CN212990145U - Electronic tag production equipment - Google Patents

Abstract

The utility model discloses an electronic tags production facility for produce the electronic tags including RF module and RFID module, electronic tags production facility includes main part, electronic tags receipts material roller and base stock receipts material roller, and above-mentioned electronic tags receipts material roller and above-mentioned base stock receipts material roller all are fixed in above-mentioned main part, including first material area, first material area and RF module discharge roller roll cooperation. The utility model discloses an electronic tags production facility, it makes the RF module can also continue the forward motion and fall into the position department of predetermineeing of RFID module after breaking away from the material area through RF module play flitch.

Description

Electronic tag production equipment

Technical Field

The utility model belongs to the technical field of electronic tags produces, concretely relates to electronic tags production facility.

Background

RF tags and RFID tags are two common electronic tags, RF has a function of being sensed to prompt a related system to send a warning sound, and RFID is convenient for writing information and reading information.

However, the existing electronic tag production equipment is lack of an effective discharging device and a detection device, so that the RF module and the RFID module are always attached askew, and the quality and the efficiency of products are greatly influenced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides electronic tags production facility, it makes the RF module can also continue the forward motion and fall into the preset position department of RFID module after breaking away from the material area through RF module play flitch, thereby whether there is the functioning speed that the RF module changes the RF module and whether there is the functioning speed that the RFID module changes RFID on can detecting the material area through inductive transducer, thereby make the accurate subsides of RF module fall into the preset position department of RFID module, it has efficiently, high and the high advantage of accuracy of security.

In order to achieve the above object, the utility model provides an electronic tags production facility for produce the electronic tags including RF module and RFID module, electronic tags production facility includes main part, electronic tags receiving roll (be used for collecting compound completion) and base stock receiving roll (be used for retrieving following first material area after above-mentioned RF module is peeled off), and above-mentioned electronic tags receiving roll and above-mentioned base stock receiving roll all are fixed in above-mentioned main part, include:

the first material belt is matched with the RF module discharging roller in a rolling mode (the first material belt is wound on the RF module discharging roller and moves along with the rotation of the RF module discharging roller), the RF module is arranged on the first material belt, the first material belt is driven by a first driving mechanism comprising a plurality of first material belt driving rollers, and the first driving mechanism is fixed on the main body;

the second material belt is matched with the RFID module discharging roller in a rolling mode (the second material belt is wound on the RFID module discharging roller and moves along with the rotation of the RFID module discharging roller), the RFID module is arranged on the second material belt, the second material belt is driven by a second driving mechanism comprising a plurality of second material belt driving rollers, and the second driving mechanism is fixed on the main body;

the RF module discharging plate is obliquely arranged, and the first material belt carrying the RF module is tightly attached to the upper surface of the RF module discharging plate when running to the RF module discharging plate, so that the RF module is separated from the first material belt when being transmitted to the edge of the RF module discharging plate (the first material belt moves in a direction opposite to the direction of the RF module discharging plate and is folded from the upper surface to the lower surface, and the automatic separation of the RF module and the first material belt is realized;

a first induction sensor, which is located on the upper surface of the RF module discharging plate (the first induction sensor is preferably a magnetic induction sensor, and is used for detecting and outputting the detected magnetic induction level in real time, and it is characterized by whether an RF module is detected (immediately before moving to the edge of the RF module discharging plate) through the magnetic induction level, so as to correspondingly adjust the driving speed of the first driving mechanism, for example, when there is no RF module at a certain position of the first tape (normally, there is an RF module at this position), if the first tape is still running normally, there is only an RFID module and no RF module in the finished product, and because the first induction sensor is provided, because the first induction sensor does not detect an RF module, the main controller controls and adjusts the driving speed of the first driving mechanism, so that the next RF module is accurately disposed at the preset position of the RFID module, i.e., at the dashed line position in fig. 5 of the drawings attached to the specification);

the detector is positioned in front of the discharge plate of the RF module (the running direction of the second material belt is the front);

and the display device is electrically connected with the detector through the master controller and is used for displaying the performance parameters, the accumulated normal work piece number, the accumulated abnormal work piece number and the like of the RF module in the label after the compounding is finished.

