CN216376518U - Chip feeding mechanism for processing NTC thermistor - Google Patents

Abstract

The utility model relates to the technical field of NTC heat-sensitive chips, in particular to a chip feeding mechanism for processing an NTC thermistor, wherein a material taking mechanism for sucking capacitors and a material discharging mechanism matched with the material taking mechanism are arranged on a workbench, the material discharging mechanism comprises a first power assembly driving a material sucking assembly to slide and a second power assembly driving the first power assembly to rotate, when the material taking mechanism is parallel to the workbench, the material sucking assembly is aligned and matched with a material discharging end to suck the capacitors on the material discharging end, after the first power assembly provided with the material sucking assembly rotates to be vertical to the workbench, two wire cores are ejected out by an ejection mechanism to form gaps, the capacitors on the material taking mechanism driven by the material discharging mechanism are arranged between the gaps of the two wire cores, the automation degree of the whole process is high, manual feeding and material taking are not needed, the capacitors do not need to drop in the material taking process, the capacitor size is small, the weight is small, the material suction mode can ensure that the material is stably embedded in the material suction assembly, and the efficiency is greatly improved.

Description

Chip feeding mechanism for processing NTC thermistor

Technical Field

The utility model relates to the technical field of NTC thermistors, in particular to a chip feeding mechanism for processing an NTC thermistor.

Background

The NTC thermistor is a finished thermistor assembly formed by combining a thermistor shell, an extension lead and a connector, and the resistance value of the NTC thermistor is rapidly reduced along with the temperature rise under certain measuring power. By utilizing the characteristic, the NTC thermistor can determine the corresponding temperature by measuring the resistance value thereof, thereby achieving the purpose of detecting and controlling the temperature.

The NTC thermistor consists of two identical wire cores and a capacitor, wherein the capacitor is required to be arranged between the two wire cores after the wire cores are combined, and then the processing is completed through sintering and tin immersion processes.

Current electric capacity material loading process adopts manual operation to accomplish usually, and the manual work is blockked the electric capacity between the sinle silk with the electric capacity, and this kind of mode is not only inefficient, leads to the electric capacity to appear dropping when getting in-process easily moreover.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a chip loading mechanism for processing an NTC thermistor aiming at the defects of the prior art.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

a chip feed mechanism for processing NTC thermistor, includes the workstation, be provided with the feeding agencies that is used for absorbing the material on the workstation and with feeding agencies complex, feeding agencies rotatably installs on the workstation, and feeding agencies slidable installs on feeding agencies.

Further: the material taking mechanism comprises a material sucking assembly, the material sucking assembly is rotatably arranged on the workbench, and the material discharging mechanism comprises a first power assembly for driving the material sucking assembly to slide and a second power assembly for driving the first power assembly to rotate.

Further: the material sucking assembly comprises a material sucking plate and a plurality of material sucking cavities formed on the material sucking plate side by side.

Further: the material sucking component comprises a material sucking nozzle.

Further: the workbench is provided with a fixing jig matched with the discharging mechanism, and the fixing jig is formed with an open clamping opening.

Further: and one side of the fixed jig is provided with a jacking mechanism, and the jacking mechanism comprises a jacking block aligned with the fixed jig.

Further: the width of kicking block is less than the width of centre gripping mouth, and the terminal shaping of kicking block has the point portion.

Further: when the material suction plate is driven to rotate to be perpendicular to the workbench through the second power assembly, the material suction cavity is located under the clamping opening of the fixed jig, and the first power assembly drives the material suction plate to slide up and down.

The utility model has the beneficial effects that: according to the chip feeding mechanism for processing the NTC thermistor, disclosed by the utility model, the material is sucked and discharged in an automatic mode, the automation degree of the whole feeding process is high, manual feeding and material taking are not required, the capacitor does not need to be worried about falling off in the material taking process, the size and the weight of the capacitor are small, the stable embedding in the material sucking assembly can be ensured by adopting the material sucking mode, and the efficiency is greatly improved.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural diagram of a material taking mechanism and a material discharging mechanism of the utility model.

Fig. 3 is an enlarged schematic view of a portion a in fig. 1.

