CN218426701U - Quick equipment shell fragment machine of lock pin - Google Patents

Abstract

The utility model discloses a quick assembling and ejecting machine for inserting core, relating to the technical field of inserting core production and processing, comprising a frame, wherein the upper surface of the frame is provided with an ejecting sheet material belt reel, a vibrating disc, an inserting core rotary table and an inserting core ejecting sheet assembling mechanism in sequence; an elastic sheet material belt guide groove is arranged between the elastic sheet material belt reel and the insertion core elastic sheet assembling mechanism, and the insertion core elastic sheet assembling mechanism comprises an air cylinder and an elastic sheet assembling knife connected with the air cylinder; a ferrule guide groove is arranged between the vibrating disc and the ferrule rotary table, a ferrule limit stop block for preventing the ferrule from deviating is arranged at the tail end of the ferrule guide groove, and a plurality of ferrule positioning grooves are arranged at the edge of the ferrule rotary table corresponding to the distance between the elastic sheet material bands; and a finished product blanking area and a waste material belt cutting mechanism are sequentially arranged behind the station of the inserting core elastic sheet assembling mechanism. The utility model discloses the quick equipment pellet shot machine of lock pin production efficiency is fast, product cost is low and the product assembly qualification rate is high.

Description

Quick equipment shell fragment machine of lock pin

Technical Field

The utility model relates to a lock pin production and processing technology field especially relates to a quick equipment shell fragment machine of lock pin.

Background

The shell spring machine is used for assembling the inserting core on the heavy-load connector, and the single inserting core is installed on the heavy-load connector, so that the heavy-load connector and the inserting core are combined.

However, when the heavy-load connector and the ferrule are assembled by the conventional plug core assembling and ejecting machine, the common assembling mode is manual assembling or semi-automatic assembling, automatic feeding is realized in cooperation with each component due to the incapability of realizing, the production efficiency of the ejecting machine is low due to the fact that manual feeding of workers is needed, and errors are easy to occur when the heavy-load connector and the ferrule are assembled due to the fact that large errors exist between the manual feeding process and the mechanical feeding process, so that the qualified rate is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcoming that exists among the prior art and the quick dress pellet mill of lock pin that proposes, its advantage lies in that production efficiency is fast, product cost is low and the product assembly qualification rate is high.

In order to realize the purpose, the utility model adopts the following technical scheme:

a quick insertion core assembling and ejecting machine comprises a rack, wherein an elastic sheet material belt reel, a vibration disc, an insertion core rotary table and an insertion core elastic sheet assembling mechanism are sequentially arranged on the upper surface of the rack; an elastic piece material belt guide groove is formed between the elastic piece material belt reel and the insertion core elastic piece assembling mechanism, the insertion core elastic piece assembling mechanism comprises an air cylinder and an elastic piece assembling knife connected with the air cylinder, and an elastic piece profiling groove is formed in the middle of the elastic piece assembling knife; be provided with the lock pin guide way between vibration dish and the lock pin revolving stage, still be provided with the lock pin limit stop who prevents the lock pin off tracking at lock pin guide way end, lock pin revolving stage edge corresponds shell fragment material area interval and is provided with a plurality of lock pin constant head tanks.

According to the technical scheme, the elastic sheet material belt reel provides the elastic sheets for the elastic sheet machine, the vibration disc screens the insertion cores and provides the insertion cores for the elastic sheet machine, the insertion core rotary table is used for positioning the insertion cores and driving the insertion cores to rotate, and the insertion core elastic sheet assembling mechanism is responsible for assembling the elastic sheets on the insertion cores; the cylinder drives the spring sheet assembling knife to insert and extrude the U-shaped spring sheet to be assembled on the inserting core, and the inserting core limiting stop block prevents the inserting core from deviating and assists the inserting core rotary table to position.

Further, a finished product blanking area and a waste material belt cutting mechanism are sequentially arranged behind the station of the inserting core elastic sheet assembling mechanism.

Furthermore, a separating part for separating the elastic sheet material belt to output the assembled insertion core elastic sheet is arranged on the finished product blanking area, the elastic sheet material belt and the insertion core elastic sheet are input inside the separating part, and the insertion core elastic sheet and the elastic sheet material belt are separated through the inside and the outside of the separating part.

Through the technical scheme, the elastic sheet material strap and the elastic sheets on the elastic sheet material strap are separated by the separating part.