As a further preferable technical solution of the above technical solution, when the RF module runs to the edge of the RF module discharging plate, the RF module is separated from the first tape and falls into a preset position of the RFID module of the second tape, which is arranged opposite to the first tape (to form an electronic tag).

As a further preferable technical solution of the above technical solution, the second tape carrying the RF module and the RFID module is tightly fitted to at least one pressure roller, the pressure roller is located between the electronic tag receiving roller and the RF module discharging plate, and the electronic tag is pressed by the at least one pressure roller during a transmission from formation to final collection by the electronic tag receiving roller, so that the RF module and the RFID module are more firmly disposed on the second tape.

As a further preferred technical solution of the above technical solution, the electronic tag production apparatus further includes a second induction sensor, preferably a magnetic induction sensor, where the second induction sensor detects whether the second material tape has an RFID module and transmits information and a master controller before the RF module is peeled off from the RF module discharge plate, so as to control the operation speed of the second driving mechanism through the master controller, and prevent the RF module from being attached to a tag without the RFID module after being peeled off.

As a further preferable technical solution of the above technical solution, the electronic tag production apparatus further includes an ink jet device, the ink jet device is fixed to the main body, the ink jet device is electrically connected to the detector, and when the detector detects a different RF module, the ink jet device is driven to jet ink to the different RF module.

Drawings

Fig. 1 is a schematic structural view (whole) of the electronic tag production apparatus of the present invention.

Fig. 2 is a schematic structural view (part) of the electronic tag production apparatus of the present invention.

Fig. 3 is a schematic structural diagram of the RF module discharging plate of the electronic tag production apparatus of the present invention.

Fig. 4 is a partially enlarged view of the area a of fig. 1.

Fig. 5 is a schematic structural diagram of the electric tag of the present invention.

The reference numerals include: 100. a main body; 110. an electronic tag receiving roller; 111. a base paper receiving roller; 120. a first material belt; 121. a first drive mechanism; 122. an RF module discharge roller; 130. a second material belt; 131. a second drive mechanism; 132. an RFID module discharging roller; 133. a second inductive sensor; 140. an RF module discharge plate; 141. a first strip-shaped groove part; 150. a pressure roller; 160. a display device; 170. an induction box; 210. an RF module; 220. and an RFID module.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

The utility model discloses an electronic tags production facility combines preferred embodiment below, further describes utility model's concrete embodiment.

Referring to fig. 1 of the drawings, fig. 1 is a schematic structural diagram (whole) of the electronic tag production equipment of the present invention, fig. 2 is a schematic structural diagram (part) of the electronic tag production equipment of the present invention, fig. 3 is a schematic structural diagram of the RF module discharge plate of the electronic tag production equipment of the present invention, fig. 4 is a partially enlarged view of the a region of fig. 1, and fig. 5 is a schematic structural diagram of the electrical tag of the present invention.

In the embodiments of the present invention, those skilled in the art will note that the main body, the master controller, the RFID module, and the like according to the present invention can be regarded as the prior art.

PREFERRED EMBODIMENTS

The utility model discloses an electronic tags production facility for produce including RF module 210 (every RF module 210 has been provided with the electronic tags who is many rings of spiral helicine planar circuit through ways such as printing in advance) and RFID module 220, electronic tags production facility includes main part 100, electronic tags receiving roll 110 (be used for collecting electronic tags) and base stock receiving roll 111 (be used for retrieving following first material area 120 after above-mentioned RF module 210 is peeled off), and above-mentioned electronic tags receiving roll 110 and above-mentioned base stock receiving roll 111 all are fixed in above-mentioned main part 100, include:

