CN220221476U - Radio frequency resonant cavity assembly clamping groove type labeling device - Google Patents

Abstract

The utility model discloses a clamping groove type labeling device for a radio frequency resonant cavity assembly in the technical field of radio frequency labels, and particularly relates to a clamping groove type labeling device for a radio frequency resonant cavity assembly: in the vertical guide rail assembly, the vertical slider is sleeved on the vertical guide rail and slides up and down along the vertical guide rail, a gear is arranged at the opening of the lower end of the clamping groove body of the radio frequency resonant cavity assembly, an upward concave arc position is arranged between the gears, the radio frequency resonant cavity assembly is leaked out of the concave arc position, the clamping groove running mechanism comprises an electromagnet and an armature, the electromagnet is fixed on the vertical guide rail, the armature is fixed on the vertical slider, a protruding guide roller is fixed on a side wall plate of a production line, a protruding part corresponding to the concave arc position is arranged at the end of the protruding guide roller, tag paper bypasses the protruding part, and a glue layer of the tag paper faces the concave arc position. The utility model can accurately pull out the radio frequency resonant cavity assembly at the lowest side and paste the radio frequency resonant cavity assembly at the position corresponding to the label paper, so as to realize the coupling with the radio frequency antenna, thereby manufacturing the coupled radio frequency label, and the accuracy of the whole device is higher.

Description

Radio frequency resonant cavity assembly clamping groove type labeling device

Technical Field

The utility model relates to the technical field of radio frequency tags, in particular to a clamping groove type labeling device for a radio frequency resonant cavity assembly.

Background

The radio frequency resonant cavity and radio frequency antenna coupling type radio frequency tag is developed, the radio frequency chip can be recycled for multiple times, the application cost of the radio frequency tag is greatly reduced, and the application space of the radio frequency technology and the Internet of things is enlarged.

The size of the radio frequency resonant cavity assembly is less than 18 x 16mm, the thickness is less than 0.3mm, the small card with a single structure can not be pushed out from the clamping groove by the traditional card pushing and discharging device, and the small-size, thin and soft radio frequency resonant cavity assembly can not be accurately placed at the appointed position on the label paper.

The conventional tag labeling device serves for labeling a tag with release paper, and cannot label a single radio frequency resonant cavity assembly.

The defects are worth improving.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a clamping groove type labeling device for a radio frequency resonant cavity assembly.

The technical scheme of the utility model is as follows:

the clamping groove type labeling device for the radio frequency resonant cavity assembly is characterized by comprising a horizontal linear guide rail assembly, a vertical guide rail assembly, a clamping groove body of the radio frequency resonant cavity assembly, a clamping groove running mechanism and a protruding guide roller.

The horizontal linear guide rail assembly is arranged on the side wall plate of the production line and drives the radio frequency resonant cavity assembly to move in the horizontal direction. The horizontal linear guide rail assembly comprises a horizontal linear guide rail and a horizontal sliding block, wherein the horizontal linear guide rail is connected with the side wall plate of the production line, and the horizontal sliding block is sleeved on the horizontal linear guide rail and transversely slides along the horizontal linear guide rail. The horizontal sliding block is provided with a screw, and the horizontal sliding block is fastened with the horizontal linear guide rail through the screw.

The vertical guide rail assembly comprises a vertical guide rail and a vertical sliding block, the vertical guide rail is arranged on the horizontal linear guide rail assembly, and the vertical sliding block is sleeved on the vertical guide rail and slides up and down along the vertical guide rail to drive the radio frequency resonant cavity assembly to move in the vertical direction.

The radio frequency resonant cavity assembly clamping groove body is used for accommodating the radio frequency resonant cavity assembly, a gear is arranged at the opening of the lower end of the radio frequency resonant cavity assembly clamping groove body, and an upward concave arc position is arranged between the gears, so that the radio frequency resonant cavity assembly leaks out from the concave arc position. The clamping groove body of the radio frequency resonant cavity assembly comprises clamping groove left and right side plates positioned at the left side and the right side, clamping groove front and back side plates positioned at the front side and the back side, and the clamping groove left and right side plates and the clamping groove front and back side plates enclose to form a space for accommodating the radio frequency resonant cavity assembly.