Further, the waste material belt cutting mechanism comprises an air cylinder and a cutter enabling the elastic sheet material belt to be easily collected.

Through above technical scheme, the cylinder drives the cutter and cuts off the shell fragment material area, makes the shell fragment material area be a plurality of little strips, conveniently collects the processing.

Furthermore, a feeding gear is arranged between the elastic sheet material belt guide groove and the inserting core elastic sheet assembling mechanism, and a feeding gear is arranged between the finished product blanking area and the waste material belt cutting mechanism; the feeding gear is connected with the elastic sheet material strap through a transmission device, or the feeding gear is meshed with a notch formed in the elastic sheet material strap.

Through above technical scheme, the pay-off gear drives shell fragment material area and removes, wherein is indirect drive or direct drive between pay-off gear and the shell fragment material area.

Further, a feeding hole is formed in the upper surface of the rack corresponding to the finished product blanking area, and a finished product discharging hole is formed in the side surface of the rack.

Through above technical scheme, the lock pin shell fragment that will assemble is unified to be collected.

Furthermore, the inserting core rotary table and the feeding gear are driven by a motor or a motor to provide power.

Furthermore, the insert core limit stop is a Z-shaped stop, the head end of the Z-shaped stop extends downwards to form an insert core limit part, and the middle part of the spring piece assembling knife is provided with a U-shaped groove.

Through above technical scheme, Z style of calligraphy dog tail end is fixed on the lock pin guide way, and the lock pin is spacing to the lock pin in the spacing portion of lock pin of head end, and the U-shaped groove of shell fragment equipment sword is pegged graft the extrusion equipment with the shell fragment on the lock pin.

Furthermore, the sheet spreading machine is also provided with a touch screen, so that observation and control are facilitated.

Furthermore, the touch screen, the elastic piece material belt reel, the vibration disc, the inserting core rotary table and the inserting core elastic piece assembling mechanism are integrated in the DCS through the PLC, and remote automatic or manual control is achieved.

The beneficial effects of the utility model are that:

1. the elastic sheet material belt reel provides elastic sheets for the elastic sheet machine, the vibration disc screens the inserting core and provides the inserting core for the elastic sheet machine, the inserting core rotary table is used for positioning the inserting core and driving the inserting core to rotate, and the inserting core and elastic sheet assembling mechanism is responsible for assembling the elastic sheets on the inserting core; the cylinder drives the elastic sheet assembling knife to insert and extrude the U-shaped elastic sheet to be assembled on the inserting core, and the inserting core limiting stop block prevents the inserting core from deviating and assists the inserting core rotary table to be positioned.

2. Finished product blanking district is through the shell fragment separation on partition part takes shell fragment material area and shell fragment material, and the waste material area is decided the mechanism and is made shell fragment material area conveniently collect the processing, and the pay-off gear drives shell fragment material area and removes, wherein is indirect drive or direct drive between pay-off gear and the shell fragment material area, and feed inlet and discharge gate are convenient for the unified collection of the good product of equipment, the utility model discloses production efficiency is fast, product cost is low and the product assembly qualification rate is high.

Drawings

Fig. 1 is a schematic view of an overall structure of a rapid insert core assembling machine according to the present invention;

fig. 2 is a schematic view of a partial structure of the rack of the present invention;

fig. 3 is an enlarged schematic view of a portion of a structure shown in fig. 2 according to the present invention.

In the figure: 1. a reel of the elastic sheet material belt; 2. a spring sheet material belt guide groove; 3. a frame; 4. discharging a finished product; 5. cutting the waste material belt; 6. a feed gear; 7. a finished product blanking area; 8. the insertion core elastic piece assembling mechanism; 801. a cylinder; 802. a spring sheet assembling knife; 9. inserting a core rotary table; 10. a touch screen; 11. vibrating the disc; 12. a ferrule guide groove; 13. a plug core limit stop block; 14. and an inserting core positioning groove.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by one of ordinary skill in the art as appropriate.

