阅读说明：本技术 一种用于电子元器件加工的贴标装置 (A paste mark device for electronic components processing ) 是由 朱烁航 朱晓明 于 2020-12-30 设计创作，主要内容包括：本发明公开了一种用于电子元器件加工的贴标装置,涉及电子设备加工技术领域。本发明包括运料组件；运料组件上装设有一供料组件和一推料组件；推料组件设置于供料组件的一侧；推料组件的一侧装设有一贴标组件；通过供料组件将物料排至运料组件上,利用运料组件将物料运送至推料组件处,再利用推料组件将物料推动至贴标组件处进行贴标处理。本发明不仅结构设计简单合理、操作便捷,而且有效地提高了对电子元器件的贴标效率,具有较高的市场应用价值。(The invention discloses a labeling device for processing electronic components, and relates to the technical field of electronic equipment processing. The invention comprises a material conveying component; the material conveying component is provided with a material supplying component and a material pushing component; the material pushing assembly is arranged on one side of the material feeding assembly; one side of the material pushing component is provided with a labeling component; the material is discharged onto the material conveying assembly through the material supply assembly, the material is conveyed to the material pushing assembly through the material conveying assembly, and then the material is pushed to the labeling assembly through the material pushing assembly to be labeled. The labeling device has the advantages of simple and reasonable structural design and convenience in operation, effectively improves the labeling efficiency of electronic components, and has higher market application value.)

1. A labeling device for processing electronic components is characterized by comprising a material conveying assembly (1);

the material conveying component (1) is provided with a material supplying component (2) and a material pushing component (3); the pushing assembly (3) is arranged on one side of the feeding assembly (2); one side of the material pushing component (3) is provided with a labeling component (4);

the material is discharged onto the material conveying assembly (1) through the material supply assembly (2), the material conveying assembly (1) is used for conveying the material to the material pushing assembly (3), and then the material pushing assembly (3) is used for pushing the material to the labeling assembly (4) for labeling.

2. The labeling device for processing the electronic components as claimed in claim 1, wherein the material conveying assembly (1) comprises a pair of supporting seats (101) arranged side by side; a pair of symmetrically arranged driving belt wheels (102) is rotatably arranged between the two supporting seats (101); the two driving belt wheels (102) are in transmission connection through a synchronous belt (103); a plurality of positioning seats (104) are arranged on the working surface of the synchronous belt (103) side by side along the length direction; a horizontally arranged material conveying plate (105) is arranged between every two adjacent positioning seats (104).

3. The labeling device for electronic component processing according to claim 2, wherein the positioning seat (104) comprises a positioning frame in an i-shaped structure; and a lapping strip is fixed on the middle part of the positioning frame relative to the two side walls.

4. The labeling device for processing electronic components as claimed in claim 2 or 3, wherein said material conveying plate (105) has a plurality of material conveying grooves arranged side by side, and said material conveying plate (105) has a wave-like structure.

5. The labeling device for electronic component processing according to claim 4, wherein the feeding assembly (2) comprises a pair of side supporting columns (201) vertically fixed on the two supporting seats (101); a material storage box (202) with an upper part and a lower part both of which are open structures is fixedly arranged between the two side supporting columns (201); the storage box (202) corresponds to the material conveying plate (105) in position.

6. The labeling device for processing electronic components as claimed in claim 5, wherein a support plate (203) is horizontally arranged below the storage box (202); the supporting plate (203) is fixed on the inner side of the synchronous belt (103); an electromagnetic vibrator (204) is arranged above the supporting plate (203); the electromagnetic vibrator (204) is connected with the supporting plate (203) through a plurality of vertically arranged tensioning springs (205); the upper surface of the electromagnetic vibrator (204) is attached to the inner side surface of the synchronous belt (103).

