CN113524896A - Printing device for capacitor machining - Google Patents

Abstract

The invention discloses a printing device for capacitor processing, which comprises a workbench, wherein supporting legs are arranged at the bottom of the workbench, a middle shaft column is fixedly connected to the middle of the top side of the workbench, a material transferring disc for taking materials for a capacitor is rotatably sleeved on the outer side of a shaft body of the middle shaft column, a first tooth socket is formed in the vertical side of the material transferring disc, a first motor is fixedly installed on one side of the workbench through a bolt, a driving gear is fixedly connected to an output shaft of the first motor, one side of the driving gear is meshed with the material transferring disc, a plurality of annular material taking holes which are arranged at equal intervals are formed in the disc body of the material transferring disc, and a plurality of grooves which are arranged at equal intervals are formed in the top of the cylinder body of the material taking cylinder. The printing effect on the capacitor is good, the efficiency is high, the applicability is strong, the printing cost of the capacitor is reduced, the structure is simple, the design is ingenious, the use is convenient and fast, the occupied area is small, and the use requirements of people in production and life are met.

Description

Printing device for capacitor machining

Technical Field

The invention relates to the technical field of capacitor processing equipment, in particular to a printing device for processing a capacitor.

Background

Two conductors which are close to each other, with a non-conductive insulating medium in between, constitute a capacitor. When a voltage is applied across the two plates of the capacitor, the capacitor stores charge. The capacitance of the capacitor is numerically equal to the ratio of the amount of charge on one conductive plate to the voltage between the two plates. The basic unit of capacitance of a capacitor is farad (F). The capacitor element is generally denoted by letter C in the circuit diagram.

The size model standard of current electric capacity is more, leads to the size kind of electric capacity also more, and this makes the printing cost of condenser rise extremely, and the change process of printing plate is slower and inconvenient, and simultaneously, the feeding of condenser is also very inconvenient, and above-mentioned process all causes the reduction of condenser printing efficiency, and the printing cost is higher, can not satisfy the user demand of people in the production life.

Disclosure of Invention

The invention aims to solve the problems of labor consumption and low efficiency in the prior art, and provides a printing device for capacitor processing.

In order to achieve the purpose, the invention adopts the following technical scheme:

a printing device for capacitor processing comprises a workbench, wherein supporting legs are arranged at the bottom of the workbench, a middle shaft column is fixedly connected to the middle of the top side of the workbench, a material transferring disc for taking materials for a capacitor is rotatably sleeved outside a shaft body of the middle shaft column, a first tooth socket is arranged on one vertical side of the material transferring disc, a first motor is fixedly mounted on one side of the workbench through a bolt, a driving gear is fixedly connected to an output shaft of the first motor, one side of the driving gear is meshed with the material transferring disc, a plurality of material taking holes which are arranged in an annular equidistant mode are formed in a disc body of the material transferring disc, material taking cylinders are arranged in the material taking holes, a plurality of grooves which are arranged in an equidistant mode are formed in the top of each cylinder body of each material taking cylinder, sealing rings are fixedly connected to the inner walls of openings at the tops of the grooves, and through holes are formed in the inner side portions, close to the material taking cylinders, the middle part of the through hole is fixedly connected with a ring baffle, a linkage sliding rod slides in the ring baffle, two ends of the linkage sliding rod are respectively and fixedly connected with an inclined plane stress block and a positioning pressing plate for fixing the capacitor, the inclined plane stress block extends into a groove, a vertical sliding plate is connected in the groove in a vertical sliding manner, the top part of the vertical sliding plate passes through the sealing ring, an inclined plane push block for pushing the inclined plane stress block to move horizontally is fixedly connected to one vertical side of the vertical sliding plate, a plurality of side holes are formed in one vertical side of the material transferring disc, the side holes are respectively communicated with the material taking holes, a cylinder is fixedly connected in the side holes, a transmission toothed ring for controlling the rotation of the material taking barrel is sleeved outside the cylinder, a tooth socket II is formed in the outer wall of the material taking barrel and is kept meshed with the transmission toothed ring, and a blanking mechanism with adjustable size is arranged on one side of the top part of the workbench, the hot air blower is characterized in that a blanking hole is formed in the other side table body of the workbench, a collecting box is arranged vertically below the blanking hole, an arc-shaped toothed plate for controlling the rotation of the transmission toothed ring, a push-down inner arc-shaped folded plate for controlling the vertical sliding plate to move downwards and a push-down outer arc-shaped folded plate are fixedly connected to the top side of the workbench, and the hot air blower is further installed at the top of the workbench.