The concave arc positions are positioned on the left side plate and the right side plate of the clamping groove, and two ends of the concave arc positions are connected with the gear positions on two sides. The clamping groove body mounting plates are arranged on the front side and the rear side of the clamping groove, and the clamping groove body of the radio frequency resonant cavity assembly is fixed on the vertical sliding block through the clamping groove body mounting plates. The clamping groove is bent inwards towards the bottom ends of the front side plate and the rear side plate to form the gear, and the width of the gear is 1-1.5 mm.

The clamping groove operation mechanism comprises an electromagnet and an armature, wherein the electromagnet is fixed on the vertical guide rail, and the armature is fixed on the vertical sliding block. The bottom end of the armature is connected with the vertical sliding block, and the upper end of the armature passes through the electromagnet and is connected with the spring.

The protruding deflector roll is fixed in on the production line side wall board, and its tip be equipped with the protruding position that the concave arc position corresponds, label paper is walked around protruding position, just the glue layer of label paper is towards concave arc position.

The same horizontal linear guide rail is sleeved with a plurality of horizontal sliding blocks, so that the horizontal sliding blocks are distributed on the horizontal linear guide rail side by side.

According to the scheme, the electromagnetic iron and the electromagnetic armature are matched, and when the electromagnetic iron is electrified, the armature and the clamping groove body of the radio frequency resonant cavity assembly are pushed to move downwards, so that the radio frequency resonant cavity assembly at the lowest side in the clamping groove body of the radio frequency resonant cavity assembly is adhered to a glue layer on the surface of label paper, and when power is off, the electromagnetic iron is close to the electromagnetic armature, and the lower end of the clamping groove body of the radio frequency resonant cavity assembly is separated from the label paper; and through the mutual cooperation of concave arc position and protruding guide rail, can be accurate pull out the radio frequency resonant cavity assembly of downside to make it paste in the position that the label paper corresponds, realize with the coupling of radio frequency antenna, and then make and obtain coupled radio frequency tag.

In the utility model, the upper and lower radio frequency resonant cavity assemblies can be accurately separated, the phenomenon of lamination adhesion is avoided, and the accuracy of the whole device is higher.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a view of the horizontal linear guide of the present utility model;

FIG. 3a is a schematic diagram of a card slot in a transfer flow of a RF resonator assembly according to the present utility model;

FIG. 3b is a schematic diagram of a downward state of a card slot in a transfer flow of the RF resonator assembly according to the present utility model;

FIG. 3c is a schematic diagram showing the rising state of the clamping slot in the transfer process of the RF resonator assembly according to the present utility model;

FIG. 3d is a schematic diagram showing the card slot rising to the in-situ state in the transfer process of the RF resonator assembly according to the present utility model.

In the drawings, the respective reference numerals are:

1. a radio frequency resonant cavity assembly; 2. label paper; 2-1, a glue layer; 3. a production line side wall board;

11. a horizontal linear guide rail; 12. a horizontal slider;

21. a vertical guide rail; 22. a vertical slider;

31. the clamping groove is arranged on the left side plate and the right side plate; 31-1, concave arc position; 32. the front and rear side plates of the clamping groove; 32-1, gear; 33. the clamping groove body mounting plate;

40. an electromagnet; 41. an armature;

50. and (5) a convex guide roller.

Detailed Description

The utility model is further described below with reference to the drawings and embodiments:

as shown in fig. 1 to 3d, in order to push out the rf resonant cavity assembly 1 with small size, thin and soft and to adhere the rf resonant cavity assembly with the tag paper 2, the present utility model provides a slot type labeling device for rf resonant cavity assembly, which can pull out the rf resonant cavity assembly 1 from the slot type labeling device for rf resonant cavity assembly and accurately place the rf resonant cavity assembly at a designated position on the tag paper 2, so as to realize coupling with an rf antenna, thereby manufacturing a coupled rf tag.

