CN210735581U - Automatic chip stacking and stringing mechanism for resin slices - Google Patents

Abstract

The utility model relates to a string mechanism is worn to automatic chip of resin section, including boom gyration circulation carousel, aluminium layer board storage carousel, spring cap storage carousel, spring gland mechanism and conveying mechanism set gradually in the outside of boom gyration circulation carousel along boom gyration circulation carousel rotation direction, the circumference outside equipartition of boom gyration circulation carousel has five half slots of being no less than, the half slot forms the work position, the work position is by a chip cluster dress station, the station is placed to a spring cap, the fixed station of a spring cap, a play string station and a plurality of boom place the station and constitute, the activity is provided with the emery wheel boom on every work position, emery wheel boom upper end is provided with the location pinhole. The utility model aims at providing an automatic chip stringing mechanism for resin slicing, aiming at solving the problems of low automation degree, many operators and high labor intensity in the process of resin slicing production.

Description

Automatic chip stacking and stringing mechanism for resin slices

Technical Field

The utility model relates to a emery wheel moulding-die technical field especially relates to an automatic chip of resin section wears string mechanism.

Background

Before the semi-finished grinding wheel is hardened, a stacking process is carried out, a plurality of grinding wheel blanks and aluminum partition plates are required to be serially arranged on a string rod, the grinding wheels are separated by the partition plates, a spring gland is arranged at the end part of the string rod and is fixed by a positioning pin, then the grinding wheels are serially arranged on a furnace car and are sent into a hardening furnace to be hardened, and the purposes of saving the space of the furnace, preventing the grinding wheel from being distorted and deformed when being hardened and ensuring the flatness of the grinding wheel are achieved. Most grinding wheel manufacturers at present complete the stacking of semi-finished grinding wheel products in a manual stacking mode, each skilled stacking worker can only stack about 7500 grinding wheel sheets every day, the stacking efficiency is low, the labor cost is high, errors such as missing or multi-iron spacer nets are prone to occurring due to the fact that the number of the grinding wheel sheets is different during manual stacking, and therefore the difficulty of production process management and technological process control is increased.

The prior patent application No. CN107720295A, filed as 2017.11.10, discloses an automatic grinding wheel stacking machine. The automatic feeding device is provided with a base and a cross rod, wherein the cross rod is connected to the base through a support column, a feeding device is arranged on the base, a distributing device is correspondingly arranged above the feeding device, and the distributing device is arranged on the cross rod in a sliding mode. The stacking machine is simple in structure, safe and reliable, labor is saved, each device can replace the workload of 3-4 stacking workers, the stacking machine is practical and efficient, and the production cost is greatly reduced; the invention operates according to the preset program, effectively avoids the phenomena of uneven number of each chip, leakage and multi-discharge iron screen and the like when manual stacking occurs, and is beneficial to the management of the production process and the control of the technological process.

However, the automatic grinding wheel stacking machine is low in automation efficiency, and the production requirements can be met in the actual production.

Disclosure of Invention

The utility model aims at providing an automatic chip stringing mechanism for resin slicing, aiming at solving the problems of low automation degree, many operators and high labor intensity in the process of resin slicing production.

In order to achieve the above object, the utility model adopts the following technical scheme:

an automatic stacking and stringing mechanism for resin slices comprises a stringing rod rotary circulating turntable, an aluminum supporting plate storage turntable, a spring cover pressing mechanism and a conveying mechanism, the string rod rotary circulating rotary table is arranged on one side of the large rotary table of the unit through a rotary intermittent mechanism, the aluminum supporting plate storage rotary table, the spring cover pressing mechanism and the conveying mechanism are sequentially arranged on the outer side of the string rod rotary circulating rotary table along the rotary direction of the string rod rotary circulating rotary table, at least five semicircular grooves are uniformly distributed on the outer side of the circumference of the serial rod rotary circulating turntable, the semicircular grooves form working positions, the working position consists of a stacking and stringing station, a spring cover placing station, a spring cover fixing station, a stringing-out station and a plurality of stringing rod placing stations, each working position is movably provided with a grinding wheel stringing rod, and the upper end of each grinding wheel stringing rod is provided with a positioning pin hole;

