CN216965451U - Capacitance capacity testing and rejecting machine - Google Patents

Abstract

The utility model discloses a capacitance capacity testing and removing machine which comprises a rotating disc type feeding mechanism, a capacity testing mechanism and a removing mechanism, wherein the capacity testing mechanism comprises a support, a lifting guide seat, a first metal block, a second metal block, a lifting seat, a lifting driving device, translation clamping blocks and a switch clamp transmission assembly, the lifting seat penetrates through the lifting guide seat in a lifting mode, the switch clamp transmission assembly is installed on the lifting seat, the lifting driving device is in transmission connection with the lifting part of the switch clamp transmission assembly, a first spring is arranged between the lifting seat and the lifting part of the switch clamp transmission assembly, the translation clamping blocks are provided with two parts and can be installed at the lower end of the lifting seat in a translation mode, the first metal blocks are installed on the inner sides of the translation clamping blocks respectively corresponding to the first metal blocks, and the second metal blocks are installed on the inner sides of the translation clamping blocks respectively corresponding to the second metal blocks. The utility model can assist in realizing the capacity automatic detection of the capacitor and the operation of automatically removing defective products, replaces manual operation, improves the efficiency and can meet the large-scale production requirements of enterprises.

Description

Capacitance capacity testing and rejecting machine

Technical Field

The utility model relates to the technical field of automation equipment, in particular to a capacitance capacity testing and removing machine.

Background

With the continuous development and progress of electronic information technology, electronic products become an indispensable important part in people's daily life, and capacitors are very common electronic elements in electronic products, however, in the existing capacitor production line, the capacity detection and defective product selection of the capacitors are operated by hands, and the manual operation is troublesome and time-consuming, the production efficiency is low, and the production is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a capacitance capacity testing and rejecting machine.

In order to achieve the purpose, the utility model provides a capacitance capacity test removing machine which comprises a rotating disc type feeding mechanism for feeding capacitance, a capacity testing mechanism for testing the capacity of the capacitance and a removing mechanism for removing defective products from the rotating disc type feeding mechanism, wherein the capacity testing mechanism and the removing mechanism are sequentially arranged on the side edge of the rotating disc type feeding mechanism along the feeding direction of the rotating disc type feeding mechanism, the capacity testing mechanism comprises a support, a lifting guide seat, a first metal block, a second metal block, a lifting seat, a lifting driving device, a translation clamping block and a switch clamp transmission assembly, the lifting guide seat is longitudinally arranged on the front surface of the support, the lifting seat is longitudinally and liftably arranged on the lifting guide seat in a penetrating manner, limiting bulges are arranged on two sides of the upper end of the lifting seat, the switch clamp transmission assembly is arranged on the lifting seat, the lifting driving device is arranged at the top of the lifting guide seat and is in transmission connection with the lifting part of the switch clamp transmission assembly The utility model discloses a lifting seat, it includes lifting seat, switch clamp transmission assembly, translation clamp splice, first metal block, second metal block, longitudinal first spring is equipped with between lifting seat's the top and the lift position of switch clamp transmission assembly, the translation clamp splice is equipped with two and can install the lower extreme at lifting seat with translating, the translation clamp splice is bilateral symmetry and arranges, first metal block is equipped with two and installs respectively in translation clamp splice inboard that corresponds separately, the position of first metal block corresponds each other, the second metal block is equipped with two and installs respectively in translation clamp splice inboard that corresponds separately, the position of second metal block corresponds each other.

In a preferred embodiment, the switch clamp transmission assembly comprises a lifting slider, a swing arm and a second spring, the lifting slide block is longitudinally and slidably arranged on the longitudinal sliding groove of the lifting seat in an up-and-down way, the first spring is positioned between the top of the lifting seat and the spring limiting part arranged on the side part of the lifting slide block, the upper end of the lifting slide block is connected with a lifting driving device, the lower end of the lifting slide block is arranged to be a V-shaped pointed structure, the two swing arms are symmetrically arranged at the lower end of the lifting seat, the middle parts of the swing arms are respectively and rotatably connected with the lifting seat through transverse rotating shafts, the upper ends of the swing arms are respectively provided with a first guide wheel, the two inclined planes at the lower ends of the lifting slide blocks are respectively contacted with the corresponding first guide wheels, the second springs are transversely connected between the upper ends of the two swing arms, and the lower ends of the swing arms are respectively and rotatably connected with the upper ends of the corresponding translation clamping blocks.

