducial through holes (6121), the center camber line of described arc-shaped cavity (6124) is identical with the diameter of described U-shaped anchor ear (62) with the spacing of the central point of described second through hole (6122),

Described mat piece (63) is the channel-shaped component of U-shaped section, comprise the first plate (631) and be symmetricly set in the second plate (632) and the 3rd plate (633) at described first plate (631) two ends, described first plate (631) is provided with two through holes, the spacing of the central point of these two through holes is identical with the diameter of described U-shaped anchor ear (62), and the middle part away from one end of described first plate (631) on described second plate (632) and described 3rd plate (633) is depressed part;

Second plate (612) of described fixture (61), described mat piece (63) are fixedly connected with by described U-shaped anchor ear (62) with described cylindrical vertical rod (5).

3. internet of things data acquisition operating platform equipment as claimed in claim 1, is characterized in that,

Described rfid interrogator antenna fixing device (6) comprises two fixation kits; Each fixation kit comprises two mat pieces (63), web member (64), two body of bolt and at least six nuts;

Described mat piece (63) is the channel-shaped component of U-shaped section, comprise the first plate (631) and be symmetricly set in the second plate (632) and the 3rd plate (633) at described first plate (631) two ends, described first plate (631) is provided with two through holes, and the middle part away from one end of described first plate (631) on described second plate (632) and described 3rd plate (633) is depressed part;

Described web member (64) is annular closing structure body, comprise the first plate (641) and the second plate (642) that are oppositely arranged, described first plate (641) is provided with two through holes, and the distance of the central point of these two through holes is identical with the distance of the central point of two through holes on the first plate of described mat piece (63) and be greater than the diameter of described cylindrical vertical rod (5);

In described fixation kit, first plate (631) of two mat pieces (63) and first plate (641) of described web member (64) are fixedly connected with by described bolt and described nut, and described two mat pieces (63) are arranged in the mode that opening is relative and cylindrical vertical rod (5) described in the depressed part clamping of described two mat pieces (63).

4. internet of things data acquisition operating platform equipment as claimed in claim 2 or claim 3, is characterized in that,

Described depressed part on described second plate (632) of described mat piece (63) and described 3rd plate (633) comprises the bottom that is parallel to the interior linea angulata of the bending part of described mat piece (63), also comprises the stair-stepping avris portion being symmetricly set in this two bottom sides; Or described depressed part is arc-shaped; Or described depressed part is zigzag.

5. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, is characterized in that, described display (2) is LCDs or touch display screen.

6. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, it is characterized in that, described main cabinet is also provided with lithium battery power supply in (101), and described lithium battery power supply is connected by electronic connecting line with described display (2) with described main frame (3) respectively.

7. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, it is characterized in that, described main frame (3) and described display (2) are also connected with power lead, and the back side of described main cabinet (101) is provided with the power lead opening passed through for described power lead.

8. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, is characterized in that, the bottom of described main cabinet (101) is provided with four universal wheels.

9. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, is characterized in that, is positioned at described casing (102) below place and is provided with glove drawer in described main cabinet (101).

10. the internet of things data acquisition operating platform equipment as described in claim 1,2 or 3, is characterized in that, the carbon structure steel that described rack (1) is 1.2 millimeters by thickness are formed.