The radio frequency resonant cavity assembly clamping groove type labeling device comprises a horizontal linear guide rail assembly, a vertical guide rail assembly, a radio frequency resonant cavity assembly clamping groove body, a clamping groove running mechanism and a protruding guide roller 50.

1. Horizontal linear guide rail assembly

The horizontal linear guide rail assembly is transversely arranged on the side wall plate 3 of the production line and drives the radio frequency resonant cavity assembly 1 to move in the horizontal direction.

The horizontal linear guide rail assembly comprises a horizontal linear guide rail 11 and a horizontal sliding block 12, wherein the horizontal linear guide rail 11 is connected with the side wall plate 3 of the production line, and the horizontal sliding block 12 is sleeved on the horizontal linear guide rail and transversely slides along the horizontal linear guide rail. The horizontal sliding block 12 is provided with a screw, the horizontal sliding block 12 is fastened with the horizontal linear guide rail 11 through the screw, and after the horizontal sliding block 12 moves along the horizontal linear guide rail and the position is adjusted, the screw is locked, so that the horizontal sliding block 12 is fixed at the corresponding position of the horizontal linear guide rail.

2. Straight guide rail assembly

The straight guide rail assembly is arranged on the horizontal linear guide rail assembly.

Specifically, the vertical guide rail assembly includes a vertical guide rail 21 and a vertical slider 22, the vertical guide rail 21 is disposed on a horizontal linear guide rail assembly (specifically, the horizontal slider 12), and the vertical slider 22 is sleeved on the vertical guide rail 21 and slides up and down along the vertical guide rail 21, so as to drive the rf resonant cavity assembly 1 to move in a vertical direction, so that the rf resonant cavity assembly 1 is mounted at a designated position.

3. Clamping groove body of radio frequency resonant cavity assembly

The radio frequency resonant cavity assembly clamping groove body is used for accommodating the radio frequency resonant cavity assembly 1, and comprises clamping groove left and right side plates 31 positioned on the left side and the right side, clamping groove front and rear side plates 32 positioned on the front side and the rear side, and the clamping groove left and right side plates 31 and the clamping groove front and rear side plates 32 enclose to form a space for accommodating the radio frequency resonant cavity assembly 1.

The lower end opening of the clamping groove body of the radio frequency resonant cavity assembly is provided with a gear 32-1, and an upward concave arc position 31-1 is arranged between the gears 32-1, so that the radio frequency resonant cavity assembly 1 leaks out from the concave arc position 31-1. Specifically, the concave arc position 31-1 is located on the left and right side plates 31 of the clamping groove, and two ends of the concave arc position 31-1 are connected with the gear 32-1 on two sides.

The bottom ends of the clamping groove front and rear side plates 32 are inwards bent to form a gear 32-1, the width of the gear 32-1 is 1-1.5 mm, and the gear 32-1 is used for blocking the radio frequency resonant cavity assembly 1 in the radio frequency resonant cavity assembly clamping groove body and cannot naturally fall off the radio frequency resonant cavity assembly clamping groove body.

The clamping groove body mounting plate 33 is arranged on the clamping groove front-rear side plate 32 at the rear side, and the clamping groove body of the radio frequency resonant cavity assembly is fixed on the vertical sliding block 22 through the clamping groove body mounting plate 33, so that the clamping groove body of the radio frequency resonant cavity assembly can slide up and down along the vertical guide rail 21 along with the vertical sliding block 22.

4. Clamping groove running mechanism

The clamping groove operating mechanism is used for realizing the pushing-out operation of the radio frequency resonant cavity assembly 1 and comprises an electromagnet 40 and an armature 41, wherein the electromagnet 40 is fixed on the vertical guide rail 21, and the armature 41 is fixed on the vertical sliding block 22. The bottom end of the armature 41 is connected to the vertical slider 22, and the upper end thereof passes through the electromagnet 40 and is connected to a spring. The spring is sleeved on the periphery of the armature 41, the upper end of the spring is connected with the armature 41, and the lower end of the spring is connected with the electromagnet 40.