Fig. 4 is an enlarged schematic view of a portion B in fig. 2.

The reference numerals include:

0-working table

1-material taking mechanism 10-material sucking component 11-material sucking plate 12-material sucking cavity 13-material sucking nozzle

2-discharging mechanism

20-first power assembly 201-slideway 202-cylinder assembly

21-second power assembly 211-rotating cylinder

3-top opening mechanism 31-top block 32-tip

4-fixing jig 41-clamping part 42-clamping opening 43-wire core

5-capacitive vibrating disk mechanism 51-discharge end.

Detailed Description

The present invention is described in detail below with reference to the attached drawings.

As shown in fig. 1-4, a chip feeding mechanism for processing an NTC thermistor includes a workbench 0, a material taking mechanism 1 for absorbing capacitance and a material discharging mechanism 2 matched with the material taking mechanism 1 are arranged on the workbench 0, the material taking mechanism 1 is rotatably mounted on the workbench 0, the material discharging mechanism 2 is slidably mounted on the material taking mechanism 1, when the material taking mechanism 1 is parallel to the workbench 0, the material taking mechanism 1 is matched with a material discharging end 51 of a capacitance vibration disc mechanism 5 on one side to take the capacitance, after the material taking mechanism 1 rotates to be perpendicular to the workbench 0, the discharging mechanism 2 drives the capacitance on the material taking mechanism 1 to be arranged between two wire cores 43, the automation degree of the whole process is high, manual feeding and material taking are not needed, and the efficiency is greatly improved.

Further: the material taking mechanism 1 comprises a material sucking component 10, the material sucking component 10 is rotatably arranged on a workbench 0, the discharging mechanism 2 comprises a first power component 20 for driving the material sucking component 10 to slide and a second power component 21 for driving the first power component 20 to rotate, when the material taking mechanism 1 is parallel to the workbench 0, the material sucking component 10 aligns and matches the discharge end 51 of the capacitance vibration disc mechanism 5 on one side, and sucks the capacitance on the discharge end 51, after the second power component 21 drives the first power component 20 provided with the material sucking component 10 to rotate to be vertical to the workbench 0, the discharging mechanism 2 drives the capacitance on the material taking mechanism 1 to be arranged between two wire cores 43, the automation degree of the whole process is high, manual material feeding and material taking are not needed, the capacitance does not need to be worried about falling in the material taking process, the capacitance is small in size and light in weight, and the material sucking mode can ensure stable embedding in the material sucking component 10, the efficiency is greatly improved.

More specifically: the discharging mechanism 2 comprises a first power assembly 20 for driving the material suction plate 11 to slide, and the material suction cavity 12 on the material suction plate 11 is parallel to the fixed jig 4. The first power assembly 20 comprises a slide way 201 in sliding fit with the material sucking plate 11 and a cylinder assembly 202 for driving the material sucking plate 11 to slide on the slide way 201, the second power assembly 21 comprises a rotary cylinder 211 installed at the back of the slide way 201, and the rotary cylinder 211 drives the slide way 201 to rotate above the workbench 0.

Further: inhale material subassembly 10 including inhaling flitch 11 and forming a plurality of material chamber 12 of inhaling on inhaling flitch 11 side by side, inhale material chamber 12 and inhale the electric capacity at the intracavity through the subassembly of breathing in, improve it and get material stability.

Further: be provided with on the workstation 0 with drop feed mechanism 2 complex fixed tool 4, fixed tool 4 is used for centre gripping sinle silk 43, and fixed tool 4 shaping has a plurality of side by side settings and open centre gripping mouth 42, and the centre gripping holds the sinle silk 43 of two laminatings in every centre gripping mouth 42, is provided with clamping part 41 in the centre gripping mouth 42, and clamping part 41 leans on the lower clamp of centre gripping of sinle silk 43.

Further: fixed tool 4 one side is provided with ejection mechanism 3, and ejection mechanism 3 includes the kicking block 31 that aligns with fixed tool 4, and the kicking block 31 stretches out the back to fixed tool 4, and its kicking block 31 is located centre gripping mouth 42 below, and two sinle silks 43 that kicking block 31 will laminate separately do benefit to the electric capacity and get into the gap between the sinle silks 43.

