CN209929152U - Multifunctional capacitor processing equipment - Google Patents

Abstract

The utility model discloses a multifunctional capacitor processing device, which is characterized by comprising a frame, a feeding mechanism, a first testing mechanism, a printing mechanism and a charging testing mechanism which are connected in sequence, wherein a first discharging position and a second discharging position are respectively arranged at two positions on the frame corresponding to the charging testing mechanism, and the first discharging position is connected with a product braiding mechanism; through the setting of first play material level and second play material level for this multi-functional capacitor processing equipment only needs a whole equipment, but can satisfy the processing demand of different capacitor products, compares in two or many equipment, and the manufacturing cost of this equipment is lower with the purchase cost of the user of purchasing this equipment, after the user buys back, all can use this equipment to process to the capacitor product of difference, makes the rate of utilization of equipment improve greatly.

Description

Multifunctional capacitor processing equipment

Technical Field

The utility model relates to a condenser processing equipment technical field, more specifically say, it relates to a multi-functional condenser processing equipment.

Background

When the capacitor is processed, different processing is carried out on capacitors with different structures after processing, some capacitors need to be formed and braided for packaging after processing, and some capacitors can be directly discharged after processing. At present, different capacitors are respectively processed by different equipment, the purchase cost of a processing factory is high, and the utilization rate of the possible equipment after being bought is not high due to the fact that the requirements of the different capacitors are not completely the same, so that the idle rate of the equipment is too high.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a multi-functional condenser processing equipment reaches the purpose that reduces purchasing cost and improve equipment's rate of utilization.

The above technical purpose of the present invention can be achieved by the following technical solutions: the utility model provides a multi-functional condenser processing equipment which characterized in that: the automatic feeding and printing machine comprises a rack, and a feeding mechanism, a first testing mechanism, a printing mechanism and a charging testing mechanism which are sequentially connected, wherein a first discharging position and a second discharging position are respectively arranged at two positions, corresponding to the charging testing mechanism, on the rack, and the first discharging position is connected with a product braiding mechanism.

Preferably, a first appearance detection mechanism is arranged between the printing mechanism and the charging test mechanism.

Preferably, the first appearance detection mechanism comprises a CCD appearance detection assembly, a product beam waist detection assembly and a seal defect detection assembly.

As a further optimization, a foot shearing mechanism is arranged between the first appearance detection mechanism and the charging test mechanism, and the foot shearing mechanism realizes a foot shearing function when in use and a transmission function when in no use.

As a further optimization, the pin shearing mechanism comprises a discharge device for discharging the appearance defective products detected by the first appearance detection mechanism.

As a further optimization, the charging test mechanism comprises a charging test disc, and a first discharging induction device and a second discharging induction device which are arranged beside the charging test disc, wherein a charging test feeding position is arranged beside the charging test disc on the rack, the first discharging induction device is located between the charging test feeding position and the first discharging position, and the second discharging induction device is located between the first discharging position and the second discharging position; when a product is processed, the product enters the charging test disc from the charging test feeding position to be charged, the product needing to be discharged from the first discharging position is discharged when passing through the first discharging induction device, and then the product is discharged from the first discharging position; and discharging products needing to be discharged from the second discharging position when passing through the second discharging induction device, and then discharging from the second discharging position.

As a further optimization, an appearance testing component is arranged beside the charging testing disc, the appearance testing component is located between the charging testing feeding position and the first discharging position, and the appearance testing component is used for performing appearance detection on a product on the charging testing disc.

Preferably, a discharging device is arranged beside the appearance testing component, and products which are detected to be unqualified by the appearance testing component are discharged from the discharging device.

As a further optimization, a waste discharge device is arranged between the second discharge induction device and the second discharge position, and products which are tested as waste by the charge testing mechanism are discharged from the waste discharge device.

Preferably, the printing mechanism comprises a printing device and a drying device which are connected in sequence, and the printing device prints the product polarity and then dries the product by the drying device.

