CN211236914U - Behavior monitoring all-in-one machine - Google Patents

Abstract

The utility model relates to a not only simple installation, long service life moreover uses a behavior control all-in-one that the energy consumption is low simultaneously, which comprises a housing, install No. one antenna of RFID, No. two antennas of RFID, RFID read write unit, the control unit and human inductor in the casing, it has the induction head that is equipped with human inductor in through-hole and the through-hole to open on the outer wall of casing. The advantages are that: firstly, a human body sensor is added to the behavior monitoring all-in-one machine, so that the all-in-one machine can greatly reduce energy consumption, and the service life of the all-in-one machine is prolonged; and secondly, the behavior monitoring all-in-one machine is convenient to install and good in using effect.

Description

Behavior monitoring all-in-one machine

Technical Field

The utility model relates to a not only simple installation, long service life uses a behavior control all-in-one that the energy consumption is low simultaneously moreover belongs to radio frequency identification technical field.

Background

CN 105718829 a, name "a method for determining label behavior direction based on RFID", the implementation steps are as follows: (1) respectively arranging an outdoor antenna and an indoor antenna at the inner side and the outer side of a doorway; the scanning areas of the outdoor antenna and the indoor antenna are respectively in the door and the door, and a scanning vacuum area of a door frame is arranged between the indoor antenna and the outdoor antenna; when the antenna scans the label, the label information and the scanning moment are uploaded to a data server; (2) when the antenna 1 scans the label, label information and scanning time are uploaded to a data server; searching whether the label information of the label scanned by the antenna 2 exists in the data server, if not, entering (3) to execute, if so, judging whether the moment of scanning the label by the antenna 2 is earlier than the current scanning moment, if not, updating the state of the label: when the antenna 1 is an indoor antenna and the antenna 2 is an outdoor antenna, the state of the updated tag is IN, which indicates entering; when the antenna 1 is an outdoor antenna and the antenna 2 is an indoor antenna, the state of the updated tag is OUT, and the updated tag is shown to be OUT; (3) the label continues to move, passes through the scanning vacuum area of the door frame and is scanned by the antenna 2, and the antenna 2 uploads the scanned label information and the scanning time to the data server; judging whether the scanning time of the tag information uploaded by the antenna 1 is earlier than the current scanning time in the data server, if so, updating the state of the tag, specifically: when the antenna 1 is an indoor antenna and the antenna 2 is an outdoor antenna, the state of the updated tag is OUT, and the updated tag is shown to be OUT; when the antenna 1 is an outdoor antenna and the antenna 2 is an indoor antenna, the state of the updated tag is IN, which indicates entry; if not, reporting an error. In the step (1), the outdoor antenna and the indoor antenna are respectively one antenna or a group of antennas. In the above (2) and (3), the tag status in the data server is monitored in real time, and whenever the status of a tag changes, a behavior record of the tag is created, where the status of the behavior record is the updated status of the tag, and the generation time of the behavior record is the time of the status update. The disadvantages are that: firstly, in the RFID-based label behavior direction judgment method, the monitoring mechanism needs to install a first RFID antenna and a second RFID antenna on two sides of the threshold respectively, and the installation is complicated; secondly, in the RFID-based label behavior direction judging method, the RFID reader-writer in the monitoring mechanism needs to work all the time, so that a large amount of energy is wasted, and the service life of the RFID reader-writer is greatly shortened due to the non-stop work of the RFID reader-writer.

SUMMERY OF THE UTILITY MODEL

The design purpose is as follows: in order to avoid the defects in the background technology, the behavior monitoring all-in-one machine is designed, which is not only simple and convenient to install, but also long in service life and low in energy consumption.

The design scheme is as follows: the design purpose is realized.

