CN221175417U - RFID device applied to needle inspection machine - Google Patents

Abstract

The utility model discloses an RFID device applied to a needle testing machine, which further comprises: the wireless radio frequency device is arranged at the entrance of the conveyor belt of the needle testing machine and/or above the exit, and transmits radio frequency signals along a first direction to activate RFID tags of the to-be-tested products on the conveyor belt, and collects the coding information of the RFID tags. The utility model is provided with a set of wireless radio frequency device on the traditional needle checking machine, and the function of data collection is added on the basis of not increasing the time length of the original needle checking procedure. In the needle checking process of the needle checking production line, the device performs RFID scanning to replace bar code scanning by means of the conveyor belt of the needle checking machine, and the needle checking speed is increased by RFID non-contact scanning. Meanwhile, the real-time statistics of the needle checking commodity and the work load of workers can be accurately and accurately identified.

Description

RFID device applied to needle inspection machine

Technical Field

The utility model relates to the technical field of RFID, in particular to an RFID device applied to a needle inspection machine.

Background

The needle checking device is a ferromagnetic metal sensing instrument, and is a detecting instrument for the next application of metal detector classification and textile industry. The method is mainly used for detecting ferromagnetic metal foreign matters of textiles. The conventional operation flow of the needle checking machine is as follows:

placing the clothes on a needle testing machine, and passing through the machine for needle testing; all clothes are detected by the needle detector, 2-3 inspectors need to go on simultaneously, if any product does not pass through the needle detector, the inspectors need to scan bar code labels on the clothes by using the bar code machine, and upload is recorded.

The above procedure can find that the whole process needs to be scanned manually, so in order to further improve the needle testing speed, the inventor proposes an RFID device applied to a needle testing machine.

Disclosure of utility model

In view of the above, an object of the present utility model is to provide an RFID device for a needle inspecting machine, which is used for a needle inspecting process in a needle inspecting production line, performs RFID scanning to replace bar code scanning by a conveyor belt of the needle inspecting machine, and accelerates a needle inspecting speed by RFID non-contact scanning. At the same time, the real-time statistics of the needle commodity and the work load of workers can be accurately and accurately identified

According to an aspect of the present utility model, there is provided an RFID device applied to a needle testing machine, including a needle testing machine, further including: the wireless radio frequency device is arranged at the entrance of the conveyor belt of the needle checking machine and/or above the exit, and transmits radio frequency signals along a first direction to activate RFID tags of the to-be-detected products on the conveyor belt, and collects the coding information of the RFID tags.

In the above technical scheme, the embodiment is provided with a set of wireless radio frequency device on the traditional needle checking machine, and the function of data collection is added on the basis of not increasing the time length of the original needle checking procedure. The wireless radio frequency device is arranged at the entrance of the conveyor belt of the needle testing machine and/or above the exit, and the purpose of the wireless radio frequency device is to read label information at the entrance or the exit, read labels before and after needle testing, and facilitate setting according to the position of the conveyor belt. The clothes detecting device is also arranged at the inlet and the outlet simultaneously, can read the tag when clothes enter from the inlet and feed the tag back to an inspector in a visual mode, and when a needle is detected, the outlet senses the tag information of the clothes containing needle information by using the reading and writing device, and an audible and visual alarm prompts a worker to rework the clothes containing the needle. Meanwhile, the upper part is convenient to be matched with the conveying direction and speed of the conveying belt, the size of a conveying line of the main-stream needle inspection equipment in the market is matched, a special customized narrow beam antenna is arranged in the main-stream needle inspection equipment, and the radiation direction and the radiation distance can be conveniently adjusted.

In some embodiments, the wireless radio frequency device comprises:

The installation module is used for detachably arranging the device at the inlet of the conveyor belt of the needle testing machine and/or above the outlet;

The RFID read-write device is arranged on the installation module and is used for transmitting radio frequency signals along a first direction to activate RFID tags of the to-be-detected products on the conveyor belt and collecting the coding information of the RFID tags;

And the processing module is connected with the RFID read-write device in a wired way and is used for collecting the coding information of the RFID tag.