As a preferred embodiment, the rotating disc type feeding mechanism comprises a rotating disc, a rotary driving device and a fixed chassis, wherein the rotating disc is installed at the output part of the rotary driving device and is driven to rotate by the rotary driving device, a plurality of placing holes which penetrate through the power supply container on the side surface of the rotating disc are distributed on the edge of the rotating disc in an annular manner, the fixed chassis is fixedly installed on the rotary driving device and is positioned below the rotating disc, an arc-shaped arc flange which is positioned on the side edge of the rotating disc is convexly arranged on the edge of the fixed chassis, and a corresponding discharge hole of the removing mechanism is arranged on the arc flange.

In a preferred embodiment, the rotary driving device includes a first rotary motor, a first pulley, a timing belt, and a cam divider, the first pulley is provided with two pulleys and is respectively mounted on an output shaft of the first rotary motor and an input portion of the cam divider, and the two first pulleys are synchronously connected through the timing belt.

As a preferred embodiment, the removing mechanism comprises a pushing block and a translation cylinder, the translation cylinder is horizontally arranged, the pushing block is mounted on an output shaft of the translation cylinder and is driven by the translation cylinder to translate, and a pushing part of the pushing block extends to the inner side of a discharging part of the rotating disc type feeding mechanism.

As preferred embodiment, the ejector pad includes push up rod, bottom end shaft and first connecting block, the push up rod is the barb shape, the one end of push up rod is connected with the one end of first connecting block, the other end of push up rod extends to carousel formula feeding mechanism's blowing position inboard, the bottom end shaft is installed at the other end of first connecting block and is arranged in carousel formula feeding mechanism's blowing position inboard, the bottom end shaft is located between carousel formula feeding mechanism's carousel and the fixed chassis, the one end that first connecting block and push up rod are connected is equipped with the seal block that can insert in carousel formula feeding mechanism's the discharge gate of fixed chassis.

As a preferred embodiment, the automatic feeding device further comprises a feeding mechanism for feeding the rotating disc type feeding mechanism, and the feeding mechanism is located at a feeding station of the rotating disc type feeding mechanism.

As a preferred embodiment, the feeding mechanism comprises a base, two side plates, a second belt wheel, a third belt wheel, a conveying belt and a second rotating motor, wherein the two side plates are arranged at the top of the base at intervals, the second belt wheel is provided with a plurality of side plates and is sequentially arranged between the two side plates along the length direction of the side plates, the third belt wheel is arranged on an output shaft of the second rotating motor and is in transmission connection with each second belt wheel through the conveying belt, and the top of each side plate is respectively provided with linear flanges which are located on two sides above the conveying belt and used for guiding movement of the capacitor.

As a preferred embodiment, the automatic blanking device further comprises a blanking mechanism for blanking of the rotating disc type feeding mechanism, and the blanking mechanism is arranged at a blanking station of the rotating disc type feeding mechanism.

As a preferred embodiment, the blanking mechanism comprises a blanking push rod, a swing rod, a slide rail, a third spring and a cam, the cam is arranged at the other output part of the cam divider of the rotating disc type feeding mechanism, the swing rod is positioned at the side edge of the cam, the lower end of the swing rod is rotationally connected with the shell of the cam divider, the middle part of the swing rod is provided with a second guide wheel which is contacted with the cam, the slide rail is horizontally and translationally arranged on the shell of the cam divider through a slide block, one end of the slide rail is rotationally connected with the upper end of the swing rod, one end of the blanking push rod is connected with the other end of the slide rail through a second connecting block, the other end of the blanking push rod extends to the inner side of the discharging position of the rotating disc type feeding mechanism, the third spring is horizontally arranged, one end of the third spring is connected with the upper end of the swing rod, and the other end of the third spring is connected to a spring connecting block arranged on the shell of the cam divider.

