CN220392854U - Electronic tag collecting device - Google Patents

Abstract

The application discloses an electronic tag collection device relates to electronic tag production technical field. The electronic tag collecting device is configured at a discharge hole of the electronic tag production device and comprises a frame body and a storage box arranged on the frame body, wherein a rectangular storage groove is formed in the storage box, the rectangular storage groove is provided with a first inner side wall and a second inner side wall which are adjacent, a first push plate assembly is arranged on the first inner side wall, a second push plate assembly is arranged on the second inner side wall, the first push plate assembly performs reciprocating linear motion along the direction perpendicular to the first inner side wall so as to adjust the distance between the first push plate assembly and the first inner side wall, and the second push plate assembly performs reciprocating linear motion along the direction perpendicular to the second inner side wall so as to adjust the distance between the second push plate assembly and the second inner side wall.

Description

Electronic tag collecting device

Technical Field

The application relates to the technical field of electronic tag production, in particular to an electronic tag collecting device.

Background

The radio frequency identification (Radio Frequency Identification) system is based on the principle that non-contact data communication is carried out between a reader and a tag, so that the aim of identifying a target is fulfilled. The application of the radio frequency identification technology is very wide, and the radio frequency identification technology is typically applied to animal wafers, automobile wafer burglar alarms, access control, parking lot control, production line automation and material management. A complete radio frequency identification system is composed of three parts of reader, electronic tag and application software system, and its working principle is that the reader transmits radio wave energy with a specific frequency for driving circuit to send out internal data, at this time the reader sequentially receives and interprets the data, and sends it to application program for corresponding treatment.

In the prior art, electronic tags production is operated by whole roll-type semi-manufactured goods, in the operation process, each label is written with a code, after the code writing is completed, each label is cut into a single sheet by a cutter, then the electronic tags are transmitted to the storage box, the electronic tags in the existing storage box are scattered and placed, and the electronic tags are also required to be manually arranged and stacked, so that extra production cost is caused.

Disclosure of Invention

An object of the present application is to provide an electronic tag collecting device, which is capable of collecting and sorting electronic tags.

Embodiments of the present application are implemented as follows:

the embodiment of the application provides an electronic tag collection device, is configured in the discharge gate of electronic tag apparatus for producing, including support body and setting receiver on the support body, have the rectangle on the receiver and accomodate the groove, the rectangle is accomodate the groove and is had adjacent first inside wall and second inside wall, be provided with first push pedal subassembly on the first inside wall, be provided with second push pedal subassembly on the second inside wall, first push pedal subassembly is along the perpendicular to the direction of first inside wall is reciprocal rectilinear motion, in order to adjust first push pedal subassembly with the interval of first inside wall, second push pedal subassembly is along the perpendicular to the direction of second inside wall is reciprocal rectilinear motion, in order to adjust second push pedal subassembly with the interval of second inside wall.

Optionally, as an implementation manner, the first push plate assembly includes a first linear driving member disposed on the first inner sidewall and a first push plate vertically connected to the driving end of the first linear driving member, and the driving direction of the first linear driving member is perpendicular to the first inner sidewall.

Optionally, as an implementation manner, the second push plate assembly includes a second linear driving piece disposed on the second inner side wall and a second push plate vertically connected to the driving end of the second linear driving piece, and the driving direction of the second linear driving piece is perpendicular to the second inner side wall.

Optionally, as an implementation manner, the bottom of the rectangular storage groove is provided with a first guide rail and a second guide rail which are perpendicular to each other, the first guide rail is close to the first inner side wall, the second guide rail is close to the second inner side wall, the first push plate is slidably connected with the first guide rail, the second push plate is slidably connected with the second guide rail, the first linear driving piece drives the first push plate to slide on the first guide rail, and the second linear driving piece drives the second push plate to slide on the second guide rail.

Optionally, as an implementation manner, the frame body includes a support frame and a sliding table arranged on the support frame, the storage box is arranged on the sliding table, a third linear driving piece is arranged on the support frame, the driving end of the third linear driving piece is connected with the sliding table, and the third linear driving piece drives the sliding table to reciprocate in a direction perpendicular to the supporting surface.