Preferably, the blanking mechanism comprises a stand column fixedly installed on one side of the top of the workbench, a sliding sleeve is slidably sleeved on the outer side of the stand column, a positioning screw is arranged between the sliding sleeve and the stand column, one side of the sliding sleeve is fixedly connected with a horizontally arranged surrounding ring, a plurality of limiting folding plates in a vertical state are arranged in the surrounding ring in a radiating mode, a threaded transverse cylinder penetrates through a ring body of the surrounding ring and is fixedly connected with a threaded transverse rod, a circular plate and a knob are fixedly connected to the two ends of the threaded transverse rod respectively, a vertical plate and a track sliding rod are fixedly connected to one side of each limiting folding plate, a circular cover is arranged on one side of each vertical plate, the circular plate is rotatably installed in the circular cover respectively, a sliding hole is formed in the ring body of the surrounding ring, and the track sliding rod slides and passes through the sliding hole.

Preferably, a side groove is formed in the inner wall of one side of the side hole, a stable wedge is connected to the side groove in a sliding mode, one end of the stable wedge is of a wedge-shaped structure and is in contact with the vertical outer wall of the transmission toothed ring, and a second spring is arranged between the other end of the stable wedge and the inner wall of the side groove.

Preferably, the top of the material taking hole is provided with an annular frame groove, the outer wall of the top end of the material taking barrel is fixedly connected with an edge ring, and a ring body of the edge ring extends into the annular frame groove.

Preferably, one side of the top of the inclined plane stress block and one side of the bottom of the inclined plane push block are both in inclined plane-shaped structures and are in sliding contact connection with each other.

Preferably, the middle shaft column is of a circular truncated cone structure with a T-shaped cross section.

Preferably, the material transferring disc is of an upper and lower split structure and is fixedly spliced and fixed through bolts.

Preferably, one side of the positioning pressing plate, which is far away from the linkage sliding rod, is provided with a rubber pad.

Compared with the prior art, the invention provides a printing device for capacitor processing, which has the following beneficial effects:

1. through mutual cooperation among all components, the steps of rapid blanking, fixing, printing, drying, discharging and the like of the capacitor are realized, and the printing process of the capacitor is realized;

2. the disc type material transmission mode has high printing efficiency and small occupied area of equipment, and the fixation, revolution and rotation of the capacitor are completed by the same motor, so that the structure is simple and the design is ingenious;

3. according to the invention, through the adjustable blanking structure, and the cooperation of the replaceable material taking cylinder and the printing cylinder, the device can print the capacitors with different sizes, so that the applicability of the device is greatly enhanced, the use cost is reduced, and meanwhile, the replacement process is very quick and convenient, the use of people is facilitated, and the processing efficiency of capacitor printing is further improved;

4. according to the invention, the capacitor is fixed in the printing process through the arrangement of the positioning pressing plate, so that the printing effect on the capacitor is further ensured.

The printing effect on the capacitor is good, the efficiency is high, the applicability is strong, the printing cost of the capacitor is reduced, the structure is simple, the design is ingenious, the use is convenient and fast, the occupied area is small, and the use requirements of people in production and life are met.

Drawings

FIG. 1 is a schematic cross-sectional front view of a printing apparatus for capacitor processing according to the present invention;

FIG. 2 is a schematic top view of a printing apparatus for capacitor processing according to the present invention;

FIG. 3 is an enlarged schematic structural view of a portion A of a printing device for capacitor processing according to the present invention;

FIG. 4 is a schematic side view of a printing device for capacitor processing according to the present invention;

fig. 5 is a schematic side view of the push-down inner arc-shaped folded plate of the printing device for processing a capacitor according to the present invention.