To sum up, the utility model discloses following beneficial effect has: a capacitor product to be processed enters from the feeding mechanism, sequentially passes through the first testing mechanism, the printing mechanism and the charging testing mechanism, is correspondingly detected and processed, and is discharged from the first discharging position or the second discharging position; this multi-functional capacitor processing equipment goes out the setting of material level through first play material level and second for this multi-functional capacitor processing equipment only needs a whole equipment, but can satisfy the processing demand of different condenser products, compares in two or many equipment, and the manufacturing cost of this equipment and the purchase cost of the user of purchasing this equipment are lower, after the user buys back, all can use this equipment to process to the condenser product of difference, makes the rate of utilization of equipment improve greatly.

Drawings

Fig. 1 is a plan view of a multifunctional capacitor processing apparatus in an embodiment;

FIG. 2 is a schematic structural view of one perspective of the multifunctional capacitor processing apparatus in the embodiment;

fig. 3 is a schematic structural view of another perspective of the multifunctional capacitor processing apparatus in the embodiment.

In the figure: 1. a frame; 2. a feeding mechanism; 21. a vibrating pan; 22. a vibratory flat conveying device; 3. a first testing mechanism; 4. a printing mechanism; 41. a printing device; 42. a drying device; 5. a charging test mechanism; 51. charging the test disc; 52. a first discharge induction device; 53. a second discharge induction device; 6. a product taping mechanism; 7. a first appearance detection mechanism; 8. a pin shearing mechanism; 9. an appearance testing component; 91. an arranging device; 100. a first discharge position; 200. a second discharge position; 201. a discharging guide groove; 202. a cartridge; 203. a waste discharge device; 300. charge test feed level.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, a multifunctional capacitor processing device comprises a machine frame 1, wherein a feeding mechanism 2, a first testing mechanism 3, a printing mechanism 4 and a charging testing mechanism 5 which are connected in sequence are installed on the machine frame 1, a first discharging position 100 and a second discharging position 200 are respectively arranged at two positions, corresponding to the charging testing mechanism 5, on the machine frame 1, a product braiding mechanism 6 is installed at the first discharging position 100, and a discharging guide groove 201 and a charging box 202 are installed at the second discharging position 200. The capacitor product to be processed enters from the feeding mechanism 2, sequentially passes through the first testing mechanism 3, the printing mechanism 4 and the charging testing mechanism 5, is correspondingly detected and processed, and is discharged from the first discharging position 100 or the second discharging position 200. The setting of multi-functional capacitor processing equipment in this embodiment through first play material level 100 and second play material level 200 for this multi-functional capacitor processing equipment only needs a whole equipment, but can satisfy the processing demand of different condenser products, compare in two or many equipment, the manufacturing cost of this equipment and the purchase cost of the user of purchasing this equipment are lower, after the user buys back, all can use this equipment to process to different condenser products, make the rate of utilization of equipment improve greatly.

Referring to fig. 2 and 3, the feeding mechanism 2 includes a vibrating plate 21 and a vibrating flat feeder 22, and a large amount of product is poured into the vibrating plate 21, sequentially fed into the vibrating flat feeder 22 through the vibrating plate 21, and further fed forward by the vibrating flat feeder 22. The specific structure of the feeding mechanism 2 in this embodiment may be the feeding mechanism 2 of the existing capacitor processing equipment, or may be a structure further optimized. The first testing mechanism 3 integrates functions of product shaping, polarity determination, capacity testing, ESR testing, and the like, and the first testing mechanism 3 in this embodiment is a related testing mechanism that directly adopts existing capacitor devices, and the specific structure thereof is not described herein. The printing mechanism 4 comprises a printing device 41 and a drying device 42 which are connected in sequence, a product is conveyed to the printing device 41 after being detected by the first testing mechanism 3 to print characters according to the polarity of the product, and the printed characters are conveyed to the drying device 42 to be dried, so that the abrasion of subsequent processing on the printed characters is avoided. In addition, the printing mechanism 4 may be provided with a post-printing CCD detection device, and the CCD detection may be performed after the printing to detect whether the product is damaged during the printing process and whether the effect after the printing meets the specification, and then the drying may be performed.