1. The design that opens the inductive head that has the through-hole and is equipped with human sensor in the through-hole on the outer wall of casing is one of the technical characteristics of the utility model. The purpose of this design is: firstly, when a human body sensor monitors or senses the occurrence of a person, monitoring or sensing information is uploaded to a control unit, the control unit controls an RFID read-write unit to start after receiving the monitoring or sensing information, and at the moment, an RFID first antenna and an RFID second antenna are in working states, so that the resource loss is greatly reduced, and the service life of the all-in-one machine is prolonged; and secondly, the first RFID antenna, the second RFID antenna, the RFID reading and writing unit, the control unit and the human body sensor are all positioned in the shell, so that the all-in-one machine is more convenient to install and use.

2. The design that two produced the electromagnetic wave of equidirectional not when RFID antenna and RFID antenna II were installed in the casing is the utility model discloses a two technical characteristics. The purpose of this design is: when a person with an RFID label enters a monitoring area, the RFID reading and writing unit reads the RFID label information of the person through the RFID second antenna, when the person passes through the monitoring all-in-one machine and enters the monitoring area, the RFID reading and writing unit reads the RFID label information of the person again through the RFID first antenna, and at the moment, the person can be judged to enter the monitoring area; when a person with an RFID label leaves a monitoring area, the RFID reading and writing unit reads the RFID label information of the person through the RFID second antenna firstly in the process that the person passes through the monitoring all-in-one machine and leaves the monitoring area, and at the moment, the person can be judged to be leaving the monitoring area; the arrangement of the first RFID antenna and the second RFID antenna can stably and reliably identify the entering and exiting information of the personnel.

3. The upper end of the casing is provided with a mounting rack, which is the third technical characteristic of the utility model. The purpose of this design is: the installation of mounting bracket is convenient for the all-in-one to be installed at house top surface or threshold top surface.

4. The design of installing at the lower extreme of second mounting panel after the first mounting panel is pegged graft the cooperation through the gib head that corresponds quad slit and J shape couple and corresponding "one" font hole at J shape couple is the utility model discloses a technical feature is four. The purpose of this design is: firstly, the first mounting plate and the second mounting plate are separated, so that the integrated machine is convenient to maintain and repair regularly; secondly, the first mounting plate is arranged at the lower end of the second mounting plate after the J-shaped hook is in splicing fit with the corresponding linear hole through the corresponding square hole and the hook head of the J-shaped hook, so that the safety of installation and use of the integrated machine can be ensured.

5. Be equipped with the mounting hole on the first mounting panel in the mounting bracket, be equipped with the design of installation through-hole on the second mounting panel in the mounting bracket, be the utility model discloses a five technical characteristics. The purpose of this design is: the mounting holes are arranged so that the first mounting plate can be fixedly connected with the upper end face of the shell through screws, and the mounting holes are arranged so that the second mounting plate can be fixedly mounted on the top face of the house or the top face of the doorsill through screws.

The technical scheme is as follows: the utility model provides a behavior monitoring all-in-one machine, includes the casing, install RFID antenna, RFID antenna II, RFID read-write unit, the control unit and human inductor in the casing, it has the through-hole and is equipped with the inductive head of human inductor in the through-hole to open on the outer wall of casing.

Compared with the prior art, the utility model has the advantages that firstly, the action monitoring all-in-one machine is additionally provided with the human body sensor, so that the all-in-one machine can greatly reduce the energy loss, thereby prolonging the service life of the all-in-one machine; and secondly, the behavior monitoring all-in-one machine is convenient to install and good in using effect.

Drawings

Fig. 1 is a schematic perspective view of a behavior monitoring all-in-one machine.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is a schematic perspective view of a behavior monitoring all-in-one machine (without a mounting rack) in a bottom view state.

FIG. 4 is a schematic distribution diagram of the first RFID antenna, the second RFID antenna, the RFID reading and writing unit, the control unit and the human body sensor which are located in the casing.