In the figure: the automatic material taking device comprises a workbench 1, a support leg 2, a middle shaft column 3, a material rotating disc 4, a first motor 5, a driving gear 6, a material taking barrel 7, an edge ring 8, a ring baffle 9, a linkage slide rod 10, a positioning press plate 11, an inclined plane stress block 12, a first spring 13, a seal ring 14, a vertical slide plate 15, an inclined plane push block 16, a cylinder 17, a transmission gear ring 18, a downward pushing inner arc-shaped folded plate 19, a downward pushing outer arc-shaped folded plate 20, an arc-shaped toothed plate 21, a stable wedge 22, a second spring 23, a vertical column 24, a sliding sleeve 25, a positioning screw 26, a surrounding ring 27, a limiting folded plate 28, a threaded transverse barrel 29, a threaded transverse rod 30, a circular plate 31, a knob 32, a vertical plate 33, a circular cover 34, a track slide rod 35, a rotating seat 36, a rotating piece 37, a second motor 38, a polygonal vertical shaft 39, a polygonal sleeve 40, a printing barrel 41, a supporting umbrella shaft 42, a collecting box 43 and a hot air blower 44.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example one

Referring to fig. 1-5, a printing device for capacitor processing comprises a workbench 1, wherein a support leg 2 is arranged at the bottom of the workbench 1, a middle shaft column 3 is fixedly connected to the middle of the top side of the workbench 1, a material transferring disc 4 for taking materials for a capacitor is rotatably sleeved on the outer side of a shaft body of the middle shaft column 3, a tooth socket one is arranged on the vertical side of the material transferring disc 4, a motor one 5 is fixedly installed on one side of the workbench 1 through a bolt, a driving gear 6 is fixedly connected to an output shaft of the motor one 5, one side of the driving gear 6 is meshed with the material transferring disc 4, a plurality of annular material taking holes arranged at equal intervals are arranged on the disc body of the material transferring disc 4, material taking cylinders 7 are arranged in the material taking holes, a plurality of grooves arranged at equal intervals are arranged at the top of a cylinder body of the material taking cylinders 7, a sealing ring 14 is fixedly connected to the inner wall of the opening at the top of each groove, and a through hole is arranged on the inner side close to the material taking cylinder 7, a ring baffle 9 is fixedly connected in the middle of the through hole, a linkage slide rod 10 slides in the ring baffle 9, two ends of the linkage slide rod 10 are respectively and fixedly connected with an inclined plane stress block 12 and a positioning pressing plate 11 for fixing a capacitor, the inclined plane stress block 12 extends into a groove, a vertical slide plate 15 is vertically and slidably connected in the groove, the top of the vertical slide plate 15 passes through a sealing ring 14, an inclined plane push block 16 for pushing the inclined plane stress block 12 to move horizontally is fixedly connected to one vertical side of the vertical slide plate 15, a plurality of side holes are formed in one vertical side of the material transferring disc 4, the side holes are respectively communicated with a material taking hole, a cylinder 17 is vertically and fixedly connected in each side hole, a transmission toothed ring 18 for controlling the rotation of the material taking cylinder 7 is rotatably sleeved on the outer side of the cylinder 17, a tooth socket II is formed in the outer wall of the material taking cylinder 7 and is meshed with the transmission toothed ring 18, a blanking mechanism with adjustable size is arranged on one side of the top of the workbench 1, the blanking hole has been seted up to the opposite side stage body of workstation 1, and the vertical below in blanking hole is provided with collecting box 43, and the top side fixedly connected with of workstation 1 controls transmission ring gear 18 pivoted arc pinion rack 21, the interior arc folded plate 19 of pushing down and the outer arc folded plate 20 of pushing down of controlling vertical slide 15 to move down, and air heater 44 is still installed at the top of workstation 1.