In the above technical scheme, the installation module is arranged to be convenient for adapt to the conveyor belt of the needle inspection machine, and is convenient for installing the wireless radio frequency device on the conveyor belt. Meanwhile, different working environments and different conveyor belt devices are considered, so that the wireless radio frequency device is convenient to move to different installation sections and different radio frequency accessories are convenient to install. The independently arranged RFID read-write device is convenient for adjusting the read-write range according to the transmission position of the conveyor belt. The processing module is further arranged to facilitate information reading and timely feedback.

In some embodiments, the mounting module includes a first support portion, a first mounting portion, and a second support portion, where the first support portion, the first mounting portion, and the second support portion are sequentially connected to form an arch-type bracket; the first supporting part and the second supporting part are detachably arranged on two sides of the conveyor belt; the bottom of the first installation part is used for installing an RFID read-write device, so that the RFID read-write device can emit radio frequency signals along a first direction to activate RFID tags of the to-be-tested products on the conveyor belt, and code information of the RFID tags is collected.

In the above technical scheme, in order to facilitate the mobile radio frequency device, the installation module is arranged to be arch-shaped, the first installation part is supported by the first support part and the second support part to form an arch-shaped mode, and the RFID read-write device is installed at the bottom of the first installation part.

In some embodiments, the RFID read-write device is arranged at the center of the first installation part, and the linear distance from the radio frequency installation part to the conveyor belt is 10-50cm.

In the above technical solution, in order to make the read-write accurate and the transmission rate of the conveyor belt, the linear distance from the radio frequency installation part to the conveyor belt is set to be 10-50cm, and further, as a preferable reference range, the linear distance is set to be 10-18cm.

In some embodiments, the processing module comprises an interface unit, is detachably mounted on the mounting module through a bracket, and is connected with the RFID read-write device in a wired manner;

The wall surface of the first supporting part or the third supporting part, which is far away from one side of the conveyor belt, is provided with a slot for arranging an interface unit of the processing module.

In the technical scheme, the processing module is integrated on the installation module, so that the inspector can conveniently read the tag information. And meanwhile, grooves are formed in the wall surface, so that the influence of the sagging of the wiring of the processing module on the conveyor belt on detection is avoided.

In some embodiments, the installation module is further provided with a plurality of buzzers, and the buzzers are electrically connected with the processing module and are used for receiving the trigger signal and sending out buzzes.

In the technical scheme, after receiving the radio frequency information, the processing module can output a trigger signal according to the radio frequency information to start the buzzer to buzzing, and if the defective products of the previous process, the needle products detected by the previous process and the like are convenient for a inspector to take out in time.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram showing the overall structure of an embodiment of an RFID device applied to a needle inspection machine according to the present utility model;

FIG. 2 is a schematic view of a wireless RF device 1 according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a radio frequency device 2 according to an embodiment of the present utility model;

fig. 4 is a schematic view of a wireless radio frequency device structure of an embodiment of an RFID device for a needle inspection machine according to the present utility model.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is specifically noted that the following examples are only for illustrating the present utility model, but do not limit the scope of the present utility model. Likewise, the following examples are only some, but not all, of the examples of the present utility model, and all other examples, which a person of ordinary skill in the art would obtain without making any inventive effort, are within the scope of the present utility model.

The utility model provides an RFID device applied to a needle inspection machine, which is used for the needle inspection process in the needle inspection production line, and the RFID scanning is carried out by means of a conveyor belt of the needle inspection machine to replace bar code scanning, so that the needle inspection speed is increased through RFID non-contact scanning. Meanwhile, the real-time statistics of the needle checking commodity and the work load of workers can be accurately and accurately identified.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an RFID device applied to a needle inspection machine according to an embodiment of the present utility model. An RFID device, 2, for use in a needle testing machine, further comprising:

The wireless radio frequency device 1 is arranged above an inlet A and/or an outlet B of a conveyor belt 21 of the needle inspection machine 2, and transmits radio frequency signals along a first direction G to activate RFID tags (not shown) of articles to be detected on the conveyor belt, and collects coding information of the RFID tags.