Optionally, as an implementation manner, the support frame is provided with a third guide rail along a direction perpendicular to the support surface, the sliding table is provided with a guide groove corresponding to the third guide rail, and the third linear driving piece drives the sliding table to slide on the third guide rail.

Alternatively, as an implementation manner, the rectangular receiving groove includes a plurality of rectangular receiving grooves, and the plurality of rectangular receiving grooves are arranged along the movement direction of the first push plate assembly.

Optionally, as an implementation manner, a fourth guide rail is further provided on the sliding table, the storage box is slidably disposed on the fourth guide rail, and an extension direction of the fourth guide rail is consistent with an arrangement direction of the plurality of rectangular storage grooves.

Optionally, as an implementation manner, a fourth linear driving piece is arranged at the end of the fourth guide rail, and the fourth linear driving piece drives the storage box to slide on the fourth guide rail.

Optionally, as an implementation manner, a guide piece is further arranged on the storage box, and the guide piece is connected with the discharge hole and the rectangular storage groove.

The beneficial effects of the embodiment of the application include:

the application provides an electronic tag collection device, be configured in the discharge gate of electronic tag apparatus for producing, including the support body and set up the receiver on the support body, have the rectangle on the receiver and accomodate the groove, the rectangle accomodates the groove and has adjacent first inside wall and second inside wall, be provided with first push pedal subassembly on the first inside wall, be provided with second push pedal subassembly on the second inside wall, first push pedal subassembly is reciprocal rectilinear motion along the direction of perpendicular to first inside wall, with the interval of regulation first push pedal subassembly and first inside wall, reciprocal rectilinear motion is done along the direction of perpendicular to second inside wall to the second push pedal subassembly is with the interval of regulation second inside wall, through the interval of regulation first push pedal subassembly and first inside wall, the interval of second push pedal subassembly and second inside wall, make the receiver can collect and arrange electronic tag.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered limiting the scope, and that other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of an electronic tag collecting device according to an embodiment of the present application;

fig. 2 is a second schematic structural diagram of the electronic tag collecting device according to the embodiment of the present application.

Icon: 100-an electronic tag collection device; 110-a frame body; 111-supporting frames; 112-a sliding table; 1122-fourth rail; 1123-fourth linear drives; 113-a third linear drive; 120-a storage box; 121-rectangular receiving slots; 1211-a first inner sidewall; 1212-a second inner side wall; 122-a first rail; 123-a second rail; 130-a first push plate assembly; 131-a first linear drive; 132-a first push plate; 140-a second push plate assembly; 141-a second linear drive; 142-second push plate.

Detailed Description

For the purposes of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is apparent that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, which are generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present application, as provided in the accompanying drawings, is not intended to limit the scope of the application, as claimed, but is merely representative of selected embodiments of the application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures. Furthermore, the terms "first," "second," "third," and the like are used merely to distinguish between descriptions and should not be construed as indicating or implying relative importance.

In the description of the present application, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Referring to fig. 1 and 2, the present embodiment provides an electronic tag collecting apparatus 100, configured at a discharge port of an electronic tag production apparatus, including a frame 110 and a storage box 120 disposed on the frame 110, wherein the storage box 120 has a rectangular storage groove 121, the rectangular storage groove 121 has a first inner sidewall 1211 and a second inner sidewall 1212 adjacent to each other, the first inner sidewall 1211 is provided with a first push plate assembly 130, the second inner sidewall 1212 is provided with a second push plate assembly 140, the first push plate assembly 130 performs a reciprocating linear motion along a direction perpendicular to the first inner sidewall 1211 to adjust a distance between the first push plate assembly 130 and the first inner sidewall 1211, and the second push plate assembly 140 performs a reciprocating linear motion along a direction perpendicular to the second inner sidewall 1212 to adjust a distance between the second push plate assembly 140 and the second inner sidewall 1212.

