CN220281790U - Automatic cut and detect equipment for packing - Google Patents

Abstract

The utility model provides automatic cutting, detecting and packaging equipment, which is characterized by comprising the following components: a chassis; the cutting module is arranged on the chassis; the detection module is arranged at the outlet of the cutting module; the packaging module is arranged at the outlet of the detection module; the discharging frame is arranged on the chassis and positioned at two sides of the cutting module, the discharging frame is driven by a rotating motor and is rotationally connected with a terminal disc, and a material channel with a guiding function is arranged below the terminal disc; the cutting module below is provided with holds in the palm material mechanism, be provided with the rack along length direction on the quick-witted case, be equipped with the charging tray on the rack. The automatic positioning and cutting device has the advantages that the automatic positioning and cutting device is provided with the cutting module, the material supporting mechanism and the packaging module, the material belt terminals can be accurately positioned and cut simultaneously, the material supporting mechanism is matched to place the terminals on the discharging disc and send the terminals to the packaging module for packaging, and the automatic cutting process can be used for packaging the terminals once, so that time and labor are saved.

Description

Automatic cut and detect equipment for packing

Technical Field

The utility model relates to automatic cutting, detecting and packaging equipment.

Background

The terminal is a member to which the battery is connected to the external conductor. In electroengineering, terminals are multi-finger wire terminals, also known as terminals, are classified as single hole, double hole, socket, hook, etc., from materials, copper silver plating, copper zinc plating, copper, aluminum, iron, etc. Their function is mainly to transmit electrical signals or to conduct electricity, which is commonly used for electronic components.

Holes are formed in two sides of the material belt of the processed terminal.

After the terminal processing is finished, the processed terminal is required to be placed into a charging tray for packaging, most of packaging equipment in the prior art is used for packaging under the condition that the terminal interval is consistent with the charging tray interval, and the terminal interval and the charging tray are different in trough interval and can only be packaged manually or can only be used for sucking one terminal at a time for packaging, so that time and labor are wasted, and labor cost is increased.

Disclosure of Invention

The utility model aims at solving the problems in the prior art, and provides automatic cutting, detecting and packaging equipment which is provided with a cutting module, a material supporting mechanism and a packaging module, can accurately position and cut a material belt terminal at the same time, is matched with a material dragging mechanism to place a plurality of terminals on a material discharging disc to be sent to the packaging module for packaging, and can automatically cut the plurality of terminals once for packaging, so that time and labor are saved.

The aim of the utility model can be achieved by the following technical scheme: an automatic cutting, detecting and packaging device, characterized in that it comprises:

a chassis;

the cutting module is arranged on the chassis;

the detection module is arranged at the outlet of the cutting module;

the packaging module is arranged at the outlet of the detection module;

the discharging frame is arranged on the chassis and positioned at two sides of the cutting module, the discharging frame is driven by a rotating motor and is rotationally connected with a terminal disc, and a material channel with a guiding function is arranged below the terminal disc;

the cutting module below is provided with holds in the palm material mechanism, be provided with the rack along length direction on the quick-witted case, be equipped with the charging tray on the rack.

Further, the cutting module includes:

a linear slide rail fixed on the chassis;

the machine frame is of a frame structure, the lower end of the machine frame is connected with the linear slide rail, the upper end of the machine frame is provided with a mounting plate, a feed opening is formed in the mounting plate, and a material supporting mechanism is arranged below the feed opening;

a flow passage plate through which a feed belt passes and which is mounted on the mounting plate;

the transverse feeding mechanism is arranged on the runner plate and is used for feeding a feeding belt;

the longitudinal positioning mechanism is fixed at the feeding end of the transverse feeding mechanism;

a cutting frame fixed on the mounting plate;

the output end of the cutting cylinder is downwards arranged on the cutting frame;

an upper pad mounted on the cutting cylinder;

the unloading heads are provided with a plurality of unloading heads and are vertically fixed on the lower end face of the upper base plate;

the lower base plate is arranged on the mounting plate and is provided with a discharging channel for the discharging head to vertically run, and the lower end of the discharging channel corresponds to the discharging opening of the mounting plate;

the runner plate is positioned between the lower backing plate and the mounting plate.

Further, the upper end of the rack is higher than the placing rack.

Further, the transverse feeding mechanism comprises:

a feed cylinder fixed to the flow path plate;

the transverse positioning cylinder is arranged at the output end of the feeding cylinder;

and the connecting plate is arranged at the output end of the transverse positioning cylinder.