a string-loading lifting device is arranged below the chip string-loading station, the two sides of the chip string-loading station are respectively a die unloading position of the unit large turntable and an aluminum support plate picking position of the aluminum support plate storage turntable, the centers of the chip string-loading station, the die unloading position of the unit large turntable and the aluminum support plate picking position of the aluminum support plate storage turntable are positioned in the same straight line, the aluminum support plate storage turntable is arranged on the outer side of the string rod rotary circulating turntable through a rotation intermittent mechanism, an aluminum support plate lifting device is arranged below the aluminum support plate picking position of the aluminum support plate storage turntable, and a grinding wheel aluminum support plate picking mechanism is arranged above the chip string-loading station;

a spring cover storage turntable is arranged on the outer side of the spring cover placing station through a rotating intermittent mechanism, a spring cover lifting device is arranged below the spring cover storage turntable, and a spring cover picking mechanism is arranged above the spring cover placing station;

a spring cover fixing mechanism is arranged above the spring cover fixing station, a positioning pin supplying mechanism and a positioning pin penetrating mechanism are arranged on one side of the spring cover fixing station, and the positioning pin penetrating mechanism is positioned below the positioning pin supplying mechanism;

and a conveying mechanism is arranged outside the cluster outlet station, and a grinding wheel cluster pushing-out mechanism is arranged on one side of the cluster outlet station, which is far away from the conveying mechanism.

Further, the tandem-mounting lifting device, the aluminum tray lifting device and the spring cover lifting device are all ball screw mechanisms driven by servo motors.

Furthermore, the grinding wheel aluminum supporting plate picking mechanism comprises a transverse moving mechanism, a lifting mechanism, a grinding wheel picking head and an aluminum supporting plate picking head, wherein the grinding wheel picking head and the aluminum supporting plate picking head are both negative pressure sucker mechanisms.

Furthermore, a plurality of aluminum supporting plate positioning shafts for serially mounting the aluminum supporting plates are arranged on the aluminum supporting plate storage turntable in a circumferential array mode.

Further, the spring cover picking mechanism comprises a transverse moving mechanism, a lifting mechanism and a spring cover picking head, and the spring cover picking head is an electromagnet mechanism.

Furthermore, a plurality of spring cover positioning shafts used for serially mounting spring covers are arranged on the spring cover storage turntable in a circumferential array mode.

Further, spring cap fixed establishment includes elevating system and spring cap fixed head, spring cap fixed head is hollow cylinder shape, and one side that spring cap fixed head held close locating pin supply mechanism is provided with the opening radially.

Furthermore, the positioning pin supply mechanism is an L-shaped shell with openings at two ends, the positioning pin penetrating mechanism is an air cylinder, and a telescopic shaft of the positioning pin penetrating mechanism is arranged corresponding to the horizontal section of the positioning pin supply mechanism.

Further, the conveying mechanism is a roller conveyor, and the upper surface of the roller conveyor is flush with the upper surface of the string rod rotary circulating turntable.

Furthermore, the grinding wheel string pushing mechanism is an air cylinder, the air cylinder is fixedly arranged on a fixed seat at the center of the string rod rotary circulating turntable, and a telescopic shaft of the grinding wheel string pushing mechanism corresponds to the conveying mechanism.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model discloses a cluster pole gyration circulation carousel's the circumference outside has set gradually a chip cluster dress station, the station is placed to a spring lid, a spring lid fixed station, a cluster station and a plurality of cluster pole place the station, every station is accomplished by the mechanism is automatic during production, with multi-disc emery wheel body and aluminium layer board cluster dress on a cluster pole, make and separate by the aluminium layer board between the emery wheel, cluster pole tip is equipped with the spring lid and fixes with the locating pin, later place the emery wheel cluster on the stove car, send into the sclerosis stove sclerosis, the size change that warp and bring through spring force compensation emery wheel sclerosis shrink when avoiding the emery wheel sclerosis, make the emery wheel cluster remain throughout and compress tightly the state in the sclerosis process. The device can automate the action, reduce the number of operators and reduce the labor intensity.

Drawings

Fig. 1 is a schematic structural view of the automatic stacking and stringing mechanism for resin slices of the present invention.

Fig. 2 is a sectional view of a-a in fig. 1 of the automatic stacking and stringing mechanism for resin slices of the present invention.

Fig. 3 is a cross-sectional view of the automatic stacking and stringing mechanism for resin slices at B-B in fig. 1.

Fig. 4 is a cross-sectional view at C-C in fig. 1 of the automatic stacking and stringing mechanism for resin slices of the present invention.