Detailed Description

Example 1: reference is made to figures 1-4 of the drawings. The utility model provides a behavior monitoring all-in-one machine, includes casing 1, install No. 2 antennas of RFID, No. 3 antennas of RFID, RFID read-write unit 4, the control unit 5 and human sensor 6 in the casing 1, it has through-hole 7 and is equipped with the inductive head of human sensor 6 in the through-hole 7 to open on the outer wall of casing 1. When the human body sensor 6 monitors or senses the occurrence of a person, monitoring or sensing information is uploaded to the control unit 5, the control unit 5 controls the RFID read-write unit 4 to be started after receiving the monitoring or sensing information, and the RFID first antenna 2 and the RFID second antenna 3 are in a working state; when a person wears clothes with RFID labels to pass through the behavior monitoring all-in-one machine from the lower part of the behavior monitoring all-in-one machine, the all-in-one machine can judge the entrance and exit conditions of the person according to different orders of reading the labels by the first RFID antenna 2 and the second RFID antenna 3 (assuming that the first RFID antenna 2 is arranged inwards and the second RFID antenna 3 is arranged outwards, namely the first RFID antenna 2 directionally and inwards emits electromagnetic waves and the second RFID antenna 3 directionally and outwards emits electromagnetic waves, when the person with the RFID labels enters a monitoring area, the RFID reading and writing unit 4 reads the RFID label information of the person through the second RFID antenna 3, when the person passes through the monitoring all-in-one machine and enters the monitoring area, the RFID reading and writing unit 4 reads the RFID label information of the person again through the first RFID antenna 2, at the moment, the person can be judged to enter the monitoring area, treat that this personnel passes through the control all-in-one and leaves the in-process in monitoring area, RFID read-write unit 4 will read this personnel's RFID label information earlier through No. 3 antennas of RFID, can judge this personnel and be for leaving the monitoring area this moment) to the information that control unit 5 carried in through the discernment label can discern the personnel's of cominging in and going out concrete information condition, therefore can supervise the personnel of cominging in and going out effectively, has avoided a lot of unnecessary potential safety hazards.

The first RFID antenna 2 and the second RFID antenna 3 are both directional antennas, and when the first RFID antenna 2 and the second RFID antenna 3 are installed in the machine shell 1, the two antennas generate electromagnetic waves in different directions.

The signal input end of the control unit 5 is connected with the signal output end of the human body sensor 6 through a data line, the signal end of the control unit 4 is connected with the signal end of the RFID read-write unit 4 through a data line, and the signal end of the RFID read-write unit 4 is connected with the signal end of the control unit 5 through a data line.

The human body sensor 6 is an infrared sensor.

The upper end of the machine shell 1 is provided with a mounting rack 8. The upper end face of a first mounting plate 81 in the mounting frame 8 is provided with a plurality of J-shaped hooks 82, a second mounting plate 83 in the mounting frame 8 is in a shape like a Chinese character 'ji', the lower end face of the second mounting plate 83 is provided with a plurality of groups of hole groups 84, each group of hole groups 84 comprises a square hole 85, a 'one' shaped hole 86, the square hole 85 and the 'one' shaped hole 86 respectively penetrate through the upper end face and the lower end face of the second mounting plate 83, the 'one' shaped hole 86 in the same group of hole groups 84 is positioned right in front of the square hole 85, the length of the square hole 85 is greater than the length and the width of a transverse section in the J-shaped hooks 82, the width of the transverse section is matched with the width of the transverse section, and the length of the transverse section is greater than the distance between the square hole 85; the first mounting plate 81 is mounted at the lower end of the second mounting plate 83 after the J-shaped hook 82 is in splicing fit with the corresponding straight hole 86 through the hook head corresponding to the square hole 85 and the J-shaped hook 82. The mounting structure is characterized in that the first mounting plate 81 in the mounting frame 8 is provided with mounting holes 87, the mounting holes 87 are arranged so that the first mounting plate 81 can be fixedly connected with the upper end face of the machine shell 1 through screws, the second mounting plate 83 in the mounting frame 8 is provided with mounting through holes 88, the second mounting plate 83 is arranged so that the second mounting plate 83 can be fixedly mounted on the top face of the house or the top face of the doorsill through screws, and the second mounting plate 83 is in a shape like a Chinese character 'ji', so that a gap is formed between the plate body part of the second mounting plate 83 where the hole group 84 is located and the top face of the house or the top face of the doorsill when the second mounting plate 83 is fixedly. The rear end of the casing 1 is also provided with an external interface, the data line is connected with the display screen after the external interface is communicated, and the display screen displays the access information in real time.