Referring to fig. 1-3, the present invention provides a technical solution: a quick insertion core assembling and ejecting machine comprises a rack 3, wherein an elastic sheet material belt reel 1, a vibration disc 11, an insertion core rotary table 9 and an insertion core elastic sheet assembling mechanism 8 are sequentially arranged on the upper surface of the rack 3; an elastic sheet material strip guide groove 2 is arranged between the elastic sheet material strip reel 1 and the insertion core elastic sheet assembling mechanism 8, the insertion core elastic sheet assembling mechanism 8 comprises an air cylinder 801 and an elastic sheet assembling knife 802 connected with the air cylinder 801, and the middle part of the elastic sheet assembling knife 802 is provided with an elastic sheet profiling groove; a ferrule guide groove 12 is arranged between the vibrating disc 11 and the ferrule rotary table 9, a ferrule limit stop 13 for preventing the ferrule from deviating is arranged at the tail end of the ferrule guide groove 12, and a plurality of ferrule positioning grooves 14 are arranged on the edge of the ferrule rotary table 9 corresponding to the distance between the elastic sheet material belts.

Through the technical scheme, the elastic sheet material belt reel 1 provides elastic sheets for the elastic sheet machine, the vibration disc 11 screens the insertion cores and provides the insertion cores for the elastic sheet machine, the insertion core rotary table 9 is used for positioning the insertion cores and driving the insertion cores to rotate, and the insertion core and elastic sheet assembling mechanism 8 is responsible for assembling the elastic sheets on the insertion cores; the cylinder 801 drives the spring piece assembling knife 802 to insert and extrude the U-shaped spring piece to be assembled on the insertion core, the insertion core limiting stop 13 prevents the insertion core from deviating, and the insertion core rotary table 9 is assisted in positioning.

In this embodiment, specifically, a finished product blanking area 7 and a waste tape cutting mechanism 5 are sequentially arranged after the station of the ferrule elastic sheet assembling mechanism 8.

In this embodiment, a separating portion for separating the elastic material strap to output the assembled ferrule elastic pieces is disposed in the finished product blanking region 7, the elastic material strap is input inside the separating portion, the ferrule elastic pieces are input outside the separating portion, and the ferrule elastic pieces are separated from the elastic material strap by the inside and the outside of the separating portion.

Through the technical scheme, the elastic sheet material belt and the elastic sheets on the elastic sheet material belt are separated by the separating part.

In this embodiment, specifically, the scrap tape cutting mechanism 5 includes an air cylinder 801 and a cutter for easily collecting the elastic sheet material tape.

Through above technical scheme, cylinder 801 drives the cutter and cuts off the shell fragment material area, makes the shell fragment material area be a plurality of little strips, conveniently collects the processing.

In this embodiment, specifically, a feeding gear 6 is arranged between the elastic strip guide groove 2 and the insertion core elastic strip assembling mechanism 8, and a feeding gear 6 is arranged between the finished product blanking area 7 and the waste strip cutting mechanism 5; the feeding gear 6 is connected with the elastic sheet material belt through a transmission device, or the feeding gear 6 is meshed with a notch formed in the elastic sheet material belt.

Through the technical scheme, the feeding gear 6 drives the elastic sheet material belt to move, wherein indirect transmission or direct transmission is adopted between the feeding gear 6 and the elastic sheet material belt.

In this embodiment, a feeding hole is formed in the upper surface of the frame 3 corresponding to the finished product blanking area 7, and a finished product discharging hole 4 is formed in the side surface of the frame 3.

Through above technical scheme, the lock pin shell fragment that will assemble is unified to be collected.

In this embodiment, the ferrule rotary table 9 and the feeding gear 6 are driven by a motor or an electric motor to provide power.

In this embodiment, the ferrule limit stop 13 is specifically a Z-shaped stop, the head end of the Z-shaped stop extends downward to form a ferrule limit portion, and the middle of the spring piece assembling knife 802 is provided with a U-shaped groove.

Through the technical scheme, the tail end of the Z-shaped stop block is fixed on the insertion core guide groove 12, the insertion core is limited by the insertion core limiting part at the head end, and the elastic piece is assembled on the insertion core in an inserting and extruding manner through the U-shaped groove of the elastic piece assembling knife 802.

In this embodiment, specifically, the sheet sharing machine is further provided with a touch screen 10, so that observation and control are facilitated.

In this embodiment, specifically, the touch screen 10, the elastic sheet material tape reel 1, the vibration disc 11, the insertion core turntable 9, and the insertion core elastic sheet assembly mechanism 8 are integrated in the DCS system through the PLC, so as to implement remote automatic or manual control.