Fig. 5 is a cross-sectional view taken at D-D in fig. 1 of the automatic stacking and stringing mechanism for resin slices of the present invention.

Fig. 6 is a schematic structural diagram of a positioning pin supplying mechanism of the automatic stacking, stringing and grinding mechanism for resin slices of the present invention.

Fig. 7 is a schematic structural view of a grinding wheel string rod of the automatic stacking and stringing mechanism for resin slices of the present invention.

The reference numbers in the drawings are as follows: the device comprises a string rod rotating and circulating turntable 1, an aluminum supporting plate storage turntable 2, a spring cover storage turntable 3, a spring cover pressing mechanism 4, a conveying mechanism 5, a unit large turntable 6, a string assembly lifting device 7, an aluminum tray lifting device 8, a grinding wheel aluminum supporting plate picking mechanism 9, a spring cover lifting device 10, a spring cover picking mechanism 11, a spring cover fixing mechanism 12, a positioning pin supplying mechanism 13, a positioning pin penetrating mechanism 14, a grinding wheel string pushing mechanism 15, a grinding wheel picking head 16, an aluminum supporting plate picking head 17, an aluminum supporting plate positioning shaft 18, a spring cover picking head 19, a spring cover positioning shaft 20, a spring cover fixing head 21 and a grinding wheel string rod 22.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description below:

as shown in fig. 1-7, an automatic chip stringing and stringing mechanism for resin slices comprises a string rod rotary circulation turntable 1, an aluminum supporting plate storage turntable 2, a spring cover storage turntable 3, a spring gland mechanism 4 and a conveying mechanism 5, wherein the string rod rotary circulation turntable 1 is arranged on one side of a large turntable 6 of a unit through a rotation intermittent mechanism, the aluminum supporting plate storage turntable 2, the spring cover storage turntable 3, the spring gland mechanism 4 and the conveying mechanism 5 are sequentially arranged on the outer side of the string rod rotary circulation turntable 1 along the rotation direction of the string rod rotary circulation turntable 1, at least five semicircular grooves are uniformly distributed on the outer side of the circumference of the string rod rotary circulation turntable 1, the semicircular grooves form a working position, the working position consists of a chip stringing and assembling station, a spring cover placing station, a spring cover fixing station, a string discharging station and a plurality of string rod placing stations, each working position is movably provided with a grinding wheel string rod 22, and the upper end of the grinding wheel string rod 22 is provided with a positioning pin hole;

a string-loading lifting device 7 is arranged below the chip string-loading station, the two sides of the chip string-loading station are respectively a die unloading position of the unit large turntable 6 and an aluminum support plate picking position of the aluminum support plate storage turntable 2, the centers of the die unloading position of the chip string-loading station, the die unloading position of the unit large turntable 6 and the aluminum support plate picking position of the aluminum support plate storage turntable 2 are positioned in the same straight line, the aluminum support plate storage turntable 2 is arranged on the outer side of the string rod rotary circulating turntable 1 through a rotation intermittent mechanism, an aluminum support plate lifting device 8 is arranged below the aluminum support plate picking position of the aluminum support plate storage turntable 2, and a grinding wheel aluminum support plate picking mechanism 9 is arranged above the chip string-loading station;

a spring cover storage rotary table 3 is arranged on the outer side of the spring cover placing station through a rotating intermittent mechanism, a spring cover lifting device 10 is arranged below the spring cover storage rotary table 3, and a spring cover picking mechanism 11 is arranged above the spring cover placing station;

a spring cover fixing mechanism 12 is arranged above the spring cover fixing station, a positioning pin supplying mechanism 13 and a positioning pin penetrating mechanism 14 are arranged on one side of the spring cover fixing station, and the positioning pin penetrating mechanism 14 is positioned below the positioning pin supplying mechanism 13;

the conveying mechanism 5 is arranged on the outer side of the cluster outlet station, and the grinding wheel cluster pushing-out mechanism 15 is arranged on one side, far away from the conveying mechanism 5, of the cluster outlet station.

The tandem-mounted lifting device 7, the aluminum tray lifting device 8 and the spring cover lifting device 10 are all ball screw mechanisms driven by servo motors.

The grinding wheel aluminum supporting plate picking mechanism 9 comprises a transverse moving mechanism, a lifting mechanism, a grinding wheel picking head 16 and an aluminum supporting plate picking head 17, wherein the grinding wheel picking head 16 and the aluminum supporting plate picking head 17 are both negative pressure sucker mechanisms.