Compared with the prior art, the utility model has the beneficial effects that:

the automatic capacitance detection device is simple and novel in structure and reasonable in design, can assist in achieving automatic capacitance detection of the capacitor and automatic defective product removal operation, is high in automation degree, replaces manual operation, improves production efficiency, and can meet the large-scale production requirements of enterprises.

Drawings

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

FIG. 1 is a first schematic structural diagram provided in an embodiment of the present invention;

FIG. 2 is a second schematic structural diagram provided in the present embodiment;

FIG. 3 is a schematic structural diagram of a feeding mechanism provided in an embodiment of the present invention;

FIG. 4 is a schematic view of the internal structure of the feeding mechanism provided in the embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a part of a component provided by an embodiment of the utility model;

FIG. 6 is an exploded view of the carousel feed mechanism provided by embodiments of the present invention;

FIG. 7 is a front view of a capacity testing mechanism provided by an embodiment of the present invention;

FIG. 8 is an enlarged view of a portion of a capacity testing mechanism provided in accordance with an embodiment of the present invention;

FIG. 9 is an enlarged schematic view of a portion of a drive assembly of the switch clamp according to an embodiment of the present invention;

FIG. 10 is an enlarged view of a portion of a first metal block and a second metal block provided in accordance with an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of a rejection mechanism provided in an embodiment of the utility model;

fig. 12 is a schematic structural diagram of a pusher block according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without inventive step based on the embodiments of the present invention, are within the scope of protection of the present invention.

Referring to fig. 1 to 12, an embodiment of the present invention provides a capacitance capacity testing and rejecting machine, which includes an aggregate box 6 for storing defective capacitors, a feeding mechanism 4 for feeding by a rotating disc type feeding mechanism 1, a rotating disc type feeding mechanism 1 for feeding capacitors, a blanking mechanism 5 for blanking by the rotating disc type feeding mechanism 1, a capacity testing mechanism 2 for testing the capacity of capacitors, and a rejecting mechanism 3 for rejecting defective capacitors from the rotating disc type feeding mechanism 1, and the structure and the working principle of each component will be described below.

The feeding mechanism 4, the capacity testing mechanism 2, the rejecting mechanism 3 and the blanking mechanism 5 are sequentially arranged on the side edge of the rotating disc type feeding mechanism 1 along the feeding direction of the rotating disc type feeding mechanism 1, the feeding mechanism 4 is located at the feeding station of the rotating disc type feeding mechanism 1, and the blanking mechanism 5 is arranged at the blanking station of the rotating disc type feeding mechanism 1.

As shown in fig. 3 and 4, the feeding mechanism 4 may include a base 41, side plates 42, second belt wheels 43, third belt wheels 44, a conveying belt 45, and a second rotating motor 46, where the side plates 42 are disposed at the top of the base 41 at intervals, the second belt wheels 43 are disposed between the two side plates 42 in sequence along the length direction of the side plates 42, the third belt wheels 44 are mounted on the output shaft of the second rotating motor 46 and are in transmission connection with each of the second belt wheels 43 through the conveying belt 45, and the top of the side plates 42 is respectively provided with linear ribs 47 for guiding the movement of the capacitors on two sides above the conveying belt 45.

As shown in fig. 5 and 6, the rotating disc type feeding mechanism 1 may include a rotating disc 11, a rotation driving device 12 and a fixed chassis 13, the rotating disc 11 is installed at an output portion of the rotation driving device 12 and is driven to rotate by the rotation driving device 12, a plurality of placing holes 14 penetrating through a power supply container on a side surface of the rotating disc 11 are distributed annularly at an edge of the rotating disc 11, the fixed chassis 13 is fixedly installed on the rotation driving device 12 and is located below the rotating disc 11, an arc-shaped arc flange 15 located at a side edge of the rotating disc 11 is convexly arranged at an edge of the fixed chassis 13, and a discharge port 16 corresponding to the removing mechanism 3 is arranged on the arc flange 15.