Further, the longitudinal positioning mechanism includes:

a longitudinal positioning cylinder mounted on the connection plate;

the positioning block is connected with the output end of the longitudinal positioning cylinder. And the lower end face of the positioning block is provided with a positioning pin which is inserted into holes at two ends of the material belt.

Further, the material supporting mechanism comprises:

the linear guide rail is obliquely fixed on the mounting plate below the feed opening;

the compression spring is sleeved on the linear guide rail;

the material supporting block is provided with a connecting end which is sleeved on the linear guide rail and extrudes the compression spring, and the material supporting end of the material supporting block extends upwards obliquely to the material discharging opening;

the material supporting end of the material supporting block can be abutted against the discharging head.

Further, the detection module includes:

the mounting column is vertically arranged at one side of the placing frame;

a detection camera mounted on the mounting post;

further, the packaging module includes:

the material receiving motor is fixed on the side surface of the placing frame;

the material pulling ratchet wheel is connected to the material receiving motor, and a rotating wheel matched with the material pulling ratchet wheel is arranged above the material pulling ratchet wheel;

the cover tape reel is fixed on the placing frame at one side of the mounting column, and a cover tape press-fit machine is arranged below the cover tape reel;

and the carrying disc is arranged on the outer side of the material collecting plate and is connected with the material collecting plate through a connecting rod.

Further, a man-machine interaction box is arranged on the case.

Compared with the prior art, the application has the advantages that: the automatic positioning and cutting device has the advantages that the automatic positioning and cutting device is provided with the cutting module, the material supporting mechanism and the packaging module, the material belt terminals can be accurately positioned and cut simultaneously, the material supporting mechanism is matched to place the terminals on the discharging disc and send the terminals to the packaging module for packaging, and the automatic cutting process can be used for packaging the terminals once, so that time and labor are saved.

Drawings

FIG. 1 is an overall schematic of an apparatus;

FIG. 2 is a perspective view of the apparatus;

FIG. 3 is a schematic diagram of a cutting module;

FIG. 4 is another schematic view of the cutting module;

FIG. 5 is a schematic view of a longitudinal positioning mechanism;

FIG. 6 is a schematic view of a discharge head and a holding mechanism;

in the figure, 1, a case; 11. a placing rack; 12. a discharging disc; 2. a discharging frame; 21. a terminal plate; 3. a cutting module; 31. a linear slide rail; 311. a mounting plate; 312. a feed opening; 32. a frame; 33. a material supporting mechanism; 331. a linear guide rail; 332. a supporting block; 333. a compression spring; 34. a cutting frame; 35. an upper backing plate; 351. a discharging head; 36. a lower backing plate; 37. cutting an air cylinder; 301. a feed cylinder; 302. a transverse positioning cylinder; 303. a connecting plate; 304. a longitudinal positioning cylinder; 305. a positioning block; 3051. a positioning pin; 4. a mounting column; 41. detecting a camera; 5. a packaging module; 51. a cover tape reel; 52. a cover tape press; 53. a rotating wheel; 54. a pulling ratchet wheel; 55 carrier reels; 56. a connecting rod; 57. a material receiving motor; 6. human-computer interaction box.

Detailed Description

The following is a specific embodiment of the present utility model and a further description of the technical solution of the present utility model is provided with reference to the accompanying drawings.

As shown in fig. 1 to 6, an automatic cutting and detecting packaging apparatus, comprising:

a case 1;

a cutting module 3 mounted on the cabinet 1;

a detection module which is arranged at the outlet of the cutting module 3;

a packaging module 5 installed at an outlet of the detection module;

the discharging frame 2 is arranged on the chassis 1 and positioned at two sides of the cutting module 3, the discharging frame 2 is driven by a rotating motor and is rotationally connected with a terminal disc 21, and a material channel with a guiding function is arranged below the terminal disc 21;

the cutting module below is provided with holds in the palm material mechanism 33, be provided with rack 11 along length direction on the quick-witted case 1, be equipped with blowing dish 12 on the rack 11.

The whole equipment is composed of five parts of a machine case 1, a cutting module 3, a detection module, a packaging module and a discharging frame 2, a stamped terminal material belt is arranged on a terminal disc 21 of the discharging frame 2 after electroplating, the terminal is cut into the cutting module 3 through a rotary feeding channel of the terminal disc 21, the cut terminal is synchronously placed into a discharging disc 12 below, the size and the appearance of the terminal are detected through the detection module, and then hot melting packaging is carried out.