The aluminum supporting plate storage turntable 2 is circumferentially provided with a plurality of aluminum supporting plate positioning shafts 18 for serially mounting aluminum supporting plates in an array manner.

The spring cover picking mechanism 11 comprises a transverse moving mechanism, a lifting mechanism and a spring cover picking head 19, and the spring cover picking head 19 is an electromagnet mechanism.

The spring cover storage turntable 3 is provided with a plurality of spring cover positioning shafts 20 for serially mounting spring covers in a circumferential array.

The spring cover fixing mechanism 12 comprises a lifting mechanism and a spring cover fixing head 21, the spring cover fixing head 21 is in a hollow cylindrical shape, and an opening is radially formed in one side, close to the positioning pin supply mechanism 13, of the spring cover fixing head 21.

The positioning pin supply mechanism 13 is an L-shaped shell with openings at two ends, the positioning pin penetrating mechanism 14 is an air cylinder, and a telescopic shaft of the positioning pin penetrating mechanism 14 is arranged corresponding to the horizontal section of the positioning pin supply mechanism 13.

The conveying mechanism 5 is a roller conveyor, and the upper surface of the roller conveyor is flush with the upper surface of the string rod rotary circulating turntable 1.

The grinding wheel string pushing-out mechanism 15 is an air cylinder, the air cylinder is fixedly arranged on a fixed seat at the center of the string rod rotary circulating turntable 1, and a telescopic shaft of the grinding wheel string pushing-out mechanism 15 corresponds to the conveying mechanism 5.

In this embodiment, the string rod rotating circulating turntable 1 carries the grinding wheel string rod to circulate among the stations to complete the actions of the stations, and the stack of a string of grinding wheels can be assembled in series when one station is rotated. The tandem rotary circulating turntable 1 is provided with six stations, is supported by a turntable bearing with an external gear ring, is driven by an intermittent mechanism (a dividing head or a servo motor) -gear pair to realize intermittent transposition, and is secondarily positioned by a pneumatic positioning pin to ensure the positioning precision. The turntable bearing structure can ensure that the fixed support is positioned in the center of the string rod rotary circulating turntable 1, and is convenient for mounting other devices.

Each working position of the string rod rotary circulating turntable 1 is a semicircular groove with an opening at the outer part, and a directional pin is arranged along the radius direction of the string rod rotary circulating turntable 1. The semicircular groove is matched with the base of the steel grinding wheel string rod 22 for centering, and the directional pin is matched with the semicircular groove of the base of the grinding wheel string rod 22, so that the axial line of the positioning pin hole at the upper end of the grinding wheel string rod 22 points to the radial direction of the string rod rotary circulation turntable 1, and the pin can be automatically inserted. Permanent magnets are embedded in the positioning end faces of the string rod rotary circulating turntable 1, the grinding wheel string rods 22 can be fixed, and the outer sides of the semicircular groove for positioning the turntable are provided with openings, so that the grinding wheel string rods 22 can be pushed out outwards along the radial direction of the turntable.

A series-mounted lifting device 7 driven by a servo motor and a ball screw is arranged below the stacking series-mounted station and used for bearing the aluminum supporting plate and the grinding wheel, and automatically and intermittently shifts downwards along with the increase of the series-mounted number to ensure that the release upper position is unchanged.

The aluminum supporting plate storage turntable 2 is a four-station rotary circulating device driven by an intermittent mechanism (a dividing head or a servo motor), an aluminum supporting plate positioning shaft 18 is vertically arranged on each station of the aluminum supporting plate storage turntable 2, and a plurality of aluminum supporting plates are movably sleeved on the aluminum supporting plate positioning shaft 18.

An aluminum tray lifting device 8 driven by a servo motor and a ball screw is arranged below the aluminum tray picking position of the aluminum tray storage turntable 2 and used for conveying the uppermost aluminum tray to a picking height and automatically and intermittently shifting upwards along with the reduction of the number of the aluminum trays, so that the picking position is ensured to be unchanged.

The spring cover storage rotary disc 3 is a six-station rotary circulating device driven by an intermittent mechanism (dividing head or servo motor), a spring cover positioning shaft 20 is vertically arranged on each station of the spring cover storage rotary disc 3, and a plurality of spring covers are movably sleeved on the spring cover positioning shafts 20.