Specifically, the rotary drive device 12 may include a first rotary motor 121, a first pulley 122, a timing belt 123, and a cam divider 124, the first pulley 122 is provided with two and is respectively mounted on an output shaft of the first rotary motor 121 and an input portion of the cam divider 124, and the two first pulleys 122 are synchronously connected by the timing belt 123.

As shown in fig. 7, 8, 9 and 10, the capacity testing mechanism 2 includes a support 21, a lifting guide 22, a first metal block 23, a second metal block 24, a lifting base 25, a lifting driving device 26, a translating clamp block 27 and a switch clamp transmission assembly 28, in this embodiment, the lifting driving device 26 is configured as a lifting cylinder, and the switch clamp transmission assembly 28 may include a lifting slider 281, a swing arm 282 and a second spring 283.

The lifting guide seat 22 is longitudinally installed on the front surface of the support 21, the lifting seat 25 is longitudinally and liftably inserted into the lifting guide seat 22, two sides of the upper end of the lifting seat 25 are provided with limit protrusions 251, the lifting slider 281 is longitudinally and vertically slidably inserted into a longitudinal sliding slot of the lifting seat 25, the first springs 29 are located between the top of the lifting seat 25 and a spring limit portion 284 arranged on the side portion of the lifting slider 281, the upper end of the lifting slider 281 is connected with an output shaft of a lifting cylinder installed on the top of the lifting guide seat 22, the lower end of the lifting slider 281 is provided with a V-shaped tip structure, the swing arms 282 are provided with two springs and symmetrically arranged at the lower end of the lifting seat 25, the middle portions of the swing arms 282 are respectively rotatably connected with the lifting seat 25 through transverse rotating shafts 285, the upper ends of the swing arms 282 are respectively provided with first guide wheels 286, two inclined surfaces of the lower end of the lifting slider 281 are respectively contacted with the respective corresponding first guide wheels 286, the second spring 283 is transversely connected between the upper ends of the two swing arms 282, and the lower ends of the swing arms 282 are respectively rotatably connected with the upper ends of the corresponding translation clamping blocks 27.

Translation clamp splice 27 is equipped with two and can install the lower extreme at lift seat 25 with translating, translation clamp splice 27 is bilateral symmetry and arranges, first metal block 23 is equipped with two and installs respectively at translation clamp splice 27 inboard that corresponds separately, the position of first metal block 23 corresponds each other, second metal block 24 is equipped with two and installs respectively at translation clamp splice 27 inboard that corresponds separately, the position of second metal block 24 corresponds each other, in this embodiment, first metal block and second metal block all can set up to the copper billet, first metal block and second metal block all are connected with common capacitance capacity tester on the market, first metal block and second metal block do not contact each other.

As shown in fig. 11, the rejecting mechanism 3 may include a pusher block 31 and a translation cylinder 32, the translation cylinder 32 is horizontally disposed, and the pusher block 31 is mounted on an output shaft of the translation cylinder 32 and is translated by the translation cylinder 32.

Preferably, the material pushing block 31 may include an upper pushing rod 311, a lower pushing rod 312 and a first connecting block 313, the upper pushing rod 311 is in an inverted hook shape, one end of the upper pushing rod 311 is connected with one end of the first connecting block 313, the other end of the upper pushing rod 311 extends to the inner side of the material discharging position of the rotating disc type feeding mechanism 1, the lower pushing rod 312 is installed at the other end of the first connecting block 313 and is arranged at the inner side of the material discharging position of the rotating disc type feeding mechanism 1, the lower pushing rod 312 is located between the rotating disc 11 and the fixed chassis 13 of the rotating disc type feeding mechanism 1, and one end of the first connecting block 313 connected with the upper pushing rod 311 is provided with a sealing block 314 capable of being inserted into the material discharging hole 16 of the fixed chassis 13 of the rotating disc type feeding mechanism 1.