The working principle is as follows: the elastic sheet material belt reel 1 provides elastic sheets for the elastic sheet machine, the vibration disc 11 screens the insertion cores and provides the insertion cores for the elastic sheet machine, the insertion core rotary table 9 is used for positioning the insertion cores and driving the insertion cores to rotate, and the insertion core elastic sheet assembling mechanism 8 is responsible for assembling the elastic sheets on the insertion cores; cylinder 801 drives shell fragment equipment sword 802 and inserts the extrusion back with the U-shaped shell fragment and assemble on the lock pin, lock pin limit stop 13 prevents the lock pin off tracking, supplementary lock pin revolving stage 9 location, finished product blanking district 7 is through the separation part with shell fragment material area and the shell fragment on the shell fragment material area separate, 5 mechanisms are decided in the waste material area and are made the shell fragment material area conveniently collect the processing, pay-off gear 6 drives the shell fragment material and take the removal, wherein be indirect drive or direct drive between pay-off gear 6 and the shell fragment material area, the product that the feed inlet and discharge gate are convenient for to assemble is unified to be collected, the utility model discloses production efficiency is fast, product cost is low and the product assembly qualification rate is high.

The above, only be the embodiment of the preferred of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, which are designed to be replaced or changed equally, all should be covered within the protection scope of the present invention.

Claims (10)

1. A quick inserting core assembling and ejecting machine comprises a rack (3) and is characterized in that an elastic sheet material belt reel (1), a vibrating disc (11), an inserting core rotary table (9) and an inserting core and elastic sheet assembling mechanism (8) are sequentially arranged on the upper surface of the rack (3);

an elastic sheet material belt guide groove (2) is formed between the elastic sheet material belt reel (1) and the insertion core elastic sheet assembling mechanism (8), the insertion core elastic sheet assembling mechanism (8) comprises an air cylinder (801) and an elastic sheet assembling knife (802) connected with the air cylinder (801), and an elastic sheet profiling groove is formed in the middle of the elastic sheet assembling knife (802);

a ferrule guide groove (12) is arranged between the vibration disc (11) and the ferrule rotary table (9), a ferrule limit stop (13) for preventing the ferrule from deviating is further arranged at the tail end of the ferrule guide groove (12), and a plurality of ferrule positioning grooves (14) are arranged on the edge of the ferrule rotary table (9) corresponding to the distance between the spring pieces and the material belt.

2. The quick inserting core assembling and ejecting machine according to claim 1, characterized in that a finished product blanking area (7) and a scrap belt cutting mechanism (5) are sequentially arranged after the station of the inserting core and ejecting sheet assembling mechanism (8).

3. The ferrule rapid assembling and ejecting machine according to claim 2, wherein a separating portion for separating the ferrule strip from the assembled ferrule strip is disposed on the finished blanking region (7), the separating portion inputs the ferrule strip and the ferrule strip from the inside and the outside, and the ferrule strip is separated from the ferrule strip by the separating portion from the outside and the inside.

4. A ferrule rapid assembly flaker as claimed in claim 2 wherein the scrap tape severing (5) mechanism comprises a cylinder (801) and a cutter to facilitate collection of the scrap tape.

5. The ferrule rapid assembling and ejecting machine according to claim 2, wherein a feeding gear (6) is arranged between the elastic sheet material belt guide groove (2) and the ferrule elastic sheet assembling mechanism (8), and a feeding gear (6) is arranged between the finished product blanking area (7) and the waste material belt cutting mechanism (5); the feeding gear (6) is connected with the elastic sheet material belt through a transmission device, or the feeding gear (6) is meshed with a notch formed in the elastic sheet material belt.

6. The insert core rapid assembly and ejection machine according to claim 3, wherein a feeding port is arranged on the upper surface of the frame (3) corresponding to the finished product blanking area (7), and a finished product discharging port (4) is arranged on the side surface of the frame (3).

7. The quick assembly ejection card machine of the insertion core according to claim 5, characterized in that the insertion core rotary table (9) and the feeding gear (6) are driven by a motor or an electric motor.

8. The ferrule rapid assembly and ejection machine according to claim 1, wherein the ferrule limit stop (13) is a Z-shaped stop, and a ferrule limit portion extends downward from the head end of the Z-shaped stop.

9. A ferrule rapid assembly flaker as claimed in any of claims 1-8, characterized in that the flaker is further provided with a touch screen (10).

10. The ferrule rapid assembly and ejection machine according to claim 9, wherein the touch screen (10), the ejection sheet material tape reel (1), the vibration disc (11), the ferrule turntable (9) and the ferrule ejection sheet assembly mechanism (8) are integrated in a DCS system through a PLC, so as to realize remote automatic or manual control.

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