In the embodiment, firstly, the blanking mechanism is adjusted according to the size of the capacitor, the material taking cylinders 7 with corresponding models are selected, the material taking cylinders 7 are respectively placed in the material taking holes, the polygonal sleeves 40 at the inner sides of the corresponding printing cylinders 41 are sleeved on the outer sides of the polygonal vertical shafts 39, then, the first motor 5 and the second motor 38 are started, the first motor 5 drives the material transferring disc 4 to rotate through the driving gear 6 fixedly connected with the output shaft of the first motor, the material transferring disc 4 drives the material taking cylinders 7 to sequentially pass through the bottom of the blanking mechanism, the capacitor sequentially enters the material taking cylinders 7, then, the material taking cylinders 7 provided with the capacitor move to the bottoms of the lower pushing inner arc-shaped folded plates 19 and the lower pushing outer arc-shaped folded plates 20 along with the material transferring disc 4, the lower pushing inner arc-shaped folded plates 19 and the lower pushing outer arc-shaped folded plates 20 simultaneously push the vertical sliding plates 15 at the two sides of the capacitor to move downwards, the vertical sliding plate 15 gradually moves downwards in the groove, the inclined plane pushing block 16 on one side of the vertical sliding plate 15 pushes the corresponding inclined plane stress block 12 in contact with the vertical sliding plate to horizontally move through the inclined plane, the inclined plane stress block 12 drives the positioning pressing plate to move through the linkage sliding rod 10, so that the capacitor can be clamped and fixed on the material taking barrel 7, and then moves and rotates along with the material taking barrel 7, then the material taking barrel 7 moves along with the material rotating disc 4 to a region where the material taking barrel is meshed with the arc-shaped toothed plate 21, under the premise that the arc-shaped toothed plate 21 is fixed, the transmission toothed ring 18 meshed with the arc-shaped toothed plate rotates on the outer side of the cylinder 17, then the material taking barrel 7 with the other side connected with the arc-shaped toothed plate in a meshed mode is driven to rotate, the outer wall of the capacitor rotating along with the material taking barrel 7 is in contact with the printing barrel 41, the printing barrel 41 prints the outer wall of the capacitor, and then the printed capacitor continues to move and rotate, and dried by hot air from the hot air blower 44 to ensure the printing effect, and then the material taking barrel 7 is moved out from the area of the inner arc-shaped folded plate 19 and the outer arc-shaped folded plate 20 which are pushed down and enters the vertical upper part of the blanking hole, and the capacitor which is printed falls into the collecting box 43 under the action of gravity.

Example two

As shown in fig. 1 to 5, this embodiment is substantially the same as embodiment 1, preferably, the blanking mechanism includes an upright post 24 fixedly installed on one side of the top of the workbench 1, a sliding sleeve 25 is slidably sleeved outside a column body of the upright post 24, a set screw 26 is disposed between the sliding sleeve 25 and the upright post 24, one side of the sliding sleeve 25 is fixedly connected with a horizontally disposed enclosure 27, a plurality of limit flaps 28 in a vertical state are radially disposed in the enclosure 27, a threaded cross tube 29 penetrates through a ring body of the enclosure 27, a threaded cross tube 30 penetrates through an internal thread of the threaded cross tube 29, a circular plate 31 and a knob 32 are respectively fixedly connected to two ends of the threaded cross tube 30, a vertical plate 33 and a rail slide bar 35 are fixedly connected to one side of the limit flaps 28, a circular cover 34 is disposed on one side of the vertical plate 33, the circular plate 31 is respectively rotatably installed in the circular cover 34, a slide hole is opened in the ring body of the enclosure 27, and the rail slide bar 35 slides through the slide hole.