In the operation process of the clamping groove operation mechanism: when the electromagnet 40 is electrified, the armature 41 moves downwards to push the vertical sliding block 22 and the clamping groove body of the radio frequency resonant cavity assembly to move downwards, and at the moment, the spring is compressed; when the electromagnet 40 is powered off, the spring thrust of the electromagnet 40 resets the vertical slider 22 and the clamping groove body of the radio frequency resonant cavity assembly.

5. Raised guide roller

The protruding guide roller 50 is fixed on the side wall plate 3 of the production line, and the end part of the protruding guide roller is provided with a protruding part corresponding to the concave arc position 31-1, so that the protruding guide roller 50 is in a state with a high middle and low two sides. The label paper 2 bypasses the raised portion and the glue layer 2-1 of the label paper 2 faces the concave arc portion 31-1.

The utility model realizes the card discharging and transferring process of the radio frequency resonant cavity assembly 1, which comprises the following steps:

(1) By adjusting the left and right positions of the horizontal sliding blocks 12, the center line of the clamping groove body of the radio frequency resonant cavity assembly is aligned with the position of the tag paper 2 where the radio frequency resonant cavity assembly 1 is arranged, the front and rear positions of the convex guide rails are adjusted, and the positions of concave arcs of the clamping groove left and right side plates 31 of the clamping groove body of the radio frequency resonant cavity assembly are aligned.

(2) The electromagnet 40 is electrified to enable the armature 41 to descend, and the vertical sliding block 22 and the clamping groove body of the radio frequency resonant cavity assembly are driven to descend.

The radio frequency resonant cavity assembly clamping groove body descends, the concave arcs of the clamping groove left and right side plates 31 are close to the convex guide rails, so that the radio frequency resonant cavity assembly 1 in the radio frequency resonant cavity assembly clamping groove body deforms, and is bent downwards like the label paper 2, namely, the middle part is high and the two sides are low, and the radio frequency resonant cavity assembly clamping groove body and the glue layer 2-1 on the label paper 2 are bonded together.

(3) The relay is powered off to enable the armature 41 to ascend, and the vertical sliding block 22 and the clamping groove body of the radio frequency resonant cavity assembly are driven to ascend.

The radio frequency resonant cavity assembly 1 in the radio frequency resonant cavity assembly clamping groove body is adhered to the label paper 2 and cannot ascend along with the radio frequency resonant cavity assembly clamping groove body, so that the front end and the rear end are bent upwards, the size of the outer edges of the front end and the rear end of the radio frequency resonant cavity assembly 1 in the horizontal direction is reduced, and the size is smaller than the distance between the gears 32-1; along with the rising of the clamping groove body of the radio frequency resonant cavity assembly, the radio frequency resonant cavity assembly 1 leaves the clamping groove body of the radio frequency resonant cavity assembly.

By adjusting the position of the electromagnet 40 and the height of the armature 41, the static position and the descending position of the clamping groove body of the radio frequency resonant cavity assembly are adjusted, so that the radio frequency resonant cavity assembly 1 is ensured to be clamped out of the clamping groove body of the radio frequency resonant cavity assembly and to be transferred to the label paper 2 to run normally.

As shown in fig. 2, in a specific implementation process, a plurality of horizontal sliding blocks 12 are sleeved on the same horizontal linear guide rail 11, so that the plurality of horizontal sliding blocks 12 are distributed on the horizontal linear guide rail 11 side by side, the plurality of horizontal sliding blocks 12 and the vertical guide rail assembly, the radio frequency resonant cavity assembly clamping groove body, the clamping groove running mechanism and the protruding guide roller 50 connected with the horizontal sliding blocks are arranged side by side, side by side of a plurality of processing positions is realized, and manufacturing efficiency is increased.