In this embodiment, the radio frequency device 1 is disposed at an entrance a of a conveyor belt 21 of the needle inspection machine 2.

In this embodiment, a set of wireless radio frequency device 1 is arranged on a traditional needle checking machine 2, and the function of data collection is added on the basis of not increasing the time length of the original needle checking procedure. The wireless radio frequency device 1 is arranged at the entrance A of the conveying belt of the needle testing machine, and is used for reading tag information at the entrance and reading tags before needle testing, so that a inspector can conveniently know the information of the current to-be-tested product.

In this embodiment, the garment tag can be read and visually fed back to the inspector when the garment enters from the entrance, and the information containing the needle is written into the garment tag at the exit by the read-write device when the needle is detected. Meanwhile, the upper part is convenient to be matched with the conveying direction and speed of the conveying belt, and the radiation direction and the radiation distance are adjusted.

In this embodiment, referring to fig. 2 and 3, the radio frequency device 1 includes:

The installation module 11 is used for detachably arranging the wireless radio frequency device 1 at the inlet A of the conveyor belt 21 of the needle inspection machine 2;

The RFID read-write device 13 is arranged on the installation module 11 and is used for transmitting a radio frequency signal along a first direction G to activate an RFID tag (not shown) of the to-be-detected article on the conveyor belt and collecting the coding information of the RFID tag; it should be noted that the RFID read/write device 13 is relatively simple to install, and can be disposed at a position as required, and this embodiment only depicts one possible installation situation.

And the processing module 12 is connected with the RFID read-write device 13 in a wired way and is used for collecting the coding information of the RFID tag. The processing module 12 includes an industrial control unit (not shown) disposed in the main body and a display unit 121 disposed outside the main body. The industrial control unit (not depicted in the figure) is a processor, which may be a control module formed by a single chip microcomputer, a computer, etc., and the processing information is displayed through the display unit 121, which is not described herein again.

In this embodiment, the installation module 11 is provided for the purpose of facilitating the adaptation to the conveyor belt 21 of the needle inspection machine 2 and the installation of the radio frequency device 1 on the conveyor belt 21. And also allows for different working environments and different conveyor belts 21, so that the radio frequency device 1 is convenient to move to different installation sections and also convenient to install different radio frequency accessories. The RFID read-write device 13 provided independently facilitates adjustment of the read-write range depending on the conveyance position of the conveyor belt 21. The processing module 12 is further configured to facilitate reading and writing information and feedback.

In this embodiment, referring to fig. 3 and 4, the installation module includes a first supporting portion 111, a first installation portion 112, and a second supporting portion 113, where the first supporting portion 111, the first installation portion 112, and the second supporting portion 113 are sequentially connected to form an arch-type bracket; the first support 111 and the second support 113 are detachably installed at both sides of the conveyor belt 21; the first mounting portion 112 is configured to mount the RFID read/write device 13, so that the RFID read/write device 13 can emit a radio frequency signal along a first direction G to activate an RFID tag of an article to be tested on the conveyor belt, and collect encoded information of the RFID tag.

In this embodiment, in order to facilitate the mobile radio frequency device 1, the installation module is configured as an arch type, the first installation portion 112 is formed into an arch type by the first support portion 111 and the second support portion support 113, and the RFID read-write device is installed at the bottom of the first installation portion 112.

In this embodiment, the bottoms of the first support 111 and the second support 113 are provided with a plurality of connection holes for adapting to different types of conveyor belts.

In this embodiment, the RFID read/write device 13 is disposed at the center of the first mounting portion 112, and the linear distance from the RFID read/write device 13 to the conveyor belt 21 is 10-50cm. In order to enable the reading and writing to be accurate and the transmission rate of the conveyor belt, the linear distance from the radio frequency installation part to the conveyor belt is set to be 10-50cm. As a preferred embodiment, 25cm is chosen.