As shown in fig. 1 and 3, a first appearance detection mechanism 7 is disposed between the printing mechanism 4 and the charging test mechanism 5, and the first appearance detection mechanism 7 includes a CCD appearance detection component, a product beam waist detection component, a seal defect detection component, and the like, which are all installed beside the detection turntable. After passing through the printing mechanism 4, the product enters the detection turntable of the first appearance detection mechanism 7 to be clamped and rotated, and then sequentially passes through the detection assemblies and sequentially carries out corresponding detection. It should be noted that the related detecting elements in the first appearance detecting mechanism 7 are all related detecting elements of the existing capacitor, and are not described herein again. A pin cutting mechanism 8 is arranged between the first appearance detection mechanism 7 and the charging test mechanism 5, and the pin cutting mechanism 8 is controlled to realize a pin cutting function when the multifunctional electric heater processing equipment processes a capacitor product needing pin cutting; the pin cutting mechanism 8 realizes a conveying function when the multifunctional electric heater processing equipment processes a capacitor product without the need of pin cutting. As optimization, this cut foot mechanism 8 includes row time device, and this row time device arranges the outward appearance defective products that first outward appearance detection mechanism 7 detected and expects, and this row time device all normally works when processing the capacitor product that need cut the foot and need not cut the foot. It should be noted that the above foot-cutting mechanism 8 and the ranking device can directly adopt the existing related mechanisms and devices, and the detailed structure thereof is not described herein.

Referring to fig. 1, 2 and 3, the charging testing mechanism 5 includes a charging testing disc 51, and a first discharging induction device 52 and a second discharging induction device 53 disposed beside the charging testing disc 51, a charging testing feeding position 300 is disposed beside the charging testing disc 51 on the frame 1, and a discharging port of the pin shearing mechanism 8 corresponds to the charging testing feeding position 300. The first discharge sensing device 52 is located between the charge test feeding position 300 and the first discharging position 100, the second discharge sensing device 53 is located between the first discharging position 100 and the second discharging position 200, and the rotation direction of the charge test disc 51 returns to the charge test feeding position 300 after sequentially passing through the charge test feeding position 300, the first discharge sensing device 52, the first discharging position 100, the second discharge sensing device 53 and the second discharging position 200. When a capacitor product is processed, the capacitor product enters the charging test disc 51 from the charging test feeding position 300 for charging, the product needing to be discharged from the first discharging position 100 is discharged when passing through the first discharging induction device 52, and then the product is discharged from the first discharging position 100; the product to be discharged from the second discharge position 200 is discharged through the second discharge sensing device 53, and then discharged from the second discharge position 200. As optimization, the appearance testing component 9 is arranged beside the charging testing disc 51, the appearance testing component 9 is located between the charging testing feeding position 300 and the first discharging position 100, and the appearance testing component 9 is used for performing appearance detection on the capacitor product on the charging testing disc 51, and detecting whether the product has a flaw or not in the processing process. As further optimization, a discharging device is arranged beside the rear side of the appearance testing component 9, and products which are detected to be unqualified by the appearance testing component 9 are discharged from the discharging device. A waste discharge device 203 is arranged between the second discharge induction device 53 and the second discharging position 200, and the product tested as waste by the charging testing mechanism 5 is discharged from the waste discharge device 203.