The cutting module 3 includes:

a linear slide 31 fixed to the casing 1;

the frame 32 is in a frame structure, the lower end of the frame 32 is connected with the linear slide rail 31, a mounting plate 311 is mounted at the upper end of the frame 32, a feed opening 312 is formed in the mounting plate 311, and a material supporting mechanism 33 is mounted below the feed opening 312;

a flow path plate through which the feed belt passes and mounted on the mounting plate 311;

the transverse feeding mechanism is arranged on the runner plate and is used for feeding a feeding belt;

the longitudinal positioning mechanism is fixed at the feeding end of the transverse feeding mechanism;

a cutter frame 34 fixed to the mounting plate 311;

a cutter cylinder 37 having an output end mounted on the cutter frame 34 downward;

an upper pad 35 mounted on the cutter cylinder 37;

the unloading head 351 is provided with a plurality of unloading heads and is vertically fixed on the lower end face of the upper base plate 35;

a lower pad 36 mounted on the mounting plate 311 and having a discharge passage through which the discharge head 351 vertically moves, the lower end of the discharge passage corresponding to the discharge opening 312 of the mounting plate 311;

the flow field plates are located between the lower backing plate 36 and the mounting plate 311.

The upper end of the frame 32 is higher than the rack 11.

The transverse feeding mechanism comprises:

a feed cylinder 301 fixed to the flow path plate;

a lateral positioning cylinder 302 mounted at the output end of the feeding cylinder 301;

and a connecting plate 303 which is installed at the output end of the transverse positioning cylinder 302.

The longitudinal positioning mechanism comprises:

a longitudinal positioning cylinder 304 mounted on the connection plate 303;

a positioning block 305 is connected to the output end of the longitudinal positioning cylinder 304. And the lower end surface of the positioning block 305 is provided with a positioning pin 3051 inserted into holes at two ends of the material belt.

The cutting module 3 can pull out the material loading from front to back and confirm the position through linear slide rail 31 when the terminal material is loaded, and after the terminal material area gets into the runner board and places, horizontal positioning cylinder 302 fine setting makes vertical positioning cylinder 304 downwards insert the locating pin 3051 the hole location of material area, and feeding cylinder 301 is equidistant feeding forward, cuts cylinder 37 downward movement and cuts, and this positioning process guarantees the cutting precision.

The material supporting mechanism 33 comprises:

a linear guide rail 331 which is obliquely fixed to the mounting plate 311 below the discharge port 312;

a compression spring 333 sleeved on the linear guide rail 331;

the supporting block 332 is provided with a connecting end sleeved on the linear guide rail 331 and used for extruding the compression spring 333, and the supporting end of the supporting block 332 extends upwards in an inclined manner to the feeding opening 312;

the cradle end of the cradle block 332 may abut the discharge head 351.

The supporting block 332 under the mounting plate 311 is attached to the lower part of the terminal product under the upward thrust of the compression spring 333, after the cutting cylinder 37 acts downwards, the discharging head 351 and the supporting block 332 are abutted against the clamping terminal, and synchronously move downwards through the linear guide rail 331 until the terminal is close to the product placement position of the lower discharging tray 12, and the terminal cut off after the cutting cylinder 37 is retracted falls into the discharging tray 12. The mechanism has high requirements on the angle of the supporting block 332 and the elasticity of the compression spring 333, and the precision of the cutting module 3 is high, so that the mechanism is skillfully used for linkage, the manual carrying action of cutting the terminal is reduced, and the production efficiency is greatly improved while the stability is improved.

The detection module comprises:

a mounting column 4 vertically installed at one side of the placement frame 11;

a detection camera 41 mounted on the mounting post 4;

the packaging module includes:

a receiving motor 57 fixed to the side surface of the rack 11;

the material pulling ratchet wheel 54 is connected to the material receiving motor 57, and a rotating wheel 53 matched with the material pulling ratchet wheel 54 is arranged above the material pulling ratchet wheel 54;

a cover tape reel 51 fixed to the placement frame 11 on one side of the mounting column 4, and a cover tape press 52 provided below the cover tape reel 51;

and a carrying disc 55 which is arranged outside the material receiving plate and is connected with the material receiving plate through a connecting rod 56.

The material receiving motor 57 drives the material pulling ratchet wheel 54, the rotating wheels 53 matched with the material pulling ratchet wheel 54 move simultaneously and move forwards according to the designed equal distance, so that the cut terminals are placed in the corresponding positions of the products of the discharging disc 12 and then move along with the discharging disc 12, then the detection camera 41 detects and judges, the cover tape pressing machine 52 presses and heat seals, and finally the finished product carrying disc 55 is wound.