As shown in fig. 5, the blanking mechanism 5 may include a blanking push rod 51 and a swing rod 52, the feeding device comprises a sliding rail 53, a third spring 54 and a cam 55, wherein the cam 55 is installed at the other output part of a cam divider 124 of the turntable type feeding mechanism 1, a swing rod 52 is located on the side edge of the cam 55, the lower end of the swing rod 52 is rotatably connected with a shell of the cam divider 55, a second guide wheel 56 which is in contact with the cam 55 is arranged in the middle of the swing rod 52, the sliding rail 53 is horizontally and translationally installed on the shell of the cam divider 124 through a sliding block, one end of the sliding rail 53 is rotatably connected with the upper end of the swing rod 52, one end of a blanking push rod 51 is connected with the other end of the sliding rail 53 through a second connecting block 57, the other end of the blanking push rod 51 extends to the inner side of a discharging part of the turntable type feeding mechanism 1, the third spring 54 is horizontally arranged, one end of the third spring 54 is connected with the upper end of the swing rod 52, and the other end of the third spring 54 is connected with a spring connecting block arranged on the shell of the cam divider 124.

As shown in fig. 2, the magazine 6 is disposed on the lower side of the removing mechanism.

When the device works, a capacitor enters the feeding end of a conveying belt of the feeding mechanism and is conveyed to the discharging end of the feeding mechanism by the conveying belt, the rotary driving device drives the rotary table to rotate, a placing hole of the rotary table is aligned to the discharging end of the feeding mechanism, the capacitor enters the rotary table, the rotary table rotates and transfers the capacitor to a capacity testing station, a rejecting station and a discharging station in sequence, when the rotary table transfers the capacitor to the capacity testing station, the lifting cylinder drives the lifting slide block to descend, at the moment, the first spring is in a normal state, the lifting seat descends, the translation clamping block descends to two sides of a lead wire of the capacitor, after the lifting seat descends in place, the limiting bulge of the lifting seat contacts with the top of the lifting guide seat, the lifting seat cannot descend continuously, the lifting slide block descends (at the moment, the first spring is compressed), two inclined planes at the lower end of the lifting slide block are respectively in contact with the corresponding first guide wheels, the two swing arms are enabled to swing outwards, the two translation clamping blocks are enabled to be close to each other, one lead of the capacitor is clamped by the two first metal blocks from two sides, the other lead of the capacitor is clamped by the two second metal blocks from two sides, at the moment, the capacity of the capacitor is detected by the capacity detector, after the detection is completed, the capacity information of the capacitor can be obtained by the capacity detector, then the capacitor is transferred to a rejection station, if the capacity of the capacitor is qualified, the translation cylinder is kept still, if the capacity of the capacitor is unqualified, the translation cylinder drives the pushing block to translate in the direction far away from the turntable, meanwhile, the sealing block of the pushing block can be moved out from a discharge port of the fixed chassis, the pushing block pushes the capacitor into the aggregate box, the qualified capacitor continues to be transferred to a blanking station, and the blanking push rod pushes the capacitor out.

It should be noted here that each cylinder and each motor of this embodiment can all be connected with common controlgear on the market at present through electric wire and computer, control panel, switch board etc. this embodiment does not relate to controlgear's institutional advancement, no longer give details here, simultaneously, the electric capacity tester that is connected with the metal block can be connected with controlgear, controlgear judges whether electric capacity is the defective products through every test result that obtains electric capacity tester, if the defective products just control the translation cylinder and drive the translation of ejector pad, make the ejector pad reject the defective products, just keep the translation cylinder motionless if the defective products.