Specifically, the first push plate assembly 130 performs a reciprocating linear motion along a direction perpendicular to the first inner sidewall 1211 to adjust a distance between the first push plate assembly 130 and the first inner sidewall 1211, and the second push plate assembly 140 performs a reciprocating linear motion along a direction perpendicular to the second inner sidewall 1212 to adjust a distance between the second push plate assembly 140 and the second inner sidewall 1212. So that the storage box 120 can not only store electronic tags, but also sort electronic tags, when sorting electronic tags in the rectangular storage groove 121, firstly, the electronic tags are placed in the rectangular storage groove 121, the first push plate assembly 130 moves towards the opposite surface of the first inner side wall 1211 along the direction vertical to the first inner side wall 1211, so that the distance between the first push plate assembly 130 and the opposite surface of the first inner side wall 1211 is matched with the electronic tags, the second push plate assembly 140 moves towards the opposite surface of the second inner side wall 1212 along the direction vertical to the second inner side wall 1212, so that the distance between the second push plate assembly 140 and the opposite surface of the second inner side wall 1212 is matched with the electronic tags, and the adjusted rectangular storage groove 121 sequentially stacks and sorts a plurality of electronic tags.

The electronic tag collecting device 100 provided by the application is configured at a discharge hole of an electronic tag production device, and comprises a frame 110 and a storage box 120 arranged on the frame 110, wherein the storage box 120 is provided with a rectangular storage groove 121, the rectangular storage groove 121 is provided with a first inner side wall 1211 and a second inner side wall 1212 which are adjacent, the first inner side wall 1211 is provided with a first push plate assembly 130, the second inner side wall 1212 is provided with a second push plate assembly 140, the first push plate assembly 130 performs reciprocating rectilinear motion along a direction perpendicular to the first inner side wall 1211 so as to adjust the distance between the first push plate assembly 130 and the first inner side wall 1211, the second push plate assembly 140 performs reciprocating rectilinear motion along a direction perpendicular to the second inner side wall 1212 so as to adjust the distance between the second push plate assembly 140 and the second inner side wall 1212, and the distance between the second push plate assembly 140 and the second inner side wall 1212 is adjusted so that the storage box 120 can collect and arrange electronic tags.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the first push plate assembly 130 includes a first linear driving member 131 disposed on a first inner side wall 1211 and a first push plate 132 vertically connected to a driving end of the first linear driving member 131, and a driving direction of the first linear driving member 131 is perpendicular to the first inner side wall 1211.

Specifically, when the first push plate assembly 130 moves, the first linear driving member 131 drives the first push plate 132 to move toward or away from the first inner sidewall 1211, so as to adjust the distance between the first push plate 132 and the first inner sidewall 1211, thereby adjusting the distance between the first push plate 132 and the first inner sidewall 1211, so that the distance between the opposite surfaces of the first push plate 132 and the first inner sidewall 1211 matches the size of the electronic tag to be stored.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the second push plate assembly 140 includes a second linear driving member 141 disposed on the second inner sidewall 1212 and a second push plate 142 vertically connected to the driving end of the second linear driving member 141, and the driving direction of the second linear driving member 141 is perpendicular to the second inner sidewall 1212.

Specifically, when the second push plate assembly 140 moves, the second linear driving member 141 drives the second push plate 142 to move toward or away from the second inner sidewall 1212, so as to adjust the distance between the second push plate 142 and the second inner sidewall 1212, thereby adjusting the distance between the second push plate 142 and the second inner sidewall 1212, so that the distance between the opposite surfaces of the second push plate 142 and the second inner sidewall 1212 matches the size of the electronic tag to be stored.

In one possible embodiment of the present application, as shown in fig. 1 and 2, a first guide rail 122 and a second guide rail 123 perpendicular to each other are disposed at the bottom of the rectangular receiving groove 121, the first guide rail 122 is disposed near a first inner sidewall 1211, the second guide rail 123 is disposed near a second inner sidewall 1212, the first push plate 132 is slidably connected with the first guide rail 122, the second push plate 142 is slidably connected with the second guide rail 123, the first linear driving member 131 drives the first push plate 132 to slide on the first guide rail 122, and the second linear driving member 141 drives the second push plate 142 to slide on the second guide rail 123.