In this embodiment, the processing module 12 includes an interface unit 122, and the processing module 12 is detachably mounted on the mounting module 11 through a bracket 123 and is connected with the RFID read-write device 13 in a wired manner; the wall surface of the third supporting portion 113, which is far from the side of the conveyor belt 21, is provided with a slot 1131, and the slot 1131 is used for providing the interface unit 122 of the processing module 12. Integrating the processing module 12 on the installation module 11 facilitates the inspector to read the tag information. And grooves 1131 are formed in the wall surface, so that the wires of the processing modules 12 are prevented from sagging to the conveyor belt 21 to influence detection.

In this embodiment, the installation module 11 is further provided with a plurality of buzzers 114, and the buzzers 114 are electrically connected with the processing module 12, and are configured to receive the trigger signal and send out a buzzing. After receiving the radio frequency information, the processing module 11 can output a trigger signal according to the radio frequency information to start the buzzer 114 to buzze, such as unqualified products in the previous process, needle products detected in the previous process, and the like, so that the inspector can take out the products in time.

In this embodiment, for convenience of operation, a plurality of control buttons 115 are further provided and electrically connected to the processing module 12 for triggering signals to control the radio frequency device, and it should be noted that the buttons may be a switch function or a scram function, and the embodiment is not limited thereto. Those skilled in the art can make the setting according to the actual requirements.

In this embodiment, in order to facilitate the installation of various modules, the installation module 11 is a hollow cavity, and a bin gate 116 is disposed at the bottom of the first installation portion 112, so as to facilitate the layout of lines, the installation of the RFID read/write device 13, etc., and the specific layout mode may be set according to the actual requirements and layout experience, which is not limited in this embodiment, and can meet the requirements.

The foregoing description is only a partial embodiment of the present utility model, and is not intended to limit the scope of the present utility model, and all equivalent devices or equivalent processes using the descriptions and the drawings of the present utility model or directly or indirectly applied to other related technical fields are included in the scope of the present utility model.

Claims (6)

1. An RFID device for use with a needle verification machine, comprising:

The wireless radio frequency device is arranged at the entrance of the conveyor belt of the needle testing machine and/or above the exit, and transmits radio frequency signals along a first direction to activate RFID tags of the to-be-tested products on the conveyor belt, and collects the coding information of the RFID tags.

2. An RFID device for use in a needle testing machine as defined in claim 1,

The wireless radio frequency device comprises:

The installation module is used for detachably arranging the device at the inlet of the conveyor belt of the needle testing machine and/or above the outlet;

The RFID read-write device is arranged on the installation module and is used for transmitting radio frequency signals along a first direction to activate RFID tags of the to-be-detected products on the conveyor belt and collecting the coding information of the RFID tags;

And the processing module is connected with the RFID read-write device in a wired way and is used for collecting the coding information of the RFID tag.

3. An RFID device for use in a needle testing machine as defined in claim 2,

The mounting module comprises a first supporting part, a first mounting part and a second supporting part, and the first supporting part, the first mounting part and the second supporting part are sequentially connected to form an arch-type bracket; the first supporting part and the second supporting part are detachably arranged on two sides of the conveyor belt; the bottom of the first installation part is used for installing an RFID read-write device, so that the RFID read-write device can emit radio frequency signals along a first direction to activate RFID tags of the to-be-tested products on the conveyor belt, and code information of the RFID tags is collected.

4. An RFID device for use in a needle testing machine as defined in claim 3,

The RFID read-write device is arranged at the center of the first installation part, and the linear distance from the RFID read-write device to the conveyor belt is 10-50cm.

5. An RFID device for use in a needle testing machine as defined in claim 3,

The processing module comprises an interface unit, is detachably arranged on the mounting module through a bracket and is connected with the RFID read-write device in a wired way;

The wall surface of the first supporting part or the third supporting part, which is far away from one side of the conveyor belt, is provided with a slot for arranging an interface unit of the processing module.

6. An RFID device for use in a needle testing machine as defined in claim 3,

The installation module is also provided with a plurality of buzzers, and the buzzers are electrically connected with the processing module and are used for receiving the trigger signal and sending out buzzes.