In this embodiment, when printing is performed on capacitors of different shapes, according to the diameters of the capacitors, the knob 32 is screwed, the threaded cross rod 30 and the circular plate 31 rotate along with the knob 32, the circular plate 31 rotates in the circular cover 34, the vertical positions of the limiting folding plates 28 change accordingly, the shape enclosed between the limiting folding plates 28 changes accordingly, so that the capacitors entering the limiting folding plates 28 are guided, the vertical height of the sliding sleeve 25 is adjusted according to the height of the capacitors, the capacitors are fixed through the positioning screws 26, after the bottommost capacitor enters the material taking barrel 7, the closely following capacitor still has a part between the limiting folding plates 28, the next material taking barrel 7 is waited to enter, and continuous feeding is formed.

EXAMPLE III

As shown in fig. 1 to 5, in this embodiment, basically the same as in embodiment 1, preferably, a side groove is opened on an inner wall of one side of the side hole, a stabilizing wedge 22 is slidably connected in the side groove, one end of the stabilizing wedge 22 is in a wedge-shaped structure and contacts with a vertical outer wall of the transmission toothed ring 18, and a second spring 23 is arranged between the other end of the stabilizing wedge 22 and the inner wall of the side groove.

In this embodiment, the stabilizing wedges 22 function to prevent the transmission toothed ring 18 from rotating relative to each other without being guided by the arc-shaped toothed plate 21.

Example four

As shown in fig. 1 to 5, in this embodiment, the same as embodiment 1 is basically performed, and preferably, an annular frame groove is formed at the top of the material taking hole, and an edge ring 8 is fixedly connected to the outer wall of the top end of the material taking barrel 7, and extends into the annular frame groove along the ring body of the edge ring 8.

In this embodiment, it is fixed to get feed cylinder 7 to support.

EXAMPLE five

As shown in fig. 1-5, this embodiment is substantially the same as embodiment 1, and preferably, the top side of the inclined plane force-bearing block 12 and the bottom side of the inclined plane pushing block 16 are both inclined plane-shaped structures and are connected with each other in a sliding contact manner.

In the present embodiment, the vertical movement of the vertical sliding plate 15 is converted into the horizontal movement of the inclined force receiving block 12 by the inclined surface structure.

EXAMPLE six

As shown in fig. 1 to 5, this embodiment is substantially the same as embodiment 1, and preferably, the bottom bracket 3 has a truncated cone-shaped structure with a T-shaped cross section.

In this embodiment, the vertical position of the material transferring disk 4 is limited, so that the material transferring disk 4 is more stable in rotation.

EXAMPLE seven

As shown in fig. 1 to 5, this embodiment is substantially the same as embodiment 1, and preferably, the material transferring disk 4 is of a split structure and is fixed by bolt fastening and splicing.

In this embodiment, split type structure is more favorable to the equipment's equipment.

Example eight

As shown in fig. 1 to 5, this embodiment is substantially the same as embodiment 1, and preferably, a rubber pad is disposed on a side of the positioning pressing plate 11 away from the linking slide bar 10.

In this embodiment, the fixing effect is enhanced, and the capacitor is also protected.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (8)