A man-machine interaction box 6 is arranged on the case 1.

The technical scheme of the utility model provides a solution which is obviously different from the prior art aiming at the technical problem that the prior art solution is too single, and the technical scheme of the utility model does not relate to the parts which are the same as the prior art or can be realized by adopting the prior art, and is not repeated.

The foregoing embodiments have been described in a clear and complete manner, and it is apparent that the embodiments described are merely some, but not all, of the embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Claims (9)

1. An automatic cutting, detecting and packaging device, characterized in that it comprises:

a chassis;

the cutting module is arranged on the chassis;

the detection module is arranged at the outlet of the cutting module;

the packaging module is arranged at the outlet of the detection module;

the discharging frame is arranged on the chassis and positioned at two sides of the cutting module, the discharging frame is driven by a rotating motor and is rotationally connected with a terminal disc, and a material channel with a guiding function is arranged below the terminal disc;

the cutting module below is provided with holds in the palm material mechanism, be provided with the rack along length direction on the quick-witted case, be equipped with the charging tray on the rack.

2. An automatic cut-and-detect packaging apparatus according to claim 1, wherein: the cutting module comprises:

a linear slide rail fixed on the chassis;

the machine frame is of a frame structure, the lower end of the machine frame is connected with the linear slide rail, the upper end of the machine frame is provided with a mounting plate, a feed opening is formed in the mounting plate, and a material supporting mechanism is arranged below the feed opening;

a flow passage plate through which a feed belt passes and which is mounted on the mounting plate;

the transverse feeding mechanism is arranged on the runner plate and is used for feeding a feeding belt;

the longitudinal positioning mechanism is fixed at the feeding end of the transverse feeding mechanism;

a cutting frame fixed on the mounting plate;

the output end of the cutting cylinder is downwards arranged on the cutting frame;

an upper pad mounted on the cutting cylinder;

the unloading heads are provided with a plurality of unloading heads and are vertically fixed on the lower end face of the upper base plate;

the lower base plate is arranged on the mounting plate and is provided with a discharging channel for the discharging head to vertically run, and the lower end of the discharging channel corresponds to the discharging opening of the mounting plate;

the runner plate is positioned between the lower backing plate and the mounting plate.

3. An automatic cut-and-detect packaging apparatus as in claim 2 wherein: the upper end of the rack is higher than the placing rack.

4. An automatic cut-and-detect packaging apparatus according to claim 3, wherein: the transverse feeding mechanism comprises:

a feed cylinder fixed to the flow path plate;

the transverse positioning cylinder is arranged at the output end of the feeding cylinder;

and the connecting plate is arranged at the output end of the transverse positioning cylinder.

5. The automatic cut-and-detect packaging apparatus of claim 4, wherein said longitudinal positioning mechanism comprises:

a longitudinal positioning cylinder mounted on the connection plate;

the positioning block is connected to the output end of the longitudinal positioning cylinder, and the lower end face of the positioning block is provided with a positioning pin inserted into holes at two ends of the material belt.

6. The automatic cut-and-detect packaging apparatus of claim 1, wherein said stock holding mechanism comprises:

the linear guide rail is obliquely fixed on the mounting plate below the feed opening;

the compression spring is sleeved on the linear guide rail;

the material supporting block is provided with a connecting end which is sleeved on the linear guide rail and extrudes the compression spring, and the material supporting end of the material supporting block extends upwards obliquely to the material discharging opening;

the material supporting end of the material supporting block can be abutted against the discharging head.

7. The automatic trimming, detecting and packaging device according to claim 1, wherein the detecting module comprises:

the mounting column is vertically arranged at one side of the placing frame;

and a detection camera mounted on the mounting post.

8. The automatic cut-and-detect packaging apparatus of claim 1, wherein the packaging module comprises:

the material receiving motor is fixed on the side surface of the placing frame;

the material pulling ratchet wheel is connected to the material receiving motor, and a rotating wheel matched with the material pulling ratchet wheel is arranged above the material pulling ratchet wheel;

the cover tape reel is fixed on the placing frame at one side of the mounting column, and a cover tape press-fit machine is arranged below the cover tape reel;

and the carrying disc is arranged on the outer side of the material collecting plate and is connected with the material collecting plate through a connecting rod.

9. The automatic trimming, detecting and packaging device according to claim 1, wherein the machine box is provided with a man-machine interaction box.