In conclusion, the capacitor capacity automatic detection device is simple and novel in structure and reasonable in design, can assist in achieving capacity automatic detection of the capacitor and automatic defective product elimination operation, is high in automation degree, replaces manual operation, improves production efficiency, and can meet the large-scale production requirements of enterprises.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such modifications are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a machine is rejected in electric capacity test which characterized in that: the capacity testing device comprises a rotary disc type feeding mechanism (1) for feeding the capacitors, a capacity testing mechanism (2) for carrying out capacity testing on the capacitors and a rejecting mechanism (3) for rejecting defective products from the rotary disc type feeding mechanism (1), wherein the capacity testing mechanism (2) and the rejecting mechanism (3) are sequentially arranged on the side edge of the rotary disc type feeding mechanism (1) along the feeding direction of the rotary disc type feeding mechanism (1), the capacity testing mechanism (2) comprises a support (21), a lifting guide seat (22), a first metal block (23), a second metal block (24), a lifting seat (25), a lifting driving device (26), a translation clamping block (27) and a switch clamp transmission assembly (28), the lifting guide seat (22) is longitudinally arranged on the front surface of the support (21), and the lifting seat (25) is longitudinally and liftably arranged on the lifting guide seat (22) in a penetrating manner, the lifting mechanism is characterized in that limiting protrusions (251) are arranged on two sides of the upper end of the lifting seat (25), the switch clamp transmission assembly (28) is installed on the lifting seat (25), the lifting driving device (26) is installed at the top of the lifting guide seat (22) and is in transmission connection with the lifting part of the switch clamp transmission assembly (28), longitudinal first springs (29) are arranged between the top end of the lifting seat (25) and the lifting part of the switch clamp transmission assembly (28), the translation clamping blocks (27) are provided with two parts and can be installed at the lower end of the lifting seat (25) in a translation mode, the translation clamping blocks (27) are arranged in bilateral symmetry mode, the first metal blocks (23) are provided with two parts and are installed on the inner sides of the corresponding translation clamping blocks (27), the positions of the first metal blocks (23) correspond to each other, the second metal blocks (24) are provided with two parts and are installed on the inner sides of the corresponding translation clamping blocks (27) respectively, the positions of the second metal blocks (24) correspond to each other.

2. The capacitance capacity testing and removing machine as claimed in claim 1, wherein: the switch clamp transmission assembly (28) comprises a lifting slide block (281), a swing arm (282) and a second spring (283), the lifting slide block (281) is longitudinally and vertically slidably arranged on a longitudinal sliding groove of the lifting seat (25), the first spring (29) is positioned between the top of the lifting seat (25) and a spring limiting part (284) arranged on the side part of the lifting slide block (281), the upper end of the lifting slide block (281) is connected with a lifting driving device (26), the lower end of the lifting slide block (281) is of a V-shaped pointed structure, the swing arm (282) is provided with two parts and symmetrically arranged at the lower end of the lifting seat (25), the middle part of the swing arm (282) is respectively and rotatably connected with the lifting seat (25) through a transverse rotating shaft (285), the upper end of the swing arm (282) is respectively provided with a first guide wheel (286), two inclined surfaces at the lower end of the lifting slide block (281) are respectively contacted with the respective corresponding first guide wheels (286), the second spring (283) is transversely connected between the upper ends of the two swing arms (282), and the lower ends of the swing arms (282) are respectively and rotatably connected with the upper ends of the corresponding translation clamping blocks (27).

3. The capacitance capacity testing and removing machine as claimed in claim 1, wherein: carousel formula feeding mechanism (1) is including carousel (11), rotary drive device (12) and fixed chassis (13), carousel (11) are installed and are driven rotatoryly by rotary drive device (12) at the output position of rotary drive device (12), the marginal annular distribution of carousel (11) has a plurality of to run through the confession electric capacity of its side and place hole (14), fixed chassis (13) fixed mounting just is located carousel (11) below on rotary drive device (12), the protruding curved circular arc flange (15) that are located carousel (11) side that are equipped with in edge of fixed chassis (13), be equipped with corresponding discharge gate (16) of position and rejection mechanism (3) on circular arc flange (15).