Specifically, when the first push plate assembly 130 and the second push plate assembly 140 are adjusted, the first linear driving member 131 drives the first push plate 132 to slide on the first guide rail 122 so as to adjust the distance between the first push plate 132 and the first inner side wall 1211, thereby adjusting the distance between the first push plate 132 and the first inner side wall 1211, so that the distance between the opposite surfaces of the first push plate 132 and the first inner side wall 1211 is matched with the size of the electronic tag to be stored, and the second linear driving member 141 drives the second push plate 142 to slide on the second guide rail 123 so as to adjust the distance between the second push plate 142 and the second inner side wall 1212, thereby adjusting the distance between the second push plate 142 and the second inner side wall 1212, so that the distance between the second push plate 142 and the opposite surfaces of the second inner side wall 1212 are matched with the size of the electronic tag to be stored, and the first push plate 132 slides on the first guide rail 122, thereby enabling stable movement of the first push plate 132 and the second push plate 142 on the second guide rail 123.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the frame body 110 includes a support frame 111 and a sliding table 112 disposed on the support frame 111, the storage box 120 is disposed on the sliding table 112, a third linear driving member 113 is disposed on the support frame 111, a driving end of the third linear driving member 113 is connected to the sliding table 112, and the third linear driving member 113 drives the sliding table 112 to perform a reciprocating linear motion along a direction perpendicular to the supporting surface.

Specifically, when the sliding table 112 is lifted, the sliding table 112 is driven by the third linear driving member 113 to perform a reciprocating linear motion along a direction perpendicular to the supporting surface, so as to lift the sliding table 112, thereby enabling the storage box 120 disposed on the sliding table 112 to perform a reciprocating linear motion. So that the height of the storage box 120 can be matched with the discharge port of the electronic tag production device, and the electronic tag flowing out of the discharge port of the electronic tag production device can enter the rectangular storage groove 121 of the storage box 120.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the support 111 is provided with a third guide rail along a direction perpendicular to the supporting surface, the sliding table 112 is provided with a guide groove corresponding to the third guide rail, and the third linear driving member 113 drives the sliding table 112 to slide on the third guide rail.

Specifically, the third guide rail arranged on the support 111 is matched with the guide groove arranged on the sliding table 112, so that the sliding table 112 slides on the support 111, the sliding stability of the sliding table 112 relative to the support 111 is ensured, and the third linear driving piece 113 drives the sliding table 112 to slide on the third guide rail, so that the stable sliding of the sliding table 112 is realized.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the rectangular receiving groove 121 includes a plurality of rectangular receiving grooves 121 arranged in a direction of movement of the first push plate assembly 130.

Specifically, the rectangular storage slots 121 are provided in plurality, and after one rectangular storage slot 121 is filled with electronic tags, the adjacent rectangular storage slots 121 are moved to the discharge port of the electronic tag production device, so that the storage box 120 can store more electronic tags.

In one possible embodiment of the present application, as shown in fig. 1 and 2, the sliding table 112 is further provided with a fourth guide rail 1122, and the storage box 120 is slidably disposed on the fourth guide rail 1122, and an extending direction of the fourth guide rail 1122 is consistent with an arrangement direction of the plurality of rectangular storage grooves 121.

Specifically, after one rectangular receiving groove 121 is filled with electronic tags, the receiving box 120 is slid along the direction of the fourth guide rail 1122, and the adjacent rectangular receiving groove 121 is moved to the discharge port of the electronic tag production device, so that the receiving box 120 can receive more electronic tags.

In one possible embodiment of the present application, as shown in fig. 1 and 2, a fourth linear driving member 1123 is disposed at an end of the fourth guide rail 1122, and the fourth linear driving member 1123 drives the storage box 120 to slide on the fourth guide rail 1122.

Specifically, when the storage box 120 is slid, the storage box 120 is driven to slide on the fourth guide rail 1122 by the fourth linear driving member 1123, so that the different rectangular storage slots 121 of the storage box 120 can be moved to the discharge port of the electronic tag production device, so that the storage box 120 can store more electronic tags.

In one possible embodiment of the present application, as shown in fig. 1 and 2, a guide is further provided on the storage box 120, and the guide connects the discharge port and the rectangular storage groove 121.

Specifically, the guide connects the discharge port of the electronic tag production apparatus and the rectangular receiving groove 121 so that the electronic tag from the discharge port of the electronic tag production apparatus can flow into the rectangular receiving groove 121 through the guide.