Further: the width of kicking block 31 is less than the width of centre gripping mouth 42 the terminal shaping of kicking block 31 has point portion 32, point portion 32 backs down adjacent sinle silk 43 of laminating, point portion 32 is favorable to two sinle silks 43 of laminating to be backed down there is the gap, inhale flitch 11 among drop feed mechanism 2 and upwards slide, make electric capacity on inhaling material mouth 13 and the sinle silk 43 one-to-one on the fixed tool 4, electric capacity gomphosis is in the gap between sinle silk 43 and sinle silk 43, the kicking block 31 of the mechanism of opening in a top 3 returns, make the gap between the sinle silk 43 can grasp electric capacity, extracting mechanism 1 and drop feed mechanism 2 return simultaneously, accomplish the blowing.

More specifically: inhale material subassembly 10 including inhaling material mouth 13, inhale material mouth 13 actuation electric capacity back, more easily with sinle silk 43 and sinle silk 43 between the gap cooperation, make electric capacity arrange in sinle silk 43 more easily on.

One embodiment is as follows: when the material taking mechanism 1 is parallel to the workbench 0, the material sucking component 10 aligns and matches the discharge end 51 of the capacitance vibration disc mechanism 5 on one side, the capacitance on the discharge end 51 is sucked, when the material sucking plate 11 is driven to rotate to be perpendicular to the workbench 0 through the second power component 21, the two wire cores 43 of each clamping part 41 on the fixed jig 4 are separated by the ejector block 31 of the ejection opening mechanism 3, a gap is formed between the two wire cores 43, the first power component 20 drives the material sucking plate 11 to slide upwards, the material sucking cavity 12 is positioned under the clamping opening 42 of the fixed jig 4, the capacitance on the material sucking nozzle 13 corresponds to the wire cores 43 on the fixed jig 4 one by one, the capacitance is embedded in the gap between the wire cores 43, the ejector block 31 of the ejection opening mechanism 3 retracts, the gap between the wire cores 43 can clamp the capacitance, and the material taking mechanism 1 and the material discharging mechanism 2 retract simultaneously, and (5) discharging is completed.

In conclusion, the present invention has the above-mentioned excellent characteristics, so that it can be used to enhance the performance of the prior art and has practicability, and becomes a product with practical value.

The above description is only a preferred embodiment of the present invention, and for those skilled in the art, the present invention should not be limited by the description of the present invention, which should be interpreted as a limitation.

Claims (7)

1. A chip feed mechanism for processing NTC thermistor, including the workstation, its characterized in that: the material taking mechanism is rotatably arranged on the workbench, and the material taking mechanism can be slidably arranged on the material taking mechanism.

2. The chip loading mechanism for processing an NTC thermistor according to claim 1, characterized in that: the material taking mechanism comprises a material sucking assembly, the material sucking assembly is rotatably arranged on the workbench, and the material discharging mechanism comprises a first power assembly for driving the material sucking assembly to slide and a second power assembly for driving the first power assembly to rotate.

3. The chip loading mechanism for processing an NTC thermistor according to claim 2, characterized in that: the material sucking assembly comprises a material sucking plate and a plurality of material sucking cavities formed on the material sucking plate side by side.

4. The chip loading mechanism for processing an NTC thermistor according to claim 2, characterized in that: the material sucking component comprises a material sucking nozzle.

5. The chip loading mechanism for processing an NTC thermistor according to claim 1, characterized in that: the workbench is provided with a fixing jig matched with the discharging mechanism, and the fixing jig is formed with an open clamping opening.

6. The chip loading mechanism for processing an NTC thermistor according to claim 5, characterized in that: and one side of the fixed jig is provided with a jacking mechanism, and the jacking mechanism comprises a jacking block aligned with the fixed jig.

7. The chip loading mechanism for processing an NTC thermistor according to claim 6, characterized in that: the width of kicking block is less than the width of centre gripping mouth, and the terminal shaping of kicking block has the point portion.

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