a first tape 120, the first tape 120 being in rolling engagement with the RF module discharge roller 122 (the first tape 120 is wound around the RF module discharge roller 122, and the first tape 120 moves along with the rotation of the RF module discharge roller 122), the RF module 210 being disposed on the first tape 120, the first tape 120 being driven by a first driving mechanism 121 including a plurality of first tape driving rollers, the first driving mechanism 121 being fixed to the main body 100;

the second tape 130, the second tape 130 is matched with the RFID module discharging roller 132 in a rolling manner (the second tape 130 is wound around the RFID module discharging roller 132, and the second tape 130 moves along with the rotation of the RFID module discharging roller 132), the RFID module 220 is disposed on the second tape 130, the second tape 130 is driven by a second driving mechanism 131 including a plurality of second tape driving rollers, and the second driving mechanism 131 is fixed to the main body 100;

the RF module discharging plate 140 is obliquely arranged, the edge of the RF module discharging plate 140 has a sharp structure so as to peel off the RF module 210, preferably a knife edge capable of forming a V-shaped conveying path, the first tape 120 carrying the RF module 210 is tightly attached to the upper surface of the RF module discharging plate 140 when running to the RF module discharging plate 140, so that when the RF module 210 is conveyed to the edge of the RF module discharging plate 140, the RF module 210 is peeled off and separated from the first tape 120, and the first tape 120 is folded to move in the opposite direction of the RF module discharging plate 140, that is, the first tape 120 is folded from the upper surface to the lower surface of the RF module discharging plate 140;

a first induction sensor, which is located on the upper surface of the RF module discharging plate 140, the upper surface of the RF module discharging plate 140 is provided with a first strip-shaped groove portion 141, the first strip-shaped groove portion 141 is provided with a first induction sensor (not shown), the first induction sensor, preferably a magnetic induction sensor, is used for detecting and outputting the magnetic induction level of the RF module of the first strip-shaped groove portion 141 in real time, and whether the RF module 210 is detected immediately before moving to the edge of the RF module discharging plate 140 is characterized by the magnetic induction level, so as to correspondingly adjust the driving speed of the first driving mechanism 121, for example, when there is no RF module 210 at a certain position of the first strip 120 (normally, there is an RF module 210 at this position), if the first strip 120 is still normally discharged, there is only an RFID module 220 and no RF module 210 in the finished product, since the first sensor is provided, the first sensor does not detect the RF module 210, and the main controller adjusts the driving speed of the first driving mechanism 121, so that the next RF module 210 is accurately disposed at the preset position of the RFID module 220 (as shown in fig. 5);

a detector (not shown) located in front of the RF module discharging plate 140, wherein an induction box 170 is arranged in front of the RF module discharging plate 140 (the running direction of the second tape 130 is the front), and the detector is arranged in the induction box 170 and detects the performance of the RF module in the electronic tag after the compounding is completed;

the display device 160 is electrically connected to the detector through a master controller (not shown) to transmit and display the detected performance parameters of the RF module 210 on the display device 160, and meanwhile, the master controller can determine whether the detected performance parameters of the RF module 210 fall within a preset normal performance parameter range, and if the detected performance parameters fall within the preset normal performance parameter range, the RF module is a normal piece 1; if the number of the abnormal pieces does not fall into the main controller, the abnormal pieces are counted as 1 piece, the main controller counts the number of the abnormal pieces and transmits and displays the number data of the normal pieces on a display.

Specifically, when the RF module 210 runs to the edge of the RF module discharging plate 140, the RF module 210 is separated from the first tape 120 and falls into a predetermined position of the RFID module 220 of the second tape 130, which is opposite to the first tape 120, that is, a dashed line position in fig. 5 of the specification, so as to form an electronic tag compounded with the RF and RFID modules 220.

More specifically, the second tape 130 carrying the RF module 210 and the RFID module 220 is press-fitted to at least one pressing roller 150, the pressing roller 150 is located between the electronic tag receiving roller 110 and the RF module discharging plate 140, and the electronic tag is pressed by the at least one pressing roller 150 from the formation to the transmission of the electronic tag finally collected by the electronic tag receiving roller 110, so that the RF module 210 and the RFID module 220 are simultaneously and more firmly placed on the second tape 130.