The electronic tag collecting device 100 provided by the application comprises a frame 110 and a storage box 120 arranged on the frame 110, wherein the storage box 120 is provided with a rectangular storage groove 121, the rectangular storage groove 121 is provided with a first inner side wall 1211 and a second inner side wall 1212 which are adjacent, the first inner side wall 1211 is provided with a first push plate assembly 130, the second inner side wall 1212 is provided with a second push plate assembly 140, the first push plate assembly 130 performs reciprocating rectilinear motion along the direction perpendicular to the first inner side wall 1211 so as to adjust the distance between the first push plate assembly 130 and the first inner side wall 1211, and the second push plate assembly 140 performs reciprocating rectilinear motion along the direction perpendicular to the second inner side wall 1212 so as to adjust the distance between the second push plate assembly 140 and the second inner side wall 1212, and the distance between the second push plate assembly 140 and the second inner side wall 1212 is adjusted so that the storage box 120 can collect and arrange electronic tags. Through setting up the third guide rail on support frame 111 and setting up the guide slot phase-match on slip table 112 to make the slip table 112 slip on support frame 111, with the stability of guaranteeing slip table 112 slip for support frame 111, third linear drive piece 113 drives slip table 112 and slides on the third guide rail, in order to realize the stable slip of slip table 112.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides an electronic tags collection device, is configured in the discharge gate of electronic tags apparatus for producing, its characterized in that is in including support body and setting receiver on the support body, have the rectangle on the receiver and accomodate the groove, the rectangle is accomodate the groove and is had adjacent first inside wall and second inside wall, be provided with first push pedal subassembly on the first inside wall, be provided with the second push pedal subassembly on the second inside wall, first push pedal subassembly is along the perpendicular to the direction of first inside wall is reciprocal rectilinear motion, in order to adjust first push pedal subassembly with the interval of first inside wall, second push pedal subassembly is along the perpendicular to the direction of second inside wall is reciprocal rectilinear motion, in order to adjust second push pedal subassembly with the interval of second inside wall.

2. The electronic label collecting apparatus of claim 1, wherein the first push plate assembly comprises a first linear driving member disposed on the first inner side wall and a first push plate vertically connected to the driving end of the first linear driving member, and the driving direction of the first linear driving member is perpendicular to the first inner side wall.

3. The electronic label collecting apparatus of claim 2, wherein the second push plate assembly comprises a second linear driving member disposed on the second inner sidewall and a second push plate vertically connected to the driving end of the second linear driving member, and the driving direction of the second linear driving member is perpendicular to the second inner sidewall.

4. The electronic tag collecting device according to claim 3, wherein a first guide rail and a second guide rail which are perpendicular to each other are arranged at the bottom of the rectangular accommodating groove, the first guide rail is arranged close to the first inner side wall, the second guide rail is arranged close to the second inner side wall, the first push plate is in sliding connection with the first guide rail, the second push plate is in sliding connection with the second guide rail, the first linear driving piece drives the first push plate to slide on the first guide rail, and the second linear driving piece drives the second push plate to slide on the second guide rail.

5. The electronic tag collecting device according to claim 1, wherein the frame body comprises a supporting frame and a sliding table arranged on the supporting frame, the storage box is arranged on the sliding table, a third linear driving piece is arranged on the supporting frame, the driving end of the third linear driving piece is connected with the sliding table, and the third linear driving piece drives the sliding table to do reciprocating linear motion along the direction perpendicular to the supporting surface.

6. The electronic tag collecting device according to claim 5, wherein the support frame is provided with a third guide rail along a direction perpendicular to the support surface, the sliding table is provided with a guide groove corresponding to the third guide rail, and the third linear driving member drives the sliding table to slide on the third guide rail.

7. The electronic label collection apparatus of claim 5, wherein the rectangular receiving slot comprises a plurality of rectangular receiving slots arranged in a direction of movement of the first pusher assembly.

8. The electronic tag collecting apparatus according to claim 7, wherein a fourth guide rail is further provided on the slide table, the storage box is slidably provided on the fourth guide rail, and an extending direction of the fourth guide rail is identical to an arrangement direction of the plurality of rectangular storage grooves.

9. The electronic tag collecting apparatus according to claim 8, wherein a fourth linear driving member is provided at an end of the fourth rail, and the fourth linear driving member drives the storage box to slide on the fourth rail.

10. The electronic tag collecting apparatus according to claim 1, wherein the housing case is further provided with a guide member, and the guide member connects the discharge port and the rectangular housing groove.