A spring cover lifting device 10 driven by a servo motor and a ball screw is arranged below the spring cover storage turntable 3 and used for conveying the spring cover on the uppermost layer to a picking height, and automatically and intermittently moving upwards along with the reduction of the number of the spring covers, so that the picking position is not changed.

The grinding wheel picking head 16 and the aluminum pallet picking head 17 of the grinding wheel aluminum pallet picking mechanism 9 are mounted on the same horizontal sliding block, and the horizontal sliding block is driven by a horizontal cylinder, so that the grinding wheel picking head 16 and the aluminum pallet picking head 17 circularly reciprocate between a mould unloading position, a chip stringing and assembling station and an aluminum pallet picking position.

The spring cap picking head 19 driven by the electromagnet of the spring cap picking mechanism 11 is driven by the lifting cylinder to move up and down.

The string rod rotary circulating turntable 1 is rotated to send the grinding wheel string rod 22 into a stacking and stringing station, the stringing lifting device 7 is lifted to receive the aluminum supporting plate and the grinding wheel, meanwhile, the aluminum tray lifting device 8 is lifted to send the uppermost layer of the aluminum supporting plate to a picking height, and the aluminum supporting plate picking head 17 is positioned above the picking position.

The aluminum supporting plate picking head 17 descends, starts negative pressure and returns upwards to pick up an aluminum supporting plate, the aluminum supporting plate horizontally moves to the stacking and stringing station, the aluminum supporting plate picking head 17 descends, the aluminum supporting plate is sleeved on the stringing rod and is supported by the stringing lifting device 7. Meanwhile, the grinding wheel picking head 16 moves downwards, negative pressure is started, the grinding wheel ejected by the die unloading mechanism of the large turntable 6 of the unit is picked, the aluminum supporting plate picking head 17 is moved to the aluminum supporting plate picking position by horizontal movement, the grinding wheel picking head 16 is moved to the chip serial assembly station, and the grinding wheel is sleeved on the grinding wheel serial rod 22. The tandem lifting device 7 falls for a short distance to ensure that the release height is unchanged, and the aluminum tray lifting device 8 pushes up for a distance to ensure that the picking position is unchanged.

The above circulation enables the grinding wheels and the aluminum trays to be overlapped and serially arranged until one grinding wheel serial rod 22 is serially arranged, and the serially arranged lifting mechanism returns. The string rod rotary circulating turntable 1 rotates for one station, and the string rod 22 of the grinding wheel after being stringed is sent to a spring cover placing station.

The spring cover lifting device 10 jacks up to send the spring cover to the picking height, the spring cover picking head 19 moves downwards, the electromagnet is started and then moves upwards to pick the spring cover, the spring cover horizontally moves to the spring cover placing station, the spring cover picking head 19 moves downwards, and the spring cover is sleeved above the uppermost layer of aluminum supporting plate of the grinding wheel string rod 22 and then returns.

The string rod rotary circulating turntable 1 rotates to send the grinding wheel string rod 22 into the spring cover fixing station. The spring cover fixing head 21 descends, meanwhile, the positioning pin penetrates through the telescopic shaft of the mechanism 14 and is pushed out, the positioning pin at the bottommost part of the positioning pin supply mechanism 13 is sent into the pin hole at the upper end of the grinding wheel string rod 22, the positioning pin penetrates through the telescopic shaft of the mechanism 14 and returns, and the positioning pin automatically falls down to supplement the position.

The string rod rotary circulating turntable 1 rotates to send the grinding wheel string rod 22 into a string outlet station, the telescopic shaft of the grinding wheel string pushing mechanism 15 which is horizontally arranged in the radial direction is pushed out, the grinding wheel string rod 22 is pushed to the conveying mechanism 5 in an end-to-end connection mode, and charging is waited.

And (4) loading the grinding wheel string rod 22 on the string rod placing station, and waiting for the station of the next period.