According to the clamping groove type labeling device, small radio frequency resonant cavity assembly cards are arranged in a stacking mode in the clamping groove, the small radio frequency resonant cavity assembly cards are arranged above label paper, adhesive is pre-coated at the positions, corresponding to the mounting positions of the radio frequency resonant cavities, of the label paper, when the pre-coated adhesive positions run below the clamping groove, the clamping groove undershoots by 2-3 mm, the lowest small resonant cavity assembly card in the clamping groove is adhered to the pre-coated adhesive of the label paper, and under the resultant force of the advancing of the label paper and the lifting of the clamping groove, the small radio frequency resonant cavity cards are pulled out of the clamping groove and move forwards along with the label paper, so that labeling is completed.

The utility model can meet the requirements that the single-coil radio frequency resonant cavity assembly and the small-size double-coil radio frequency resonant cavity assembly are transferred to the label paper by the clamping groove, and the coupling radio frequency label with the recyclable chip is manufactured. In addition, the utility model can realize the parallel operation of multiple rows, and is convenient for producing the coupled radio frequency tags of multiple rows in a large-scale and high-efficiency manner.

Claims (10)

1. The utility model provides a mark device is pasted to radio frequency resonant cavity assembly draw-in groove which characterized in that includes:

the vertical guide rail assembly comprises a vertical guide rail and a vertical sliding block, wherein the vertical sliding block is sleeved on the vertical guide rail and slides up and down along the vertical guide rail, and is used for driving the radio frequency resonant cavity assembly to move in the vertical direction;

the clamping groove body of the radio frequency resonant cavity assembly is used for accommodating the radio frequency resonant cavity assembly, a gear is arranged at the opening of the lower end of the clamping groove body, and an upward concave arc position is arranged between the gears, so that the radio frequency resonant cavity assembly leaks out from the concave arc position;

the clamping groove operation mechanism comprises an electromagnet and an armature, wherein the electromagnet is fixed on the vertical guide rail, and the armature is fixed on the vertical sliding block;

and the protruding guide roller is fixed on the side wall plate of the production line, the end part of the protruding guide roller is provided with a protruding part corresponding to the concave arc position, the label paper bypasses the protruding part, and the glue layer of the label paper faces to the concave arc position.

2. The radio frequency resonator assembly clamping groove type labeling device according to claim 1, further comprising a horizontal linear guide rail assembly which is installed on a side wall plate of a production line and drives the radio frequency resonator assembly to move in the horizontal direction.

3. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 2, wherein the horizontal linear guide rail assembly comprises a horizontal linear guide rail and a horizontal sliding block, the horizontal linear guide rail is connected with the production line side wall plate, the horizontal sliding block is sleeved on the horizontal linear guide rail and transversely slides along the horizontal linear guide rail, and the vertical guide rail is arranged on the horizontal sliding block.

4. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 3, wherein a screw is arranged on the horizontal sliding block, and the horizontal sliding block is fastened with the horizontal linear guide rail through the screw.

5. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 3, wherein a plurality of horizontal sliding blocks are sleeved on the same horizontal linear guide rail, so that the plurality of horizontal sliding blocks are distributed on the horizontal linear guide rail side by side.

6. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 1, wherein the radio frequency resonant cavity assembly clamping groove body comprises clamping groove left and right side plates positioned at the left side and the right side, clamping groove front and rear side plates positioned at the front side and the rear side, and the clamping groove left and right side plates and the clamping groove front and rear side plates enclose a space for accommodating the radio frequency resonant cavity assembly.

7. The device of claim 6, wherein the bottom ends of the front and rear side plates of the slot are bent inward to form the gear.

8. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 6 or 7, wherein the width of the gear is 1-1.5 mm.

9. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 6, wherein the concave arc positions are positioned on left and right side plates of the clamping groove, and two ends of the concave arc positions are connected with the gear positions on two sides.

10. The radio frequency resonant cavity assembly clamping groove type labeling device according to claim 6, wherein clamping groove body mounting plates are arranged on front and rear side plates of the clamping groove on the rear side, and the radio frequency resonant cavity assembly clamping groove body is fixed on the vertical sliding block through the clamping groove body mounting plates.