The multifunctional capacitor processing equipment in the embodiment has processing and forming modes of various different capacitor products, and comprises at least the following three processing modes: firstly, a capacitor product enters from a feeding mechanism 2, a first testing mechanism 3 carries out lead shaping, capacity testing, ESR (equivalent series resistance) detection and the like on the capacitor product, a printing mechanism 4 carries out polarity printing on the capacitor product, a first appearance detecting mechanism 7 carries out relevant appearance detection on the capacitor product, a charging testing mechanism 5 carries out charging and electric leakage testing on the capacitor product, the capacitor product is discharged from a first discharging position 100, and a product braiding mechanism 6 carries out forming, braiding and packaging on the capacitor product; secondly, a capacitor product enters from the feeding mechanism 2, the first testing mechanism 3 performs lead shaping, capacity testing, ESR (equivalent series resistance) detection and the like on the capacitor product, the printing mechanism 4 performs polarity printing on the capacitor product, the first appearance detecting mechanism 7 performs relevant appearance detection on the capacitor product, the pin shearing mechanism 8 performs lead pin shearing on the capacitor product, the charging testing mechanism 5 performs charging and electric leakage testing on the capacitor product, and the capacitor product is discharged from the second discharging position 200; third, the capacitor product gets into from feed mechanism 2, and first accredited testing organization 3 carries out lead wire plastic, capacity test and ESR detection etc. to the capacitor product, and printing mechanism 4 carries out polarity printing to the capacitor product, and first outward appearance detection mechanism 7 carries out relevant outward appearance to the capacitor product and detects, and charge test mechanism 5 charges, electric leakage test to the capacitor product, and the capacitor product is followed the ejection of compact of second play material level 200. It should be noted that the above three processing modes are for three different capacitor products, and in actual processing, the same processing mode is generally used for the same batch of capacitor products.

The above embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications to the above embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws within the scope of the present invention.

Claims (10)

1. The utility model provides a multi-functional condenser processing equipment which characterized in that: the automatic feeding and printing machine comprises a rack, and a feeding mechanism, a first testing mechanism, a printing mechanism and a charging testing mechanism which are sequentially connected, wherein a first discharging position and a second discharging position are respectively arranged at two positions, corresponding to the charging testing mechanism, on the rack, and the first discharging position is connected with a product braiding mechanism.

2. The multifunctional capacitor processing apparatus according to claim 1, wherein: and a first appearance detection mechanism is arranged between the printing mechanism and the charging test mechanism.

3. The multifunctional capacitor processing apparatus according to claim 2, wherein: the first appearance detection mechanism comprises a CCD appearance detection assembly, a product beam waist detection assembly and a poor sealing detection assembly.

4. The multifunctional capacitor processing apparatus according to claim 2, wherein: the first appearance detection mechanism and the charging test mechanism are provided with a pin shearing mechanism, the pin shearing mechanism achieves a pin shearing function when needing to be used, and a transmission function is achieved when not needing to be used.

5. The multifunctional capacitor processing apparatus according to claim 4, wherein: cut foot mechanism including be used for right the appearance defective products that first outward appearance detection mechanism detected carry out row inferior device of arranging material.

6. The multifunctional capacitor processing apparatus according to claim 1, wherein: the charging test mechanism comprises a charging test disc, a first discharging induction device and a second discharging induction device, wherein the first discharging induction device and the second discharging induction device are arranged beside the charging test disc; when a product is processed, the product enters the charging test disc from the charging test feeding position to be charged, the product needing to be discharged from the first discharging position is discharged when passing through the first discharging induction device, and then the product is discharged from the first discharging position; and discharging products needing to be discharged from the second discharging position when passing through the second discharging induction device, and then discharging from the second discharging position.

7. The multifunctional capacitor processing apparatus according to claim 6, wherein: the device is characterized in that an appearance testing assembly is arranged beside the charging testing disc, the appearance testing assembly is located between the charging testing feeding position and the first discharging position, and the appearance testing assembly is used for detecting the appearance of a product on the charging testing disc.

8. The multifunctional capacitor processing apparatus according to claim 7, wherein: and a discharging device is arranged beside the appearance testing component, and products which are detected to be unqualified by the appearance testing component are discharged from the discharging device.

9. The multifunctional capacitor processing apparatus according to claim 6, wherein: a waste discharge device is arranged between the second discharge induction device and the second discharge position, and products which are tested to be waste materials by the charge testing mechanism are discharged from the waste discharge device.

10. The multifunctional capacitor processing apparatus according to claim 1, wherein: the printing mechanism comprises a printing device and a drying device which are sequentially connected, and the printing device prints characters on the polarity of the product and then dries the product through the drying device.

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