In addition to the technical features described in the specification, the technology is known to those skilled in the art.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (10)

1. The utility model provides a string mechanism is worn to automatic chip of resin section, includes boom gyration circulation carousel (1), aluminium layer board storage carousel (2), spring cap storage carousel (3), spring gland mechanism (4) and conveying mechanism (5), boom gyration circulation carousel (1) sets up in one side of unit carousel (6) through rotating intermittent type mechanism, aluminium layer board storage carousel (2), spring cap storage carousel (3), spring gland mechanism (4) and conveying mechanism (5) set gradually in the outside of boom gyration circulation carousel (1) along boom gyration circulation carousel (1) rotation direction, its characterized in that, the circumference outside equipartition of boom gyration circulation carousel (1) has five half slots, the half slot forms the work position, the work position is placed the station by a chip cluster dress station, a spring cap and is no less than, The spring cover fixing station, the stringing station and the stringing rod placing stations are formed, a grinding wheel stringing rod (22) is movably arranged on each working station, and a positioning pin hole is formed in the upper end of each grinding wheel stringing rod (22);

a tandem lifting device (7) is arranged below the stacking serial station, the two sides of the stacking serial station are respectively a die unloading position of the unit large turntable (6) and an aluminum support plate picking position of the aluminum support plate storage turntable (2), the centers of the die unloading position of the stacking serial station, the die unloading position of the unit large turntable (6) and the aluminum support plate picking position of the aluminum support plate storage turntable (2) are positioned in the same straight line, the aluminum support plate storage turntable (2) is arranged on the outer side of the tandem rotary circulating turntable (1) through a rotating intermittent mechanism, an aluminum support plate lifting device (8) is arranged below the aluminum support plate picking position of the aluminum support plate storage turntable (2), and a grinding wheel aluminum support plate picking mechanism (9) is arranged above the stacking serial station;

a spring cover storage rotary table (3) is arranged on the outer side of the spring cover placing station through a rotating intermittent mechanism, a spring cover lifting device (10) is arranged below the spring cover storage rotary table (3), and a spring cover picking mechanism (11) is arranged above the spring cover placing station;

a spring cover fixing mechanism (12) is arranged above the spring cover fixing station, a positioning pin supplying mechanism (13) and a positioning pin penetrating mechanism (14) are arranged on one side of the spring cover fixing station, and the positioning pin penetrating mechanism (14) is positioned below the positioning pin supplying mechanism (13);

and a conveying mechanism (5) is arranged outside the cluster outlet station, and a grinding wheel cluster pushing-out mechanism (15) is arranged on one side of the cluster outlet station, which is far away from the conveying mechanism (5).

2. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein the stringing and lifting device (7), the aluminum tray lifting device (8) and the spring cover lifting device (10) are all ball screw mechanisms driven by servo motors.

3. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein the grinding wheel aluminum pallet picking mechanism (9) comprises a traversing mechanism, a lifting mechanism, a grinding wheel picking head (16) and an aluminum pallet picking head (17), and the grinding wheel picking head (16) and the aluminum pallet picking head (17) are both negative pressure sucker mechanisms.

4. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein a plurality of aluminum pallet positioning shafts (18) for stringing aluminum pallets are arranged on the aluminum pallet storage turntable (2) in a circumferential array.

5. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein the spring cover picking mechanism (11) comprises a traversing mechanism, a lifting mechanism and a spring cover picking head (19), and the spring cover picking head (19) is an electromagnet mechanism.

6. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein a plurality of spring cover positioning shafts (20) for serially mounting spring covers are arranged on the spring cover storage turntable (3) in a circumferential array.

7. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein the spring cover fixing mechanism (12) comprises a lifting mechanism and a spring cover fixing head (21), the spring cover fixing head (21) is hollow cylindrical, and an opening is radially arranged on one side of the spring cover fixing head (21) close to the positioning pin supplying mechanism (13).

8. The automatic chip stacking and stringing mechanism for resin slices as claimed in claim 1, wherein the positioning pin supply mechanism (13) is an "L" shaped housing with two open ends, the positioning pin penetrating mechanism (14) is a cylinder, and a telescopic shaft of the positioning pin penetrating mechanism (14) is arranged corresponding to a horizontal section of the positioning pin supply mechanism (13).

9. The automatic resin slice stacking and stringing mechanism as claimed in claim 1, wherein the conveying mechanism (5) is a roller conveyor, and the upper surface of the roller conveyor is flush with the upper surface of the boom rotating circulating turntable (1).

10. The automatic resin slice stacking and stringing mechanism as claimed in claim 9, wherein the grinding wheel string pushing-out mechanism (15) is a cylinder, the cylinder is fixedly arranged on a fixed seat at the center of the boom rotating and circulating turntable (1), and a telescopic shaft of the grinding wheel string pushing-out mechanism (15) corresponds to the conveying mechanism (5).

Images