4. The capacitance capacity testing and removing machine as claimed in claim 3, wherein: the rotary driving device (12) comprises a first rotary motor (121), a first belt wheel (122), a synchronous belt (123) and a cam divider (124), wherein the first belt wheel (122) is provided with two belt wheels which are respectively arranged at an output shaft of the first rotary motor (121) and an input part of the cam divider (124), and the two first belt wheels (122) are synchronously connected through the synchronous belt (123).

5. The capacitance capacity testing and removing machine as claimed in claim 1, wherein: the removing mechanism (3) comprises a pushing block (31) and a translation cylinder (32), the translation cylinder (32) is horizontally arranged, the pushing block (31) is installed on an output shaft of the translation cylinder (32) and is driven by the translation cylinder (32) to translate, and the pushing part of the pushing block (31) extends to the inner side of the discharging part of the rotating disc type feeding mechanism (1).

6. The capacitance capacity testing and removing machine as claimed in claim 5, wherein: the material pushing block (31) comprises an upper push rod (311), a lower push rod (312) and a first connecting block (313), the upper push rod (311) is in a reverse hook shape, one end of the upper push rod (311) is connected with one end of the first connecting block (313), the other end of the upper push rod (311) extends to the inner side of the discharging position of the rotating disc type feeding mechanism (1), the other end of the first connecting block (313) is installed on the lower push rod (312) and is arranged on the inner side of the discharging position of the rotating disc type feeding mechanism (1), the lower push rod (312) is located between a rotating disc (11) and a fixed chassis (13) of the rotating disc type feeding mechanism (1), and a sealing block (314) capable of being inserted into a discharging port (16) of the fixed chassis (13) of the rotating disc type feeding mechanism (1) is arranged at one end of the first connecting block (313) and the upper push rod (311).

7. The capacitance capacity testing and removing machine as claimed in claim 1, wherein: the automatic feeding device is characterized by further comprising a feeding mechanism (4) used for feeding the rotating disc type feeding mechanism (1), wherein the feeding mechanism (4) is located at a feeding station of the rotating disc type feeding mechanism (1).

8. The capacitance capacity testing and removing machine as claimed in claim 7, wherein: feeding mechanism (4) include base (41), curb plate (42), second band pulley (43), third band pulley (44), conveyer belt (45) and second rotating electrical machines (46), curb plate (42) are equipped with two and interval arrangement in base (41) top, second band pulley (43) are equipped with a plurality of and arrange in proper order between two curb plates (42) along the length direction of curb plate (42), third band pulley (44) are installed on the output shaft of second rotating electrical machines (46) and are connected with every second band pulley (43) transmission through conveyer belt (45), the top of curb plate (42) is equipped with respectively and is located conveyer belt (45) top both sides and is used for electric capacity removal direction straight line flange (47).

9. The capacitance testing and removing machine according to claim 1, characterized in that: still including unloading mechanism (5) that are used for carousel formula feeding mechanism (1) unloading, unloading mechanism (5) arrange in the unloading station of carousel formula feeding mechanism (1).

10. The capacitance capacity testing and removing machine as claimed in claim 9, wherein: the blanking mechanism (5) comprises a blanking push rod (51), a swing rod (52), a sliding rail (53), a third spring (54) and a cam (55), the cam (55) is installed at the other output part of a cam divider (124) of the rotating disc type feeding mechanism (1), the swing rod (52) is located on the side edge of the cam (55), the lower end of the swing rod (52) is rotatably connected with a shell of the cam divider (124), a second guide wheel (56) which is in contact with the cam (55) is arranged in the middle of the swing rod (52), the sliding rail (53) is horizontally and translationally installed on the shell of the cam divider (124) through a sliding block, one end of the sliding rail (53) is rotatably connected with the upper end of the swing rod (52), one end of the blanking push rod (51) is connected with the other end of the sliding rail (53) through a second connecting block (57), and the other end of the blanking push rod (51) extends to the inner side of the discharging part of the rotating disc type feeding mechanism (1), the third spring (54) is horizontally arranged, one end of the third spring (54) is connected with the upper end of the swing rod (52), and the other end of the third spring (54) is connected to a spring connecting block arranged on a shell of the cam divider (124).

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