7. The labeling device for processing electronic components as claimed in claim 5 or 6, wherein said pusher assembly (3) comprises a mounting plate (301) vertically fixed to one support base (101) and a bearing plate (302) horizontally fixed to the other support base (101); a driving motor (303) is vertically fixed on one side surface of the mounting plate (301); an output shaft of the driving motor (303) is coaxially connected with a screw rod (304); the screw rod (304) is arranged in parallel with the driving belt wheel (102); a screw nut is matched on the screw rod (304); a movable strip (305) is horizontally fixed on the periphery of the nut; a plurality of first power telescopic rods (306) corresponding to the material conveying grooves are vertically fixed on one surface of the movable strip (305) side by side along the length direction; the first power telescopic rod (306) is arranged in parallel with the screw rod (304); a material pushing block (307) is fixed at the output end of the first power telescopic rod (306); the material pushing block (307) is provided with a pushing part (3071) matched with the material conveying groove; the pushing part (3071) can be in sliding fit in the conveying groove; a plurality of separation strips (3021) corresponding to the pushing parts (3071) are fixed on the upper surface of the bearing plate (302) side by side; the separation strip (3021) is arranged at one edge of the bearing plate (302); the separating strip (3021) is arranged in parallel with the screw rod (304); a positioning groove (3022) is formed between every two adjacent separating strips (3021) and is positioned on the upper surface of the bearing plate (302); the positioning groove (3022) is arranged at the other edge of the bearing plate (302), and one end of the positioning groove (3022) is of an open structure.

8. The labeling device for electronic component processing according to claim 7, wherein a parallel guide rod (308) is disposed on each of two opposite sides of the screw rod (304); one end of the guide rod (308) is fixed on the mounting plate (301); the guide rod (308) is inserted on the movable strip (305); the guide rod (308) is in sliding fit with the movable strip (305).

9. The labeling device for electronic component processing according to claim 8, wherein the pushing portion (3071) is embedded with a proximity switch (309) near a surface of the labeling assembly (4); the proximity switch (309) is used for detecting whether materials exist in the conveying groove or the positioning groove (3022).

10. The labeling device for processing electronic components according to claim 8 or 9, wherein the labeling assembly (4) comprises a pair of fixing bases (401) symmetrically fixed at the other edge of the bearing plate (302) and a bearing frame (402) fixed at one side of the fixing bases (401) far away from the mounting plate (301); a strap winding roller (403), a separating roller (404) and a waste strap winding roller (405) are arranged between the two fixed seats (401) in a parallel rotating manner from top to bottom; one side of the separation roller (404) is rotatably provided with a label tape winding roller (406); the label winding roller (406) and the separating roller (404) are respectively positioned at two opposite sides of the bearing frame (402); a second power telescopic rod (407) is vertically fixed at the upper part of the bearing frame (402); a driving strip (408) is horizontally fixed at the output end of the second power telescopic rod (407); a plurality of pressing columns (409) corresponding to the positioning grooves (3022) are vertically fixed on the lower surface of the driving bar (408) side by side along the length direction; the pressing column (409) is used for pressing the label on the separated label tape on the material.

Technical Field

The invention belongs to the technical field of electronic equipment processing, and particularly relates to a labeling device for processing electronic components.

Background

The electronic components are components of electronic elements and small-sized electric machines and instruments, are usually composed of a plurality of parts and can be commonly used in similar products; it often refers to some parts in the industries of electric appliances, radio and instruments, such as a general name of sub-devices such as capacitors, transistors, hairsprings and spiral springs, and commonly refers to diodes, and electronic components include: the electronic device comprises a resistor, a capacitor, a potentiometer, an electronic tube, a radiator, an electromechanical element, a connector, a semiconductor discrete device, an electroacoustic device, a laser device, an electronic display device, a photoelectric device, a sensor, a power supply, a switch, a micro special motor, an electronic transformer, a relay, a printed circuit board, an integrated circuit, various circuits, piezoelectricity, crystals, quartz, a ceramic magnetic material, a substrate for a printed circuit, a special material for an electronic functional process, an electronic adhesive (tape) product, an electronic chemical material, a component and the like. Among the prior art, still adopt artifical the mark to some electronic components's that are cylindric structure and both ends diameter not of uniform size mark modes, the inefficiency of this kind of mode, and waste time and energy, consequently, a mark device that pastes for electronic components processing is waited to study urgently to solve above-mentioned problem.