1. The printing device for processing the capacitor comprises a workbench (1) and is characterized in that supporting legs (2) are arranged at the bottom of the workbench (1), a middle shaft column (3) is fixedly connected to the middle of the top side of the workbench (1), a material transferring disc (4) for taking the capacitor is sleeved outside the shaft body of the middle shaft column (3) in a rotating mode, a tooth socket I is formed in the vertical side of the material transferring disc (4), a motor I (5) is fixedly mounted on one side of the workbench (1) through a bolt, a driving gear (6) is fixedly connected to the output shaft of the motor I (5), one side of the driving gear (6) is meshed with the material transferring disc (4), material taking holes formed in a plurality of annular equal distances are formed in the disc body of the material transferring disc (4), material taking cylinders (7) are arranged in the material taking holes, grooves formed in the plurality of equal distances are formed in the top of the cylinder bodies of the material taking cylinders (7), the top opening part inner wall fixedly connected with of recess seals ring (14), and the recess is close to gets feed cylinder (7) inside side and opens and be equipped with the through-hole, and through-hole middle part fixedly connected with ring fender (9), slide in ring fender (9) and have linkage slide bar (10), the both ends of linkage slide bar (10) are fixedly connected with inclined plane atress piece (12) respectively and carry out fixed positioning pressure plate (11) to the condenser, inclined plane atress piece (12) extend to in the recess, vertical sliding connection has vertical slide (15) in the recess, the top of vertical slide (15) is passed in sealing ring (14), and vertical one side fixedly connected with of vertical slide (15) promotes inclined plane atress piece (12) horizontal migration's inclined plane ejector pad (16), change vertical one side of material disc (4) and seted up a plurality of side opening, the side opening respectively with get the material hole intercommunication, and vertical fixedly connected with cylinder (17) in the side opening, cylinder (17) outside the cylinder rotate the cover and be equipped with the control and prepare feed cylinder (7) pivoted transmission ring gear (18), the outer wall of getting feed cylinder (7) has seted up tooth's socket two and keeps meshing with transmission ring gear (18), top one side of workstation (1) is provided with size adjustable's unloading mechanism, the unloading hole has been seted up to the opposite side stage body of workstation (1), and the vertical below in unloading hole is provided with collecting box (43), the top side fixedly connected with of workstation (1) controls push down interior arc folded plate (19) and push down outer arc folded plate (20) that transmission ring gear (18) pivoted arc pinion rack (21), control vertical slide (15) moved down, air heater (44) are still installed at the top of workstation (1).

2. The printing device for processing the capacitor as recited in claim 1, wherein the blanking mechanism comprises an upright post (24) fixedly mounted on one side of the top of the workbench (1), a sliding sleeve (25) is slidably sleeved on the outer side of the upright post (24), a positioning screw (26) is arranged between the sliding sleeve (25) and the upright post (24), one side of the sliding sleeve (25) is fixedly connected with a horizontally arranged surrounding ring (27), a plurality of limiting folding plates (28) in a vertical state are arranged in the surrounding ring (27) in a divergent manner, a threaded cross tube (29) is fixedly connected with a ring body of the surrounding ring (27) in a penetrating manner, a threaded cross tube (30) is penetrated through an internal thread of the threaded cross tube (29), two ends of the threaded cross tube (30) are respectively and fixedly connected with a circular plate (31) and a knob (32), one side of the limiting folding plate (28) is fixedly connected with a vertical plate (33) and a track sliding rod (35), one side of the vertical plate (33) is provided with a circular cover (34), the circular plates (31) are respectively rotatably installed in the circular cover (34), a ring body of the surrounding ring (27) is provided with a sliding hole, and the rail sliding rod (35) slides through the sliding hole in a sliding mode.

3. The printing device for processing the capacitor as claimed in claim 1, wherein a side groove is formed in an inner wall of one side of the side hole, a stabilizing wedge (22) is connected in the side groove in a sliding mode, one end of the stabilizing wedge (22) is of a wedge-shaped structure and is in contact with a vertical outer wall of the transmission toothed ring (18), and a second spring (23) is arranged between the other end of the stabilizing wedge (22) and the inner wall of the side groove.

4. The printing device for processing the capacitor as claimed in claim 1, wherein an annular frame groove is formed at the top of the material taking hole, an edge ring (8) is fixedly connected to the outer wall of the top end of the material taking barrel (7), and the ring body of the edge ring (8) extends into the annular frame groove.

5. The printing device for processing the capacitor as claimed in claim 1, wherein the top side of the inclined plane force-bearing block (12) and the bottom side of the inclined plane pushing block (16) are both inclined plane-shaped structures and are connected with each other in a sliding contact manner.

6. The printing device for processing the capacitor as claimed in claim 1, wherein the central shaft column (3) is of a truncated cone structure with a T-shaped cross section.

7. The printing device for processing the capacitor as claimed in claim 1, wherein the material transferring disc (4) is of a split structure and is fixed by bolts.

8. The printing device for processing the capacitor as claimed in claim 1, wherein a rubber pad is arranged on the side of the positioning pressing plate (11) far away from the linkage sliding rod (10).

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