The behavior monitoring all-in-one machine has the functions of managing the information of people coming in and going out, preventing burglary, checking and the like, and is specifically applied as follows:

1. managing the information of the person entering and exiting: when the human body sensor 6 monitors that a person appears, the RFID reading and writing unit 4 is triggered to work, when the person wears clothes attached with RFID labels to pass through the lower portion of the behavior monitoring all-in-one machine, the all-in-one machine can judge the access conditions of the person according to different sequences of the first antenna and the second antenna reading labels, and the specific information conditions of the access person can be identified through identifying information carried in the labels, so that the access person can be effectively supervised, and a lot of unnecessary potential safety hazards are avoided.

2. The anti-theft function: in a shopping mall or a supermarket, when a thief leaves a store with unpaid goods, the integrated machine can identify the unpaid label and send out an alarm sound.

3. And (4) checking functions: in the storage center, because the goods volume is very big, it will consume a large amount of time to check with the manual work, and long-term inevitable human error can cause company's heavy loss, and the all-in-one can check through the label of discerning on every commodity, has saved manpower and materials greatly.

It is to be understood that: although above-mentioned embodiment is right the utility model discloses a design has done more detailed word description, but these word descriptions, are only right the utility model relates to a simple word description of idea, rather than right the utility model relates to a restriction of idea, any do not surpass the utility model relates to a combination, increase or the modification of idea all fall into the utility model discloses a within the protection scope.

Claims (7)

1. An action monitoring all-in-one machine comprises a machine shell (1), and is characterized in that: install No. one antenna of RFID (2), No. two antenna of RFID (3), RFID read write unit (4), control unit (5) and human inductor (6) in casing (1), it has through-hole (7) and is equipped with the inductive head of human inductor (6) in through-hole (7) to open on the outer wall of casing (1).

2. A behavioural monitoring all-in-one machine as claimed in claim 1, wherein: the first RFID antenna (2) and the second RFID antenna (3) are directional antennas, and when the first RFID antenna (2) and the second RFID antenna (3) are installed in the shell (1), the two antennas generate electromagnetic waves in different directions.

3. A behavioural monitoring all-in-one machine as claimed in claim 1, wherein: the signal input end of the control unit (5) is connected with the signal output end of the human body sensor (6) through a data line, the signal end of the control unit (5) is connected with the signal end of the RFID read-write unit (4) through a data line, and the signal end of the RFID read-write unit (4) is connected with the signal end of the control unit (5) through a data line.

4. A behavioural monitoring all-in-one machine as claimed in claim 1, wherein: the human body sensor (6) is an infrared sensor.

5. A behavioural monitoring all-in-one machine as claimed in claim 1, wherein: the upper end of the machine shell (1) is provided with a mounting rack (8).

6. An integrated behavioral monitoring machine according to claim 5, characterised in that: the upper end face of a first mounting plate (81) in the mounting rack (8) is provided with a plurality of J-shaped hooks (82), a second mounting plate (83) in the mounting rack (8) is in a shape like a Chinese character 'ji', the lower end face of the second mounting plate (83) is provided with a plurality of groups of hole groups (84), each group of hole groups (84) comprises a square hole (85) and a 'one' shaped hole (86), and the square hole (85) and the 'one' shaped hole (86) respectively penetrate through the upper end face and the lower end face of the second mounting plate (83); the first mounting plate (81) is arranged at the lower end of the second mounting plate (83) after the J-shaped hook (82) is spliced and matched with the corresponding straight-line-shaped hole (86) through the hook head corresponding to the square hole (85) and the J-shaped hook (82).

7. A behavioural monitoring machine as claimed in claim 5 or 6, wherein: be equipped with mounting hole (87) on first mounting panel (81) in mounting bracket (8), be equipped with installation through-hole (88) on second mounting panel (83) in mounting bracket (8).

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