Disclosure of Invention

The present invention is directed to a labeling device for processing electronic components, which is designed to solve the above problems of the related art.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a labeling device for processing electronic components, which comprises a material conveying assembly; the material conveying assembly is provided with a material supplying assembly and a material pushing assembly; the material pushing assembly is arranged on one side of the material feeding assembly; one side of the material pushing component is provided with a labeling component; the material is discharged onto the material conveying assembly through the material supply assembly, the material conveying assembly is used for conveying the material to the material pushing assembly, and then the material pushing assembly is used for pushing the material to the labeling assembly to perform labeling treatment.

Further, the material conveying assembly comprises a pair of supporting seats arranged side by side; a pair of symmetrically arranged driving belt wheels is rotatably arranged between the two supporting seats; the two driving belt wheels are in transmission connection through a synchronous belt; a plurality of positioning seats are arranged on the working surface of the synchronous belt side by side along the length direction; and a horizontally arranged material conveying plate is placed between every two adjacent positioning seats.

Furthermore, the positioning seat comprises a positioning frame in an I-shaped structure; and a lapping strip is fixed on the middle part of the positioning frame relative to the two side walls.

Further, the material conveying plate is provided with a plurality of material conveying grooves which are arranged side by side, and the material conveying plate is of a wavy structure.

Furthermore, the feeding assembly comprises a pair of side supporting columns which are vertically fixed on the two supporting seats respectively; a material storage box with an upper part and a lower part both in an open structure is fixedly arranged between the two side supporting columns; the storage box corresponds to the material conveying plate in position.

Furthermore, a supporting plate is horizontally arranged below the material storage box; the supporting plate is fixed on the inner side of the synchronous belt; an electromagnetic vibrator is arranged above the supporting plate; the electromagnetic vibrator is connected with the supporting plate through a plurality of vertically arranged tensioning springs; the upper surface of the electromagnetic vibrator is attached to the inner side surface of the synchronous belt.

Furthermore, the material pushing assembly comprises an installation plate vertically fixed on one support seat and a bearing plate horizontally fixed on the other support seat; a driving motor is vertically fixed on one side surface of the mounting plate; the output shaft of the driving motor is coaxially connected with a screw rod; the screw rod is arranged in parallel with the driving belt wheel; a screw nut is matched on the screw rod; a movable strip is horizontally fixed on the periphery of the nut; a plurality of first power telescopic rods corresponding to the material conveying grooves are vertically fixed on one surface of the movable strip side by side along the length direction; the first power telescopic rod is arranged in parallel with the screw rod; a material pushing block is fixed at the output end of the first power telescopic rod; the material pushing block is provided with a pushing part matched with the material conveying groove; the pushing part can be in sliding fit in the material conveying groove; a plurality of separating strips corresponding to the pushing parts are fixed on the upper surface of the bearing plate side by side; the separation strip is arranged at one edge of the bearing plate; the separation strips are arranged in parallel with the screw rod; a positioning groove is formed between every two adjacent separating strips and is positioned on the upper surface of the bearing plate; the positioning groove is arranged at the other edge of the bearing plate, and one end of the positioning groove is of an open structure.

Furthermore, two opposite sides of the screw rod are provided with a parallel guide rod; one end of the guide rod is fixed on the mounting plate; the guide rod is inserted on the movable strip; the guide rod is in sliding fit with the movable strip.

Furthermore, a proximity switch is fixedly embedded in one surface of the pushing part close to the labeling assembly; the proximity switch is used for detecting whether materials exist in the material conveying groove or the positioning groove.