Further, the electronic tag production apparatus further includes a second induction sensor 133, preferably a magnetic induction sensor, for detecting a magnetic induction level of the RFID module, detecting whether there is the RFID module 220 on the second material tape 130 before the RF module 210 is discharged, and transmitting information and a master controller to adjust the operation speed of the second driving mechanism 131 under the control of the master controller, so as to avoid the situation that the RF module 210 is attached to a blank RFID tag after being peeled off.

Furthermore, the electronic tag manufacturing apparatus further includes an inkjet device (not shown) fixed to the main body 110, the inkjet device being electrically connected to the detector, and when the detector detects that the RF module 210 is different, that is, the performance parameter is not within the preset normal performance parameter range, the inkjet device is driven to eject ink to the RF module 210, which may be an ink dot or other form, so as to perform the function of identifying the RF.

After the electronic tag receiving roller collects the electronic tags after the compounding is completed, the electronic tags can be subsequently cut by tag cutting equipment in the prior art to obtain single tags, and meanwhile, the abnormal tags sprayed with ink dots are eliminated, so that the normal tags can be put into practical use.

The utility model discloses in be provided with RF module 210's first material area 120 for the lapping label that the subsides of purchase have RF, wherein first material area is the base stock, be provided with the RFID label of the lapping that RFID module 220 purchased, wherein second material area 130 bears the base material of RFID promptly, all load into production facility through corresponding discharge roller.

It should be mentioned that the technical features such as the main body, the master controller, the RF module 210 and the RFID module 220 related to the present invention should be regarded as the prior art, and the specific structure, the operation principle of these technical features and the control mode and the spatial arrangement mode that may be related to adopt the conventional selection in the field, which should not be regarded as the invention point of the present invention, and the present invention does not further specifically expand the detailed description.

It will be apparent to those skilled in the art that modifications and variations can be made in the above-described embodiments, or some features of the invention may be substituted or omitted, and any modification, substitution, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides an electronic tags production facility for produce the electronic tags including RF module and RFID module, electronic tags production facility includes main part, electronic tags receiving roll and base stock receiving roll, and above-mentioned electronic tags receiving roll and above-mentioned base stock receiving roll all are fixed in above-mentioned main part, its characterized in that includes:

the first material belt is matched with the RF module discharging roller in a rolling mode, the RF module is arranged on the first material belt, the first material belt is driven by a first driving mechanism comprising a plurality of first material belt driving rollers, and the first driving mechanism is fixed on the main body;

the second material belt is matched with the RFID module discharging roller in a rolling mode, the RFID module is arranged on the second material belt, the second material belt is driven by a second driving mechanism comprising a plurality of second material belt driving rollers, and the second driving mechanism is fixed on the main body;

the RF module discharging plate is obliquely arranged, and the first material belt carrying the RF module is tightly attached to the upper surface of the RF module discharging plate when running to the RF module discharging plate, so that the RF module is separated from the first material belt when being transmitted to the edge of the RF module discharging plate;

a first inductive sensor located on an upper surface of the RF module discharge plate;

a detector positioned in front of the RF module exit plate;

and the display device is electrically connected with the detector through the main controller.

2. The apparatus of claim 1, wherein when the RF module is moved to the edge of the RF module discharge plate, the RF module is separated from the first strip of material and falls into a predetermined position of the RFID module of the second strip of material disposed opposite the first strip of material.

3. The apparatus of claim 2, wherein the second web carrying the RF module and the RFID module is in tight fit with at least one pinch roller, the pinch roller being positioned between the electronic tag take-up roller and the RF module take-out plate.

4. An electronic label producing apparatus as claimed in claim 1, further comprising a second inductive sensor.

5. The apparatus according to claim 3, further comprising an inkjet device fixed to the main body, wherein the inkjet device is electrically connected to the detector.

6. The apparatus of claim 1, wherein an induction box is disposed in front of the discharge plate of the RF module, and the detector is disposed in the induction box.

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