Furthermore, the labeling assembly comprises a pair of fixed seats symmetrically fixed at the other edge of the bearing plate and a bearing frame fixed at one side of the fixed seats away from the mounting plate; a strap winding roller, a separating roller and a waste strap winding roller are arranged between the two fixing seats in a parallel rotating way from top to bottom; one side of the separation roller is rotatably provided with a label tape winding roller; the label tape winding roller and the separation roller are respectively positioned at two opposite sides of the bearing frame; a second power telescopic rod is vertically fixed at the upper part of the bearing frame; a driving strip is horizontally fixed at the output end of the second power telescopic rod; a plurality of pressing columns corresponding to the positioning grooves are vertically fixed on the lower surface of the driving strip side by side along the length direction; the pressing column is used for pressing the label on the separated label tape on the material.

The invention has the following beneficial effects:

according to the invention, the material is discharged onto the material conveying assembly through the material supply assembly, the material is conveyed to the material pushing assembly by using the material conveying assembly, and then the material is pushed to the labeling assembly by using the material pushing assembly to perform labeling treatment, so that the structure design is simple and reasonable, the operation is convenient and fast, the labeling efficiency of the electronic component is effectively improved, and the market application value is higher.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a labeling device for processing electronic components according to the present invention;

FIG. 2 is a schematic structural view of the material handling assembly of the present invention;

FIG. 3 is a schematic view of the feed assembly of the present invention;

FIG. 4 is a schematic view of the pusher assembly of the present invention;

FIG. 5 is a front view of the structure of FIG. 4;

fig. 6 is a schematic view of the labeling assembly of the present invention;

fig. 7 is a front view of the structure of fig. 6.

In the drawings, the components represented by the respective reference numerals are listed below:

1-material conveying component, 101-supporting seat, 102-driving pulley, 103-synchronous belt, 104-positioning seat, 105-material conveying plate, 2-material supplying component, 201-side supporting column, 202-material storage box, 203-supporting plate, 204-electromagnetic vibrator, 205-tensioning spring, 3-material pushing component, 301-mounting plate, 302-bearing plate, 3021-separating strip, 3022-positioning groove, 303-driving motor, 304-screw rod, 305-movable strip, 306-first power telescopic rod, 307-material pushing block, 3071-pushing part, 308-guide rod, 309-approach switch, 4-labeling component, 401-fixing seat, 402-bearing frame, 403-label winding roller, 404-separating roller, 405-waste tape winding roller, 406-label tape winding roller, 407-second power telescopic rod, 408-driving strip and 409-pressing column.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-7, the present invention is a labeling device for processing electronic components, which includes a material transporting assembly 1; the material conveying component 1 is provided with a material supplying component 2 and a material pushing component 3; the pushing assembly 3 is arranged on one side of the feeding assembly 2; one side of the pushing component 3 is provided with a labeling component 4; the material is discharged to the material conveying assembly 1 through the material supply assembly 2, the material is conveyed to the material pushing assembly 3 through the material conveying assembly 1, and then the material is pushed to the labeling assembly 4 through the material pushing assembly 3 to be labeled, so that accurate labeling of the material is achieved.

Wherein, the material transporting assembly 1 comprises a pair of supporting seats 101 which are arranged side by side; a pair of symmetrically arranged driving belt wheels 102 is rotatably arranged between the two supporting seats 101; a driving belt wheel 102 is driven by a gap power component consisting of a first driving motor and a sheave mechanism; the two driving belt wheels 102 are in transmission connection through a synchronous belt 103; a plurality of positioning seats 104 are arranged on the working surface of the synchronous belt 103 side by side along the length direction; a horizontally arranged material conveying plate 105 is arranged between every two adjacent positioning seats 104; the positioning seat 104 comprises a positioning frame in an I-shaped structure; a lapping strip is fixed on the middle part of the positioning frame relative to the two side walls; the material conveying plate 105 is provided with a plurality of material conveying grooves which are arranged side by side, and the material conveying plate 105 is of a wavy structure; the material conveying groove is of a V-shaped structure.

Wherein, the feeding assembly 2 comprises a pair of side supporting columns 201 which are respectively vertically fixed on the two supporting seats 101; a material storage box 202 with an upper part and a lower part both in an open structure is fixedly arranged between the two side struts 201; the storage box 202 corresponds to the material conveying plate 105 in position; a supporting plate 203 is horizontally arranged below the material storage box 202; the supporting plate 203 is fixed on the inner side of the synchronous belt 103; an electromagnetic vibrator 204 is arranged above the supporting plate 203; the electromagnetic vibrator 204 is a conventional component in the art; the electromagnetic vibrator 204 is connected with the supporting plate 203 through a plurality of vertically arranged tension springs 205; the upper surface of the electromagnetic vibrator 204 is attached to the inner surface of the timing belt 103.

The pushing assembly 3 comprises a mounting plate 301 vertically fixed on one support seat 101 and a bearing plate 302 horizontally fixed on the other support seat 101; a driving motor 303 is vertically fixed on one side surface of the mounting plate 301; the output shaft of the driving motor 303 is coaxially connected with a screw rod 304; the screw rod 304 is arranged in parallel with the driving belt wheel 102; a nut is matched on the screw rod 304; a movable strip 305 is horizontally fixed on the periphery of the nut; a plurality of first power expansion rods 306 corresponding to the material conveying grooves are vertically fixed on one surface of the movable strip 305 side by side along the length direction; the first power telescopic rod 306 adopts a conventional electric push rod in the field; the first power telescopic rod 306 is arranged in parallel with the screw rod 304; a material pushing block 307 in a Z-shaped structure is fixed at the output end of the first power expansion link 306; the material pushing block 307 is provided with a pushing part 3071 matched with the material conveying groove; the pushing part 3071 is in an isosceles triangle structure; the pushing part 3071 can be in sliding fit in the material conveying groove; a plurality of separation bars 3021 corresponding to the push portions 3071 are fixed side by side on the upper surface of the loading plate 302; the dividing strip 3021 is disposed at an edge of the carrier plate 302; the division bar 3021 is arranged in parallel with the screw 304; a positioning groove 3022 is formed between two adjacent separating strips 3021 and on the upper surface of the bearing plate 302; the positioning groove 3022 is disposed at the other edge of the loading board 302, and one end of the positioning groove 3022 is an open structure; two opposite sides of the screw rod 304 are provided with a parallel guide rod 308; one end of the guide rod 308 is fixed on the mounting plate 301; the guide rod 308 is inserted on the movable bar 305; the guide rod 308 is in sliding fit with the movable bar 305; a proximity switch 309 is fixedly embedded in one surface of the pushing part 3071 close to the labeling component 4; the proximity switch 309 is a conventional element in the art; the proximity switch 309 is used to detect whether material is in the chute or level tank 3022.

Wherein, the labeling assembly 4 comprises a pair of fixing bases 401 symmetrically fixed at the other edge of the bearing plate 302 and a bearing frame 402 fixed at one side of the fixing bases 401 far away from the mounting plate 301; a strap winding roller 403, a separating roller 404 and a waste strap winding roller 405 are arranged between the two fixing seats 401 from top to bottom in parallel in a rotating way; one side of the separation roller 404 is rotatably provided with a label tape winding roller 406; the label winding roller 406 and the separating roller 404 are respectively positioned at two opposite sides of the bearing frame 402; a second power telescopic rod 407 is vertically fixed at the upper part of the loading frame 402; the second power telescopic rod 407 is a conventional electric push rod in the field; a driving bar 408 is horizontally fixed at the output end of the second power telescopic rod 407; a plurality of pressing columns 409 corresponding to the positioning grooves 3022 are vertically fixed on the lower surface of the driving bar 408 in parallel along the length direction; the pressing column 409 is used for pressing the label on the separated label band on the material.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.